{"id":79,"date":"2024-02-28T12:57:31","date_gmt":"2024-02-28T12:57:31","guid":{"rendered":"https:\/\/www.9senses.ai\/?page_id=79"},"modified":"2026-06-22T17:54:17","modified_gmt":"2026-06-22T17:54:17","slug":"why-9senses","status":"publish","type":"page","link":"https:\/\/www.9senses.ai\/de\/why-9senses\/","title":{"rendered":"9senses"},"content":{"rendered":"<div class=\"et_pb_section_0 et_pb_section et_section_regular et_block_section preset--group--divi-section--divi-box-shadow--default preset--group--divi-section--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_row_0 et_pb_row et_block_row preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\">\n<div class=\"et_pb_column_0 et_pb_column et_pb_column_4_4 et-last-child et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_text_0 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--9f6bba78-428e-4c83-b816-460811c2c529\"><div class=\"et_pb_text_inner\"><h4>how humans process information<\/h4>\n<\/div><\/div>\n<\/div>\n<\/div>\n\n<div class=\"et_pb_row_1 et_pb_row et_pb_row_3-4_1-4 et_block_row et_block_row_3-4_1-4 preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\">\n<div class=\"et_pb_column_1 et_pb_column et_pb_column_3_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_text_1 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--0241502a-1974-4cc3-b28c-915e7d98c0df\"><div class=\"et_pb_text_inner\"><h1>(why) 9 senses ?<\/h1>\n<\/div><\/div>\n\n<div class=\"et_pb_text_2 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>In modern science, we speak of 8 human senses, sometimes even more. This expands beyond the five traditionally known ones (sight, hearing, touch, taste and smell) into sensory systems inside our body. Below, you can find a few bits of information on each of them. Soon we will add much more, combined\u00a0 with fun experiments that explain their functioning.<\/p>\n<p>With Artificial Intelligence, we expand our human sensory system by yet another dimension, helping us to master our complex world with the support of powerful adaptive computing. Obviously, we will explain that further too.<\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_2 et_pb_column et_pb_column_1_4 et-last-child et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_code_0 et_pb_code et_pb_module preset--group--divi-code--divi-box-shadow--default\"><div class=\"et_pb_code_inner\"><div class=\"ns-vmap-editor-note\" style=\"position:relative;width:100%;overflow:hidden;aspect-ratio:5\/4;max-height:230px;\"><div style=\"position:absolute;inset:0;display:flex;align-items:center;justify-content:center;pointer-events:none\"><div style=\"padding:10px 12px;border:1px dashed rgba(170,180,205,.55);border-radius:6px;color:#8a93a6;font:600 12px\/1.4 sans-serif;background:rgba(8,13,25,.46)\"><div style=\"margin-bottom:6px\">Vector map \u2014 Main<\/div><code style=\"display:inline-block;padding:3px 6px;border-radius:4px;background:rgba(127,140,170,.12);color:inherit\"><div class=\"ns-vmap-editor-note\" style=\"position:relative;width:100%;overflow:hidden;aspect-ratio:5\/4;max-height:230px;\"><div style=\"position:absolute;inset:0;display:flex;align-items:center;justify-content:center;pointer-events:none\"><div style=\"padding:10px 12px;border:1px dashed rgba(170,180,205,.55);border-radius:6px;color:#8a93a6;font:600 12px\/1.4 sans-serif;background:rgba(8,13,25,.46)\"><div style=\"margin-bottom:6px\">Vector map \u2014 Main<\/div><code style=\"display:inline-block;padding:3px 6px;border-radius:4px;background:rgba(127,140,170,.12);color:inherit\">[ninesenses_vectormap #1]<\/code><div style=\"margin-top:6px;font-weight:400\">Max height: 230px. Preview on the live page.<\/div><\/div><\/div><\/div><\/code><div style=\"margin-top:6px;font-weight:400\">Max height: 230px. Preview on the live page.<\/div><\/div><\/div><\/div><\/div><\/div>\n\n<div class=\"et_pb_code_1 et_pb_code et_pb_module preset--group--divi-code--divi-box-shadow--default\"><div class=\"et_pb_code_inner\"><nine-senses-journey\n    id=\"nsj-eye-1-5446\"\n    data-nsio-journey\n    data-sense=\"eye\" data-nsio-hidden=\"1\" data-nsio-anchor=\"vision eye\"    data-config=\"{&quot;kind&quot;:&quot;eye&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1440,&quot;height&quot;:674},&quot;sceneOffsetX&quot;:-104,&quot;sceneOffsetY&quot;:-148,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;light&quot;,&quot;title&quot;:&quot;Reflected light&quot;,&quot;legendLines&quot;:[&quot;Re\\u00adflect\\u00aded&quot;,&quot;light&quot;],&quot;phase&quot;:&quot;Optical input&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:232,&quot;y&quot;:380,&quot;targetX&quot;:232,&quot;targetY&quot;:380,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:322,&quot;y&quot;:404},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:232,&quot;cy&quot;:398,&quot;rx&quot;:126,&quot;ry&quot;:168},&quot;summary&quot;:&quot;Vision begins when light strikes an object and a patterned portion reflects toward the eye. The eye receives reflected light, not a finished picture.&quot;,&quot;input&quot;:&quot;Light illuminating the object&quot;,&quot;action&quot;:&quot;Its surface reflects selected wavelengths&quot;,&quot;output&quot;:&quot;Structured light travels toward the cornea&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 330 392 C 440 396 510 404 580 410\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 330 410 C 440 410 510 410 582 412\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-two\\&quot; d=\\&quot;M 330 428 C 440 424 510 418 580 414\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 330 392 C 440 396 510 404 580 410\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 330 410 C 440 410 510 410 582 412\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-two\\&quot; d=\\&quot;M 330 428 C 440 424 510 418 580 414\\&quot;\\\/&gt;&quot;,&quot;&lt;g class=\\&quot;nsio-reflection-sparks\\&quot;&gt;&lt;circle cx=\\&quot;332\\&quot; cy=\\&quot;392\\&quot; r=\\&quot;8\\&quot;\\\/&gt;&lt;circle cx=\\&quot;344\\&quot; cy=\\&quot;410\\&quot; r=\\&quot;6\\&quot;\\\/&gt;&lt;circle cx=\\&quot;333\\&quot; cy=\\&quot;428\\&quot; r=\\&quot;7\\&quot;\\\/&gt;&lt;\\\/g&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:440,&quot;y&quot;:412},{&quot;x&quot;:530,&quot;y&quot;:412}],&quot;audioSrc&quot;:&quot;https:\\\/\\\/www.9senses.ai\\\/wp-content\\\/uploads\\\/2026\\\/06\\\/nsj-eye-light-de.mp3&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;cornea&quot;,&quot;title&quot;:&quot;Cornea&quot;,&quot;legendLines&quot;:[&quot;Cor\\u00adnea&quot;],&quot;phase&quot;:&quot;Primary refraction&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:566,&quot;y&quot;:304,&quot;targetX&quot;:566,&quot;targetY&quot;:304,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:588,&quot;y&quot;:410},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:588,&quot;cy&quot;:410,&quot;rx&quot;:24,&quot;ry&quot;:116},&quot;summary&quot;:&quot;The transparent, curved cornea supplies most of the eye\\u2019s focusing power. Incoming rays change direction as they cross from air into corneal tissue.&quot;,&quot;input&quot;:&quot;Diverging reflected rays&quot;,&quot;action&quot;:&quot;The curved surface refracts the rays&quot;,&quot;output&quot;:&quot;Bent rays continue through the pupil&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 580 408 C 595 409 606 410 616 411\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 580 416 C 595 415 606 414 616 413\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 430 396 C 500 400 545 406 584 410\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 430 410 C 500 410 545 411 585 412\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-two\\&quot; d=\\&quot;M 430 426 C 500 422 545 416 584 414\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 584 390 Q 610 405 632 414\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-two\\&quot; d=\\&quot;M 584 432 Q 610 420 632 412\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-angle-marker\\&quot; d=\\&quot;M 560 372 A 60 60 0 0 1 606 414\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:598,&quot;y&quot;:411},{&quot;x&quot;:608,&quot;y&quot;:411}]},{&quot;num&quot;:3,&quot;slug&quot;:&quot;pupil&quot;,&quot;title&quot;:&quot;Pupil and iris&quot;,&quot;legendLines&quot;:[&quot;Pu\\u00adpil &amp;&quot;,&quot;iris&quot;],&quot;phase&quot;:&quot;Light regulation&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:624,&quot;y&quot;:286,&quot;targetX&quot;:624,&quot;targetY&quot;:286,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:618,&quot;y&quot;:412},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:618,&quot;cy&quot;:412,&quot;rx&quot;:27,&quot;ry&quot;:92},&quot;summary&quot;:&quot;The iris changes the pupil\\u2019s diameter. It constricts in bright conditions and dilates in dim conditions to regulate how much light enters the eye.&quot;,&quot;input&quot;:&quot;Incoming light of varying intensity&quot;,&quot;action&quot;:&quot;The iris changes the aperture diameter&quot;,&quot;output&quot;:&quot;A controlled amount of light enters&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 616 410 C 635 410 654 411 668 411\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 616 414 C 635 413 654 412 668 412\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;circle class=\\&quot;nsio-pupil-aperture\\&quot; cx=\\&quot;618\\&quot; cy=\\&quot;412\\&quot; r=\\&quot;20\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-light-volume\\&quot; d=\\&quot;M 540 372 L 618 396 L 700 406 L 700 420 L 618 430 L 540 452 Z\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 540 388 Q 620 405 700 410\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 540 436 Q 620 422 700 414\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:636,&quot;y&quot;:411},{&quot;x&quot;:654,&quot;y&quot;:411}]},{&quot;num&quot;:4,&quot;slug&quot;:&quot;lens&quot;,&quot;title&quot;:&quot;Lens&quot;,&quot;legendLines&quot;:[&quot;Lens&quot;],&quot;phase&quot;:&quot;Accommodation&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:690,&quot;y&quot;:300,&quot;targetX&quot;:690,&quot;targetY&quot;:300,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:672,&quot;y&quot;:411},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:672,&quot;cy&quot;:411,&quot;rx&quot;:48,&quot;ry&quot;:118},&quot;summary&quot;:&quot;The lens fine-tunes focus by changing curvature. It becomes rounder for nearby objects and flatter for distant objects.&quot;,&quot;input&quot;:&quot;Rays partly focused by the cornea&quot;,&quot;action&quot;:&quot;Lens curvature adjusts for viewing distance&quot;,&quot;output&quot;:&quot;Rays converge on the retina&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 700 372 Q 790 400 864 426\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 700 411 Q 790 418 864 428\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-two\\&quot; d=\\&quot;M 700 452 Q 790 438 864 430\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 624 366 Q 760 398 864 426\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 624 411 Q 760 420 864 428\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-two\\&quot; d=\\&quot;M 624 456 Q 760 440 864 430\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-focus-point\\&quot; cx=\\&quot;868\\&quot; cy=\\&quot;428\\&quot; r=\\&quot;13\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:744,&quot;y&quot;:418},{&quot;x&quot;:812,&quot;y&quot;:425}]},{&quot;num&quot;:5,&quot;slug&quot;:&quot;retina&quot;,&quot;title&quot;:&quot;Retina&quot;,&quot;legendLines&quot;:[&quot;Ret\\u00adi\\u00adna&quot;],&quot;phase&quot;:&quot;Phototransduction&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:872,&quot;y&quot;:402,&quot;targetX&quot;:872,&quot;targetY&quot;:402,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:868,&quot;y&quot;:428},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:849,&quot;cy&quot;:553,&quot;rx&quot;:160,&quot;ry&quot;:258},&quot;summary&quot;:&quot;The retina converts focused light into neural activity. Rods support sensitivity in dim light; cones support colour and fine spatial detail.&quot;,&quot;input&quot;:&quot;Focused photons&quot;,&quot;action&quot;:&quot;Photoreceptors change their electrical response&quot;,&quot;output&quot;:&quot;Retinal circuits create coded neural signals&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving\\&quot; d=\\&quot;M 880 430 C 912 440 944 448 978 458\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving\\&quot; d=\\&quot;M 700 384 Q 800 410 864 426\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-light nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 700 444 Q 800 436 864 430\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-retina-impact\\&quot; cx=\\&quot;868\\&quot; cy=\\&quot;428\\&quot; r=\\&quot;23\\&quot;\\\/&gt;&quot;,&quot;&lt;g class=\\&quot;nsio-receptor-flashes\\&quot;&gt;&lt;circle cx=\\&quot;882\\&quot; cy=\\&quot;392\\&quot; r=\\&quot;8\\&quot;\\\/&gt;&lt;circle cx=\\&quot;894\\&quot; cy=\\&quot;416\\&quot; r=\\&quot;7\\&quot;\\\/&gt;&lt;circle cx=\\&quot;898\\&quot; cy=\\&quot;440\\&quot; r=\\&quot;9\\&quot;\\\/&gt;&lt;circle cx=\\&quot;892\\&quot; cy=\\&quot;466\\&quot; r=\\&quot;7\\&quot;\\\/&gt;&lt;circle cx=\\&quot;878\\&quot; cy=\\&quot;490\\&quot; r=\\&quot;8\\&quot;\\\/&gt;&lt;\\\/g&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving\\&quot; d=\\&quot;M 880 430 C 912 440 944 448 978 458\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:946,&quot;y&quot;:456},{&quot;x&quot;:1024,&quot;y&quot;:476}]},{&quot;num&quot;:6,&quot;slug&quot;:&quot;optic-nerve&quot;,&quot;title&quot;:&quot;Optic nerve&quot;,&quot;legendLines&quot;:[&quot;Op\\u00adtic&quot;,&quot;nerve&quot;],&quot;phase&quot;:&quot;Neural transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1100,&quot;y&quot;:476,&quot;targetX&quot;:1100,&quot;targetY&quot;:476,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1090,&quot;y&quot;:478},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 898 432 C 1000 478 1110 492 1210 472 C 1290 456 1330 425 1366 402&quot;,&quot;strokeWidth&quot;:88},&quot;summary&quot;:&quot;Axons from retinal ganglion cells form the optic nerve. It carries distributed patterns of electrical impulses rather than a miniature picture.&quot;,&quot;input&quot;:&quot;Retinal spike patterns&quot;,&quot;action&quot;:&quot;Axons bundle and transmit the neural code&quot;,&quot;output&quot;:&quot;Signals reach relay nuclei and visual cortex&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-signal-strong\\&quot; d=\\&quot;M 898 432 C 1000 478 1110 492 1210 472 C 1290 456 1330 425 1366 402\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-nerve-track\\&quot; d=\\&quot;M 898 432 C 1000 478 1110 492 1210 472 C 1290 456 1330 425 1366 402\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-signal-strong\\&quot; d=\\&quot;M 898 432 C 1000 478 1110 492 1210 472 C 1290 456 1330 425 1366 402\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:1232,&quot;y&quot;:480},{&quot;x&quot;:1360,&quot;y&quot;:408}]},{&quot;num&quot;:7,&quot;slug&quot;:&quot;cortex&quot;,&quot;title&quot;:&quot;Visual cortex&quot;,&quot;legendLines&quot;:[&quot;Vi\\u00adsu\\u00adal&quot;,&quot;cor\\u00adtex&quot;],&quot;phase&quot;:&quot;Perceptual construction&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1462,&quot;y&quot;:356,&quot;targetX&quot;:1462,&quot;targetY&quot;:356,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1462,&quot;y&quot;:366},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1440,&quot;cy&quot;:356,&quot;rx&quot;:82,&quot;ry&quot;:110},&quot;summary&quot;:&quot;Visual areas combine edges, colour, motion, depth, objects, and context. Perception is a constructed interpretation of the signals, not a direct copy of the scene.&quot;,&quot;input&quot;:&quot;Distributed neural activity&quot;,&quot;action&quot;:&quot;Cortical networks combine features and context&quot;,&quot;output&quot;:&quot;A coherent and usable visual experience&quot;,&quot;route&quot;:&quot;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-signal-strong\\&quot; d=\\&quot;M 1230 462 C 1310 446 1342 420 1366 402\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-cortex-branch\\&quot; d=\\&quot;M 1380 398 C 1420 366 1452 356 1492 366\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-cortex-branch nsio-delay-one\\&quot; d=\\&quot;M 1382 402 C 1422 418 1456 432 1500 426\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-cortex-branch nsio-delay-two\\&quot; d=\\&quot;M 1380 396 C 1404 322 1442 290 1490 286\\&quot;\\\/&gt;&quot;]}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie Sehen entsteht<\/span><span data-i18n=\"imageAlt\">Ein Baum, der Licht zu einem Auge reflektiert, gefolgt vom Sehnerv und den Seharealen des Gehirns<\/span><span data-i18n=\"stageLabel\">Animierter Weg vom Auge zum Gehirn<\/span><span data-i18n=\"legendLabel\">Schritte der Augen-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"light\"><span data-f=\"title\">Reflektiertes Licht<\/span><span data-f=\"phase\">Optischer Eingang<\/span><span data-f=\"summary\">Sehen beginnt, wenn Licht auf ein Objekt trifft und ein gemusterter Anteil zum Auge zur\u00fcckgeworfen wird. Das Auge empf\u00e4ngt reflektiertes Licht, kein fertiges Bild.<\/span><span data-f=\"input\">Licht beleuchtet das Objekt<\/span><span data-f=\"action\">Seine Oberfl\u00e4che reflektiert ausgew\u00e4hlte Wellenl\u00e4ngen<\/span><span data-f=\"output\">Strukturiertes Licht wandert zur Hornhaut<\/span><span data-f=\"legend\">Reflektiertes Licht<\/span><\/div><div data-i18n-step=\"cornea\"><span data-f=\"title\">Hornhaut<\/span><span data-f=\"phase\">Prim\u00e4re Brechung<\/span><span data-f=\"summary\">Die durchsichtige, gew\u00f6lbte Hornhaut liefert den gr\u00f6\u00dften Teil der Brechkraft des Auges. Einfallende Strahlen \u00e4ndern ihre Richtung, wenn sie von der Luft in das Hornhautgewebe \u00fcbertreten.<\/span><span data-f=\"input\">Auseinanderlaufende reflektierte Strahlen<\/span><span data-f=\"action\">Die gew\u00f6lbte Oberfl\u00e4che bricht die Strahlen<\/span><span data-f=\"output\">Gebrochene Strahlen verlaufen weiter durch die Pupille<\/span><span data-f=\"legend\">Hornhaut<\/span><\/div><div data-i18n-step=\"pupil\"><span data-f=\"title\">Pupille und Iris<\/span><span data-f=\"phase\">Lichtregulierung<\/span><span data-f=\"summary\">Die Iris ver\u00e4ndert den Durchmesser der Pupille. Bei Helligkeit verengt sie sich und bei Dunkelheit weitet sie sich, um zu regulieren, wie viel Licht ins Auge gelangt.<\/span><span data-f=\"input\">Einfallendes Licht unterschiedlicher Intensit\u00e4t<\/span><span data-f=\"action\">Die Iris ver\u00e4ndert den \u00d6ffnungsdurchmesser<\/span><span data-f=\"output\">Eine kontrollierte Lichtmenge tritt ein<\/span><span data-f=\"legend\">Pupille &amp; Iris<\/span><\/div><div data-i18n-step=\"lens\"><span data-f=\"title\">Linse<\/span><span data-f=\"phase\">Akkommodation<\/span><span data-f=\"summary\">Die Linse stellt die Sch\u00e4rfe fein ein, indem sie ihre Kr\u00fcmmung ver\u00e4ndert. F\u00fcr nahe Objekte wird sie runder und f\u00fcr ferne Objekte flacher.<\/span><span data-f=\"input\">Von der Hornhaut teilweise geb\u00fcndelte Strahlen<\/span><span data-f=\"action\">Die Linsenkr\u00fcmmung passt sich an die Sehentfernung an<\/span><span data-f=\"output\">Die Strahlen b\u00fcndeln sich auf der Netzhaut<\/span><span data-f=\"legend\">Linse<\/span><\/div><div data-i18n-step=\"retina\"><span data-f=\"title\">Netzhaut<\/span><span data-f=\"phase\">Phototransduktion<\/span><span data-f=\"summary\">Die Netzhaut wandelt geb\u00fcndeltes Licht in neuronale Aktivit\u00e4t um. St\u00e4bchen erm\u00f6glichen Empfindlichkeit bei schwachem Licht; Zapfen erm\u00f6glichen Farbe und feine r\u00e4umliche Details.<\/span><span data-f=\"input\">Geb\u00fcndelte Photonen<\/span><span data-f=\"action\">Fotorezeptoren ver\u00e4ndern ihre elektrische Antwort<\/span><span data-f=\"output\">Netzhautschaltkreise erzeugen codierte neuronale Signale<\/span><span data-f=\"legend\">Netzhaut<\/span><\/div><div data-i18n-step=\"optic-nerve\"><span data-f=\"title\">Sehnerv<\/span><span data-f=\"phase\">Neuronale Weiterleitung<\/span><span data-f=\"summary\">Axone der retinalen Ganglienzellen bilden den Sehnerv. Er \u00fcbertr\u00e4gt verteilte Muster elektrischer Impulse, kein verkleinertes Bild.<\/span><span data-f=\"input\">Spike-Muster der Netzhaut<\/span><span data-f=\"action\">Axone b\u00fcndeln sich und \u00fcbertragen den neuronalen Code<\/span><span data-f=\"output\">Signale erreichen Schaltkerne und den visuellen Kortex<\/span><span data-f=\"legend\">Sehnerv<\/span><\/div><div data-i18n-step=\"cortex\"><span data-f=\"title\">Visueller Kortex<\/span><span data-f=\"phase\">Wahrnehmungsaufbau<\/span><span data-f=\"summary\">Die Sehareale verbinden Kanten, Farbe, Bewegung, Tiefe, Objekte und Kontext. Wahrnehmung ist eine konstruierte Deutung der Signale, keine direkte Kopie der Szene.<\/span><span data-f=\"input\">Verteilte neuronale Aktivit\u00e4t<\/span><span data-f=\"action\">Kortikale Netzwerke verbinden Merkmale und Kontext<\/span><span data-f=\"output\">Ein stimmiges und nutzbares Seherlebnis<\/span><span data-f=\"legend\">Visueller Kortex<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How vision unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 7 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated eye-to-brain pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/eye-journey.webp?ver=1781957577\"                                    alt=\"A tree reflecting light toward an eye, followed by the optic nerve and visual areas of the brain\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1440 674\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1440 674\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Optical input<\/span>\n                                        <h3 data-role=\"bubble-title\">Reflected light<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Optical input<\/span>\n                                <h3 data-role=\"panel-title\">Reflected light<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 7<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Eye journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-hearing-2-3270\"\n    data-nsio-journey\n    data-sense=\"hearing\" data-nsio-hidden=\"1\" data-nsio-anchor=\"hearing\"    data-config=\"{&quot;kind&quot;:&quot;hearing&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:850},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;sound-wave&quot;,&quot;title&quot;:&quot;Sound wave&quot;,&quot;legendLines&quot;:[&quot;Sound&quot;,&quot;wave&quot;],&quot;phase&quot;:&quot;Air pressure&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:115,&quot;y&quot;:400,&quot;targetX&quot;:185,&quot;targetY&quot;:420,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:150,&quot;y&quot;:420},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:150,&quot;cy&quot;:420,&quot;rx&quot;:105,&quot;ry&quot;:210},&quot;summary&quot;:&quot;Hearing begins with changing air pressure. A sound source pushes and pulls air, creating waves whose frequency relates to pitch and whose amplitude relates to loudness.&quot;,&quot;input&quot;:&quot;A vibrating source disturbs air&quot;,&quot;action&quot;:&quot;Pressure rises and falls in travelling waves&quot;,&quot;output&quot;:&quot;A patterned sound wave reaches the outer ear&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving\\&quot; d=\\&quot;M 85 385 C 175 392 254 399 350 404\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 85 435 C 175 424 254 416 350 408\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-wave-arc\\&quot; d=\\&quot;M 72 310 C 116 370 118 487 72 547\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-wave-arc nsio-delay-one\\&quot; d=\\&quot;M 126 250 C 204 347 206 508 126 612\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-wave-arc nsio-delay-two\\&quot; d=\\&quot;M 188 202 C 300 327 300 528 188 658\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving\\&quot; d=\\&quot;M 85 385 C 175 392 254 399 350 404\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 85 435 C 175 424 254 416 350 408\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:300,&quot;y&quot;:262},{&quot;x&quot;:405,&quot;y&quot;:282}]},{&quot;num&quot;:2,&quot;slug&quot;:&quot;outer-ear&quot;,&quot;title&quot;:&quot;Outer ear&quot;,&quot;legendLines&quot;:[&quot;Out\\u00ader&quot;,&quot;ear&quot;],&quot;phase&quot;:&quot;Collection and filtering&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:295,&quot;y&quot;:345,&quot;targetX&quot;:350,&quot;targetY&quot;:405,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:350,&quot;y&quot;:405},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:350,&quot;cy&quot;:405,&quot;rx&quot;:116,&quot;ry&quot;:180},&quot;summary&quot;:&quot;The pinna and ear canal collect sound and subtly shape it. Those changes help the brain infer where a sound is coming from.&quot;,&quot;input&quot;:&quot;Incoming pressure waves&quot;,&quot;action&quot;:&quot;The pinna filters and guides sound into the canal&quot;,&quot;output&quot;:&quot;Directionally shaped sound enters the ear canal&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving\\&quot; d=\\&quot;M 330 405 C 420 402 522 401 615 405\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 335 420 C 432 415 528 413 616 409\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving\\&quot; d=\\&quot;M 150 385 C 240 394 300 401 350 404 C 430 405 520 404 616 405\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 150 435 C 245 424 304 414 350 410 C 430 410 520 410 616 409\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:486,&quot;y&quot;:293},{&quot;x&quot;:503,&quot;y&quot;:303}]},{&quot;num&quot;:3,&quot;slug&quot;:&quot;eardrum&quot;,&quot;title&quot;:&quot;Eardrum&quot;,&quot;legendLines&quot;:[&quot;Ear\\u00addrum&quot;],&quot;phase&quot;:&quot;Pressure to motion&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:565,&quot;y&quot;:398,&quot;targetX&quot;:615,&quot;targetY&quot;:405,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:615,&quot;y&quot;:405},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 604 327 C 640 366 640 443 604 487&quot;,&quot;strokeWidth&quot;:56},&quot;summary&quot;:&quot;The eardrum vibrates when pressure waves arrive. This is the first major conversion: air pressure becomes mechanical movement.&quot;,&quot;input&quot;:&quot;Pressure changes in the ear canal&quot;,&quot;action&quot;:&quot;The membrane vibrates in the same rhythm&quot;,&quot;output&quot;:&quot;Mechanical motion passes to the middle ear&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving\\&quot; d=\\&quot;M 612 405 C 643 393 677 374 721 360\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 616 412 C 650 404 682 384 724 369\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-sound nsio-signal-moving\\&quot; d=\\&quot;M 382 405 C 456 404 535 403 615 405\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-eardrum-vibe\\&quot; d=\\&quot;M 606 332 C 638 367 639 443 606 484\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving\\&quot; d=\\&quot;M 612 405 C 643 393 677 374 721 360\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:535,&quot;y&quot;:305},{&quot;x&quot;:553,&quot;y&quot;:304}]},{&quot;num&quot;:4,&quot;slug&quot;:&quot;ossicles&quot;,&quot;title&quot;:&quot;Ossicles&quot;,&quot;legendLines&quot;:[&quot;Os\\u00adsi\\u00adcles&quot;],&quot;phase&quot;:&quot;Mechanical relay&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:725,&quot;y&quot;:295,&quot;targetX&quot;:735,&quot;targetY&quot;:360,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:735,&quot;y&quot;:360},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:742,&quot;cy&quot;:350,&quot;rx&quot;:95,&quot;ry&quot;:82},&quot;summary&quot;:&quot;The malleus, incus, and stapes act as a tiny mechanical chain. They transmit and concentrate vibration toward the fluid-filled inner ear.&quot;,&quot;input&quot;:&quot;Eardrum vibration&quot;,&quot;action&quot;:&quot;Three small bones relay and amplify movement&quot;,&quot;output&quot;:&quot;The stapes drives the cochlea&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving\\&quot; d=\\&quot;M 720 360 C 765 363 819 379 888 402\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 733 371 C 782 382 823 393 887 410\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving\\&quot; d=\\&quot;M 612 405 C 643 393 677 374 721 360 C 765 363 819 379 888 402\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-ossicle-node\\&quot; cx=\\&quot;690\\&quot; cy=\\&quot;300\\&quot; r=\\&quot;18\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-ossicle-node nsio-delay-one\\&quot; cx=\\&quot;728\\&quot; cy=\\&quot;356\\&quot; r=\\&quot;17\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-ossicle-node nsio-delay-two\\&quot; cx=\\&quot;787\\&quot; cy=\\&quot;375\\&quot; r=\\&quot;16\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-angle-marker\\&quot; d=\\&quot;M 676 330 Q 720 348 796 370\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:665,&quot;y&quot;:285},{&quot;x&quot;:782,&quot;y&quot;:300}]},{&quot;num&quot;:5,&quot;slug&quot;:&quot;cochlea&quot;,&quot;title&quot;:&quot;Cochlea&quot;,&quot;legendLines&quot;:[&quot;Coch\\u00adlea&quot;],&quot;phase&quot;:&quot;Fluid wave and frequency map&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:860,&quot;y&quot;:210,&quot;targetX&quot;:900,&quot;targetY&quot;:405,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:900,&quot;y&quot;:405},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:900,&quot;cy&quot;:400,&quot;rx&quot;:175,&quot;ry&quot;:130},&quot;summary&quot;:&quot;Inside the cochlea, vibration becomes a travelling fluid wave. Different frequencies peak at different places along the spiral.&quot;,&quot;input&quot;:&quot;Mechanical vibration at the oval window&quot;,&quot;action&quot;:&quot;Fluid motion separates sound by frequency&quot;,&quot;output&quot;:&quot;A tonotopic motion pattern reaches hair cells&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-fluid nsio-signal-moving\\&quot; d=\\&quot;M 890 402 C 944 344 973 377 935 431 C 888 495 787 456 820 372 C 852 296 985 286 1013 394\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-mechanical nsio-signal-moving\\&quot; d=\\&quot;M 760 376 C 808 382 851 394 890 405\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-cochlea-peak\\&quot; cx=\\&quot;902\\&quot; cy=\\&quot;405\\&quot; r=\\&quot;14\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-cochlea-peak nsio-delay-one\\&quot; cx=\\&quot;946\\&quot; cy=\\&quot;375\\&quot; r=\\&quot;9\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-cochlea-peak\\&quot; cx=\\&quot;902\\&quot; cy=\\&quot;405\\&quot; r=\\&quot;12\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:955,&quot;y&quot;:299},{&quot;x&quot;:1040,&quot;y&quot;:329}]},{&quot;num&quot;:6,&quot;slug&quot;:&quot;hair-cells&quot;,&quot;title&quot;:&quot;Hair cells&quot;,&quot;legendLines&quot;:[&quot;Hair&quot;,&quot;cells&quot;],&quot;phase&quot;:&quot;Mechanotransduction&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:770,&quot;y&quot;:520,&quot;targetX&quot;:850,&quot;targetY&quot;:675,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:850,&quot;y&quot;:675},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:850,&quot;cy&quot;:695,&quot;rx&quot;:148,&quot;ry&quot;:126},&quot;summary&quot;:&quot;Hair cells bend with cochlear motion and convert mechanical movement into electrochemical signals. This is the key sensory transduction step.&quot;,&quot;input&quot;:&quot;Motion of cochlear tissue and fluid&quot;,&quot;action&quot;:&quot;Hair bundles bend and change cell activity&quot;,&quot;output&quot;:&quot;Auditory nerve fibres receive coded signals&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving\\&quot; d=\\&quot;M 850 675 C 880 610 898 502 902 410\\&quot;\\\/&gt;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 880 704 C 925 603 958 520 1016 438\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-fluid nsio-signal-moving\\&quot; d=\\&quot;M 770 640 C 824 614 887 613 946 638\\&quot;\\\/&gt;&quot;,&quot;&lt;g class=\\&quot;nsio-hair-bundle\\&quot;&gt;&lt;line x1=\\&quot;770\\&quot; y1=\\&quot;680\\&quot; x2=\\&quot;764\\&quot; y2=\\&quot;615\\&quot;\\\/&gt;&lt;line x1=\\&quot;806\\&quot; y1=\\&quot;680\\&quot; x2=\\&quot;804\\&quot; y2=\\&quot;606\\&quot;\\\/&gt;&lt;line x1=\\&quot;842\\&quot; y1=\\&quot;680\\&quot; x2=\\&quot;844\\&quot; y2=\\&quot;604\\&quot;\\\/&gt;&lt;line x1=\\&quot;878\\&quot; y1=\\&quot;680\\&quot; x2=\\&quot;884\\&quot; y2=\\&quot;606\\&quot;\\\/&gt;&lt;line x1=\\&quot;914\\&quot; y1=\\&quot;680\\&quot; x2=\\&quot;918\\&quot; y2=\\&quot;614\\&quot;\\\/&gt;&lt;\\\/g&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving\\&quot; d=\\&quot;M 794 738 C 835 725 888 716 946 726\\&quot;\\\/&gt;&quot;,&quot;&lt;circle class=\\&quot;nsio-cochlea-peak\\&quot; cx=\\&quot;850\\&quot; cy=\\&quot;680\\&quot; r=\\&quot;13\\&quot;\\\/&gt;&quot;],&quot;via&quot;:[{&quot;x&quot;:1230,&quot;y&quot;:368},{&quot;x&quot;:1348,&quot;y&quot;:309}]},{&quot;num&quot;:7,&quot;slug&quot;:&quot;auditory-nerve&quot;,&quot;title&quot;:&quot;Auditory nerve&quot;,&quot;legendLines&quot;:[&quot;Au\\u00addi\\u00adto\\u00adry&quot;,&quot;nerve&quot;],&quot;phase&quot;:&quot;Neural coding&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1130,&quot;y&quot;:358,&quot;targetX&quot;:1140,&quot;targetY&quot;:415,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1140,&quot;y&quot;:415},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 955 425 C 1048 444 1138 424 1231 357 C 1294 311 1339 276 1382 248&quot;,&quot;strokeWidth&quot;:88},&quot;summary&quot;:&quot;The auditory nerve carries timing, frequency, and intensity patterns. It does not transport a miniature recording of the sound.&quot;,&quot;input&quot;:&quot;Hair-cell driven neural activity&quot;,&quot;action&quot;:&quot;Nerve fibres encode timing, frequency, and intensity&quot;,&quot;output&quot;:&quot;Structured neural patterns travel to the brain&quot;,&quot;route&quot;:&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-signal-strong\\&quot; d=\\&quot;M 955 425 C 1048 444 1138 424 1231 357 C 1294 311 1339 276 1382 248\\&quot;\\\/&gt;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-nerve-track\\&quot; d=\\&quot;M 955 425 C 1048 444 1138 424 1231 357 C 1294 311 1339 276 1382 248\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-signal-strong\\&quot; d=\\&quot;M 955 425 C 1048 444 1138 424 1231 357 C 1294 311 1339 276 1382 248\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-delay-one\\&quot; d=\\&quot;M 1010 448 C 1110 446 1210 388 1300 310\\&quot;\\\/&gt;&quot;]},{&quot;num&quot;:8,&quot;slug&quot;:&quot;auditory-cortex&quot;,&quot;title&quot;:&quot;Auditory cortex&quot;,&quot;legendLines&quot;:[&quot;Au\\u00addi\\u00adto\\u00adry&quot;,&quot;cor\\u00adtex&quot;],&quot;phase&quot;:&quot;Perceptual construction&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1360,&quot;y&quot;:300,&quot;targetX&quot;:1385,&quot;targetY&quot;:250,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1385,&quot;y&quot;:250},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1390,&quot;cy&quot;:245,&quot;rx&quot;:160,&quot;ry&quot;:125},&quot;summary&quot;:&quot;The auditory cortex and related networks build perception from the neural code: pitch, rhythm, location, speech, music, and meaning.&quot;,&quot;input&quot;:&quot;Distributed auditory neural activity&quot;,&quot;action&quot;:&quot;Brain networks combine sound features with context&quot;,&quot;output&quot;:&quot;A meaningful auditory experience&quot;,&quot;route&quot;:&quot;&quot;,&quot;fx&quot;:[&quot;&lt;path class=\\&quot;nsio-signal nsio-signal-neural nsio-signal-moving nsio-signal-strong\\&quot; d=\\&quot;M 1260 334 C 1315 290 1355 262 1382 248\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-auditory-branch\\&quot; d=\\&quot;M 1375 250 C 1410 224 1452 215 1494 226\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-auditory-branch nsio-delay-one\\&quot; d=\\&quot;M 1375 250 C 1402 270 1448 294 1493 289\\&quot;\\\/&gt;&quot;,&quot;&lt;path class=\\&quot;nsio-auditory-branch nsio-delay-two\\&quot; d=\\&quot;M 1380 248 C 1390 200 1420 170 1468 160\\&quot;\\\/&gt;&quot;]}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie H\u00f6ren entsteht<\/span><span data-i18n=\"imageAlt\">Schallwellen treten ins Ohr ein, durchlaufen Mittelohr und H\u00f6rschnecke und erreichen die H\u00f6rareale des Gehirns<\/span><span data-i18n=\"stageLabel\">Animierter Weg vom Schall zum Gehirn<\/span><span data-i18n=\"legendLabel\">Schritte der H\u00f6r-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"sound-wave\"><span data-f=\"title\">Schallwelle<\/span><span data-f=\"phase\">Luftdruck<\/span><span data-f=\"summary\">H\u00f6ren beginnt mit sich \u00e4nderndem Luftdruck. Eine Schallquelle dr\u00fcckt und zieht die Luft und erzeugt Wellen, deren Frequenz mit der Tonh\u00f6he und deren Amplitude mit der Lautst\u00e4rke zusammenh\u00e4ngt.<\/span><span data-f=\"input\">Eine schwingende Quelle bewegt die Luft<\/span><span data-f=\"action\">Der Druck steigt und f\u00e4llt in laufenden Wellen<\/span><span data-f=\"output\">Eine gemusterte Schallwelle erreicht das Au\u00dfenohr<\/span><span data-f=\"legend\">Schallwelle<\/span><\/div><div data-i18n-step=\"outer-ear\"><span data-f=\"title\">Au\u00dfenohr<\/span><span data-f=\"phase\">Sammeln und Filtern<\/span><span data-f=\"summary\">Ohrmuschel und Geh\u00f6rgang sammeln den Schall und formen ihn fein. Diese Ver\u00e4nderungen helfen dem Gehirn zu erschlie\u00dfen, woher ein Ger\u00e4usch kommt.<\/span><span data-f=\"input\">Einfallende Druckwellen<\/span><span data-f=\"action\">Die Ohrmuschel filtert den Schall und leitet ihn in den Geh\u00f6rgang<\/span><span data-f=\"output\">Richtungsgeformter Schall tritt in den Geh\u00f6rgang ein<\/span><span data-f=\"legend\">Au\u00dfenohr<\/span><\/div><div data-i18n-step=\"eardrum\"><span data-f=\"title\">Trommelfell<\/span><span data-f=\"phase\">Von Druck zu Bewegung<\/span><span data-f=\"summary\">Das Trommelfell schwingt, wenn Druckwellen eintreffen. Dies ist die erste gro\u00dfe Umwandlung: Luftdruck wird zu mechanischer Bewegung.<\/span><span data-f=\"input\">Druck\u00e4nderungen im Geh\u00f6rgang<\/span><span data-f=\"action\">Die Membran schwingt im gleichen Rhythmus<\/span><span data-f=\"output\">Mechanische Bewegung gelangt ins Mittelohr<\/span><span data-f=\"legend\">Trommelfell<\/span><\/div><div data-i18n-step=\"ossicles\"><span data-f=\"title\">Geh\u00f6rkn\u00f6chelchen<\/span><span data-f=\"phase\">Mechanische Weiterleitung<\/span><span data-f=\"summary\">Hammer, Amboss und Steigb\u00fcgel bilden eine winzige mechanische Kette. Sie \u00fcbertragen und b\u00fcndeln die Schwingung zum fl\u00fcssigkeitsgef\u00fcllten Innenohr.<\/span><span data-f=\"input\">Schwingung des Trommelfells<\/span><span data-f=\"action\">Drei kleine Knochen leiten die Bewegung weiter und verst\u00e4rken sie<\/span><span data-f=\"output\">Der Steigb\u00fcgel treibt die H\u00f6rschnecke an<\/span><span data-f=\"legend\">Geh\u00f6rkn\u00f6chelchen<\/span><\/div><div data-i18n-step=\"cochlea\"><span data-f=\"title\">H\u00f6rschnecke<\/span><span data-f=\"phase\">Fl\u00fcssigkeitswelle und Frequenzkarte<\/span><span data-f=\"summary\">In der H\u00f6rschnecke wird die Schwingung zu einer laufenden Fl\u00fcssigkeitswelle. Verschiedene Frequenzen haben ihr Maximum an verschiedenen Stellen entlang der Spirale.<\/span><span data-f=\"input\">Mechanische Schwingung am ovalen Fenster<\/span><span data-f=\"action\">Die Fl\u00fcssigkeitsbewegung trennt den Schall nach Frequenz<\/span><span data-f=\"output\">Ein tonotopes Bewegungsmuster erreicht die Haarzellen<\/span><span data-f=\"legend\">H\u00f6rschnecke<\/span><\/div><div data-i18n-step=\"hair-cells\"><span data-f=\"title\">Haarzellen<\/span><span data-f=\"phase\">Mechanotransduktion<\/span><span data-f=\"summary\">Haarzellen biegen sich mit der Bewegung der H\u00f6rschnecke und wandeln mechanische Bewegung in elektrochemische Signale um. Dies ist der entscheidende sensorische Transduktionsschritt.<\/span><span data-f=\"input\">Bewegung von Gewebe und Fl\u00fcssigkeit der H\u00f6rschnecke<\/span><span data-f=\"action\">Haarb\u00fcndel biegen sich und ver\u00e4ndern die Zellaktivit\u00e4t<\/span><span data-f=\"output\">H\u00f6rnervenfasern empfangen codierte Signale<\/span><span data-f=\"legend\">Haarzellen<\/span><\/div><div data-i18n-step=\"auditory-nerve\"><span data-f=\"title\">H\u00f6rnerv<\/span><span data-f=\"phase\">Neuronale Codierung<\/span><span data-f=\"summary\">Der H\u00f6rnerv \u00fcbertr\u00e4gt Muster von zeitlichem Verlauf, Frequenz und Intensit\u00e4t. Er transportiert keine verkleinerte Aufnahme des Schalls.<\/span><span data-f=\"input\">Von Haarzellen ausgel\u00f6ste neuronale Aktivit\u00e4t<\/span><span data-f=\"action\">Nervenfasern codieren zeitlichen Verlauf, Frequenz und Intensit\u00e4t<\/span><span data-f=\"output\">Strukturierte neuronale Muster wandern zum Gehirn<\/span><span data-f=\"legend\">H\u00f6rnerv<\/span><\/div><div data-i18n-step=\"auditory-cortex\"><span data-f=\"title\">Auditorischer Kortex<\/span><span data-f=\"phase\">Wahrnehmungsaufbau<\/span><span data-f=\"summary\">Der auditorische Kortex und verbundene Netzwerke bauen aus dem neuronalen Code Wahrnehmung auf: Tonh\u00f6he, Rhythmus, Ort, Sprache, Musik und Bedeutung.<\/span><span data-f=\"input\">Verteilte auditorische neuronale Aktivit\u00e4t<\/span><span data-f=\"action\">Hirnnetzwerke verbinden Klangmerkmale mit Kontext<\/span><span data-f=\"output\">Ein bedeutungsvolles H\u00f6rerlebnis<\/span><span data-f=\"legend\">Auditorischer Kortex<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How hearing unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated sound-to-brain pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/hearing-journey.webp?ver=1781954392\"                                    alt=\"Sound waves entering the ear, passing through the middle ear and cochlea, and reaching auditory areas of the brain\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 850\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 850\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Air pressure<\/span>\n                                        <h3 data-role=\"bubble-title\">Sound wave<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Air pressure<\/span>\n                                <h3 data-role=\"panel-title\">Sound wave<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Hearing journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-smell-3-5096\"\n    data-nsio-journey\n    data-sense=\"smell\" data-nsio-hidden=\"1\" data-nsio-anchor=\"smell\"    data-config=\"{&quot;kind&quot;:&quot;smell&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:941},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;odor-source&quot;,&quot;title&quot;:&quot;Odor source&quot;,&quot;legendLines&quot;:[&quot;Odor&quot;,&quot;source&quot;],&quot;phase&quot;:&quot;Chemical stimulus&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:420,&quot;y&quot;:525,&quot;targetX&quot;:420,&quot;targetY&quot;:525,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:420,&quot;y&quot;:525},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:420,&quot;cy&quot;:525,&quot;rx&quot;:120,&quot;ry&quot;:105},&quot;summary&quot;:&quot;Smell begins when volatile molecules leave a source and mix with the air. These odor molecules can reach the nose during inhalation.&quot;,&quot;input&quot;:&quot;A source releases volatile molecules&quot;,&quot;action&quot;:&quot;Odor molecules disperse through the air&quot;,&quot;output&quot;:&quot;Air carries molecules toward the nose&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;airflow&quot;,&quot;title&quot;:&quot;Airflow into the nose&quot;,&quot;legendLines&quot;:[&quot;Airflow&quot;,&quot;into nose&quot;],&quot;phase&quot;:&quot;Transport&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:600,&quot;y&quot;:435,&quot;targetX&quot;:600,&quot;targetY&quot;:435,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:600,&quot;y&quot;:435},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 430 520 C 500 500 548 462 610 430&quot;,&quot;strokeWidth&quot;:74},&quot;summary&quot;:&quot;Breathing draws odor molecules into the nasal cavity. Airflow determines which molecules reach the smell-sensitive region high inside the nose.&quot;,&quot;input&quot;:&quot;Air carrying odor molecules&quot;,&quot;action&quot;:&quot;Inhalation moves molecules through the nasal passage&quot;,&quot;output&quot;:&quot;Molecules approach the olfactory epithelium&quot;},{&quot;num&quot;:3,&quot;slug&quot;:&quot;olfactory-epithelium&quot;,&quot;title&quot;:&quot;Olfactory epithelium&quot;,&quot;legendLines&quot;:[&quot;Olfactory&quot;,&quot;epithelium&quot;],&quot;phase&quot;:&quot;Detection surface&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:760,&quot;y&quot;:330,&quot;targetX&quot;:760,&quot;targetY&quot;:330,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:760,&quot;y&quot;:330},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:760,&quot;cy&quot;:330,&quot;rx&quot;:150,&quot;ry&quot;:85},&quot;summary&quot;:&quot;The olfactory epithelium contains specialized smell receptor neurons. It sits high in the nasal cavity, separate from the ordinary airflow path.&quot;,&quot;input&quot;:&quot;Odor molecules near the smell-sensitive lining&quot;,&quot;action&quot;:&quot;Molecules dissolve in mucus and contact receptor endings&quot;,&quot;output&quot;:&quot;Receptor neurons are ready to respond&quot;},{&quot;num&quot;:4,&quot;slug&quot;:&quot;receptor-cells&quot;,&quot;title&quot;:&quot;Receptor cells&quot;,&quot;legendLines&quot;:[&quot;Receptor&quot;,&quot;cells&quot;],&quot;phase&quot;:&quot;Molecular recognition&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:840,&quot;y&quot;:700,&quot;targetX&quot;:840,&quot;targetY&quot;:700,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:840,&quot;y&quot;:700},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:840,&quot;cy&quot;:700,&quot;rx&quot;:150,&quot;ry&quot;:115},&quot;summary&quot;:&quot;Olfactory receptor cells detect molecular features. Different receptors respond to different chemical patterns, creating a combinatorial smell code.&quot;,&quot;input&quot;:&quot;Odor molecules bound near receptor endings&quot;,&quot;action&quot;:&quot;Receptor cells respond to molecular features&quot;,&quot;output&quot;:&quot;A smell-specific neural activity pattern begins&quot;},{&quot;num&quot;:5,&quot;slug&quot;:&quot;olfactory-nerve&quot;,&quot;title&quot;:&quot;Olfactory nerve&quot;,&quot;legendLines&quot;:[&quot;Olfactory&quot;,&quot;nerve&quot;],&quot;phase&quot;:&quot;Neural transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:990,&quot;y&quot;:405,&quot;targetX&quot;:990,&quot;targetY&quot;:405,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:990,&quot;y&quot;:405},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 795 340 C 900 350 982 375 1065 405&quot;,&quot;strokeWidth&quot;:82},&quot;summary&quot;:&quot;Receptor neurons send their signals through the olfactory nerve. The signal is now a neural code, not an odor cloud.&quot;,&quot;input&quot;:&quot;Activated receptor neurons&quot;,&quot;action&quot;:&quot;Axons carry the smell pattern forward&quot;,&quot;output&quot;:&quot;Signals reach the olfactory bulb&quot;},{&quot;num&quot;:6,&quot;slug&quot;:&quot;olfactory-bulb&quot;,&quot;title&quot;:&quot;Olfactory bulb&quot;,&quot;legendLines&quot;:[&quot;Olfactory&quot;,&quot;bulb&quot;],&quot;phase&quot;:&quot;First brain relay&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1095,&quot;y&quot;:360,&quot;targetX&quot;:1095,&quot;targetY&quot;:360,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1095,&quot;y&quot;:360},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1095,&quot;cy&quot;:360,&quot;rx&quot;:110,&quot;ry&quot;:82},&quot;summary&quot;:&quot;The olfactory bulb organizes receptor activity into structured patterns. It sharpens and relays smell information to deeper brain networks.&quot;,&quot;input&quot;:&quot;Combinatorial receptor activity&quot;,&quot;action&quot;:&quot;The bulb organizes and refines the signal&quot;,&quot;output&quot;:&quot;Processed smell patterns continue into the brain&quot;},{&quot;num&quot;:7,&quot;slug&quot;:&quot;limbic-system&quot;,&quot;title&quot;:&quot;Limbic system&quot;,&quot;legendLines&quot;:[&quot;Limbic&quot;,&quot;system&quot;],&quot;phase&quot;:&quot;Memory and emotion&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1290,&quot;y&quot;:345,&quot;targetX&quot;:1290,&quot;targetY&quot;:345,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1290,&quot;y&quot;:345},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1290,&quot;cy&quot;:345,&quot;rx&quot;:150,&quot;ry&quot;:125},&quot;summary&quot;:&quot;Smell has strong links to memory and emotion. Olfactory pathways connect closely with limbic regions involved in association and affect.&quot;,&quot;input&quot;:&quot;Organized olfactory activity&quot;,&quot;action&quot;:&quot;Brain networks link smell with memory and emotional context&quot;,&quot;output&quot;:&quot;Smell becomes meaningful and familiar&quot;},{&quot;num&quot;:8,&quot;slug&quot;:&quot;smell-perception&quot;,&quot;title&quot;:&quot;Smell perception&quot;,&quot;legendLines&quot;:[&quot;Smell&quot;,&quot;perception&quot;],&quot;phase&quot;:&quot;Conscious experience&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1425,&quot;y&quot;:260,&quot;targetX&quot;:1425,&quot;targetY&quot;:260,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1425,&quot;y&quot;:260},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1425,&quot;cy&quot;:260,&quot;rx&quot;:175,&quot;ry&quot;:150},&quot;summary&quot;:&quot;The brain combines odor identity, intensity, memory, emotion, and context. The result is a recognizable smell experience.&quot;,&quot;input&quot;:&quot;Distributed olfactory brain activity&quot;,&quot;action&quot;:&quot;Networks integrate odor identity with context&quot;,&quot;output&quot;:&quot;A meaningful smell experience&quot;}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie Riechen entsteht<\/span><span data-i18n=\"imageAlt\">Ein Kind riecht an einer Rose, eine anatomische Nasenh\u00f6hle mit Riechepithel, Detail einer Rezeptorzelle und Riechbahnen zum Gehirn<\/span><span data-i18n=\"stageLabel\">Animierter Weg vom Geruch zum Gehirn<\/span><span data-i18n=\"legendLabel\">Schritte der Riech-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"odor-source\"><span data-f=\"title\">Geruchsquelle<\/span><span data-f=\"phase\">Chemischer Reiz<\/span><span data-f=\"summary\">Riechen beginnt, wenn fl\u00fcchtige Molek\u00fcle eine Quelle verlassen und sich mit der Luft vermischen. Diese Geruchsmolek\u00fcle k\u00f6nnen beim Einatmen die Nase erreichen.<\/span><span data-f=\"input\">Eine Quelle setzt fl\u00fcchtige Molek\u00fcle frei<\/span><span data-f=\"action\">Geruchsmolek\u00fcle verteilen sich in der Luft<\/span><span data-f=\"output\">Die Luft tr\u00e4gt Molek\u00fcle zur Nase<\/span><span data-f=\"legend\">Geruchsquelle<\/span><\/div><div data-i18n-step=\"airflow\"><span data-f=\"title\">Luftstrom in die Nase<\/span><span data-f=\"phase\">Transport<\/span><span data-f=\"summary\">Das Atmen zieht Geruchsmolek\u00fcle in die Nasenh\u00f6hle. Der Luftstrom bestimmt, welche Molek\u00fcle die geruchsempfindliche Region hoch oben in der Nase erreichen.<\/span><span data-f=\"input\">Luft, die Geruchsmolek\u00fcle tr\u00e4gt<\/span><span data-f=\"action\">Das Einatmen bewegt Molek\u00fcle durch den Nasengang<\/span><span data-f=\"output\">Molek\u00fcle n\u00e4hern sich dem Riechepithel<\/span><span data-f=\"legend\">Luftstrom in die Nase<\/span><\/div><div data-i18n-step=\"olfactory-epithelium\"><span data-f=\"title\">Riechepithel<\/span><span data-f=\"phase\">Detektionsfl\u00e4che<\/span><span data-f=\"summary\">Das Riechepithel enth\u00e4lt spezialisierte Geruchsrezeptor-Neuronen. Es liegt hoch in der Nasenh\u00f6hle, abseits des gew\u00f6hnlichen Luftstroms.<\/span><span data-f=\"input\">Geruchsmolek\u00fcle nahe der geruchsempfindlichen Schleimhaut<\/span><span data-f=\"action\">Molek\u00fcle l\u00f6sen sich im Schleim und ber\u00fchren die Rezeptorenden<\/span><span data-f=\"output\">Rezeptor-Neuronen sind bereit zu reagieren<\/span><span data-f=\"legend\">Riechepithel<\/span><\/div><div data-i18n-step=\"receptor-cells\"><span data-f=\"title\">Rezeptorzellen<\/span><span data-f=\"phase\">Molekulare Erkennung<\/span><span data-f=\"summary\">Riechrezeptorzellen erkennen molekulare Merkmale. Verschiedene Rezeptoren reagieren auf verschiedene chemische Muster und erzeugen so einen kombinatorischen Geruchscode.<\/span><span data-f=\"input\">Geruchsmolek\u00fcle, die nahe den Rezeptorenden gebunden sind<\/span><span data-f=\"action\">Rezeptorzellen reagieren auf molekulare Merkmale<\/span><span data-f=\"output\">Ein geruchsspezifisches Muster neuronaler Aktivit\u00e4t beginnt<\/span><span data-f=\"legend\">Rezeptorzellen<\/span><\/div><div data-i18n-step=\"olfactory-nerve\"><span data-f=\"title\">Riechnerv<\/span><span data-f=\"phase\">Neuronale Weiterleitung<\/span><span data-f=\"summary\">Rezeptor-Neuronen senden ihre Signale durch den Riechnerv. Das Signal ist nun ein neuronaler Code, keine Geruchswolke.<\/span><span data-f=\"input\">Aktivierte Rezeptor-Neuronen<\/span><span data-f=\"action\">Axone tragen das Geruchsmuster weiter<\/span><span data-f=\"output\">Signale erreichen den Riechkolben<\/span><span data-f=\"legend\">Riechnerv<\/span><\/div><div data-i18n-step=\"olfactory-bulb\"><span data-f=\"title\">Riechkolben<\/span><span data-f=\"phase\">Erste Hirnumschaltung<\/span><span data-f=\"summary\">Der Riechkolben ordnet die Rezeptoraktivit\u00e4t zu strukturierten Mustern. Er sch\u00e4rft die Geruchsinformation und leitet sie an tiefere Hirnnetzwerke weiter.<\/span><span data-f=\"input\">Kombinatorische Rezeptoraktivit\u00e4t<\/span><span data-f=\"action\">Der Kolben ordnet und verfeinert das Signal<\/span><span data-f=\"output\">Verarbeitete Geruchsmuster ziehen weiter ins Gehirn<\/span><span data-f=\"legend\">Riechkolben<\/span><\/div><div data-i18n-step=\"limbic-system\"><span data-f=\"title\">Limbisches System<\/span><span data-f=\"phase\">Ged\u00e4chtnis und Emotion<\/span><span data-f=\"summary\">Riechen ist eng mit Ged\u00e4chtnis und Emotion verbunden. Die Riechbahnen sind eng mit limbischen Regionen verkn\u00fcpft, die an Assoziation und Affekt beteiligt sind.<\/span><span data-f=\"input\">Geordnete olfaktorische Aktivit\u00e4t<\/span><span data-f=\"action\">Hirnnetzwerke verkn\u00fcpfen Geruch mit Ged\u00e4chtnis und emotionalem Kontext<\/span><span data-f=\"output\">Der Geruch wird bedeutungsvoll und vertraut<\/span><span data-f=\"legend\">Limbisches System<\/span><\/div><div data-i18n-step=\"smell-perception\"><span data-f=\"title\">Geruchswahrnehmung<\/span><span data-f=\"phase\">Bewusstes Erleben<\/span><span data-f=\"summary\">Das Gehirn verbindet Geruchsidentit\u00e4t, Intensit\u00e4t, Ged\u00e4chtnis, Emotion und Kontext. Das Ergebnis ist ein erkennbares Geruchserlebnis.<\/span><span data-f=\"input\">Verteilte olfaktorische Hirnaktivit\u00e4t<\/span><span data-f=\"action\">Netzwerke verbinden Geruchsidentit\u00e4t mit Kontext<\/span><span data-f=\"output\">Ein bedeutungsvolles Geruchserlebnis<\/span><span data-f=\"legend\">Geruchswahrnehmung<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How smell unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated smell-to-brain pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/smell-journey.webp?ver=1781985842\"                                    alt=\"A child smelling a rose, an anatomical nasal cavity and olfactory epithelium, receptor-cell detail, and smell pathways to the brain\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Chemical stimulus<\/span>\n                                        <h3 data-role=\"bubble-title\">Odor source<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Chemical stimulus<\/span>\n                                <h3 data-role=\"panel-title\">Odor source<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Smell journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-taste-4-7501\"\n    data-nsio-journey\n    data-sense=\"taste\" data-nsio-hidden=\"1\" data-nsio-anchor=\"taste\"    data-config=\"{&quot;kind&quot;:&quot;taste&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:941},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;stimulus&quot;,&quot;title&quot;:&quot;Taste stimulus&quot;,&quot;legendLines&quot;:[&quot;Taste&quot;,&quot;stimulus&quot;],&quot;phase&quot;:&quot;Chemical input&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:300,&quot;y&quot;:575,&quot;targetX&quot;:300,&quot;targetY&quot;:575,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:300,&quot;y&quot;:575},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:300,&quot;cy&quot;:575,&quot;rx&quot;:82,&quot;ry&quot;:88},&quot;summary&quot;:&quot;Taste begins when food or drink releases molecules into saliva. Only dissolved molecules can effectively reach taste receptors and start the pathway.&quot;,&quot;input&quot;:&quot;Food or drink enters the mouth&quot;,&quot;action&quot;:&quot;Tastant molecules dissolve in saliva&quot;,&quot;output&quot;:&quot;Dissolved tastants spread across the tongue&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;tongue-surface&quot;,&quot;title&quot;:&quot;Tongue surface&quot;,&quot;legendLines&quot;:[&quot;Tongue&quot;,&quot;surface&quot;],&quot;phase&quot;:&quot;Distribution&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:150,&quot;y&quot;:420,&quot;targetX&quot;:150,&quot;targetY&quot;:420,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:150,&quot;y&quot;:420},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:150,&quot;cy&quot;:420,&quot;rx&quot;:84,&quot;ry&quot;:82},&quot;summary&quot;:&quot;The tongue moves the saliva-food mixture across its surface. This helps expose taste-sensitive structures to dissolved molecules.&quot;,&quot;input&quot;:&quot;Saliva carrying tastants&quot;,&quot;action&quot;:&quot;The tongue distributes the mixture across papillae&quot;,&quot;output&quot;:&quot;Tastants reach taste-bud openings&quot;},{&quot;num&quot;:3,&quot;slug&quot;:&quot;papillae&quot;,&quot;title&quot;:&quot;Papillae&quot;,&quot;legendLines&quot;:[&quot;Papillae&quot;],&quot;phase&quot;:&quot;Access structures&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:515,&quot;y&quot;:445,&quot;targetX&quot;:515,&quot;targetY&quot;:445,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:515,&quot;y&quot;:445},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:520,&quot;cy&quot;:455,&quot;rx&quot;:122,&quot;ry&quot;:118},&quot;summary&quot;:&quot;Many taste buds sit inside papillae, the small structures on the tongue surface. Papillae help position taste buds where food contact is likely.&quot;,&quot;input&quot;:&quot;Tastants on the tongue surface&quot;,&quot;action&quot;:&quot;Papillae expose taste buds to the dissolved molecules&quot;,&quot;output&quot;:&quot;Tastants approach taste pores&quot;},{&quot;num&quot;:4,&quot;slug&quot;:&quot;taste-bud&quot;,&quot;title&quot;:&quot;Taste bud&quot;,&quot;legendLines&quot;:[&quot;Taste&quot;,&quot;bud&quot;],&quot;phase&quot;:&quot;Receptor contact&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:835,&quot;y&quot;:390,&quot;targetX&quot;:835,&quot;targetY&quot;:390,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:835,&quot;y&quot;:390},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:835,&quot;cy&quot;:390,&quot;rx&quot;:110,&quot;ry&quot;:112},&quot;summary&quot;:&quot;Inside each taste bud, receptor cells detect dissolved tastants through a small opening called the taste pore. Several receptor cells contribute to the response.&quot;,&quot;input&quot;:&quot;Tastants entering the taste pore&quot;,&quot;action&quot;:&quot;Molecules interact with taste receptor cells&quot;,&quot;output&quot;:&quot;Taste receptor cells become active&quot;},{&quot;num&quot;:5,&quot;slug&quot;:&quot;signal-conversion&quot;,&quot;title&quot;:&quot;Signal conversion&quot;,&quot;legendLines&quot;:[&quot;Signal&quot;,&quot;conversion&quot;],&quot;phase&quot;:&quot;Taste qualities&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:850,&quot;y&quot;:625,&quot;targetX&quot;:850,&quot;targetY&quot;:625,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:850,&quot;y&quot;:625},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:850,&quot;cy&quot;:625,&quot;rx&quot;:100,&quot;ry&quot;:72},&quot;summary&quot;:&quot;Taste receptor cells convert chemical information into neural activity. The main taste qualities are sweet, salty, sour, bitter, and umami. The brain later combines these with smell, texture, temperature, and context to create flavour.&quot;,&quot;input&quot;:&quot;Activated taste receptor cells&quot;,&quot;action&quot;:&quot;Receptor systems encode basic taste qualities&quot;,&quot;output&quot;:&quot;Cranial nerve fibres receive coded taste signals&quot;},{&quot;num&quot;:6,&quot;slug&quot;:&quot;cranial-nerves&quot;,&quot;title&quot;:&quot;Cranial nerves&quot;,&quot;legendLines&quot;:[&quot;Cranial&quot;,&quot;nerves&quot;],&quot;phase&quot;:&quot;Neural transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1060,&quot;y&quot;:660,&quot;targetX&quot;:1060,&quot;targetY&quot;:660,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1060,&quot;y&quot;:660},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 684 632 C 810 706 934 712 1116 661&quot;,&quot;strokeWidth&quot;:88},&quot;summary&quot;:&quot;Taste information leaves the tongue through cranial nerve pathways. The signal is now a neural code, not a physical flavour molecule.&quot;,&quot;input&quot;:&quot;Coded taste-cell activity&quot;,&quot;action&quot;:&quot;Cranial nerves carry the signal toward the brainstem&quot;,&quot;output&quot;:&quot;Taste signals reach relay centres&quot;},{&quot;num&quot;:7,&quot;slug&quot;:&quot;brainstem-relay&quot;,&quot;title&quot;:&quot;Brainstem relay&quot;,&quot;legendLines&quot;:[&quot;Brainstem&quot;,&quot;relay&quot;],&quot;phase&quot;:&quot;First central relay&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1235,&quot;y&quot;:585,&quot;targetX&quot;:1235,&quot;targetY&quot;:585,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1235,&quot;y&quot;:585},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1235,&quot;cy&quot;:585,&quot;rx&quot;:185,&quot;ry&quot;:190},&quot;summary&quot;:&quot;The brainstem organizes incoming taste signals and routes them upward. This is where taste information first becomes part of central nervous system processing.&quot;,&quot;input&quot;:&quot;Taste signals from cranial nerves&quot;,&quot;action&quot;:&quot;Relay nuclei organize and forward the signal&quot;,&quot;output&quot;:&quot;Processed taste information ascends toward higher brain areas&quot;},{&quot;num&quot;:8,&quot;slug&quot;:&quot;taste-perception&quot;,&quot;title&quot;:&quot;Taste perception&quot;,&quot;legendLines&quot;:[&quot;Taste&quot;,&quot;perception&quot;],&quot;phase&quot;:&quot;Flavour experience&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1415,&quot;y&quot;:215,&quot;targetX&quot;:1415,&quot;targetY&quot;:215,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1415,&quot;y&quot;:215},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1415,&quot;cy&quot;:215,&quot;rx&quot;:190,&quot;ry&quot;:170},&quot;summary&quot;:&quot;The brain combines taste with smell, texture, temperature, expectation, and memory. The final experience is flavour, not taste alone.&quot;,&quot;input&quot;:&quot;Distributed taste-related neural activity&quot;,&quot;action&quot;:&quot;Brain networks integrate taste with other sensory and contextual information&quot;,&quot;output&quot;:&quot;A meaningful flavour experience&quot;}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie Schmecken entsteht<\/span><span data-i18n=\"imageAlt\">Ein Kind probiert Eis, ein Querschnitt von Zunge und Geschmacksknospe, Hirnnervenbahnen, eine Umschaltung im Hirnstamm und ein hervorgehobenes Geschmacksareal im Gehirn<\/span><span data-i18n=\"stageLabel\">Animierter Weg vom Geschmack zum Gehirn<\/span><span data-i18n=\"legendLabel\">Schritte der Geschmacks-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"stimulus\"><span data-f=\"title\">Geschmacksreiz<\/span><span data-f=\"phase\">Chemischer Eingang<\/span><span data-f=\"summary\">Schmecken beginnt, wenn Speisen oder Getr\u00e4nke Molek\u00fcle in den Speichel abgeben. Nur gel\u00f6ste Molek\u00fcle k\u00f6nnen die Geschmacksrezeptoren wirksam erreichen und den Weg in Gang setzen.<\/span><span data-f=\"input\">Speise oder Getr\u00e4nk gelangt in den Mund<\/span><span data-f=\"action\">Geschmacksstoff-Molek\u00fcle l\u00f6sen sich im Speichel<\/span><span data-f=\"output\">Gel\u00f6ste Geschmacksstoffe verteilen sich \u00fcber die Zunge<\/span><span data-f=\"legend\">Geschmacksreiz<\/span><\/div><div data-i18n-step=\"tongue-surface\"><span data-f=\"title\">Zungenoberfl\u00e4che<\/span><span data-f=\"phase\">Verteilung<\/span><span data-f=\"summary\">Die Zunge bewegt das Speichel-Speise-Gemisch \u00fcber ihre Oberfl\u00e4che. So werden geschmacksempfindliche Strukturen den gel\u00f6sten Molek\u00fclen ausgesetzt.<\/span><span data-f=\"input\">Speichel, der Geschmacksstoffe tr\u00e4gt<\/span><span data-f=\"action\">Die Zunge verteilt das Gemisch \u00fcber die Papillen<\/span><span data-f=\"output\">Geschmacksstoffe erreichen die \u00d6ffnungen der Geschmacksknospen<\/span><span data-f=\"legend\">Zungenoberfl\u00e4che<\/span><\/div><div data-i18n-step=\"papillae\"><span data-f=\"title\">Papillen<\/span><span data-f=\"phase\">Zugangsstrukturen<\/span><span data-f=\"summary\">Viele Geschmacksknospen sitzen in den Papillen, den kleinen Strukturen auf der Zungenoberfl\u00e4che. Papillen platzieren die Geschmacksknospen dort, wo Kontakt mit Speise wahrscheinlich ist.<\/span><span data-f=\"input\">Geschmacksstoffe auf der Zungenoberfl\u00e4che<\/span><span data-f=\"action\">Papillen setzen die Geschmacksknospen den gel\u00f6sten Molek\u00fclen aus<\/span><span data-f=\"output\">Geschmacksstoffe n\u00e4hern sich den Geschmacksporen<\/span><span data-f=\"legend\">Papillen<\/span><\/div><div data-i18n-step=\"taste-bud\"><span data-f=\"title\">Geschmacksknospe<\/span><span data-f=\"phase\">Rezeptorkontakt<\/span><span data-f=\"summary\">In jeder Geschmacksknospe erkennen Rezeptorzellen gel\u00f6ste Geschmacksstoffe durch eine kleine \u00d6ffnung, die Geschmackspore. Mehrere Rezeptorzellen tragen zur Antwort bei.<\/span><span data-f=\"input\">Geschmacksstoffe, die in die Geschmackspore eintreten<\/span><span data-f=\"action\">Molek\u00fcle treten mit den Geschmacksrezeptorzellen in Wechselwirkung<\/span><span data-f=\"output\">Die Geschmacksrezeptorzellen werden aktiv<\/span><span data-f=\"legend\">Geschmacksknospe<\/span><\/div><div data-i18n-step=\"signal-conversion\"><span data-f=\"title\">Signalumwandlung<\/span><span data-f=\"phase\">Geschmacksqualit\u00e4ten<\/span><span data-f=\"summary\">Die Geschmacksrezeptorzellen wandeln chemische Information in neuronale Aktivit\u00e4t um. Die wichtigsten Geschmacksqualit\u00e4ten sind s\u00fc\u00df, salzig, sauer, bitter und umami. Das Gehirn verbindet diese sp\u00e4ter mit Geruch, Textur, Temperatur und Kontext zum Aroma.<\/span><span data-f=\"input\">Aktivierte Geschmacksrezeptorzellen<\/span><span data-f=\"action\">Rezeptorsysteme codieren die grundlegenden Geschmacksqualit\u00e4ten<\/span><span data-f=\"output\">Hirnnervenfasern empfangen codierte Geschmackssignale<\/span><span data-f=\"legend\">Signalumwandlung<\/span><\/div><div data-i18n-step=\"cranial-nerves\"><span data-f=\"title\">Hirnnerven<\/span><span data-f=\"phase\">Neuronale Weiterleitung<\/span><span data-f=\"summary\">Die Geschmacksinformation verl\u00e4sst die Zunge \u00fcber Hirnnervenbahnen. Das Signal ist nun ein neuronaler Code, kein physisches Aromamolek\u00fcl.<\/span><span data-f=\"input\">Codierte Aktivit\u00e4t der Geschmackszellen<\/span><span data-f=\"action\">Hirnnerven tragen das Signal zum Hirnstamm<\/span><span data-f=\"output\">Geschmackssignale erreichen die Umschaltzentren<\/span><span data-f=\"legend\">Hirnnerven<\/span><\/div><div data-i18n-step=\"brainstem-relay\"><span data-f=\"title\">Hirnstamm-Umschaltung<\/span><span data-f=\"phase\">Erste zentrale Umschaltung<\/span><span data-f=\"summary\">Der Hirnstamm ordnet die eingehenden Geschmackssignale und leitet sie nach oben weiter. Hier wird die Geschmacksinformation erstmals Teil der Verarbeitung im zentralen Nervensystem.<\/span><span data-f=\"input\">Geschmackssignale aus den Hirnnerven<\/span><span data-f=\"action\">Umschaltkerne ordnen das Signal und leiten es weiter<\/span><span data-f=\"output\">Verarbeitete Geschmacksinformation steigt zu h\u00f6heren Hirnarealen auf<\/span><span data-f=\"legend\">Hirnstamm-Umschaltung<\/span><\/div><div data-i18n-step=\"taste-perception\"><span data-f=\"title\">Geschmackswahrnehmung<\/span><span data-f=\"phase\">Aromaerlebnis<\/span><span data-f=\"summary\">Das Gehirn verbindet Geschmack mit Geruch, Textur, Temperatur, Erwartung und Ged\u00e4chtnis. Das endg\u00fcltige Erlebnis ist das Aroma, nicht der Geschmack allein.<\/span><span data-f=\"input\">Verteilte geschmacksbezogene neuronale Aktivit\u00e4t<\/span><span data-f=\"action\">Hirnnetzwerke verbinden Geschmack mit anderen sensorischen und kontextuellen Informationen<\/span><span data-f=\"output\">Ein bedeutungsvolles Aromaerlebnis<\/span><span data-f=\"legend\">Geschmackswahrnehmung<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How taste unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated taste-to-brain pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/taste-journey.webp?ver=1781985842\"                                    alt=\"A child tasting ice cream, a tongue and taste-bud cross section, cranial nerve pathways, a brainstem relay, and a highlighted taste area in the brain\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Chemical input<\/span>\n                                        <h3 data-role=\"bubble-title\">Taste stimulus<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Chemical input<\/span>\n                                <h3 data-role=\"panel-title\">Taste stimulus<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Taste journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-touch-5-7104\"\n    data-nsio-journey\n    data-sense=\"touch\" data-nsio-hidden=\"1\" data-nsio-anchor=\"touch\"    data-config=\"{&quot;kind&quot;:&quot;touch&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:941},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;contact&quot;,&quot;title&quot;:&quot;Contact&quot;,&quot;legendLines&quot;:[&quot;Contact&quot;],&quot;phase&quot;:&quot;Physical stimulus&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:245,&quot;y&quot;:595,&quot;targetX&quot;:245,&quot;targetY&quot;:595,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:245,&quot;y&quot;:595},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:245,&quot;cy&quot;:595,&quot;rx&quot;:82,&quot;ry&quot;:72},&quot;summary&quot;:&quot;Touch begins when the fingertip makes contact with a surface. Pressure, texture, and other mechanical properties begin to deform the skin.&quot;,&quot;input&quot;:&quot;A fingertip meets a textured surface&quot;,&quot;action&quot;:&quot;Physical contact creates local pressure and surface interaction&quot;,&quot;output&quot;:&quot;Mechanical change spreads into the skin&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;deformation&quot;,&quot;title&quot;:&quot;Skin deformation&quot;,&quot;legendLines&quot;:[&quot;Skin&quot;,&quot;deformation&quot;],&quot;phase&quot;:&quot;Mechanical change&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:445,&quot;y&quot;:415,&quot;targetX&quot;:445,&quot;targetY&quot;:415,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:445,&quot;y&quot;:415},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:445,&quot;cy&quot;:415,&quot;rx&quot;:95,&quot;ry&quot;:82},&quot;summary&quot;:&quot;Pressure compresses and bends the layers of skin. That deformation changes the local mechanical state around the sensory endings.&quot;,&quot;input&quot;:&quot;Pressure at the skin surface&quot;,&quot;action&quot;:&quot;Skin and tissue layers are compressed and stretched&quot;,&quot;output&quot;:&quot;Embedded receptors experience mechanical force&quot;},{&quot;num&quot;:3,&quot;slug&quot;:&quot;receptors&quot;,&quot;title&quot;:&quot;Touch receptors&quot;,&quot;legendLines&quot;:[&quot;Touch&quot;,&quot;receptors&quot;],&quot;phase&quot;:&quot;Receptor response&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:570,&quot;y&quot;:600,&quot;targetX&quot;:570,&quot;targetY&quot;:600,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:570,&quot;y&quot;:600},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:570,&quot;cy&quot;:600,&quot;rx&quot;:126,&quot;ry&quot;:130},&quot;summary&quot;:&quot;Different receptors respond to different aspects of touch. Some are tuned to light pressure, some to sustained pressure, some to vibration, and others to tissue disturbance.&quot;,&quot;input&quot;:&quot;Mechanical force reaches sensory endings&quot;,&quot;action&quot;:&quot;Specialized receptors respond according to their tuning&quot;,&quot;output&quot;:&quot;Receptor activity begins to encode the stimulus&quot;},{&quot;num&quot;:4,&quot;slug&quot;:&quot;conversion&quot;,&quot;title&quot;:&quot;Signal conversion&quot;,&quot;legendLines&quot;:[&quot;Signal&quot;,&quot;conversion&quot;],&quot;phase&quot;:&quot;Transduction&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:820,&quot;y&quot;:505,&quot;targetX&quot;:820,&quot;targetY&quot;:505,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:820,&quot;y&quot;:505},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:822,&quot;cy&quot;:508,&quot;rx&quot;:118,&quot;ry&quot;:110},&quot;summary&quot;:&quot;Mechanical force is converted into electrical nerve activity. This is the key transduction step that turns touch into a neural signal.&quot;,&quot;input&quot;:&quot;Receptors under mechanical load&quot;,&quot;action&quot;:&quot;Ion channels and receptor membranes change electrical activity&quot;,&quot;output&quot;:&quot;Sensory fibres receive coded nerve signals&quot;},{&quot;num&quot;:5,&quot;slug&quot;:&quot;peripheral-nerve&quot;,&quot;title&quot;:&quot;Peripheral nerve&quot;,&quot;legendLines&quot;:[&quot;Peripheral&quot;,&quot;nerve&quot;],&quot;phase&quot;:&quot;Signal transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1030,&quot;y&quot;:690,&quot;targetX&quot;:1035,&quot;targetY&quot;:675,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1035,&quot;y&quot;:675},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 720 648 C 820 676 927 685 1085 676&quot;,&quot;strokeWidth&quot;:86},&quot;summary&quot;:&quot;Activated sensory fibres join larger peripheral nerves. The signal now travels away from the skin toward the central nervous system.&quot;,&quot;input&quot;:&quot;Electrical activity in touch fibres&quot;,&quot;action&quot;:&quot;Peripheral axons carry the coded pattern onward&quot;,&quot;output&quot;:&quot;Signals approach the spinal cord&quot;},{&quot;num&quot;:6,&quot;slug&quot;:&quot;spinal-relay&quot;,&quot;title&quot;:&quot;Spinal relay&quot;,&quot;legendLines&quot;:[&quot;Spinal&quot;,&quot;relay&quot;],&quot;phase&quot;:&quot;Relay and routing&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1215,&quot;y&quot;:660,&quot;targetX&quot;:1215,&quot;targetY&quot;:662,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1215,&quot;y&quot;:662},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1212,&quot;cy&quot;:668,&quot;rx&quot;:165,&quot;ry&quot;:155},&quot;summary&quot;:&quot;The spinal cord receives incoming sensory information and routes it upward. It can also participate in rapid protective responses before conscious perception.&quot;,&quot;input&quot;:&quot;Incoming sensory nerve impulses&quot;,&quot;action&quot;:&quot;Signals enter spinal pathways and relay circuits&quot;,&quot;output&quot;:&quot;Information ascends toward the brain&quot;},{&quot;num&quot;:7,&quot;slug&quot;:&quot;ascending-pathway&quot;,&quot;title&quot;:&quot;Ascending pathway&quot;,&quot;legendLines&quot;:[&quot;Ascending&quot;,&quot;pathway&quot;],&quot;phase&quot;:&quot;Long-range transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1380,&quot;y&quot;:510,&quot;targetX&quot;:1380,&quot;targetY&quot;:510,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1380,&quot;y&quot;:510},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 1265 620 C 1320 592 1362 538 1420 436 C 1450 382 1464 344 1469 310&quot;,&quot;strokeWidth&quot;:88},&quot;summary&quot;:&quot;Ascending sensory pathways carry the signal toward higher processing centres. The brain receives a structured pattern, not a vague general sensation.&quot;,&quot;input&quot;:&quot;Routed spinal sensory activity&quot;,&quot;action&quot;:&quot;Long tracts carry the touch code toward cortex&quot;,&quot;output&quot;:&quot;Cortical touch areas receive organized input&quot;},{&quot;num&quot;:8,&quot;slug&quot;:&quot;somatosensory-cortex&quot;,&quot;title&quot;:&quot;Somatosensory cortex&quot;,&quot;legendLines&quot;:[&quot;Somato-&quot;,&quot;sensory cor\\u00adtex&quot;],&quot;phase&quot;:&quot;Perceptual interpretation&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1430,&quot;y&quot;:270,&quot;targetX&quot;:1430,&quot;targetY&quot;:270,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1430,&quot;y&quot;:270},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1432,&quot;cy&quot;:270,&quot;rx&quot;:175,&quot;ry&quot;:160},&quot;summary&quot;:&quot;Somatosensory cortex helps build the experience of touch: where something touched you, how strong it was, how it felt, and what it may mean in context.&quot;,&quot;input&quot;:&quot;Distributed touch-related neural activity&quot;,&quot;action&quot;:&quot;Cortical networks interpret location, intensity, and texture&quot;,&quot;output&quot;:&quot;A meaningful tactile experience&quot;}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie Tasten entsteht<\/span><span data-i18n=\"imageAlt\">Ein Tastreiz an der Fingerspitze, der durch Hautrezeptoren, periphere Nerven, das R\u00fcckenmark und die somatosensorischen Areale des Gehirns verl\u00e4uft<\/span><span data-i18n=\"stageLabel\">Animierter Weg von der Ber\u00fchrung zum Gehirn<\/span><span data-i18n=\"legendLabel\">Schritte der Tast-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"contact\"><span data-f=\"title\">Kontakt<\/span><span data-f=\"phase\">Physikalischer Reiz<\/span><span data-f=\"summary\">Tasten beginnt, wenn die Fingerspitze eine Oberfl\u00e4che ber\u00fchrt. Druck, Textur und andere mechanische Eigenschaften beginnen, die Haut zu verformen.<\/span><span data-f=\"input\">Eine Fingerspitze trifft auf eine strukturierte Oberfl\u00e4che<\/span><span data-f=\"action\">Der physische Kontakt erzeugt \u00f6rtlichen Druck und Wechselwirkung mit der Oberfl\u00e4che<\/span><span data-f=\"output\">Die mechanische Ver\u00e4nderung breitet sich in die Haut aus<\/span><span data-f=\"legend\">Kontakt<\/span><\/div><div data-i18n-step=\"deformation\"><span data-f=\"title\">Hautverformung<\/span><span data-f=\"phase\">Mechanische Ver\u00e4nderung<\/span><span data-f=\"summary\">Druck staucht und biegt die Hautschichten. Diese Verformung ver\u00e4ndert den \u00f6rtlichen mechanischen Zustand rund um die Sinnesenden.<\/span><span data-f=\"input\">Druck an der Hautoberfl\u00e4che<\/span><span data-f=\"action\">Haut- und Gewebeschichten werden gestaucht und gedehnt<\/span><span data-f=\"output\">Eingebettete Rezeptoren erfahren mechanische Kraft<\/span><span data-f=\"legend\">Hautverformung<\/span><\/div><div data-i18n-step=\"receptors\"><span data-f=\"title\">Tastrezeptoren<\/span><span data-f=\"phase\">Rezeptorantwort<\/span><span data-f=\"summary\">Verschiedene Rezeptoren reagieren auf verschiedene Aspekte der Ber\u00fchrung. Einige sind auf leichten Druck abgestimmt, einige auf anhaltenden Druck, einige auf Vibration und andere auf Gewebereizung.<\/span><span data-f=\"input\">Mechanische Kraft erreicht die Sinnesenden<\/span><span data-f=\"action\">Spezialisierte Rezeptoren reagieren gem\u00e4\u00df ihrer Abstimmung<\/span><span data-f=\"output\">Die Rezeptoraktivit\u00e4t beginnt, den Reiz zu codieren<\/span><span data-f=\"legend\">Tastrezeptoren<\/span><\/div><div data-i18n-step=\"conversion\"><span data-f=\"title\">Signalumwandlung<\/span><span data-f=\"phase\">Transduktion<\/span><span data-f=\"summary\">Mechanische Kraft wird in elektrische Nervenaktivit\u00e4t umgewandelt. Dies ist der entscheidende Transduktionsschritt, der Ber\u00fchrung in ein neuronales Signal verwandelt.<\/span><span data-f=\"input\">Rezeptoren unter mechanischer Last<\/span><span data-f=\"action\">Ionenkan\u00e4le und Rezeptormembranen ver\u00e4ndern die elektrische Aktivit\u00e4t<\/span><span data-f=\"output\">Sinnesfasern empfangen codierte Nervensignale<\/span><span data-f=\"legend\">Signalumwandlung<\/span><\/div><div data-i18n-step=\"peripheral-nerve\"><span data-f=\"title\">Peripherer Nerv<\/span><span data-f=\"phase\">Signal\u00fcbertragung<\/span><span data-f=\"summary\">Aktivierte Sinnesfasern schlie\u00dfen sich zu gr\u00f6\u00dferen peripheren Nerven zusammen. Das Signal wandert nun von der Haut weg zum zentralen Nervensystem.<\/span><span data-f=\"input\">Elektrische Aktivit\u00e4t in den Tastfasern<\/span><span data-f=\"action\">Periphere Axone tragen das codierte Muster weiter<\/span><span data-f=\"output\">Signale n\u00e4hern sich dem R\u00fcckenmark<\/span><span data-f=\"legend\">Peripherer Nerv<\/span><\/div><div data-i18n-step=\"spinal-relay\"><span data-f=\"title\">Spinale Umschaltung<\/span><span data-f=\"phase\">Umschalten und Weiterleiten<\/span><span data-f=\"summary\">Das R\u00fcckenmark empf\u00e4ngt die eingehende Sinnesinformation und leitet sie nach oben. Es kann auch an schnellen Schutzreaktionen beteiligt sein, noch vor der bewussten Wahrnehmung.<\/span><span data-f=\"input\">Eingehende sensorische Nervenimpulse<\/span><span data-f=\"action\">Signale gelangen in R\u00fcckenmarksbahnen und Umschaltkreise<\/span><span data-f=\"output\">Information steigt zum Gehirn auf<\/span><span data-f=\"legend\">Spinale Umschaltung<\/span><\/div><div data-i18n-step=\"ascending-pathway\"><span data-f=\"title\">Aufsteigende Bahn<\/span><span data-f=\"phase\">Weitreichende \u00dcbertragung<\/span><span data-f=\"summary\">Aufsteigende Sinnesbahnen tragen das Signal zu h\u00f6heren Verarbeitungszentren. Das Gehirn empf\u00e4ngt ein strukturiertes Muster, keine vage allgemeine Empfindung.<\/span><span data-f=\"input\">Weitergeleitete sensorische Aktivit\u00e4t des R\u00fcckenmarks<\/span><span data-f=\"action\">Lange Bahnen tragen den Tastcode zum Kortex<\/span><span data-f=\"output\">Kortikale Tastareale empfangen geordnete Eingaben<\/span><span data-f=\"legend\">Aufsteigende Bahn<\/span><\/div><div data-i18n-step=\"somatosensory-cortex\"><span data-f=\"title\">Somatosensorischer Kortex<\/span><span data-f=\"phase\">Wahrnehmungsdeutung<\/span><span data-f=\"summary\">Der somatosensorische Kortex hilft, das Tasterlebnis aufzubauen: wo etwas dich ber\u00fchrt hat, wie stark es war, wie es sich anf\u00fchlte und was es im Kontext bedeuten k\u00f6nnte.<\/span><span data-f=\"input\">Verteilte tastbezogene neuronale Aktivit\u00e4t<\/span><span data-f=\"action\">Kortikale Netzwerke deuten Ort, Intensit\u00e4t und Textur<\/span><span data-f=\"output\">Ein bedeutungsvolles Tasterlebnis<\/span><span data-f=\"legend\">Somatosensorischer Kortex<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How touch unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated touch-to-brain pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/touch-journey.webp?ver=1781985842\"                                    alt=\"A touch stimulus at the fingertip passing through skin receptors, peripheral nerves, the spinal cord, and somatosensory areas of the brain\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Physical stimulus<\/span>\n                                        <h3 data-role=\"bubble-title\">Contact<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Physical stimulus<\/span>\n                                <h3 data-role=\"panel-title\">Contact<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Touch journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-vestibular-6-8816\"\n    data-nsio-journey\n    data-sense=\"vestibular\" data-nsio-hidden=\"1\" data-nsio-anchor=\"balance vestibular\"    data-config=\"{&quot;kind&quot;:&quot;vestibular&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:941},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;head-motion&quot;,&quot;title&quot;:&quot;Head movement&quot;,&quot;legendLines&quot;:[&quot;Head&quot;,&quot;movement&quot;],&quot;phase&quot;:&quot;Motion input&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:240,&quot;y&quot;:330,&quot;targetX&quot;:240,&quot;targetY&quot;:330,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:240,&quot;y&quot;:330},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:238,&quot;cy&quot;:330,&quot;rx&quot;:120,&quot;ry&quot;:130},&quot;summary&quot;:&quot;The vestibular journey begins when the head changes position or moves through space. The system tracks rotation, tilt, gravity, and acceleration.&quot;,&quot;input&quot;:&quot;Head position and movement&quot;,&quot;action&quot;:&quot;Motion changes the forces acting on the inner ear&quot;,&quot;output&quot;:&quot;Balance organs are mechanically stimulated&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;semicircular-canals&quot;,&quot;title&quot;:&quot;Semicircular canals&quot;,&quot;legendLines&quot;:[&quot;Semi-&quot;,&quot;circular canals&quot;],&quot;phase&quot;:&quot;Rotation sensing&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:655,&quot;y&quot;:275,&quot;targetX&quot;:655,&quot;targetY&quot;:275,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:655,&quot;y&quot;:275},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:655,&quot;cy&quot;:278,&quot;rx&quot;:160,&quot;ry&quot;:145},&quot;summary&quot;:&quot;The three semicircular canals are arranged in different planes. They are especially sensitive to rotational head movement.&quot;,&quot;input&quot;:&quot;Rotational acceleration of the head&quot;,&quot;action&quot;:&quot;Fluid motion shifts inside the canal system&quot;,&quot;output&quot;:&quot;Rotation-specific signals begin to form&quot;},{&quot;num&quot;:3,&quot;slug&quot;:&quot;otolith-organs&quot;,&quot;title&quot;:&quot;Otolith organs&quot;,&quot;legendLines&quot;:[&quot;Otolith&quot;,&quot;organs&quot;],&quot;phase&quot;:&quot;Gravity and linear motion&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:780,&quot;y&quot;:455,&quot;targetX&quot;:780,&quot;targetY&quot;:455,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:780,&quot;y&quot;:455},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:780,&quot;cy&quot;:455,&quot;rx&quot;:120,&quot;ry&quot;:95},&quot;summary&quot;:&quot;The utricle and saccule detect head tilt, gravity, and straight-line acceleration. Tiny crystals add weight so the sensory surface shifts with orientation.&quot;,&quot;input&quot;:&quot;Tilt, gravity, or linear acceleration&quot;,&quot;action&quot;:&quot;Otolith membranes shift relative to sensory cells&quot;,&quot;output&quot;:&quot;The system encodes direction and pull&quot;},{&quot;num&quot;:4,&quot;slug&quot;:&quot;fluid-motion&quot;,&quot;title&quot;:&quot;Inner-ear fluid&quot;,&quot;legendLines&quot;:[&quot;Inner-ear&quot;,&quot;fluid&quot;],&quot;phase&quot;:&quot;Mechanical displacement&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:565,&quot;y&quot;:405,&quot;targetX&quot;:565,&quot;targetY&quot;:405,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:565,&quot;y&quot;:405},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 520 405 C 585 350 672 360 740 432&quot;,&quot;strokeWidth&quot;:90},&quot;summary&quot;:&quot;Vestibular motion is first represented mechanically. Fluid and membranes shift slightly behind head movement, bending sensory structures.&quot;,&quot;input&quot;:&quot;Head movement and inertia&quot;,&quot;action&quot;:&quot;Fluid and membranes lag, flow, or slide&quot;,&quot;output&quot;:&quot;Hair bundles are deflected&quot;},{&quot;num&quot;:5,&quot;slug&quot;:&quot;hair-cell-bending&quot;,&quot;title&quot;:&quot;Hair-cell bending&quot;,&quot;legendLines&quot;:[&quot;Hair-cell&quot;,&quot;bending&quot;],&quot;phase&quot;:&quot;Transduction&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:850,&quot;y&quot;:700,&quot;targetX&quot;:850,&quot;targetY&quot;:700,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:850,&quot;y&quot;:700},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:850,&quot;cy&quot;:700,&quot;rx&quot;:150,&quot;ry&quot;:115},&quot;summary&quot;:&quot;Vestibular hair cells convert bending into electrical activity. This is the key step where mechanical motion becomes a neural code.&quot;,&quot;input&quot;:&quot;Deflected hair bundles&quot;,&quot;action&quot;:&quot;Cell activity changes as the bundles bend&quot;,&quot;output&quot;:&quot;Vestibular nerve fibres receive coded signals&quot;},{&quot;num&quot;:6,&quot;slug&quot;:&quot;vestibular-nerve&quot;,&quot;title&quot;:&quot;Vestibular nerve&quot;,&quot;legendLines&quot;:[&quot;Vestibular&quot;,&quot;nerve&quot;],&quot;phase&quot;:&quot;Neural transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:990,&quot;y&quot;:415,&quot;targetX&quot;:990,&quot;targetY&quot;:415,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:990,&quot;y&quot;:415},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 820 425 C 910 420 995 420 1125 450&quot;,&quot;strokeWidth&quot;:86},&quot;summary&quot;:&quot;The vestibular nerve carries patterns from the balance organs. It encodes movement and orientation rather than sound.&quot;,&quot;input&quot;:&quot;Hair-cell-driven neural activity&quot;,&quot;action&quot;:&quot;Nerve fibres transmit the vestibular code&quot;,&quot;output&quot;:&quot;Signals travel toward brainstem and cerebellum&quot;},{&quot;num&quot;:7,&quot;slug&quot;:&quot;brainstem-cerebellum&quot;,&quot;title&quot;:&quot;Brainstem and cerebellum&quot;,&quot;legendLines&quot;:[&quot;Brainstem &amp;&quot;,&quot;cerebellum&quot;],&quot;phase&quot;:&quot;Coordination relay&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1290,&quot;y&quot;:455,&quot;targetX&quot;:1290,&quot;targetY&quot;:455,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1290,&quot;y&quot;:455},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1295,&quot;cy&quot;:455,&quot;rx&quot;:180,&quot;ry&quot;:160},&quot;summary&quot;:&quot;Vestibular signals are integrated in the brainstem and cerebellum. These areas help stabilize gaze, posture, and coordinated movement.&quot;,&quot;input&quot;:&quot;Incoming vestibular nerve signals&quot;,&quot;action&quot;:&quot;Relay circuits compare vestibular input with motor and body-state signals&quot;,&quot;output&quot;:&quot;Postural, eye-movement, and orientation responses are coordinated&quot;},{&quot;num&quot;:8,&quot;slug&quot;:&quot;balance-orientation&quot;,&quot;title&quot;:&quot;Balance and orientation&quot;,&quot;legendLines&quot;:[&quot;Balance &amp;&quot;,&quot;orientation&quot;],&quot;phase&quot;:&quot;Spatial awareness&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1415,&quot;y&quot;:285,&quot;targetX&quot;:1415,&quot;targetY&quot;:285,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1415,&quot;y&quot;:285},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1415,&quot;cy&quot;:285,&quot;rx&quot;:170,&quot;ry&quot;:145},&quot;summary&quot;:&quot;The brain combines vestibular input with vision, proprioception, and motor commands to maintain balance and understand body orientation.&quot;,&quot;input&quot;:&quot;Integrated motion and orientation signals&quot;,&quot;action&quot;:&quot;Brain networks build a stable body-in-space model&quot;,&quot;output&quot;:&quot;Balance, gaze stability, and spatial orientation&quot;}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie Gleichgewicht entsteht<\/span><span data-i18n=\"imageAlt\">Eine \u00e4ltere s\u00fcdasiatische Frau dreht den Kopf, die Gleichgewichtsorgane des Innenohrs, ein Haarzell-Detail und Gleichgewichtsbahnen zu Hirnstamm und Kleinhirn<\/span><span data-i18n=\"stageLabel\">Animierter Gleichgewichts- und Vestibularweg<\/span><span data-i18n=\"legendLabel\">Schritte der Gleichgewichts-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"head-motion\"><span data-f=\"title\">Kopfbewegung<\/span><span data-f=\"phase\">Bewegungseingang<\/span><span data-f=\"summary\">Die vestibul\u00e4re Reise beginnt, wenn der Kopf seine Lage \u00e4ndert oder sich durch den Raum bewegt. Das System erfasst Drehung, Neigung, Schwerkraft und Beschleunigung.<\/span><span data-f=\"input\">Kopfhaltung und -bewegung<\/span><span data-f=\"action\">Bewegung ver\u00e4ndert die auf das Innenohr wirkenden Kr\u00e4fte<\/span><span data-f=\"output\">Die Gleichgewichtsorgane werden mechanisch gereizt<\/span><span data-f=\"legend\">Kopfbewegung<\/span><\/div><div data-i18n-step=\"semicircular-canals\"><span data-f=\"title\">Bogeng\u00e4nge<\/span><span data-f=\"phase\">Drehwahrnehmung<\/span><span data-f=\"summary\">Die drei Bogeng\u00e4nge sind in verschiedenen Ebenen angeordnet. Sie sind besonders empfindlich f\u00fcr Drehbewegungen des Kopfes.<\/span><span data-f=\"input\">Drehbeschleunigung des Kopfes<\/span><span data-f=\"action\">Die Fl\u00fcssigkeit bewegt sich im Kanalsystem<\/span><span data-f=\"output\">Drehspezifische Signale beginnen sich zu bilden<\/span><span data-f=\"legend\">Bogeng\u00e4nge<\/span><\/div><div data-i18n-step=\"otolith-organs\"><span data-f=\"title\">Otolithenorgane<\/span><span data-f=\"phase\">Schwerkraft und lineare Bewegung<\/span><span data-f=\"summary\">Utriculus und Sacculus erfassen Kopfneigung, Schwerkraft und geradlinige Beschleunigung. Winzige Kristalle verleihen Gewicht, sodass sich die Sinnesfl\u00e4che mit der Ausrichtung verschiebt.<\/span><span data-f=\"input\">Neigung, Schwerkraft oder lineare Beschleunigung<\/span><span data-f=\"action\">Die Otolithenmembranen verschieben sich gegen\u00fcber den Sinneszellen<\/span><span data-f=\"output\">Das System codiert Richtung und Zug<\/span><span data-f=\"legend\">Otolithenorgane<\/span><\/div><div data-i18n-step=\"fluid-motion\"><span data-f=\"title\">Innenohrfl\u00fcssigkeit<\/span><span data-f=\"phase\">Mechanische Verschiebung<\/span><span data-f=\"summary\">Vestibul\u00e4re Bewegung wird zun\u00e4chst mechanisch abgebildet. Fl\u00fcssigkeit und Membranen folgen der Kopfbewegung leicht verz\u00f6gert und biegen dabei die Sinnesstrukturen.<\/span><span data-f=\"input\">Kopfbewegung und Tr\u00e4gheit<\/span><span data-f=\"action\">Fl\u00fcssigkeit und Membranen hinken nach, str\u00f6men oder gleiten<\/span><span data-f=\"output\">Die Haarb\u00fcndel werden ausgelenkt<\/span><span data-f=\"legend\">Innenohrfl\u00fcssigkeit<\/span><\/div><div data-i18n-step=\"hair-cell-bending\"><span data-f=\"title\">Haarzellauslenkung<\/span><span data-f=\"phase\">Transduktion<\/span><span data-f=\"summary\">Vestibul\u00e4re Haarzellen wandeln die Auslenkung in elektrische Aktivit\u00e4t um. Dies ist der entscheidende Schritt, in dem mechanische Bewegung zum neuronalen Code wird.<\/span><span data-f=\"input\">Ausgelenkte Haarb\u00fcndel<\/span><span data-f=\"action\">Die Zellaktivit\u00e4t \u00e4ndert sich, wenn sich die B\u00fcndel biegen<\/span><span data-f=\"output\">Fasern des Gleichgewichtsnervs empfangen codierte Signale<\/span><span data-f=\"legend\">Haarzellauslenkung<\/span><\/div><div data-i18n-step=\"vestibular-nerve\"><span data-f=\"title\">Gleichgewichtsnerv<\/span><span data-f=\"phase\">Neuronale Weiterleitung<\/span><span data-f=\"summary\">Der Gleichgewichtsnerv \u00fcbertr\u00e4gt Muster aus den Gleichgewichtsorganen. Er codiert Bewegung und Ausrichtung, nicht Schall.<\/span><span data-f=\"input\">Von Haarzellen ausgel\u00f6ste neuronale Aktivit\u00e4t<\/span><span data-f=\"action\">Nervenfasern \u00fcbertragen den vestibul\u00e4ren Code<\/span><span data-f=\"output\">Signale wandern zu Hirnstamm und Kleinhirn<\/span><span data-f=\"legend\">Gleichgewichtsnerv<\/span><\/div><div data-i18n-step=\"brainstem-cerebellum\"><span data-f=\"title\">Hirnstamm und Kleinhirn<\/span><span data-f=\"phase\">Koordinationsumschaltung<\/span><span data-f=\"summary\">Vestibul\u00e4re Signale werden im Hirnstamm und Kleinhirn zusammengef\u00fchrt. Diese Areale helfen, Blick, Haltung und koordinierte Bewegung zu stabilisieren.<\/span><span data-f=\"input\">Eingehende Signale des Gleichgewichtsnervs<\/span><span data-f=\"action\">Umschaltkreise vergleichen den vestibul\u00e4ren Eingang mit motorischen und k\u00f6rperbezogenen Signalen<\/span><span data-f=\"output\">Haltungs-, Augenbewegungs- und Orientierungsreaktionen werden koordiniert<\/span><span data-f=\"legend\">Hirnstamm &amp; Kleinhirn<\/span><\/div><div data-i18n-step=\"balance-orientation\"><span data-f=\"title\">Gleichgewicht und Orientierung<\/span><span data-f=\"phase\">R\u00e4umliches Bewusstsein<\/span><span data-f=\"summary\">Das Gehirn verbindet den vestibul\u00e4ren Eingang mit Sehen, Propriozeption und motorischen Befehlen, um das Gleichgewicht zu halten und die K\u00f6rperausrichtung zu verstehen.<\/span><span data-f=\"input\">Zusammengef\u00fchrte Bewegungs- und Orientierungssignale<\/span><span data-f=\"action\">Hirnnetzwerke bauen ein stabiles Modell des K\u00f6rpers im Raum auf<\/span><span data-f=\"output\">Gleichgewicht, Blickstabilit\u00e4t und r\u00e4umliche Orientierung<\/span><span data-f=\"legend\">Gleichgewicht &amp; Orientierung<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How balance unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated balance and vestibular pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/vestibular-journey.webp?ver=1781985842\"                                    alt=\"An elderly South Asian woman turning her head, the vestibular organs of the inner ear, hair-cell detail, and balance pathways to the brainstem and cerebellum\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Motion input<\/span>\n                                        <h3 data-role=\"bubble-title\">Head movement<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Motion input<\/span>\n                                <h3 data-role=\"panel-title\">Head movement<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Balance journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-proprioception-7-7799\"\n    data-nsio-journey\n    data-sense=\"proprioception\" data-nsio-hidden=\"1\" data-nsio-anchor=\"body-position proprioception\"    data-config=\"{&quot;kind&quot;:&quot;proprioception&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:941},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;reaching-movement&quot;,&quot;title&quot;:&quot;Reaching movement&quot;,&quot;legendLines&quot;:[&quot;Reaching&quot;,&quot;movement&quot;],&quot;phase&quot;:&quot;Body movement&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:330,&quot;y&quot;:250,&quot;targetX&quot;:330,&quot;targetY&quot;:250,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:330,&quot;y&quot;:250},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:330,&quot;cy&quot;:250,&quot;rx&quot;:150,&quot;ry&quot;:130},&quot;summary&quot;:&quot;Proprioception begins as the body moves. The brain needs continuous information about where the arm, hand, and joints are, even without looking.&quot;,&quot;input&quot;:&quot;An arm reaches into space&quot;,&quot;action&quot;:&quot;Muscles, tendons, and joints change position&quot;,&quot;output&quot;:&quot;Body tissues begin producing position information&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;muscle-stretch&quot;,&quot;title&quot;:&quot;Muscle stretch&quot;,&quot;legendLines&quot;:[&quot;Muscle&quot;,&quot;stretch&quot;],&quot;phase&quot;:&quot;Length sensing&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:600,&quot;y&quot;:380,&quot;targetX&quot;:600,&quot;targetY&quot;:380,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:600,&quot;y&quot;:380},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:600,&quot;cy&quot;:380,&quot;rx&quot;:160,&quot;ry&quot;:110},&quot;summary&quot;:&quot;As the arm moves, muscles lengthen and shorten. Stretch-sensitive receptors help track how much the muscle has changed.&quot;,&quot;input&quot;:&quot;Changing muscle length&quot;,&quot;action&quot;:&quot;Stretch receptors respond to length and rate of change&quot;,&quot;output&quot;:&quot;Muscle-length information enters sensory fibres&quot;},{&quot;num&quot;:3,&quot;slug&quot;:&quot;tendon-tension&quot;,&quot;title&quot;:&quot;Tendon tension&quot;,&quot;legendLines&quot;:[&quot;Tendon&quot;,&quot;tension&quot;],&quot;phase&quot;:&quot;Force sensing&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:810,&quot;y&quot;:465,&quot;targetX&quot;:810,&quot;targetY&quot;:465,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:810,&quot;y&quot;:465},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:810,&quot;cy&quot;:465,&quot;rx&quot;:140,&quot;ry&quot;:95},&quot;summary&quot;:&quot;Tendons transmit force from muscle to bone. Tension-sensitive receptors help estimate how much force is being produced.&quot;,&quot;input&quot;:&quot;Force transmitted through tendons&quot;,&quot;action&quot;:&quot;Tendon receptors respond to load&quot;,&quot;output&quot;:&quot;Force information joins the movement signal&quot;},{&quot;num&quot;:4,&quot;slug&quot;:&quot;joint-position&quot;,&quot;title&quot;:&quot;Joint position&quot;,&quot;legendLines&quot;:[&quot;Joint&quot;,&quot;position&quot;],&quot;phase&quot;:&quot;Angle sensing&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:500,&quot;y&quot;:520,&quot;targetX&quot;:500,&quot;targetY&quot;:520,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:500,&quot;y&quot;:520},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:500,&quot;cy&quot;:520,&quot;rx&quot;:145,&quot;ry&quot;:120},&quot;summary&quot;:&quot;Joint position changes as the arm reaches. Signals from the joint region help define limb angle and direction of movement.&quot;,&quot;input&quot;:&quot;Changing joint angle&quot;,&quot;action&quot;:&quot;Joint and surrounding tissues register position&quot;,&quot;output&quot;:&quot;The nervous system receives limb-geometry cues&quot;},{&quot;num&quot;:5,&quot;slug&quot;:&quot;receptor-activation&quot;,&quot;title&quot;:&quot;Receptor activation&quot;,&quot;legendLines&quot;:[&quot;Receptor&quot;,&quot;activation&quot;],&quot;phase&quot;:&quot;Transduction&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:865,&quot;y&quot;:705,&quot;targetX&quot;:865,&quot;targetY&quot;:705,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:865,&quot;y&quot;:705},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:865,&quot;cy&quot;:705,&quot;rx&quot;:165,&quot;ry&quot;:118},&quot;summary&quot;:&quot;Muscle spindles, tendon organs, and joint receptors convert mechanical changes into electrical activity. This is the key proprioceptive transduction step.&quot;,&quot;input&quot;:&quot;Stretch, tension, and joint-position changes&quot;,&quot;action&quot;:&quot;Specialized receptors convert mechanics into neural signals&quot;,&quot;output&quot;:&quot;Peripheral nerves carry coded body-position information&quot;},{&quot;num&quot;:6,&quot;slug&quot;:&quot;spinal-entry&quot;,&quot;title&quot;:&quot;Spinal pathway&quot;,&quot;legendLines&quot;:[&quot;Spinal&quot;,&quot;pathway&quot;],&quot;phase&quot;:&quot;Sensory routing&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1225,&quot;y&quot;:690,&quot;targetX&quot;:1225,&quot;targetY&quot;:690,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1225,&quot;y&quot;:690},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1225,&quot;cy&quot;:690,&quot;rx&quot;:145,&quot;ry&quot;:125},&quot;summary&quot;:&quot;Proprioceptive fibres enter the spinal cord. Some information supports fast reflex control, while other signals ascend toward the brain.&quot;,&quot;input&quot;:&quot;Peripheral proprioceptive nerve activity&quot;,&quot;action&quot;:&quot;Signals enter spinal pathways and reflex circuits&quot;,&quot;output&quot;:&quot;Movement information is routed upward and locally&quot;},{&quot;num&quot;:7,&quot;slug&quot;:&quot;cerebellum-cortex&quot;,&quot;title&quot;:&quot;Cerebellum and cortex&quot;,&quot;legendLines&quot;:[&quot;Cerebellum&quot;,&quot;&amp; cor\\u00adtex&quot;],&quot;phase&quot;:&quot;Movement integration&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1415,&quot;y&quot;:360,&quot;targetX&quot;:1415,&quot;targetY&quot;:360,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1415,&quot;y&quot;:360},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1415,&quot;cy&quot;:360,&quot;rx&quot;:180,&quot;ry&quot;:155},&quot;summary&quot;:&quot;The cerebellum and cortical areas compare proprioceptive input with motor plans. This supports coordinated movement and correction.&quot;,&quot;input&quot;:&quot;Ascending body-position and movement signals&quot;,&quot;action&quot;:&quot;Brain networks compare position, movement, and intended action&quot;,&quot;output&quot;:&quot;The movement model is updated continuously&quot;},{&quot;num&quot;:8,&quot;slug&quot;:&quot;body-position-awareness&quot;,&quot;title&quot;:&quot;Body-position awareness&quot;,&quot;legendLines&quot;:[&quot;Body-position&quot;,&quot;awareness&quot;],&quot;phase&quot;:&quot;Internal body map&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1460,&quot;y&quot;:245,&quot;targetX&quot;:1460,&quot;targetY&quot;:245,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1460,&quot;y&quot;:245},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1460,&quot;cy&quot;:245,&quot;rx&quot;:170,&quot;ry&quot;:135},&quot;summary&quot;:&quot;The brain builds a usable sense of where the body is. This allows precise movement even when vision is limited or absent.&quot;,&quot;input&quot;:&quot;Integrated proprioceptive activity&quot;,&quot;action&quot;:&quot;Body maps represent limb position and movement&quot;,&quot;output&quot;:&quot;A stable sense of body position&quot;}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie K\u00f6rperposition entsteht<\/span><span data-i18n=\"imageAlt\">Eine Person greift nach vorn, ein Anatomie-Schnittbild des Arms mit Muskeln, Sehnen, Gelenken und Sinnesrezeptoren, Bahnen zu R\u00fcckenmark, Kleinhirn und Kortex<\/span><span data-i18n=\"stageLabel\">Animierter Propriozeptionsweg<\/span><span data-i18n=\"legendLabel\">Schritte der K\u00f6rperpositions-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"reaching-movement\"><span data-f=\"title\">Greifbewegung<\/span><span data-f=\"phase\">K\u00f6rperbewegung<\/span><span data-f=\"summary\">Propriozeption beginnt, sobald sich der K\u00f6rper bewegt. Das Gehirn braucht fortlaufend Information dar\u00fcber, wo sich Arm, Hand und Gelenke befinden \u2013 auch ohne hinzusehen.<\/span><span data-f=\"input\">Ein Arm greift in den Raum<\/span><span data-f=\"action\">Muskeln, Sehnen und Gelenke ver\u00e4ndern ihre Lage<\/span><span data-f=\"output\">Das K\u00f6rpergewebe beginnt, Lageinformation zu erzeugen<\/span><span data-f=\"legend\">Greifbewegung<\/span><\/div><div data-i18n-step=\"muscle-stretch\"><span data-f=\"title\">Muskeldehnung<\/span><span data-f=\"phase\">L\u00e4ngenwahrnehmung<\/span><span data-f=\"summary\">Wenn sich der Arm bewegt, verl\u00e4ngern und verk\u00fcrzen sich die Muskeln. Dehnungsempfindliche Rezeptoren erfassen, wie stark sich der Muskel ver\u00e4ndert hat.<\/span><span data-f=\"input\">Sich \u00e4ndernde Muskell\u00e4nge<\/span><span data-f=\"action\">Dehnungsrezeptoren reagieren auf L\u00e4nge und \u00c4nderungsgeschwindigkeit<\/span><span data-f=\"output\">Information zur Muskell\u00e4nge gelangt in die Sinnesfasern<\/span><span data-f=\"legend\">Muskeldehnung<\/span><\/div><div data-i18n-step=\"tendon-tension\"><span data-f=\"title\">Sehnenspannung<\/span><span data-f=\"phase\">Kraftwahrnehmung<\/span><span data-f=\"summary\">Sehnen \u00fcbertragen Kraft vom Muskel auf den Knochen. Spannungsempfindliche Rezeptoren helfen abzusch\u00e4tzen, wie viel Kraft erzeugt wird.<\/span><span data-f=\"input\">Durch die Sehnen \u00fcbertragene Kraft<\/span><span data-f=\"action\">Sehnenrezeptoren reagieren auf die Last<\/span><span data-f=\"output\">Krafteinformation erg\u00e4nzt das Bewegungssignal<\/span><span data-f=\"legend\">Sehnenspannung<\/span><\/div><div data-i18n-step=\"joint-position\"><span data-f=\"title\">Gelenkstellung<\/span><span data-f=\"phase\">Winkelwahrnehmung<\/span><span data-f=\"summary\">Die Gelenkstellung \u00e4ndert sich beim Greifen. Signale aus der Gelenkregion helfen, den Gliedma\u00dfenwinkel und die Bewegungsrichtung zu bestimmen.<\/span><span data-f=\"input\">Sich \u00e4ndernder Gelenkwinkel<\/span><span data-f=\"action\">Gelenk und umliegendes Gewebe erfassen die Stellung<\/span><span data-f=\"output\">Das Nervensystem erh\u00e4lt Hinweise zur Gliedma\u00dfengeometrie<\/span><span data-f=\"legend\">Gelenkstellung<\/span><\/div><div data-i18n-step=\"receptor-activation\"><span data-f=\"title\">Rezeptoraktivierung<\/span><span data-f=\"phase\">Transduktion<\/span><span data-f=\"summary\">Muskelspindeln, Sehnenorgane und Gelenkrezeptoren wandeln mechanische Ver\u00e4nderungen in elektrische Aktivit\u00e4t um. Dies ist der entscheidende propriozeptive Transduktionsschritt.<\/span><span data-f=\"input\">\u00c4nderungen von Dehnung, Spannung und Gelenkstellung<\/span><span data-f=\"action\">Spezialisierte Rezeptoren wandeln Mechanik in neuronale Signale um<\/span><span data-f=\"output\">Periphere Nerven tragen codierte Information zur K\u00f6rperposition<\/span><span data-f=\"legend\">Rezeptoraktivierung<\/span><\/div><div data-i18n-step=\"spinal-entry\"><span data-f=\"title\">R\u00fcckenmarksbahn<\/span><span data-f=\"phase\">Sensorische Weiterleitung<\/span><span data-f=\"summary\">Propriozeptive Fasern treten in das R\u00fcckenmark ein. Ein Teil der Information unterst\u00fctzt schnelle Reflexsteuerung, w\u00e4hrend andere Signale zum Gehirn aufsteigen.<\/span><span data-f=\"input\">Periphere propriozeptive Nervenaktivit\u00e4t<\/span><span data-f=\"action\">Signale gelangen in R\u00fcckenmarksbahnen und Reflexkreise<\/span><span data-f=\"output\">Bewegungsinformation wird nach oben und \u00f6rtlich weitergeleitet<\/span><span data-f=\"legend\">R\u00fcckenmarksbahn<\/span><\/div><div data-i18n-step=\"cerebellum-cortex\"><span data-f=\"title\">Kleinhirn und Kortex<\/span><span data-f=\"phase\">Bewegungsintegration<\/span><span data-f=\"summary\">Das Kleinhirn und kortikale Areale vergleichen den propriozeptiven Eingang mit den Bewegungspl\u00e4nen. Das unterst\u00fctzt koordinierte Bewegung und Korrektur.<\/span><span data-f=\"input\">Aufsteigende Signale zu K\u00f6rperposition und Bewegung<\/span><span data-f=\"action\">Hirnnetzwerke vergleichen Position, Bewegung und beabsichtigte Handlung<\/span><span data-f=\"output\">Das Bewegungsmodell wird fortlaufend aktualisiert<\/span><span data-f=\"legend\">Kleinhirn &amp; Kortex<\/span><\/div><div data-i18n-step=\"body-position-awareness\"><span data-f=\"title\">K\u00f6rperpositionsbewusstsein<\/span><span data-f=\"phase\">Innere K\u00f6rperkarte<\/span><span data-f=\"summary\">Das Gehirn bildet ein nutzbares Gesp\u00fcr daf\u00fcr, wo sich der K\u00f6rper befindet. Das erm\u00f6glicht pr\u00e4zise Bewegung, selbst wenn das Sehen eingeschr\u00e4nkt ist oder fehlt.<\/span><span data-f=\"input\">Zusammengef\u00fchrte propriozeptive Aktivit\u00e4t<\/span><span data-f=\"action\">K\u00f6rperkarten bilden Gliedma\u00dfenlage und Bewegung ab<\/span><span data-f=\"output\">Ein stabiles Gesp\u00fcr f\u00fcr die K\u00f6rperposition<\/span><span data-f=\"legend\">K\u00f6rperpositionsbewusstsein<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How body position unfolds<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated proprioception pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/proprioception-journey.webp?ver=1781985842\"                                    alt=\"A person reaching forward, an arm anatomy cutaway with muscles, tendons, joints and sensory receptors, pathways to the spinal cord, cerebellum and cortex\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Body movement<\/span>\n                                        <h3 data-role=\"bubble-title\">Reaching movement<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Body movement<\/span>\n                                <h3 data-role=\"panel-title\">Reaching movement<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Body-position journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <nine-senses-journey\n    id=\"nsj-interoception-8-5481\"\n    data-nsio-journey\n    data-sense=\"interoception\" data-nsio-hidden=\"1\" data-nsio-anchor=\"inner-body interoception\"    data-config=\"{&quot;kind&quot;:&quot;interoception&quot;,&quot;viewBox&quot;:{&quot;width&quot;:1672,&quot;height&quot;:941},&quot;sceneOffsetX&quot;:0,&quot;sceneOffsetY&quot;:0,&quot;holdMs&quot;:9500,&quot;explainerFadeOutMs&quot;:2000,&quot;explainerPauseMs&quot;:300,&quot;explainerFadeInMs&quot;:2000,&quot;stateFadeMs&quot;:2800,&quot;autoplay&quot;:true,&quot;lang&quot;:&quot;de&quot;,&quot;steps&quot;:[{&quot;num&quot;:1,&quot;slug&quot;:&quot;internal-state&quot;,&quot;title&quot;:&quot;Internal body state&quot;,&quot;legendLines&quot;:[&quot;Internal&quot;,&quot;state&quot;],&quot;phase&quot;:&quot;Body condition&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:310,&quot;y&quot;:500,&quot;targetX&quot;:310,&quot;targetY&quot;:500,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:310,&quot;y&quot;:500},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:310,&quot;cy&quot;:500,&quot;rx&quot;:145,&quot;ry&quot;:185},&quot;summary&quot;:&quot;Interoception begins with internal body conditions: heartbeat, breathing, gut activity, fullness, discomfort, temperature, and pain.&quot;,&quot;input&quot;:&quot;Changing internal body conditions&quot;,&quot;action&quot;:&quot;Organs and tissues shift their state&quot;,&quot;output&quot;:&quot;Internal signals become available to receptors&quot;},{&quot;num&quot;:2,&quot;slug&quot;:&quot;organ-change&quot;,&quot;title&quot;:&quot;Organ change&quot;,&quot;legendLines&quot;:[&quot;Organ&quot;,&quot;change&quot;],&quot;phase&quot;:&quot;Visceral dynamics&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:575,&quot;y&quot;:410,&quot;targetX&quot;:575,&quot;targetY&quot;:410,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:575,&quot;y&quot;:410},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:575,&quot;cy&quot;:410,&quot;rx&quot;:170,&quot;ry&quot;:210},&quot;summary&quot;:&quot;Internal organs continuously change: the heart beats, lungs expand, the stomach and intestines stretch, and tissue chemistry varies.&quot;,&quot;input&quot;:&quot;Heart, lung, gut, and tissue activity&quot;,&quot;action&quot;:&quot;Organs create mechanical, chemical, and pain-related changes&quot;,&quot;output&quot;:&quot;Visceral receptors can detect those changes&quot;},{&quot;num&quot;:3,&quot;slug&quot;:&quot;internal-receptors&quot;,&quot;title&quot;:&quot;Internal receptors&quot;,&quot;legendLines&quot;:[&quot;Internal&quot;,&quot;receptors&quot;],&quot;phase&quot;:&quot;Sensing inside&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:765,&quot;y&quot;:590,&quot;targetX&quot;:765,&quot;targetY&quot;:590,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:765,&quot;y&quot;:590},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:765,&quot;cy&quot;:590,&quot;rx&quot;:145,&quot;ry&quot;:145},&quot;summary&quot;:&quot;Internal receptors monitor stretch, pressure, chemical balance, inflammation, and tissue disturbance. Pain is one important part of this internal signalling.&quot;,&quot;input&quot;:&quot;Mechanical, chemical, and nociceptive changes&quot;,&quot;action&quot;:&quot;Receptors respond to internal body-state cues&quot;,&quot;output&quot;:&quot;Signals begin to encode what is happening inside&quot;},{&quot;num&quot;:4,&quot;slug&quot;:&quot;signal-conversion&quot;,&quot;title&quot;:&quot;Signal conversion&quot;,&quot;legendLines&quot;:[&quot;Signal&quot;,&quot;conversion&quot;],&quot;phase&quot;:&quot;Transduction&quot;,&quot;side&quot;:&quot;right&quot;,&quot;marker&quot;:{&quot;x&quot;:880,&quot;y&quot;:705,&quot;targetX&quot;:880,&quot;targetY&quot;:705,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:880,&quot;y&quot;:705},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:880,&quot;cy&quot;:705,&quot;rx&quot;:150,&quot;ry&quot;:115},&quot;summary&quot;:&quot;Internal changes are converted into nerve activity. The signal may carry information about fullness, breath, heartbeat, discomfort, or pain.&quot;,&quot;input&quot;:&quot;Activated internal receptors&quot;,&quot;action&quot;:&quot;Receptor activity becomes electrical signalling&quot;,&quot;output&quot;:&quot;Visceral sensory fibres carry coded internal-state information&quot;},{&quot;num&quot;:5,&quot;slug&quot;:&quot;vagus-spinal&quot;,&quot;title&quot;:&quot;Vagus and spinal pathways&quot;,&quot;legendLines&quot;:[&quot;Vagus &amp;&quot;,&quot;spinal pathways&quot;],&quot;phase&quot;:&quot;Neural transmission&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1030,&quot;y&quot;:430,&quot;targetX&quot;:1030,&quot;targetY&quot;:430,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1030,&quot;y&quot;:430},&quot;shape&quot;:{&quot;type&quot;:&quot;path&quot;,&quot;d&quot;:&quot;M 650 395 C 800 440 930 470 1110 448&quot;,&quot;strokeWidth&quot;:92},&quot;summary&quot;:&quot;Interoceptive signals travel through vagal and spinal pathways. Different routes carry different kinds of internal body information.&quot;,&quot;input&quot;:&quot;Visceral nerve activity&quot;,&quot;action&quot;:&quot;Vagus and spinal pathways carry body-state signals&quot;,&quot;output&quot;:&quot;Signals approach central relay structures&quot;},{&quot;num&quot;:6,&quot;slug&quot;:&quot;brainstem-relay&quot;,&quot;title&quot;:&quot;Brainstem relay&quot;,&quot;legendLines&quot;:[&quot;Brainstem&quot;,&quot;relay&quot;],&quot;phase&quot;:&quot;Autonomic coordination&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1275,&quot;y&quot;:500,&quot;targetX&quot;:1275,&quot;targetY&quot;:500,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1275,&quot;y&quot;:500},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1275,&quot;cy&quot;:500,&quot;rx&quot;:165,&quot;ry&quot;:150},&quot;summary&quot;:&quot;The brainstem receives and coordinates many interoceptive signals. It helps regulate breathing, heart rate, digestion, and protective responses.&quot;,&quot;input&quot;:&quot;Incoming internal-state signals&quot;,&quot;action&quot;:&quot;Relay circuits coordinate autonomic regulation&quot;,&quot;output&quot;:&quot;Processed body-state information ascends&quot;},{&quot;num&quot;:7,&quot;slug&quot;:&quot;insula-body-maps&quot;,&quot;title&quot;:&quot;Insula and body maps&quot;,&quot;legendLines&quot;:[&quot;Insula &amp;&quot;,&quot;body maps&quot;],&quot;phase&quot;:&quot;Body-state mapping&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1405,&quot;y&quot;:295,&quot;targetX&quot;:1405,&quot;targetY&quot;:295,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1405,&quot;y&quot;:295},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1405,&quot;cy&quot;:295,&quot;rx&quot;:190,&quot;ry&quot;:145},&quot;summary&quot;:&quot;The insula and related networks build maps of internal body state. These maps link bodily sensation with emotion, attention, and decision-making.&quot;,&quot;input&quot;:&quot;Ascending interoceptive activity&quot;,&quot;action&quot;:&quot;Brain networks map and integrate body-state signals&quot;,&quot;output&quot;:&quot;Internal sensations become available to awareness&quot;},{&quot;num&quot;:8,&quot;slug&quot;:&quot;felt-awareness&quot;,&quot;title&quot;:&quot;Felt body awareness&quot;,&quot;legendLines&quot;:[&quot;Felt body&quot;,&quot;awareness&quot;],&quot;phase&quot;:&quot;Conscious body feeling&quot;,&quot;side&quot;:&quot;left&quot;,&quot;marker&quot;:{&quot;x&quot;:1475,&quot;y&quot;:185,&quot;targetX&quot;:1475,&quot;targetY&quot;:185,&quot;guide&quot;:false},&quot;flow&quot;:{&quot;x&quot;:1475,&quot;y&quot;:185},&quot;shape&quot;:{&quot;type&quot;:&quot;ellipse&quot;,&quot;cx&quot;:1475,&quot;cy&quot;:185,&quot;rx&quot;:160,&quot;ry&quot;:120},&quot;summary&quot;:&quot;Interoception contributes to felt experience: hunger, fullness, breath, heartbeat, discomfort, pain, calm, or urgency. It is the brain\\u2019s sense of the body from within.&quot;,&quot;input&quot;:&quot;Integrated internal body-state maps&quot;,&quot;action&quot;:&quot;Signals combine with emotion, context, and attention&quot;,&quot;output&quot;:&quot;A conscious sense of how the body feels&quot;}]}\"\n    style=\"display:none!important;width:100%!important;max-width:none!important;min-width:0!important;height:auto!important;min-height:0!important;margin:0!important;padding:0!important;border:0!important;background:transparent!important;box-shadow:none!important;overflow:visible!important;\"\n>\n    <div class=\"nsio-i18n\" data-role=\"i18n\" aria-hidden=\"true\" style=\"position:absolute;width:1px;height:1px;overflow:hidden;clip:rect(0 0 0 0);clip-path:inset(50%);white-space:nowrap;border:0;padding:0;margin:-1px;\"><span data-i18n=\"title\">Wie innere K\u00f6rpersignale entstehen<\/span><span data-i18n=\"imageAlt\">Eine Frau sp\u00fcrt ihren inneren K\u00f6rperzustand, ein durchsichtiger Rumpf mit Herz, Lunge und Darm, ein Detail viszeraler Rezeptoren und Bahnen zu Hirnstamm und Insula<\/span><span data-i18n=\"stageLabel\">Animierter Interozeptionsweg<\/span><span data-i18n=\"legendLabel\">Schritte der K\u00f6rperinnen-Tour<\/span><span data-i18n=\"ui.start\">Start<\/span><span data-i18n=\"ui.pause\">Pause<\/span><span data-i18n=\"ui.fullscreen\">Vollbild<\/span><span data-i18n=\"ui.exitFullscreen\">Vollbild verlassen<\/span><span data-i18n=\"ui.openFullscreenAria\">Vollbildansicht \u00f6ffnen<\/span><span data-i18n=\"ui.exitFullscreenAria\">Vollbildansicht verlassen<\/span><span data-i18n=\"ui.closeAria\">Vollbildansicht schlie\u00dfen<\/span><span data-i18n=\"ui.startAria\">Automatische Tour starten<\/span><span data-i18n=\"ui.pauseAria\">Automatische Tour pausieren<\/span><span data-i18n=\"ui.input\">Eingang<\/span><span data-i18n=\"ui.action\">Was geschieht<\/span><span data-i18n=\"ui.output\">Ausgang<\/span><span data-i18n=\"ui.playing\">L\u00e4uft automatisch<\/span><span data-i18n=\"ui.paused\">Zum Erkunden angehalten<\/span><span data-i18n=\"ui.preparing\">Tour wird vorbereitet<\/span><span data-i18n=\"ui.stepOf\">Schritt {n} von {total}<\/span><span data-i18n=\"ui.movingTo\">Weiter zu Schritt {n} von {total}<\/span><span data-i18n=\"ui.enableAudio\">Audio aktivieren<\/span><span data-i18n=\"ui.disableAudio\">Audio deaktivieren<\/span><span data-i18n=\"ui.audioOnAria\">Erz\u00e4hlung einschalten<\/span><span data-i18n=\"ui.audioOffAria\">Erz\u00e4hlung ausschalten<\/span><div data-i18n-step=\"internal-state\"><span data-f=\"title\">Innerer K\u00f6rperzustand<\/span><span data-f=\"phase\">K\u00f6rperzustand<\/span><span data-f=\"summary\">Interozeption beginnt mit inneren K\u00f6rperzust\u00e4nden: Herzschlag, Atmung, Darmaktivit\u00e4t, S\u00e4ttigung, Unbehagen, Temperatur und Schmerz.<\/span><span data-f=\"input\">Sich \u00e4ndernde innere K\u00f6rperzust\u00e4nde<\/span><span data-f=\"action\">Organe und Gewebe ver\u00e4ndern ihren Zustand<\/span><span data-f=\"output\">Innere Signale werden f\u00fcr die Rezeptoren verf\u00fcgbar<\/span><span data-f=\"legend\">Innerer Zustand<\/span><\/div><div data-i18n-step=\"organ-change\"><span data-f=\"title\">Organver\u00e4nderung<\/span><span data-f=\"phase\">Viszerale Dynamik<\/span><span data-f=\"summary\">Die inneren Organe ver\u00e4ndern sich fortw\u00e4hrend: Das Herz schl\u00e4gt, die Lunge dehnt sich, Magen und Darm weiten sich, und die Gewebechemie schwankt.<\/span><span data-f=\"input\">Aktivit\u00e4t von Herz, Lunge, Darm und Gewebe<\/span><span data-f=\"action\">Organe erzeugen mechanische, chemische und schmerzbezogene Ver\u00e4nderungen<\/span><span data-f=\"output\">Viszerale Rezeptoren k\u00f6nnen diese Ver\u00e4nderungen erfassen<\/span><span data-f=\"legend\">Organver\u00e4nderung<\/span><\/div><div data-i18n-step=\"internal-receptors\"><span data-f=\"title\">Innere Rezeptoren<\/span><span data-f=\"phase\">Wahrnehmung im Inneren<\/span><span data-f=\"summary\">Innere Rezeptoren \u00fcberwachen Dehnung, Druck, chemisches Gleichgewicht, Entz\u00fcndung und Gewebereizung. Schmerz ist ein wichtiger Teil dieser inneren Signalgebung.<\/span><span data-f=\"input\">Mechanische, chemische und nozizeptive Ver\u00e4nderungen<\/span><span data-f=\"action\">Rezeptoren reagieren auf Hinweise zum inneren K\u00f6rperzustand<\/span><span data-f=\"output\">Signale beginnen zu codieren, was im Inneren geschieht<\/span><span data-f=\"legend\">Innere Rezeptoren<\/span><\/div><div data-i18n-step=\"signal-conversion\"><span data-f=\"title\">Signalumwandlung<\/span><span data-f=\"phase\">Transduktion<\/span><span data-f=\"summary\">Innere Ver\u00e4nderungen werden in Nervenaktivit\u00e4t umgewandelt. Das Signal kann Information \u00fcber S\u00e4ttigung, Atem, Herzschlag, Unbehagen oder Schmerz tragen.<\/span><span data-f=\"input\">Aktivierte innere Rezeptoren<\/span><span data-f=\"action\">Rezeptoraktivit\u00e4t wird zu elektrischer Signalgebung<\/span><span data-f=\"output\">Viszerale Sinnesfasern tragen codierte Information zum inneren Zustand<\/span><span data-f=\"legend\">Signalumwandlung<\/span><\/div><div data-i18n-step=\"vagus-spinal\"><span data-f=\"title\">Vagus- und R\u00fcckenmarksbahnen<\/span><span data-f=\"phase\">Neuronale Weiterleitung<\/span><span data-f=\"summary\">Interozeptive Signale verlaufen \u00fcber vagale und spinale Bahnen. Verschiedene Wege tragen verschiedene Arten innerer K\u00f6rperinformation.<\/span><span data-f=\"input\">Viszerale Nervenaktivit\u00e4t<\/span><span data-f=\"action\">Vagus- und R\u00fcckenmarksbahnen tragen Signale zum K\u00f6rperzustand<\/span><span data-f=\"output\">Signale n\u00e4hern sich den zentralen Umschaltstrukturen<\/span><span data-f=\"legend\">Vagus- &amp; R\u00fcckenmarksbahnen<\/span><\/div><div data-i18n-step=\"brainstem-relay\"><span data-f=\"title\">Hirnstamm-Umschaltung<\/span><span data-f=\"phase\">Autonome Koordination<\/span><span data-f=\"summary\">Der Hirnstamm empf\u00e4ngt und koordiniert viele interozeptive Signale. Er hilft, Atmung, Herzfrequenz, Verdauung und Schutzreaktionen zu regulieren.<\/span><span data-f=\"input\">Eingehende Signale zum inneren Zustand<\/span><span data-f=\"action\">Umschaltkreise koordinieren die autonome Regulation<\/span><span data-f=\"output\">Verarbeitete Information zum K\u00f6rperzustand steigt auf<\/span><span data-f=\"legend\">Hirnstamm-Umschaltung<\/span><\/div><div data-i18n-step=\"insula-body-maps\"><span data-f=\"title\">Insula und K\u00f6rperkarten<\/span><span data-f=\"phase\">Kartierung des K\u00f6rperzustands<\/span><span data-f=\"summary\">Die Insula und verbundene Netzwerke bauen Karten des inneren K\u00f6rperzustands auf. Diese Karten verkn\u00fcpfen K\u00f6rperempfindung mit Emotion, Aufmerksamkeit und Entscheidungsfindung.<\/span><span data-f=\"input\">Aufsteigende interozeptive Aktivit\u00e4t<\/span><span data-f=\"action\">Hirnnetzwerke kartieren und verbinden Signale zum K\u00f6rperzustand<\/span><span data-f=\"output\">Innere Empfindungen werden dem Bewusstsein zug\u00e4nglich<\/span><span data-f=\"legend\">Insula &amp; K\u00f6rperkarten<\/span><\/div><div data-i18n-step=\"felt-awareness\"><span data-f=\"title\">Gef\u00fchltes K\u00f6rperbewusstsein<\/span><span data-f=\"phase\">Bewusstes K\u00f6rpergef\u00fchl<\/span><span data-f=\"summary\">Interozeption tr\u00e4gt zum gef\u00fchlten Erleben bei: Hunger, S\u00e4ttigung, Atem, Herzschlag, Unbehagen, Schmerz, Ruhe oder Dringlichkeit. Es ist das Gesp\u00fcr des Gehirns f\u00fcr den K\u00f6rper von innen.<\/span><span data-f=\"input\">Zusammengef\u00fchrte Karten des inneren K\u00f6rperzustands<\/span><span data-f=\"action\">Signale verbinden sich mit Emotion, Kontext und Aufmerksamkeit<\/span><span data-f=\"output\">Ein bewusstes Gesp\u00fcr daf\u00fcr, wie sich der K\u00f6rper anf\u00fchlt<\/span><span data-f=\"legend\">Gef\u00fchltes K\u00f6rperbewusstsein<\/span><\/div><\/div>    <template data-nsio-template>\n        <style>@import url(\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/css\/overview-lite.css?ver=1782402356\");<\/style>\n        <div class=\"nsio-root\" data-role=\"root\" data-nsio-journey lang=\"de\">\n            <div class=\"nsio-shell\" data-role=\"dialog-shell\">\n                <header class=\"nsio-topbar\">\n                    <div class=\"nsio-heading\">\n                        <div class=\"nsio-heading-copy\">\n                            <strong data-role=\"heading-title\">How inner body signals unfold<\/strong>\n                            <span class=\"nsio-visually-hidden\" data-role=\"status\" aria-live=\"polite\">Step 1 of 8 \u00b7 Preparing journey<\/span>\n                        <\/div>\n                    <\/div>\n\n                    <div class=\"nsio-top-actions\" aria-label=\"Journey controls\">\n                        <button type=\"button\" class=\"nsio-control nsio-control-primary is-playing\" data-action=\"play-toggle\" aria-pressed=\"true\">\n                            <span class=\"nsio-control-icon\" data-role=\"play-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"play-label\">Pause<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-audio-toggle\" data-action=\"audio-toggle\" data-role=\"audio-toggle\" aria-pressed=\"false\" hidden>\n                            <span class=\"nsio-audio-icon\" data-role=\"audio-icon\" aria-hidden=\"true\"><\/span>\n                            <span class=\"nsio-audio-label\" data-role=\"audio-label\">Enable audio<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control\" data-action=\"fullscreen\" aria-expanded=\"false\">\n                            <span class=\"nsio-expand-icon\" aria-hidden=\"true\"><\/span>\n                            <span data-role=\"fullscreen-label\">Full screen<\/span>\n                        <\/button>\n                        <button type=\"button\" class=\"nsio-control nsio-close\" data-action=\"fullscreen-close\" aria-label=\"Close full-screen view\"><span class=\"nsio-close-x\" aria-hidden=\"true\">&times;<\/span><\/button>\n                    <\/div>\n                <\/header>\n                <audio data-role=\"audio\" preload=\"none\" crossorigin=\"anonymous\"><\/audio>\n\n                <div class=\"nsio-main\" data-role=\"main\">\n                    <div class=\"nsio-canvas-area\" data-role=\"canvas-area\">\n                        <section class=\"nsio-stage\" data-role=\"stage\" aria-label=\"Animated interoception pathway\">\n                            <div class=\"nsio-viewport\" data-role=\"viewport\">\n                                <img\n                                    class=\"nsio-art\"\n                                    data-src=\"https:\/\/www.9senses.ai\/wp-content\/plugins\/nine-senses-journey\/assets\/img\/interoception-journey.webp?ver=1781985842\"                                    alt=\"A woman sensing internal body state, a transparent torso with heart, lungs and gut, visceral receptor detail, and pathways to brainstem and insula\"\n                                    draggable=\"false\"\n                                \/>\n                                <svg class=\"nsio-overlay\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"overlay\"><\/svg>\n                                <svg class=\"nsio-guides\" viewBox=\"0 0 1672 941\" preserveAspectRatio=\"xMidYMid meet\" aria-hidden=\"true\" data-role=\"guides\"><\/svg>\n                                <canvas class=\"nsio-transition-particles\" data-role=\"transition-particles\" aria-hidden=\"true\"><\/canvas>\n                                <div class=\"nsio-hotspots\" data-role=\"hotspots\" aria-label=\"Clickable pathway steps\"><\/div>\n                            <\/div>\n\n                            <article class=\"nsio-bubble is-right\" data-role=\"bubble\" aria-live=\"polite\">\n                                <div class=\"nsio-bubble-heading\">\n                                    <span class=\"nsio-bubble-number\" data-role=\"bubble-number\">1<\/span>\n                                    <div>\n                                        <span class=\"nsio-phase\" data-role=\"bubble-phase\">Body condition<\/span>\n                                        <h3 data-role=\"bubble-title\">Internal body state<\/h3>\n                                    <\/div>\n                                <\/div>\n                                <p class=\"nsio-summary\" data-role=\"bubble-summary\"><\/p>\n                                <dl class=\"nsio-transform\" aria-label=\"Input, transformation, and output\">\n                                    <div><dt data-role=\"label-input\">Input<\/dt><dd data-role=\"bubble-input\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-action\">What happens<\/dt><dd data-role=\"bubble-action\"><\/dd><\/div>\n                                    <div><dt data-role=\"label-output\">Output<\/dt><dd data-role=\"bubble-output\"><\/dd><\/div>\n                                <\/dl>\n                                <span class=\"nsio-read-progress\" aria-hidden=\"true\"><i data-role=\"read-progress\"><\/i><\/span>\n                            <\/article>\n                        <\/section>\n                    <\/div>\n\n                    <aside class=\"nsio-side-panel\" data-role=\"side-panel\" aria-live=\"polite\">\n                        <div class=\"nsio-side-heading\">\n                            <span class=\"nsio-side-number\" data-role=\"panel-number\">1<\/span>\n                            <div>\n                                <span class=\"nsio-phase\" data-role=\"panel-phase\">Body condition<\/span>\n                                <h3 data-role=\"panel-title\">Internal body state<\/h3>\n                            <\/div>\n                        <\/div>\n                        <p class=\"nsio-side-summary\" data-role=\"panel-summary\"><\/p>\n                        <dl class=\"nsio-side-transform\">\n                            <div><dt data-role=\"label-input-2\">Input<\/dt><dd data-role=\"panel-input\"><\/dd><\/div>\n                            <div><dt data-role=\"label-action-2\">What happens<\/dt><dd data-role=\"panel-action\"><\/dd><\/div>\n                            <div><dt data-role=\"label-output-2\">Output<\/dt><dd data-role=\"panel-output\"><\/dd><\/div>\n                        <\/dl>\n                        <div class=\"nsio-side-status\">\n                            <span data-role=\"panel-count\">Step 1 of 8<\/span>\n                            <span data-role=\"panel-play-state\">Playing automatically<\/span>\n                        <\/div>\n                    <\/aside>\n                <\/div>\n\n                <footer class=\"nsio-legend-wrap\">\n                    <nav class=\"nsio-legend\" data-role=\"legend\" aria-label=\"Inner-body journey steps\"><\/nav>\n                <\/footer>\n            <\/div>\n        <\/div>\n    <\/template>\n    <noscript><p>This interactive journey requires JavaScript.<\/p><\/noscript>\n<\/nine-senses-journey>\n        <\/div><\/div>\n<\/div>\n<\/div>\n<\/div>\n\n<div class=\"et_pb_section_1 et_pb_section et_section_regular et_block_section preset--group--divi-section--divi-box-shadow--default preset--group--divi-section--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_row_2 et_pb_row et_block_row preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\"><div class=\"et_pb_column_3 et_pb_column et_pb_column_4_4 et-last-child et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\"><div class=\"et_pb_text_3 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--dc7ce674-7a5e-4044-aef0-0aa8dfb88bdb\"><div class=\"et_pb_text_inner\"><h3 style=\"text-align: right;\"><span>\u201cAll our knowledge begins with the senses, proceeds then to the understanding, and ends with reason. There is nothing higher than reason.\u201d<\/span><\/h3>\n<\/div><\/div><div class=\"et_pb_text_4 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--dc7ce674-7a5e-4044-aef0-0aa8dfb88bdb\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><span style=\"font-family: 'Open Sans'; font-weight: normal;\">Immanuel Kant, Critique of Pure Reason, 1781<\/span><\/p>\n<\/div><\/div><\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_section_2 et_pb_section et_section_regular et_block_section preset--group--divi-section--divi-box-shadow--default preset--group--divi-section--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_row_3 et_pb_row et_pb_row_4col et_block_row et_block_row_4col preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\">\n<div class=\"et_pb_column_4 et_pb_column et_pb_column_1_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_0 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf06e<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_5 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5>Sight<\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_6 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>This is one of the most impor\u00adtant senses and helps us to orientate ourselves in the physical world around us.<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_0 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_0 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"1000%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"1000%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_1 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_7 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#eye\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_5 et_pb_column et_pb_column_1_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_1 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf2a2<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_8 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5>Hearing<\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_9 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>Another essential sense, particularly when it comes to direct interaction between us and the world.<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_1 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_2 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_3 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"42%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"42%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_10 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#hearing\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_6 et_pb_column et_pb_column_1_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_2 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf577<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_11 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5>Touch<\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_12 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>Feel and touch gives us the ability to experience things using our skin receptors and to handle them carefully.<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_2 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_4 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_5 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"25%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"25%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_13 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#touch\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_7 et_pb_column et_pb_column_1_4 et-last-child et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_3 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf7bb<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_14 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5>Taste<\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_15 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>What would the world be without taste? Bland is probably the appropriate word! Do you know umami?<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_3 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_6 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_7 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"15%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"15%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_16 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#taste\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n<\/div>\n\n<div class=\"et_pb_row_4 et_pb_row et_pb_row_4col et_block_row et_block_row_4col preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\">\n<div class=\"et_pb_column_8 et_pb_column et_pb_column_1_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_4 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf2ed<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_17 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5>Smell<\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_18 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>Smelling helps us enjoy the world too, but also enables us to notice dangers and other things to avoid...<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_4 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_8 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_9 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"15%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"15%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_19 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#smell\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_9 et_pb_column et_pb_column_1_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_5 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\ue01c<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_20 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5>Vestibular Sense<\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_21 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>The semicircular canals located inside our ears help us position ourselves and keep our balance.<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_5 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_10 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"1000%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"1000%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_11 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"90%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"90%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_22 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#vestibular\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_10 et_pb_column et_pb_column_1_4 et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_6 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf1ae<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_23 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5><span>Proprioception<\/span><\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_24 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p style=\"text-align: left;\">This sense, provided by sen\u00adso\u00adry receptors inside our muscles, tendons and joints, informs us about movement.<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_6 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_12 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_13 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"37%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"37%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_25 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#proprioception\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n\n<div class=\"et_pb_column_11 et_pb_column et_pb_column_1_4 et-last-child et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_icon_7 et_pb_icon et_pb_module et_block_module preset--group--divi-icon--divi-box-shadow--default\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">\uf071<\/span><\/span><\/div>\n\n<div class=\"et_pb_text_26 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--04dd952a-a3c9-4efe-a73a-5db5502e2b83\"><div class=\"et_pb_text_inner\"><h5><span>Interoception<\/span><\/h5>\n<\/div><\/div>\n\n<div class=\"et_pb_text_27 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>This sense provides us with information about what's right or wrong inside our body.<\/p>\n<\/div><\/div>\n\n<ul class=\"et_pb_counters_7 et_pb_counters et-waypoint et_pb_bg_layout_dark et_pb_module et_block_module preset--group--divi-counters--divi-box-shadow--hxufpma--default\">\n<li class=\"et_pb_counter_14 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Humans<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"100%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n\n<li class=\"et_pb_counter_15 et_pb_counter preset--group--divi-counter--divi-box-shadow--hxufpma--default\"><span class=\"et_pb_counter_title\">Artificial Intelligence<\/span><span class=\"et_pb_counter_container\"><span class=\"et_pb_counter_amount\" data-width=\"74%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><span class=\"et_pb_counter_amount overlay\" data-width=\"74%\"><span class=\"et_pb_counter_amount_number\"><\/span><\/span><\/span><\/li>\n<\/ul>\n\n<div class=\"et_pb_text_28 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p style=\"text-align: right;\"><a href=\"#interoception\">learn more...<\/a><\/p>\n<\/div><\/div>\n<\/div>\n<\/div>\n\n<div class=\"et_pb_row_5 et_pb_row et_block_row preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\">\n<div class=\"et_pb_column_12 et_pb_column et_pb_column_4_4 et-last-child et_block_column et_pb_css_mix_blend_mode_passthrough preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\">\n<div class=\"et_pb_text_29 et_pb_text et_pb_bg_layout_light et_pb_module et_block_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--258bb3fd-bfcf-4c1f-99fb-31ea461945c3\"><div class=\"et_pb_text_inner\"><p>The only area where computers using Artificial Intelligence truly outperform our human senses today is vision. They can process visual input faster, identify changes and differences more quickly and track much faster motion than the human eye can. When it comes to positioning, computing systems have the ability to use external information (e.g. GPS triangulation) to better orientate themselves. However, when it comes to balance, humans still win outright. In all other senses, a healthy human still does much better.<\/p>\n<\/div><\/div>\n<\/div>\n<\/div>\n<\/div><div class=\"et_pb_section_3 et_pb_section et_pb_section--fixed et_section_regular et_flex_section et-interaction-target-j4q7ilznj7 et_pb_toc_list_excluded preset--group--divi-section--divi-box-shadow--default preset--group--divi-section--divi-sizing--hsj9uxo--default\" data-interaction-target=\"j4q7ilznj7\" id=\"eliza_popup\"><div class=\"et_pb_row_6 et_pb_row et_flex_row preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\"><div class=\"et_pb_column_13 et_pb_column et_flex_column et_pb_css_mix_blend_mode_passthrough et_flex_column_16_24 et_flex_column_16_24_tablet et_flex_column_24_24_phone et_flex_column_16_24_tabletWide preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\"><div class=\"et_pb_heading_0 et_pb_heading et_pb_module et_flex_module preset--group--divi-heading--divi-box-shadow--default\"><div class=\"et_pb_heading_container\"><h1 class=\"et_pb_module_header\">Talk to Eliza<\/h1><\/div><\/div><div class=\"et_pb_text_30 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p>This is a faithful representation of the 1966 Eliza version created by Joseph Weizenbaum. It was reproduced by <a href=\"https:\/\/github.com\/anthay\/ELIZA\" target=\"_blank\" rel=\"noopener\" title=\"Source Code\">Anthony Hay in C++<\/a> based on the original 1965 code and updated by behavior transcripts of the final version.<\/p>\n<\/div><\/div><div class=\"et_pb_code_2 et_pb_code et_pb_module preset--group--divi-code--divi-box-shadow--default\"><div class=\"et_pb_code_inner\"><div class=\"eliza1966-lazy\" data-eliza1966-src=\"https:\/\/www.9senses.ai\/de\/?eliza1966_fragment=1&theme=green&punctuation=modern&layout=1966\"><div class=\"eliza1966-lazy-loading\">Loading ELIZA\u2026<\/div><\/div><\/div><\/div><\/div><div class=\"et_pb_column_14 et_pb_column et-last-child et_flex_column et_pb_css_mix_blend_mode_passthrough et_flex_column_8_24 et_flex_column_8_24_tablet et_flex_column_24_24_phone et_flex_column_8_24_tabletWide preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\"><div class=\"et_pb_text_31 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p>Note: The paper version emulates Joseph Weizenbaum's original 1966 ELIZA as it ran on the CTSS time-sharing system (IBM 7094) at MIT, accessed via an IBM Selectric-based hardcopy terminal. On CTSS the question mark served as the line-delete (line-kill) control character, so it could not appear in typed input \u2014 and the DOCTOR script accordingly produced no question marks. They are therefore suppressed here, on both sides of the conversation. The green \"terminal\" version enables question marks instead; it represents a glowing CRT display of a kind that did not exist for ELIZA in 1966 and evokes a later era of computing.<\/p>\n<\/div><\/div><div class=\"et_pb_icon_8 et_pb_icon et_pb_module et_flex_module preset--group--divi-icon--divi-box-shadow--default\" data-interaction-trigger=\"h67t95bz93\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">M<\/span><\/span><\/div><\/div><\/div><\/div><div class=\"et_pb_section_4 et_pb_section et_pb_section--fixed et_section_regular et_flex_section et-interaction-target-9rih6tog66 et_pb_toc_list_excluded preset--group--divi-section--divi-box-shadow--default preset--group--divi-section--divi-sizing--hsj9uxo--default\" data-interaction-target=\"9rih6tog66\" id=\"deepblue_popup\"><div class=\"et_pb_row_7 et_pb_row et_flex_row preset--group--divi-row--divi-box-shadow--default preset--group--divi-row--divi-sizing--h1k452m--default\"><div class=\"et_pb_column_15 et_pb_column et-last-child et_flex_column et_pb_css_mix_blend_mode_passthrough et_flex_column_24_24 et_flex_column_24_24_tablet et_flex_column_24_24_phone et_flex_column_24_24_tabletWide preset--group--divi-column--divi-box-shadow--default preset--group--divi-column--divi-sizing--hsj9uxo--default\"><div class=\"et_pb_heading_1 et_pb_heading et_pb_module et_flex_module preset--group--divi-heading--divi-box-shadow--default\"><div class=\"et_pb_heading_container\"><h1 class=\"et_pb_module_header\">Play Chess like 1997 (Deep Blue Style)<\/h1><\/div><\/div><div class=\"et_pb_text_32 et_pb_text et_pb_bg_layout_light et_pb_module et_flex_module preset--group--divi-text--divi-box-shadow--default preset--module--divi-text--default\"><div class=\"et_pb_text_inner\"><p>Here's our simulation of Deep Blue. You can play against Stockfish (able to run on a laptop today with similar strength compared to Deep Blue). <strong>Bonus<\/strong>: you can replay the legendary 1997 rematch where Deep Blue won against Garry Kasparov.<\/p>\n<\/div><\/div><div class=\"et_pb_code_3 et_pb_code et_pb_module preset--group--divi-code--divi-box-shadow--default\"><div class=\"et_pb_code_inner\"><div class=\"dbc-lazy-fragment\" id=\"dbc_lazy_QFig51\" data-dbc-fragment-src=\"https:\/\/www.9senses.ai\/de\/?dbc_fragment=1&skill=20&movetime=2000&play_as=white&strength=max&mode=play\"><div class=\"dbc-lazy-loading\">Loading Deep Blue\u2026<\/div><\/div><\/div><\/div><div class=\"et_pb_icon_9 et_pb_icon et-interaction-target-ynpv13xer1 et_pb_module et_flex_module preset--group--divi-icon--divi-box-shadow--default\" data-interaction-trigger=\"9x1hz2zbe6\" data-interaction-target=\"ynpv13xer1\"><span class=\"et_pb_icon_wrap\"><span class=\"et-pb-icon\">M<\/span><\/span><\/div><\/div><\/div><\/div>","protected":false},"excerpt":{"rendered":"<p>Talk to ElizaThis is a faithful representation of the 1966 Eliza version created by Joseph Weizenbaum. It was reproduced by Anthony Hay in C++ based on the original 1965 code and updated by behavior transcripts of the final version. Loading ELIZA\u2026Note: The paper version emulates Joseph Weizenbaum&#8217;s original 1966 ELIZA as it ran on the [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-79","page","type-page","status-publish","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/pages\/79","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/comments?post=79"}],"version-history":[{"count":13,"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/pages\/79\/revisions"}],"predecessor-version":[{"id":225981,"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/pages\/79\/revisions\/225981"}],"wp:attachment":[{"href":"https:\/\/www.9senses.ai\/de\/wp-json\/wp\/v2\/media?parent=79"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}