Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations

Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations

The interdisciplinary studies between neuroscience and information science have greatly promoted the development of these two fields. The achievements of these studies can help humans understand the essence of biological systems, provide computational platforms for biological experiments, and improv...

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Superior document:Frontiers Research Topics
:
Hong Qiao
Li Hu
Year of Publication:2017
Language:English
Series:Frontiers Research Topics
Physical Description:1 electronic resource (134 p.)
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spelling Hong Qiao auth
Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
Frontiers Media SA 2017
1 electronic resource (134 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Frontiers Research Topics
The interdisciplinary studies between neuroscience and information science have greatly promoted the development of these two fields. The achievements of these studies can help humans understand the essence of biological systems, provide computational platforms for biological experiments, and improve the intelligence and performance of the algorithms in information science. This research topic is focused on the computational modeling of visual cognition, body sense, motor control and their integrations. Firstly, the modeling and simulation of vision and body sense are achieved by 1) understanding neural mechanism underlying sensory perception and cognition, and 2) mimicking accordingly the structures and mechanisms of their signal propagation pathways. The achievement of this procedure could provide neural findings for better encoding and decoding visual and somatosensory perception of humans, and help robots or systems build humanoid robust vision, body sensing, and various emotions. Secondly, the modeling and simulation of the motor system of the primate are achieved by mimicking the coordination of bones, muscles and joints and the control mechanisms of the neural system in the brain and spinal cord. This procedure could help robots achieve fast, robust and accurate manipulations and be used for safe human-computer interaction. Finally, by integrating them, more complete and intelligent systems/robots could be built to accomplish various tasks self-adaptively and automatically.
English
vision
biologically inspired
sensory processing
pain perception
EEG
neural networks
feature encoding
computational modeling
sensorimotor integration
2-88945-109-7
Li Hu auth
language English
format eBook
author Hong Qiao
spellingShingle Hong Qiao
Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
Frontiers Research Topics
author_facet Hong Qiao
Li Hu
author_variant h q hq
author2 Li Hu
author2_variant l h lh
author_sort Hong Qiao
title Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
title_full Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
title_fullStr Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
title_full_unstemmed Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
title_auth Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
title_new Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
title_sort modeling of visual cognition, body sense, motor control and their integrations
series Frontiers Research Topics
series2 Frontiers Research Topics
publisher Frontiers Media SA
publishDate 2017
physical 1 electronic resource (134 p.)
isbn 2-88945-109-7
illustrated Not Illustrated
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is_hierarchy_title Modeling of Visual Cognition, Body Sense, Motor Control and Their Integrations
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