Clothing Biosensory Engineering
by Y. Li /
2006 / English / PDF
5.7 MB Download
Human sensory perception of clothing involves a series of complex
interactive processes, including the physical responses to external
stimuli, the neurophysiological processes for decoding stimuli
through the biosensory and nervous systems inside the body, the
neural responses to psychological sensations, and the psychological
processes for formulating preferences and making adaptive feedback
reactions.
Human sensory perception of clothing involves a series of complex
interactive processes, including the physical responses to external
stimuli, the neurophysiological processes for decoding stimuli
through the biosensory and nervous systems inside the body, the
neural responses to psychological sensations, and the psychological
processes for formulating preferences and making adaptive feedback
reactions.
Clothing Biosensory Engineering is a systematic and integrative way
of translating consumers' biological and sensory responses, and
psychological feelings and preferences about clothing into the
perceptual elements of design. It is a link between scientific
experimentation and commercial application to develop economic
solutions to practical technical problems.
Clothing Biosensory Engineering is a systematic and integrative way
of translating consumers' biological and sensory responses, and
psychological feelings and preferences about clothing into the
perceptual elements of design. It is a link between scientific
experimentation and commercial application to develop economic
solutions to practical technical problems.
Clothing Biosensory Engineering quantifies the decision-making
processes through which physics, mathematics, neurophysiological
and engineering techniques are applied to optimally convert
resources to meet various sensory requirements: visual, thermal,
and mechanical. It includes theoretical and experimental
observations, computer simulations, test methods, illustrations,
and examples of actual product development.
Clothing Biosensory Engineering quantifies the decision-making
processes through which physics, mathematics, neurophysiological
and engineering techniques are applied to optimally convert
resources to meet various sensory requirements: visual, thermal,
and mechanical. It includes theoretical and experimental
observations, computer simulations, test methods, illustrations,
and examples of actual product development.