Post on 28-Jan-2018
Visual Brian & Technology Interaction for
daily activities (work, leisure, etc.)
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Definition & scope of Visual Neuroergonomics
Vision and ageing: natural vs. anomalous
Future and current technological applications of
Neuroergonomics
Common RTD interests between Apple & UA
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Human brain, and using its visual perception, and
connected to other brain functions, in daily or
naturalistic or innovative (challenging) conditions◦ Physical (body) vs. cognitive (brain) activities
Parameters
Fatigue
Attention
Adaptation
Training (learning)
Performance
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Mobile Brain Machine Interaction (MoBI, etc.)
◦ Assessment of cognitive & visual performance
Visual and cognitive demands lower than human limits
◦ Neurofeedback: interaction (communication) and
improvement of cognitive (& motor) functions
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Basic visual functions:◦ Detection Recognition (scaling) Discrimination
◦ Attention Decision Action
Application fields:
◦ Vision & driving (autonomous car, etc.)
◦ Vision & displays (smartphones, etc.)
◦ Vision & sports (gaming, etc.)
◦ Vision & education (learning, AI, etc.)
◦ Vision & ageing
Human vision limits
Optics vs. Neurophysiology
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Discussion: can we be useful as expert in Visual
Sciences (Optics, Perception, Clinics)?◦ Inter and multi-disciplinary approach
◦ Focus on healthy or anomalous (ill) people??
◦ Types of preventive and/or therapeutic actions:
Cognitive pharmacology vs. visuo-cognitive activities
Decline braking vs. resilience vs. anti-fragility
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Mobile BMI: driving, gaming, learning, etc.
Security & Health: visual and cognitive risks
Scientific visualization
Neurofeedback
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Robust mobile brain sensor technology?
Comprehensive “wireless” body measurement system?
Powerful computational software to collectively processing, analyze and communicate (feedback) both brain-body responses?
User-friendly??
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Only in MATRIX?
Or also in the real life?
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