Visual Neuro-Ergonomics in

Naturalistic Simulation

Fco M. Martínez-Verdú

Color & Vision Group: http://web.ua.es/en/gvc

University of Alicante (Spain)

verdu@ua.es

November 22nd, 2017, Paris, France

Visual ergonomics Human performance

Neuro-ergonomics: brain – machine – interaction

Neuro-imaging: brain activity on real time

Visual neuro-ergonomics applications Testing naturalistic rendered simulations

Conclusions

OUTLINE

3rd Annual Lighting Materials & Design Conference

IEA definition:

Visual ergonomics is the multidisciplinary science concerned

with understanding human visual processes and the interactions

between humans and other elements of a system.

It applies theories, knowledge and methods to the design and

assessment of systems, optimizing human well-being and overall

system performance.

VISUAL ERGONOMICS

3rd Annual Lighting Materials & Design Conference

VISUAL ERGONOMICS

3rd Annual Lighting Materials & Design Conference

Relevant topics, among others, suggested by EIA:

visual environment, such as lighting;

visually demanding work and other tasks;

visual function and performance;

visual comfort and safety;

optical corrections and other assistive tools.

VISUAL ERGONOMICS

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Human brain, and using its senses, 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

NEURO-ERGONOMICS

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Brain Machine Interaction (BMI, MoBI, etc.)

Assessment of cognitive & visual performance

Visual and cognitive demands lower than human limits Ageing factor

Neurofeedback: interaction (communication) and

improvement of cognitive (& motor) functions

NEURO-ERGONOMICS

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NEURO-ERGONOMICS

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How we can currently study the brain activity on real time?

NEURO-IMAGING

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Pros vs. cons current neuro-imaging techniques: Good (light, etc.)?

pretty?

and also cheap?

NEURO-IMAGING

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IDEALTECHNIQUE

• EEG is the best

NEURO-IMAGING

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How does EEG technique works?

NEURO-IMAGING

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Typical patterns by Fourier Analysis

w > 100 Hz

Human brain, and using its visual perception, and

connected to other brain functions, in daily or naturalistic or

innovative (challenging) conditions

Basic visual functions:

Detection Recognition (scaling) Discrimination

Attention Decision Action

VISUAL NEURO-ERGONOMICS

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Vision & driving (autonomous car, etc.)

Vision & displays (smartphones, etc.)

digitally rendered simulations

Vision & sports (gaming, etc.)

Vision & education (learning, AI, etc.)

Vision & ageing

Human vision limits

Optics vs. Neurophysiology

VISUAL NEURO-ERGONOMICS

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• Applications

VISUAL NEURO-ERGONOMICS

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VISUAL NEURO-ERGONOMICS

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• Training of cognitive distraction in driving

VISUAL NEURO-ERGONOMICS

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• Training of visual-cognitive skills in sports

VISUAL NEURO-ERGONOMICS

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• Proposal of new research topics:

• How the visibility factors in static / dynamic scenarios can

influence on visual discomfort or stress in well-rendered

naturalistic simulations?

• Color discrimination Scientific Visualization

• Shape & Spatial resolution, Stereo, Motion, etc.

• Design of cognitive activities? Training, etc.

VISUAL NEURO-ERGONOMICS

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Questionnaires vs. neuro-sensing (EEG, etc.)

• VR optimization?

• What is the next

disruptive innovation?

• Are there limitations?

VISUAL NEURO-ERGONOMICS

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• A promising future for ALL?

VISUAL NEURO-ERGONOMICS

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Visual neuro-ergonomics approaches and corresponding

neuroimaging devices (EEG, mainly) can provide direct knowledge

on brain activity on real time and apply neurofeedback to train or

reinforce cognitive performance (attention, decision taking, etc.).

Brain-machine-interface (BMI) applications can explore now and

propose new disruptive innovations for improving well-being of next

generations in many daily situations (work, leisure, health recovery).

CONCLUSIONS

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ACKNOWLEDGEMENTS

3rd Annual Lighting Materials & Design Conference

Visual Neuro-Ergonomics in

Naturalistic Simulation

Fco M. Martínez-Verdú

Color & Vision Group: http://web.ua.es/en/gvc

University of Alicante (Spain)

verdu@ua.es

November 22nd, 2017, Paris, France