Resume

• 1987

  Master of Science (M.Sc.); Doctor of Philosophy (PhD)

  Dissertation: The otolith contribution to human visual-vestibular interaction

  Visual vestibular physiology and psychophysics

  York University

• 1972

  Hon B.Sc

  B.Ed

  Physiology and Mathematics

  University of Toronto

• Defence

  Systems Engineering

  Defense

  Mathematical Modeling

  Statistics

  R & D in applied science

  Simulations

  journal editorial member; grant proposal evaluator

  Applied basic sciences to real life application

  Spatial disorientation

  human performance in aerospace environment

  Human Factors

  Matlab

  Analysis

  Experimentation

  Aerospace Medicine

  Scientific research

  Data Analysis

  Research

  Fortran

  Human physiology and psychophysics

  Bob Cheung et al. Chapter 6: Optimisation of Spatial disorientation countermeasures training.

  Bob Cheung et al. Chapter 6: Optimisation of Spatial disorientation countermeasures training.

  Bob Cheung et al. Chapter 1: Historical Aspects- A Brief History Of Tactile Display Applications.

  Bob Cheung et al.

  Bob Cheung et al. Simulator Study of Helmet Mounted Symbology System Concepts in Degraded Visual Environment.

  Bob Cheung et al. In-Flight Study of Helmet Mounted Symbology System Concepts in Degraded Visual Environment

  Bob Cheung. Spatial disorientation- more than just illusion.

  Bob Cheung

  et al. Chapter 2. Anatomical

  neurophysiological and perceptual issues.

  Bob Cheung. Spatial Orientation – Nonvisual Spatial Orientation Mechanisms.

  Bob Cheung (2006) Seasickness – Guidelines for all Operators of Marine Vessels

  Marine Helicopters and Offshore Oil Installations

  Bob Cheung. Spatial Orientation – Nonvisual Illusions in Flight.

  Bob Cheung. Spatial Orientation – Nonvisual Illusions in Flight.

  Primary interest: research in aviation human factors

  specifically in spatial disorientation in flight and its countermeasures

  G transition effects

  real and apparent motion induced disturbance and sickness

  physiological and psychophysical effects of mild hypoxia. \n\nSecondary interest: field diagnostics and direct effect of explosion-induced brain trauma on the vestibular system

  fatigue countermeasures

  operational pharmacoknetics

  effects of mild hypoxia on cognitive performance

  Bob

  Cheung

  Adjunct Professor

  Department of Physiology

  Faculty of Medicine

  University of Toronto

  Defence Research & Development Canada

  Independent

  Lecturing in human cardiovascular physiology and animal physiology

  Adjunct Professor

  Department of Physiology

  Faculty of Medicine

  University of Toronto

  Defence Research & Development Canada

  Toronto

  Ontario

  Canada

  Over 37.5 years in defense scientific research and development with major emphasis in human performance under altered gravity environment

  spatial disorientation and motion disturbance

  real and apparent motion induced sickness. Publication records: 70 peer-reviewed open journal scientific publications

  8 book chapters

  25 technical reports

  7 NATO proceedings

  92 conference proceedings and abstracts

  9 professional awards and 10 invited keynote addresses.\n\nExperience in: \nAnimal physiological research in vestibular physiology and motion sickness. Human physiological and psychophysical research in motion sickness and spatial disorientation. Aircraft accident/incident investigation.

  Formerly Senior Scientist - Joint Operational Human Sciences Centre

  Toronto

  Ontario

  Canada

  Aerospace physiology and medical research consultation

  accident investigation

  lecturing

  Research scientist and consultant in aerospace medical research and defence sciences

  Independent

  Fellow of the Aerospace Medical Association

  Aerospace Medical Association

  Barany Society

  English

  Joseph L. Haley Writing Award

  For the best scientific papers published in 2015 in the area of Rotary Wing Aviation Medicine.\n\n1. Cheung B

  McKinley RA

  Steels B

  Sceviour R

  Cosman V

  Holst P. Simulator study of helmet-mounted symbology system concepts in degraded visual environments .\nAerosp Med Hum Perform. 2015; 86(7): 588 – 598.\n2. Cheung B

  Craig G

  Steels B

  Sceviour R

  Cosman V

  Jennings S

  Holst P. In-fl ight study of helmet-mounted symbology system concepts in degraded visual environments .\nAerosp Med Hum Perform. 2015; 86(8): 714 – 722.

  United States Army Aviation Medical Association