Human factors engineering
Apply Engineering Fundamentals to Human Factors Applications With a sound qualitative, mathematical approach, this new book shows how to use fundamental engineering skills to solve human factors application problems. As readers learn to use the same mathematical and analytical methods that are applied to inanimate devices, systems, and processes, they'll enhance their understanding of the interface between human factors and engineering science. Plus, the book shows how to apply human factors engineering concepts to ergonomic engineering practice and biomedical engineering, including evaluating the trade off in equipment design and human operator capabilities. Hey Features
* A review of the relevant engineering fundamentals is provided prior to introducing the human factors applications.
* Numerous worked examples, integrated throughout the text, show students how the relevant equations are used in a real-world human factors application.
* Matlab is employed in the worked examples. This allows quantitative simulation of human operator performance that involves systems of simultaneous linear equations and non-linear equations.
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Human Factors Engineering
Human Systems Design and Modeling
10 other sections not shown
action potential activity agonist muscle amplifier analysis anatomical angle applied approximation biophysical blood body segment Calculate cardiac output center of mass central nervous processor Chapter closed-loop transfer function coefficient constant control stick convection defined displacement distal dynamic electrode electromyogram elements energy environment environmental Example external fatigue feed-forward feedback forearm segment fractional frequency grip haptic heat transfer heat transfer coefficient horizontal human factors engineer human operator control human-technological system informatic model input interaction interface isometric control isometric force isotonic joint kcal length linear marker mathematical membrane motor movement nerve neuromuscular control system operational amplifier output oxygen performance Phase position reaction forces Recall relationship represents respect rotational Section shown in Figure skeletal muscle SOLUTION Solve specific static steady-state Substituting equation Substituting into equation subsystem surface Table task technological system temperature thermoregulation transfer function variable velocity vertical voltage workload wrist zero