Title :
Development of physical workload measuring system based on multi-physiological signals from human-machine interaction
Author :
Jiao, Xunjun ; Bai, Jing ; Chen, Shanguang ; Li, Qijie
Author_Institution :
Tsinghua Univ., Beijing, China
Abstract :
Physiological signals can be collected, stored, transmitted and processed with the physical workload and physical fatigue evaluation systems in underwater imitating weightlessness and ground application. Physical workload and fatigue are evaluated by extracting the physical workload and fatigue-related physiological parameters and modeling. So that it can provide the design basis for a reasonable man-machine function allocation. The system is modular in design, according to different use, choose a different module. Miniaturization and battery-powered design makes it easy to use underwater and weightless aircraft use; real-time storage and after playback methods was used to deal with underwater radio attenuation due to water. The system can also be used to research mental load and mental fatigue.
Keywords :
electrocardiography; man-machine systems; battery-powered design; fatigue-related physiological parameter; ground application; human machine interaction; mental fatigue; mental load; miniaturization; multiphysiological signal; physical fatigue evaluation system; physical workload measuring system; playback method; real-time storage; reasonable man-machine function allocation; underwater imitating weightlessness; underwater radio attenuation; weightless aircraft; Electrocardiography; Electromyography; Fatigue; Feature extraction; Muscles; Noise; Physiology; Physiological signals; physical fatigue; physical workload;
Conference_Titel :
Virtual Environments Human-Computer Interfaces and Measurement Systems (VECIMS), 2012 IEEE International Conference on
Conference_Location :
Tianjin
Print_ISBN :
978-1-4577-1758-1
DOI :
10.1109/VECIMS.2012.6273195
