Study on real-time wearable monitoring system for human heat and cold stresses.
- Author:
Yuhong SHEN
1
;
Tianhao WANG
;
Chenming LI
Author Information
1. Clothing Function and Material Division, the Quartermaster Research Institute of the General Logistic Department , Beijing 100010, China.
- Publication Type:Journal Article
- MeSH:
Biosensing Techniques;
methods;
Cold Temperature;
Hot Temperature;
Humans;
Monitoring, Ambulatory;
instrumentation;
Stress, Physiological;
physiology
- From:
Journal of Biomedical Engineering
2013;30(1):80-94
- CountryChina
- Language:Chinese
-
Abstract:
In order to study the way of evaluating human performance under heat and cold stresses, we developed a wearable physiological monitoring system-intelligent belt system, capable of providing real-time, continuous and dynamic monitoring of multiple physiological parameters. The system has following features: multiuser communication, high integration, strong environment adaptability, dynamic features and real time physiological monitoring ability. The system uses sensing belts and elastic belts to acquire physiological parameters, uses WIFI to build wireless network monitoring for multiuser, and uses Delphi to develop data processing software capable of real-time viewing, storagng, processing, and alerting. With four different intensity-activity trials on six subjects and compared with standard laboratory human physiological acquisition instruments, the system was proved to be able to acquire accu-rate physiological parameters such as ECG, respiration, multi-point body temperatures, and body movement. The system worked steadily and reliably. This wearable real-time monitoring system for human heat and cold stresses can solve the problem facing our country that human heat stress and cold stress monitoring technology is insufficient, provide new methods and new ways for monitoring and evaluation of human heat and cold stresses under real task or stress environment, and provide technical platform for the study on human ergonomics.
