Abstract:Objective To develop a front-line mobile rescue system for navy trainings so as to improve the response rate and accuracy of front-line search and rescue actions. Methods A wearable terminal was designed in combination with the embedded technology and physiological data acquisition technology. Equipped with the real-time positioning and wireless data transmitting functions, the system utilized a self-innovated monitoring software for the control center to receive location information and process the rescue scheduling. Results The front-line mobile rescue system could monitor multiple terminals and achieve 24-h monitor of physiological parameters and real-time rescue scheduling. With adaption of wearable terminals, this portable and easy-to-configure-and-operate system had proven its advantages in great reduction of dispatch time. Moreover, once connected it could be used immediately. Conclusion The front-line mobile rescue system could significantly reduce the search time for monitor terminals and improve search and rescue efficiency, thereby reducing the accidental-injury-caused drowning death and injury rate for soldiers. It also minimized non-combat attrition, and effectively protected the safety of navy training staff, which had high practical utility.
洪范宗,苏秋玲,董少良,王伟,罗奕中,刘志梁. 海训一线移动救护系统的研究与应用[J]. 中国医疗设备, 2015, 30(8): 17-20.
HONG Fan-zong, SU Qiu-ling, DONG Shao-liang, WANG Wei, LUO Yi-zhong, LIU Zhi-liang. Research and Application of a Front-Line Mobile Rescue System for Navy Training Staff. China Medical Devices, 2015, 30(8): 17-20.
STMICROELECTRONICS.STM32F103ZET6XXX data sheet[EB/OL].http://pdf1.alldatasheetcn.com/datasheet-pdf/view/303568/STMICROELECTRONICS/STM32F103ZET6XXX.html.
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STMICROELECTRONICS.STM32F103ZET6XXX data sheet[EB/OL].http://pdf1.alldatasheetcn.com/datasheet-pdf/view/303568/STMICROELECTRONICS/STM32F103ZET6XXX.html.