A Positioning Alarm System for Explosive Impact Debris Protective Suit Based on an Accelerometer Array.
Jianing HuChaoran LiuXucong WangZai WangXin TongFangqi LiZhenyu JinXiaoyuan WangLufeng CheJing YuDefei YaoGaofeng WangLinxi DongPublished in: Sensors (Basel, Switzerland) (2024)
Protection suits are vital for firefighters' safety. Traditional protection suits physically protect firemen from burns, but cannot locate the position of bodily injuries caused by impact debris. Herein, we present a wearable impact debris positioning system for firefighter protection suits based on an accelerometer array. Wearable piezoelectric accelerometers are distributed regularly on the suit to detect the vibration on different body parts, which is conducive to determining the position of injured body parts. In addition, the injured parts can be displayed on a dummy body model on the upper computer with a higher localization accuracy of 4 cm. The positioning alarm system has a rapid response time of 0.11 ms, attributed to the smart signal processing method. This work provides a reliable and smart method for locating and assessing the position of bodily injuries caused by impact debris, which is significant because it enables fire commanders to rescue injured firefighters in time.