井下人员生理数据采集与处理系统设计

基金项目:

国家级大学生创新创业训练计划项目(201510291018Z)

详细信息

Design of physiological data acquisition and processing system for underground personnel

1.
College of Computer Science and Technology, Nanjing Tech University, Nanjing 211800, China
2.
School of Teleommunications Engineering, Xidian University, Xi''an 710071, China

摘要: 提出了一种井下人员生理数据采集与处理系统设计方案，着重介绍了数据采集终端硬件设计、数据采集与处理方法、ZigBee数据传输设计。该系统可实时采集井下人员的血氧饱和度、脉搏和体动数据，经处理后得出井下人员生理状态，并在上位机监控界面上显示。测试结果表明，该系统数据采集准确率在90%以上，且数据传输可靠，未出现丢包现象。
- 井下人员 /
- 生理状态 /
- 生理数据 /
- 血氧饱和度 /
- 脉搏 /
- 体动 /
- ZigBee网络
Abstract: A design scheme of physiological data acquisition and processing system for underground personnel was proposed. Hardware design of data acquisition terminal, data acquisition and processing method and ZigBee data transmission design of the system were introduced. The system can acquire the data of oxygen saturation of blood, pulse and body motion of underground personnel real-timely, and get physiological condition of the personnel by processing the acquired data, which displays on monitoring interface of upper computer. The test results show that the accuracy of data acquisition of the system is over 90%, and data transmission is reliable without data packet loss.
- underground personnel /
- physiological condition /
- physiological data /
- oxygen saturation of blood /
- pulse /
- body motion /
- ZigBee network

1.	高海燕. 移动应用服务UI界面复杂数据显示系统设计. 佳木斯大学学报(自然科学版). 2024(08): 61-65 . 百度学术
2.	杨天敏. 基于Access数据库的图像采集与实时处理系统设计. 现代电子技术. 2021(03): 35-38 . 百度学术
3.	徐苏宁. 基于稀疏逻辑回归的电力线路缺陷在线检测系统设计. 电子设计工程. 2020(15): 143-147 . 百度学术
4.	李辉. 基于云计算技术的网络数据采集传输仿真. 计算机仿真. 2020(06): 152-155+456 . 百度学术
5.	尚宇辉，赵彦明. 基于中间件技术的网络处理器气候大数据多级存储系统. 现代电子技术. 2020(22): 53-56 . 百度学术
6.	王艳玲，赵得智，王闻婧，刘有维. 基于嵌入式技术的红外信号实时处理系统研究. 激光杂志. 2020(12): 141-145 . 百度学术