传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2013年
6期
790-795
,共6页
左鹏飞%路知远%张永强%董中飞%陈香
左鵬飛%路知遠%張永彊%董中飛%陳香
좌붕비%로지원%장영강%동중비%진향
表面肌电信号%信号采集系统%蓝牙无线传输%加速度信号
錶麵肌電信號%信號採集繫統%藍牙無線傳輸%加速度信號
표면기전신호%신호채집계통%람아무선전수%가속도신호
surface electromyography%signals acquisition system%bluetooth wireless data transfer%acceleration signal
为满足对表面肌电信号采集系统的无创、便携和大数据量传输的需求,本文实现了基于蓝牙无线传输协议的32通道表面肌电和加速度信号采集系统。该系统由发送端和接收端组成。发送端包括4组8通道信号采集和发送模块,每组完成对5通道表面肌电和一个3轴加速度信号的采集、处理及发送;接收端采用FPGA管理4组蓝牙接收器进行一对一数据接收,同时对数据进行统一打包处理并发送到PC机进行数据存储、数据处理及信号波形显示。测试结果表明,本系统一次充电可持续工作6 h,无线通信距离可达12 m,信号噪声比高于70 dB。基于以上性能参数,本系统可应用于手势识别、健康监护等科学研究领域。
為滿足對錶麵肌電信號採集繫統的無創、便攜和大數據量傳輸的需求,本文實現瞭基于藍牙無線傳輸協議的32通道錶麵肌電和加速度信號採集繫統。該繫統由髮送耑和接收耑組成。髮送耑包括4組8通道信號採集和髮送模塊,每組完成對5通道錶麵肌電和一箇3軸加速度信號的採集、處理及髮送;接收耑採用FPGA管理4組藍牙接收器進行一對一數據接收,同時對數據進行統一打包處理併髮送到PC機進行數據存儲、數據處理及信號波形顯示。測試結果錶明,本繫統一次充電可持續工作6 h,無線通信距離可達12 m,信號譟聲比高于70 dB。基于以上性能參數,本繫統可應用于手勢識彆、健康鑑護等科學研究領域。
위만족대표면기전신호채집계통적무창、편휴화대수거량전수적수구,본문실현료기우람아무선전수협의적32통도표면기전화가속도신호채집계통。해계통유발송단화접수단조성。발송단포괄4조8통도신호채집화발송모괴,매조완성대5통도표면기전화일개3축가속도신호적채집、처리급발송;접수단채용FPGA관리4조람아접수기진행일대일수거접수,동시대수거진행통일타포처리병발송도PC궤진행수거존저、수거처리급신호파형현시。측시결과표명,본계통일차충전가지속공작6 h,무선통신거리가체12 m,신호조성비고우70 dB。기우이상성능삼수,본계통가응용우수세식별、건강감호등과학연구영역。
In order to meet demands for non-invasion,portability and Large amount of data transmission of surface elec-tromyographic(sEMG)signal acquisition devices,a 32-channel sEMG and acceleration signal acquisition system based on Bluetooth wireless transmission protocol is presented in this paper. This system consists of both transmitting and receiving terminals. The transmitting terminal composed of 4 groups of 8-channel signal acquisition and transmission modules. Each transmission module enables simultaneous acquisition, processing and transmission of 5-channel sEMG and 3-axis acceleration signals. The receiving terminal uses FPGA to integrate 4 Bluetooth receivers, receiving data from 4 transmission modules respectively. The receiving terminal subsequently packs all received data and transmit them to the computer for storing, processing, and displaying. This system can work 6 hours by a single charge. The wireless communication distance of the system can reach up to 12 meters with a signal to noise ratio no less than 70 dB. Based on these performance parameters,the proposed sEMG and acceleration signal acquisition system is suitable for a variety of applications in gesture recognition and health care.