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引用次数: 3
摘要
提出了一种有效的基于方波调制的光容积脉搏波(PPG)采集和信号处理系统。通过对采集到的信号在不同频率的方波上进行调制,利用简单的载波发生器可以有效地获得高信噪比的PPG信号,降低了计算量和功耗。该系统包括一个精致且可穿戴的三路PPG前端传感器,用于采集PPG信号,一个基于fpga的DSP用于信号调制,以及一个具有高效抗混叠滤波器的模拟电路,用于消除载波的严重谐波。最后,该DSP计划采用台积电0.18 um CMOS技术进行芯片制造,以提高性能并降低成本。与没有进行有效信号调制滤波的传统系统相比,计算量减少了98.8%。与基于fpga的DSP相比,所提出的DSP工作频率为6 MHz,功耗仅为0.58 mW,功耗降低35.2%。该系统能够获取稳定的PPG信号,从而准确地得出心率、呼吸频率、氧浓度等心血管系统的生理指标。
An effective three way PPG acquiring and signal processing system by using square wave modulation
In this paper, an effective photoplethysmograph (PPG) acquiring and signal processing system based on square wave modulation is proposed. Through modulating the acquired signals on different frequency square waves, it is effective to get PPG signals with high SNR by using simple carrier wave generators and reduce the computation load and power. The proposed system includes an exquisite and wearable three way PPG front-end sensor for acquiring PPG signals, an FPGA-based DSP for signal modulation and an analog circuit with an efficient anti-aliasing filter for eliminating serious harmonic waves of the carriers. Finally, the proposed DSP is scheduled for chip fabrication using TSMC 0.18 um CMOS technology to accelerate the performance and reduce the cost. The computation load is reduced by 98.8% compared to conventional system without effective signal modulation and filtering. The proposed DSP operates at 6 MHz and reduce 35.2% of power consumption with only 0.58 mW of power compared with the FPGA-based DSP. The proposed system is able to acquire stable PPG signals to accurately derive the physiological indexes of cardiovascular system such as heart rate, respiratory rate, oxygen concentration, etc..
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