Compressive Sampling and Reconstruction of ECG Signal for Manned Spaceflight Applications

2019 4th International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT) Pub Date : 2019-05-01 DOI:10.1109/RTEICT46194.2019.9016914

P M Anand, S. Thiruppathirajan, E. S. Shajahan, S. Sreekumar, P. Vinod, M. Narayanan Namboodiripad

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Abstract

Electrocardiogram (ECG) is a vital signal which represents the state of health of astronauts in a manned spaceflight mission and hence must be continuously acquired and transmitted throughout the mission. Telemetry bandwidth is a premium resource in such applications. Traditional method of sampling at Nyquist rate is highly bandwidth inefficient. Hence it is advantageous to use Compressive sensing (CS) technique to optimize data at measurement point itself. Conventional CS techniques employ computationally intensive measurement matrices which are not hardware efficient for both acquisition as well as recovery. In this work, a hardware efficient scheme with use of a sparse binary measurement matrix is proposed. The signal is recovered from the compressive measurement using a constraint function based on inverted Laplace distribution function. Gradient decent method is used to recursively recover the original ECG signal from the compressive measurements in an efficient manner. Apart from this, a projection scheme is also proposed to minimize the recovery error. The proposed scheme was extensively evaluated with different ECG samples with different compression ratios. Finally, the proposed scheme was benchmarked with Approximated L0 norm based method and it is found to perform more efficiently in compressively sensing and recovery of ECG signals.

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载人航天心电信号压缩采样与重构

在载人航天飞行任务中，心电图是反映航天员健康状况的重要信号，必须在整个任务过程中持续采集和传输。遥测带宽在此类应用中是一种宝贵的资源。传统的奈奎斯特速率采样方法带宽效率很低。因此，利用压缩感知技术对测点本身的数据进行优化是有利的。传统的CS技术采用计算密集型的测量矩阵，这对于采集和恢复来说都不是硬件高效的。本文提出了一种利用稀疏二值测量矩阵的硬件高效方案。利用基于拉普拉斯分布函数的约束函数从压缩测量中恢复信号。采用梯度体面法从压缩测量中递归恢复原始心电信号，有效地提高了信号的复原效率。此外，还提出了一种最小化恢复误差的投影方案。采用不同压缩比的不同ECG样本对该方案进行了广泛的评估。最后，用基于近似L0范数的方法对该方法进行了测试，结果表明该方法在心电信号的压缩感知和恢复方面具有更高的效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 4th International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT)

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