Low Complexity Multichannel Neural Data Compression by Exploiting Spatial Signal Correlation

2018 25th International Conference "Mixed Design of Integrated Circuits and System" (MIXDES) Pub Date : 2018-06-01 DOI:10.23919/MIXDES.2018.8436716

P. Turcza, K. Duda

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引用次数: 1

Abstract

Wireless data transmission accounts for a significant fraction of total power consumed by an implanted high-density microelectrode array neural recording system. It is well known that the problem can be mitigated by using an on-chip data compressor. The suitable data compressor should offer high compression and low signal distortions. In addition it should feature very low power consumption, low memory footprint and low latency. In this paper we evaluate the feasibility of exploiting spatial correlation between neural signals being recorded with closely spaced electrode array for compression purpose. We show that optimal signal decorrelation and compression is possible by linear signal transformation with the matrix obtained with the Principal Component Analysis (PCA). Furthermore, we demonstrate that the optimal PCA based matrix has a similar structure to the Discrete Cosine Transform (DCT) matrix, which is widely used in image compression. Finally, the performance of data compressor exploiting the PCA and the DCT is compared. Along with compression ratio the power consumption and the area of decorrelation processors are reported.

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利用空间信号相关性的低复杂度多通道神经数据压缩

无线数据传输占植入高密度微电极阵列神经记录系统总功耗的很大一部分。众所周知，这个问题可以通过使用片上数据压缩器来缓解。合适的数据压缩器应该提供高压缩和低信号失真。此外，它应该具有非常低的功耗、低内存占用和低延迟。在本文中，我们评估了利用紧密间隔电极阵列记录的神经信号之间的空间相关性进行压缩的可行性。我们证明了用主成分分析(PCA)得到的矩阵对信号进行线性变换，可以实现最优的信号去相关和压缩。此外，我们证明了基于PCA的最优矩阵具有与广泛用于图像压缩的离散余弦变换(DCT)矩阵相似的结构。最后，比较了基于PCA和DCT的数据压缩器的性能。随着压缩比的增加，报告了去相关处理器的功耗和面积。

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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来源期刊

2018 25th International Conference "Mixed Design of Integrated Circuits and System" (MIXDES)

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