用于细胞外神经记录的低功率模拟尖峰检测器

Q3 Arts and Humanities Giornale di Storia Costituzionale Pub Date : 2004-12-13 DOI:10.1109/ICECS.2004.1399675

C.L. Rogers, J. Harris

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引用次数: 21

摘要

本文讨论了一种低功率尖峰检测电路，该电路通过在每个神经尖峰时间只输出一个短脉冲来减少神经记录的带宽。通信带宽急剧减少到峰值的数量。主要思想是使用两个低通滤波器，一个具有较高的截止频率来去除高频噪声，另一个具有较低的截止频率来产生局部平均值。当信号与局部平均值之间的差值超过阈值时，检测到尖峰。该电路使用亚阈值CMOS来保持功耗足够低，以便在植入设备中集成多个通道。与现有的尖峰检测方法相比，该方法具有较低的功耗和更紧凑的鲁棒性和无监督算法。

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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A low-power analog spike detector for extracellular neural recordings

This paper discusses a low-power spike detection circuit, which reduces bandwidth from neural recordings by only outputting a short pulse at each neural spike time. Communication bandwidth is dramatically reduced to the number of spikes. The principal idea is to use two low pass filters, one with a higher cutoff frequency to remove high frequency noise and the other with a lower cutoff frequency to create a local average. When the difference between the signal and the local average rises above a threshold, a spike is detected. The circuit uses subthreshold CMOS to keep the power consumption low enough for integration of many channels in an implanted device. This spike detection method shows promising results towards a robust and unsupervised algorithm that is lower power and more compact than existing spike detection methods.

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