自动检测细胞外微电极记录的噪声水平。

Automatic noise-level detection for extra-cellular micro-electrode recordings.

机构信息

Philips Research, High Tech Campus 34, 5656 AE, Eindhoven, The Netherlands.

出版信息

Med Biol Eng Comput. 2009 Jul;47(7):791-800. doi: 10.1007/s11517-009-0494-4. Epub 2009 May 26.

PMID:19468773

Abstract

Extra-cellular neuro-recording signals used for functional mapping in deep brain stimulation (DBS) surgery and invasive brain computer interfaces, may suffer from poor signal to noise ratio. Therefore, a reliable automatic noise estimate is essential to extract spikes from recordings. We show that current methods are biased toward overestimation of noise-levels with increasing neuronal activity or artifacts. An improved and novel method is proposed that is based on an estimate of the mode of the distribution of the signal envelope. Our method makes use of the inherent characteristics of the noise distribution. For band-limited Gaussian noise the envelope of the signal is known to follow the Rayleigh distribution. The location of the peak of this distribution provides a reliable noise-level estimate. It is demonstrated that this new 'envelope' method gives superior performance both on simulated data, and on actual micro-electrode recordings made during the implantation surgery of DBS electrodes for the treatment of Parkinson's disease.

摘要

用于深部脑刺激 (DBS) 手术和侵入性脑机接口中的细胞外神经记录信号可能会受到信噪比差的影响。因此，可靠的自动噪声估计对于从记录中提取尖峰至关重要。我们表明，当前的方法存在偏向于随着神经元活动或伪影的增加而高估噪声水平的偏差。提出了一种改进的新方法，该方法基于对信号包络分布模式的估计。我们的方法利用了噪声分布的固有特性。对于带限高斯噪声，信号的包络已知遵循瑞利分布。该分布的峰值位置提供了可靠的噪声水平估计。结果表明，这种新的“包络”方法在模拟数据以及在帕金森病治疗中植入 DBS 电极的植入手术期间实际微电极记录中均具有出色的性能。

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自动检测细胞外微电极记录的噪声水平。

Automatic noise-level detection for extra-cellular micro-electrode recordings.

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