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引用次数: 7
摘要
本文提出了一种具有特定患者机器学习技术的区域节能16通道癫痫发作和终止检测处理器。这是文献中第一次报道芯片上的分类,以高精度同时检测癫痫事件的开始和结束。提出、实现并验证了频时分复用(FTDM)滤波器结构和双检测器结构(D2A)。D2A结合了两个面积高效的线性支持向量机(Linear Support Vector Machine, LSVM)分类器和数字迟滞,使用CHB-MIT EEG数据库[1],灵敏度和特异度分别达到95.7%和98%,延迟较小,仅为15秒。在16通道模式下,总能量效率为1.85μJ/Classification。
A 16-channel, 1-second latency patient-specific seizure onset and termination detection processor with dual detector architecture and digital hysteresis
This paper presents an area-power-efficient 16-channel seizure onset and termination detection processor with patient-specific machine learning techniques. This is the first work in literature to report an on-chip classification to detect both start and end of seizure event simultaneously with high accuracy. Frequency-Time Division Multiplexing (FTDM) filter architecture and Dual-Detector Architecture (D2A) is proposed, implemented and verified. The D2A incorporates two area-efficient Linear Support Vector Machine (LSVM) classifiers along with digital hysteresis to achieve a high sensitivity and specificity of 95.7% and 98%, respectively, using CHB-MIT EEG database [1], with a small latency of 1s. The overall energy efficiency is measured as 1.85μJ/Classification at 16-channel mode.
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