A Low-Power ECoG/EEG Processing IC With Integrated Multiband Energy Extractor

Zhang F.; Mishra A.; Richardson A. G.; Otis B.

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A Low-Power ECoG/EEG Processing IC With Integrated Multiband Energy Extractor

机译：具有集成多频带能量提取器的低功耗ECoG / EEG处理IC

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摘要

Electrocorticography (ECoG) implants have recently demonstrated promising results towards potential use in brain-computer interfaces (BCIs). Spectral changes in ECoG signals can provide insight on functional mapping of sensorimotor cortex. We present a 6.4 $mu$ W electrocorticography (ECoG)/electroencephalography (EEG) processing integrated circuit (EPIC) with 0.46 $mu V_{rm rms}$ noise floor intended for emerging brain-computer interface (BCI) applications. This chip conditions the signal and simultaneously extracts energy in four fully programmable frequency bands. Functionality is demonstrated by tuning the four bands to important frequency bands used by ECoG/EEG applications: $alpha$ (8–12 Hz), $beta$ (18–26 Hz), low-$gamma$ (30–50 Hz), and $gamma$ (70–100 Hz). Measured results from in vivo ECoG recording from the primary motor cortex of an awake monkey are presented.

机译：皮层脑电图（ECoG）植入物最近在脑机接口（BCI）中的潜在用途方面已显示出令人鼓舞的结果。 ECoG信号的频谱变化可以提供有关感觉运动皮层功能映射的信息。我们提出了一种6.4μμW的脑皮层造影（ECoG）/脑电图（EEG）处理集成电路（EPIC），其本底噪声为0.46μμV_{rm rms} $，旨在用于新兴的脑机接口（BCI）应用。该芯片调节信号并同时在四个完全可编程的频带中提取能量。通过将四个频段调整为ECoG / EEG应用程序使用的重要频段来证明功能，即$ alpha $（8–12 Hz），$ beta $（18–26 Hz），低$γ$（30–50 Hz）以及$ gamma $（70–100 Hz）。呈现了来自清醒猴子的初级运动皮层的体内ECoG记录的测量结果。

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《Circuits and Systems I: Regular Papers, IEEE Transactions on》 |2011年第9期|p.2069-2082|共14页
作者
Zhang F.; Mishra A.; Richardson A. G.; Otis B.;
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作者单位

Department of Electrical Engineering, University of Washington, Seattle, WA, USA;

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正文语种 eng
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关键词
Analog integrated circuits; analog signal processing IC; brain-computer interface (BCI); data reduction; electrocorticography (ECoG); electroencephalography (EEG); energy extractor; low power; subbanding; ultra-low power;

机译：模拟集成电路;模拟信号处理IC;脑机接口（BCI）;数据减少;脑电图（ECoG）;脑电图（EEG）;能量提取器;低功率;子带;超低功率;

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2. Ultra low-voltage ultra low-power memristor based band-pass filter design and its application to EEG signal processing [J] . Yener Suayb Cagri, Uygur Atilla, Kuntman H. Hakan Analog Integrated Circuits and Signal Processing . 2016,第3期

机译：基于超低压超低功耗忆阻器的带通滤波器设计及其在脑电信号处理中的应用
3. A Low-Power Integrated x86–64 and Graphics Processor for Mobile Computing Devices [J] . Foley D., Bansal P., Cherepacha D., Solid-State Circuits, IEEE Journal of . 2012,第1期

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4. A low-power multi-band ECoG/EEG interface IC [C] . Zhang Fan, Mishra Apurva, Richardson Andrew G., 32nd IEEE Custom Integrated Circuits Conference . 2010

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7. DTMOS-Based 0.4V Ultra Low-Voltage Low-Power VDTA Design and Its Application to EEG Data Processing [O] . Uygur A., Kuntman H. 2013

机译：基于DTMOS的0.4V超低压低功耗VDTA设计及其在EEG数据处理中的应用

A Low-Power ECoG/EEG Processing IC With Integrated Multiband Energy Extractor

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