A high precision EEG acquisition system based on the CompactPCI platform

2014 7th International Conference on Biomedical Engineering and Informatics Pub Date : 2014-10-01 DOI:10.1109/BMEI.2014.7002828

Jingyang Chen, Xiaoqiong Li, Xue Mi, Shaowu Pan

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引用次数: 15

Abstract

Electroencephalography (EEG) is the recording of electrical activities generated by nerve cells in the cerebral cortex. As the only non-invasive method for measuring brain activities from human scalp, it has been widely used in the area of medical diagnosis, neuroscience research, commercial application, etc. Most of the existing EEG acquisition systems, which are usually comprised of analog switches, operational amplifiers, analog-digital converters and specific instruments, have the weakness of high expenses, limited accuracy and difficult to update. Aiming at the need of cognitive science research and brain computer interface (BCI) design, a high precision EEG acquisition system based on the compact peripheral component interconnect (CompactPCI) platform was designed in this paper. A commercial EEG hat with adjustable electrodes was used to collect interested EEG signals. And ADS1299, a high resolution analogy front end IC proposed by Texas Instruments, was adopted in the system to acquire and convert EEG signals. To facilitate hardware expansion, system integration and data processing, the device was designed in the form of a 3U CompactPCI card and connected to an embedded computer. A graphical user interface (GUI) software was provided to control the data acquiring, storing and processing. In addition, the least mean squares (LMS) adaptive filter was realized to optimize the signals. The compact and highly integrated analogy circuit in this design significantly avoided the contamination of signals by environmental noises and reduced device-to-device connection complexity. Meanwhile, the system structure based on the CompactPCI platform made it easier to adjust signal channels and evaluate novel algorithms. The accuracy tests and alpha wave detection experiments showed that our EEG acquisition system had high accuracy and was applicable to various EEG-related experiments. The research in this paper may have reference value for the development of portable EEG acquisition system and BCI device.

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基于CompactPCI平台的高精度脑电信号采集系统

脑电图(EEG)是对大脑皮层中神经细胞产生的电活动的记录。作为目前唯一一种无创测量人体头皮脑活动的方法，已广泛应用于医学诊断、神经科学研究、商业应用等领域。现有的脑电图采集系统大多由模拟开关、运算放大器、模数转换器和专用仪器组成，存在费用高、精度有限、更新困难等缺点。针对认知科学研究和脑机接口(BCI)设计的需要，设计了一种基于紧凑型外围元件互连(CompactPCI)平台的高精度脑电信号采集系统。使用可调节电极的商用EEG帽来收集感兴趣的EEG信号。系统采用美国德州仪器公司的高分辨率模拟前端集成电路ADS1299对脑电信号进行采集和转换。为了方便硬件扩展、系统集成和数据处理，该器件被设计成3U CompactPCI卡的形式，并连接到嵌入式计算机。提供了图形用户界面(GUI)软件来控制数据的采集、存储和处理。此外，实现了最小均方自适应滤波对信号进行优化。该类比电路结构紧凑，集成度高，有效地避免了环境噪声对信号的污染，降低了器件间连接的复杂度。同时，基于CompactPCI平台的系统结构使得调整信号通道和评估新算法变得更加容易。准确性测试和α波检测实验表明，我们的脑电信号采集系统具有较高的准确性，适用于各种与脑电信号相关的实验。本文的研究对便携式脑电信号采集系统和脑机接口设备的开发具有一定的参考价值。

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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2014 7th International Conference on Biomedical Engineering and Informatics

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