Performance Evaluation of Capacitive Based Force Sensor for Electroencephalography Head Caps

I. F. Warsito, A. Hunold, J. Haueisen, E. Supriyanto
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引用次数: 1

Abstract

Accurate electrode signal measurement using EEG head caps can only be achieved through sufficient contact or force. A flexible force sensor is required to obtain accurate force measurement underneath EEG head caps. In this study, we evaluate the performance of a capacitive based sensor including its accuracy, repeatability, hysteresis, and stability. The result shows that accuracy error and repeatability error were 3.03±2.8 % and 3.84±2.92 %, respectively. The stability errors were 2.37±0.15 % (10 gram), 2.54±0.00 % (50 gram), 2.37±0.15 % (100 gram), 5.07±1.16 % (150 gram), 7.27±0.39 % (200 gram). The hysteresis error of the sensor was 4.48±0.47 %. Based on the results, the capacitive based force sensor provides sufficiently low errors in accuracy, repeatability, stability, and hysteresis and is thus suitable for measuring adduction force in EEG cap applications.
脑电帽电容式力传感器性能评价
使用EEG头罩的精确电极信号测量只能通过足够的接触或力来实现。需要一个柔性的力传感器来获得EEG头罩下的精确力测量。在这项研究中,我们评估了基于电容的传感器的性能,包括其准确性、可重复性、滞后性和稳定性。结果表明,准确度误差为3.03±2.8%,重复性误差为3.84±2.92%。稳定性误差分别为2.37±0.15%(10克)、2.54±0.00%(50克)、2.37±0.15%(100克)、5.07±1.16%(150克)、7.27±0.39%(200克)。传感器的磁滞误差为4.48±0.47%。基于这些结果,基于电容的力传感器在精度、可重复性、稳定性和滞后方面提供了足够低的误差,因此适合于在EEG帽应用中测量内收力。
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CiteScore
6.80
自引率
0.00%
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