汇报题目:参加IEEE International Conference on Systems, Man, and Cybernetics2019参会报告
汇报时间:2019年10月14日(星期一)19:30
汇报地点:科技园西五楼A228会议室
汇报人:张凯
会议名称:IEEE International Conference on Systems, Man, and Cybernetics 2019
会议时间:06—09 October 2019
会议地点:Bari, Italy
会议简介:IEEE SMC 2019 is the annual premier conference of the IEEE Systems, Man, and Cybernetics Society. It represents an international forum for researchers and practitioners to report up-to-the-minute innovation and development, summarize state-of-the-art, and exchange ideas and advances in all aspects of systems science and engineering, human machine systems, and cybernetics
会议交流工作:
Oral presentation: Asymmetric Multifractal Detrended Cross-Correlation Analysis of EEG and sEMG in The Processes of Myodynamia Changes
参会论文信息:
Title: Asymmetric Multifractal Detrended Cross-Correlation Analysis of EEG and sEMG in The Processes of Myodynamia Changes
Author: Kai Zhang, Guanghua Xu, Xiaobi Chen and Sicong Zhang, Xiaowei Zheng, Chengcheng Han
Abstract: The cross-correlation between the electroencephalogram(EEG) and surface electromyography(sEMG) has important research value both in human-robot integration and intelligent rehabilitation robots. The purpose of this study is to explore the relationship between EEG and sEMG when EEG has different trends. The asymmetric crosscorrelation of EEG and sEMG in different states were analyzed by using the multifractal asymmetric detrended cross correlation analysis (MF-ADDCA) method. The synchronous EEG and sEMG in the process of tracking feedback force were analyzed. In order to investigate the dynamic process of asymmetric degree, the rolling window MF-ADDCA method was adopted. The analysis results showed that the asymmetries existed in the cross-correlation between EEG and sEMG and the asymmetric cross-correlation were multifractal. In a resting state, the cross-correlation between EEG and sEMG was symmetric. The asymmetries cross-correlation between EEG and sEMG were stronger in large fluctuations under myodynamia enhancement state, and were stronger in small fluctuations under myodynamia stability state.
Hope to see you!
