eprintid: 4588 rev_number: 2 eprint_status: archive userid: 1 dir: disk0/00/00/45/88 datestamp: 2023-11-09 16:16:17 lastmod: 2023-11-09 16:16:17 status_changed: 2023-11-09 15:58:46 type: conference_item metadata_visibility: show creators_name: Vuong, P.L. creators_name: Malik, A.S. creators_name: Bornot, J. title: Weighted-permutation entropy as complexity measure for electroencephalographic time series of different physiological states ispublished: pub keywords: Biomedical engineering; Electroencephalography; Entropy; Nonlinear analysis; Physiology; Polyethylenes; Time series, Complexity measures; CPEI; Electroencephalographic (EEG); Eye blink; Linear discrimination analysis; Ordinal pattern; Permutation entropy; Physiological state, Time series analysis note: cited By 9; Conference of 3rd IEEE Conference on Biomedical Engineering and Sciences, IECBES 2014 ; Conference Date: 8 December 2014 Through 10 December 2014; Conference Code:111205 abstract: An electroencephalographic (EEG) waveform could be denoted by a series of ordinal patterns called motifs which are based on the ranking values of subsequence time series. Permutation entropy (PE) has been developed to describe the relative occurrence of each of these motifs. However, PE has few limitations, mainly its inability to differentiate between distinct patterns of a certain motif, and its sensitivity to noise. To minimize those limitations, Weighted-Permutation Entropy (WPE) was proposed as a modification version of PE to improve complexity measuring for times series. This paper presents an approach by incorporating WPE into the analysis of different physiological states namely EEG time series. Three different EEG physiological states, eye-closed (EC), eye-open (EO), and visual oddball task (VOT) were included to examine ability of WPE to identify and discriminate different physiological states. The classification using WPE has achieved the results with accuracy of 87 between EC and EO states, and 83 between EO and VOT, respectively, using linear discrimination analysis. The results showed the potential of WPE to be a promising feature for nonlinear analysis in different physiological states of brain. It was also observed that WPE also could be used as marker for large artifact with low frequency such as eye-blink. © 2014 IEEE. date: 2014 publisher: Institute of Electrical and Electronics Engineers Inc. official_url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-84925590268&doi=10.1109%2fIECBES.2014.7047658&partnerID=40&md5=f0ede1c0963fde3a5695d1ddf9ff2557 id_number: 10.1109/IECBES.2014.7047658 full_text_status: none publication: IECBES 2014, Conference Proceedings - 2014 IEEE Conference on Biomedical Engineering and Sciences: "Miri, Where Engineering in Medicine and Biology and Humanity Meet" pagerange: 979-984 refereed: TRUE isbn: 9781479940844 citation: Vuong, P.L. and Malik, A.S. and Bornot, J. (2014) Weighted-permutation entropy as complexity measure for electroencephalographic time series of different physiological states. In: UNSPECIFIED.