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Disambiguation of "Fan, Shou-Zen"

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Analysis of EEG via Multivariate Empirical Mode Decomposition for Depth of Anesthesia Based on Sample Entropy.

, , , , , , and . Entropy, 15 (9): 3458-3470 (2013)

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Dr. Sisi Fan University of Stuttgart

Dr. rer. nat. Anna Zens University of Stuttgart

Nicola Fanton University of Stuttgart

Soraya Zenhari University of Stuttgart

Astrid Zenkert University of Stuttgart

 

Other publications of authors with the same name

Analysis of EEG via Multivariate Empirical Mode Decomposition for Depth of Anesthesia Based on Sample Entropy., , , , , , and . Entropy, 15 (9): 3458-3470 (2013)EEG artifacts reduction by multivariate empirical mode decomposition and multiscale entropy for monitoring depth of anaesthesia during surgery., , , , and . Med. Biol. Engineering and Computing, 55 (8): 1435-1450 (2017)A comparison of patients' heart rate variability and blood flow variability during surgery based on the Hilbert-Huang Transform., , , , , and . Biomed. Signal Proc. and Control, 7 (5): 465-473 (2012)EEG Signals Analysis Using Multiscale Entropy for Depth of Anesthesia Monitoring during Surgery through Artificial Neural Networks., , , , and . Comp. Math. Methods in Medicine, (2015)Rule extraction by fuzzy modeling algorithm for fuzzy logic control of cisatracurium as a neuromuscular block., , and . Eng. Appl. of AI, 22 (1): 129-140 (2009)Comparison of FFT and marginal spectra of EEG using empirical mode decomposition to monitor anesthesia., , , , , , and . Computer Methods and Programs in Biomedicine, (2016)Instantaneous 3D EEG Signal Analysis Based on Empirical Mode Decomposition and the Hilbert-Huang Transform Applied to Depth of Anaesthesia., , , , and . Entropy, 17 (3): 928-949 (2015)Monitoring and Control of Anesthesia Using Multivariable Self-Organizing Fuzzy Logic Structure., , , , , and . Fuzzy Systems in Bioinformatics and Computational Biology, volume 242 of Studies in Fuzziness and Soft Computing, Springer, (2009)Design and Evaluation of a Real Time Physiological Signals Acquisition System Implemented in Multi-Operating Rooms for Anesthesia., , , , , , , , and . J. Medical Systems, 42 (8): 148:1-148:19 (2018)Multivariable Type-2 Self-Organizing Fuzzy Logic Controllers for Regulating Anesthesia with Rule Base Extraction., , , , and . TAAI, page 217-222. IEEE Computer Society, (2013)