Institute of Statistical Science
Academia Sinica
Taipei 11529, Taiwan
Tel (886)2-27875743; Fax (886)2-27831523
Email arthur@stat.sinica.edu.tw
https://www.researchgate.net/profile/Arthur_Tsai
https://scholar.google.com.tw/citations?user=BsrPxkcAAAAJ
Associate Research Fellow, Institute of Statistical Science, Academia Sinica (2016–present)
1999 Ph.D. National Taiwan University, Electrical Engineering.
Thesis: Robust MIMO Fuzzy/Neuro-Fuzzy Control by Self-Tuning of Con- sequent Membership Functions.
1993 M.S. National Taiwan University, Electrical Engineering.
1992 B.S. National Tsing Hua University, Power Mechanical Engineering.
1999–2004 Postdoctoral Fellow
Institute of Statistical Science, Academia Sinica.
EEG source analysis; independent component analysis; functional MRI data analysis; neuro-fuzzy systems; trait anxiety study; human learning.
(ps. * refer to the corresponding author)
A. C. Tsai. Robust MIMO fuzzy/neuro-fuzzy control by self-tuning of consequent membership functions. Ph.D. thesis, Department of Electrical Engineering, National Taiwan University, Jun 1999.
Arthur C. Tsai, A.C.W. Huang and B.C, Shyu WIRELESS MAGNETIC RESONANCE DEVICE FOR OPTOGENETIC APPLICATIONS IN ANIMAL MODEL US 2020/0108271 A1, CN111001087A, TW202014216A. A novel wireless device is proposed which follows the principle of a mag- netic resonance technique to overcome the deficits of the conventional method with magnetic induction or radio-frequency power source.
Hyperbolic Power Transformation https://github.com/arthurctsai/hp
The Matlab scripts demonstrate the efficacy of hyperbolic power transformation in the four essential types of transformations: concave, convex, concave-to-convex, and convex-to-concave functions. The closed-form solutions of both power and scale parameters by equi-percentile point estimation and maximum likelihood estimation are also demonstrate by the demo program.