Resume
Personal Information
Name:
Email:
Tel:
Address:
Jiefei Gu (First Name Last Name, respectively)
Jiefei [email protected]
631-216-2179 (Dor.)
631-444-2354 (Lab)
Department of Biomedical Engineering
Stony Brook University
Stony Brook 11794
N.Y.
MBERSHIP
Member of Society for Neuroscience
Research Interest
Quantitative Biophysical Descriptions; Neural Engineering;
Bioinstrumentation
Education Background
Ph.D., Biomedical Engineering, expected 2007,
Stony Brook University, Stony Brook, N.Y.
Master of Engineering, Biomedical Engineering, March. 2003
Shanghai Jiao Tong University, Shanghai, China.
Bachelor of Engineering, Detection Engineering and Instrument, July. 2000
Xi#39;an University, Xi#39;an, China.
Academic Honors
(Fellowship)
·2005 Fellowship of Bioscience Industry certificate program
·2003-present Graduate Assistantship of Stony Brook University
·2003-present Full Tuition Scholarship of Stony Brook University
·2001-2002
National Fellowship of China
·2000
Excellent Graduate of Xidian University
·1999-2000
Excellent Academic Scholarship from Xidian University
·1998-1999
Excellent Academic Scholarship from Xidian University
·1997-1998
Excellent Academic Scholarship from Xidian University
·1996-1997
Excellent Academic Scholarship from Xidian University
Research Experience
Jan. 2004 —
July. 2004
Reflex And Central Neural Control of Respiratory Function
Lab Rotation Supervisor: Prof. Irene C. Solomon
Sept. 2003 — Dec. 2003
Biomedical Modeling
Lab Rotation Supervisor: Prof. Ki H. Chon
Sept. 2000 — Aug.2003
Research Assistant, Bio-signal detection and processing Lab, Shanghai Jiao Tong University
· NNSFC Projects involved:
“Analysis of dynamical components in the EEG signals of schizophrenia before seizure”(NO. 60071018)
”Clinical Ischemic Injury Monitoring Based on Information Study of Electroencephalogram” (No.60272326)
· Signal separation and extraction. (ICA, etc.)
· System identification and control, analytical dynamics, Nonstationary signals processing. (Advanced Time-frequency Analysis, Information Theory, Chaos Theory, etc.)
· Develop new quantitative analyzing methods of EEG for those who under different injury situations and investigating the underlying mechanisms of the brain.
Teaching Experience
Jan. 2003 — Present
BME 212—Lab Methods in Biomedical Engineering, Teaching Assistant,
Department of Biomedical Engineering, Stony Brook University
Sept. 2003 — Dec. 2003
BME 461—Linear System Analysis and Biomedical Application, Teaching Assistant,
Department of Biomedical Engineering, Stony Brook University
Sept.2001 —Feb.2002
Control Theory, Teaching Assistant,
Department of Biomedical Engineering, Shanghai Jiao Tong University
Other Experience
July 2002
Shanghai No.6 People Hospital (Internship)
Feb.2000 —June2000
Undergraduate Thesis Work
· “Tele-communication of ECGs”
Aug.1998 —Feb.1999
Project for “Challenge Cup” Scientific Creativity Competition
· “Temperature and Humidity Control System of Tobacco Producing”
Instrument developed based on MCS51 chip
CONFERENCE PRESENTATIONS
April, 2005 Jiefei Gu, E. T. Spiegel, K. H. Chon, I. C. Solomon.The Application of Multiple Time-Invariant Spectral Analysis Algorithms to Inspiratory Motor Discharge in Mice, Rats, Cats, And Piglets. To be presented at Experimental Biology 2005, San Diego, CA
April, 2005 E. T. Spiegel, Jiefei Gu, K. H. Chon, I. C. Solomon. The Application of Multiple Time-Varying Spectral Analysis Algorithms to Inspiratory Motor Discharge in Mice, Rats, Cats, And Piglets. To be presented at Experimental Biology 2005, San Diego, CA
Oct. 23-28, 2004 Jiefei Gu, K. H. Chon, I.C. Solomon. Blockade of gap junctions transiently reduces respiratory network complexity in arterially-perfused adult rat. Presented at Neuroscience 2004, Oct. 2004, San Diego, CA
April 17-21, 2004 Jiefei Gu, K. H. Chon, I.C. Solomon. Excitation of phasic inspiratory activity produced by chemical stimulation of the pre-B?tzinger complex in vivo reduces respiratory network complexity. Presented at Experimental Biology 2004, April 2004, Washington DC
Sept. 26-28 2000
IEEE-EMBS Asia-Pacific Conference on Biomedical Engineering, APBME 2000, Hangzhou, China
Nov. 9-11,2001
Chinese Biomedical Electronic Conference, CBME 2001, Wuhan, China
Nov. 19
2002
The 3rd China-Japan Postgraduate Symposium on Biomedical Engineering, Shanghai, China
PUBLICATIONS
[1] Jiefei Gu, K. H. Chon, I.C. Solomen. Chemical activation of pre-Bötzinger complex in vivo reduces respiratory network complexity, Am J Physiol Regulatory Integrative Comp Physiol, Jan 2005; 10.1152/ajpregu.00650.2004.
[2] Jiefei Gu, K. H. Chon, I.C. Solomen. Blockade of gap junctions transiently reduces respiratory network complexity in arterially-perfused adult rat ( Neuroscience 2004)
[3] Jiefei Gu, K. H. Chon, I.C. Solomen. Excitation of phasic inspiratory activity produced by chemical stimulation of the pre-Bötzinger complex in vivo reduces respiratory network complexity ( Experimental Biology 2004)
[4] Jiefei Gu, Shanbao Tong, Yingjie Lee, Yisheng Zhu. Nonextensive Entropy Map of Schizophrenia EEG Analysis of Biomedical Signals and Images, Vol.16, p: 69-71, Biosignal 2002, Brno, Czech Republic, 2002
[5] Jiefei Gu, Yisheng Zhu, Li Gong, Hao Xie. R&D of the Third Generation Distance Education System, Computer Engineering (In Chinese) iss. 8, p:14-19, 2003
[6] Jiefei Gu, Hao Xie, Yisheng Zhu, Hongxuan Zhang Cardiac Chaos Denoising with an Improved ICA Proceedings of The 3rd China-Japan Postgraduate Symposium on Biomedical Engineering, p:47-49, 2002
[7] Ziming Wang, Shanbao Tong , Jiefei Gu, Yisheng Zhu, N.Thakor Nonlinear Analysis of EEG in Brain Injury from Cardiac Arrest Proceedings of The 3rd China-Japan Postgraduate Symposium on Biomedical Engineering, p:55-57, 2002
[8] Shanbao Tong, Anastasios Bezerianos, Jiefei Gu, Yisheng Zhu, Nitish Thakor. Performances of Time Dependent Tsallis Entropy with Application to Neurological Signals (submitted to Physical A)
Personal Information
Name:
Email:
Tel:
Address:
Jiefei Gu (First Name Last Name, respectively)
Jiefei [email protected]
631-216-2179 (Dor.)
631-444-2354 (Lab)
Department of Biomedical Engineering
Stony Brook University
Stony Brook 11794
N.Y.
MBERSHIP
Member of Society for Neuroscience
Research Interest
Quantitative Biophysical Descriptions; Neural Engineering;
Bioinstrumentation
Education Background
Ph.D., Biomedical Engineering, expected 2007,
Stony Brook University, Stony Brook, N.Y.
Master of Engineering, Biomedical Engineering, March. 2003
Shanghai Jiao Tong University, Shanghai, China.
Bachelor of Engineering, Detection Engineering and Instrument, July. 2000
Xi#39;an University, Xi#39;an, China.
Academic Honors
(Fellowship)
·2005 Fellowship of Bioscience Industry certificate program
·2003-present Graduate Assistantship of Stony Brook University
·2003-present Full Tuition Scholarship of Stony Brook University
·2001-2002
National Fellowship of China
·2000
Excellent Graduate of Xidian University
·1999-2000
Excellent Academic Scholarship from Xidian University
·1998-1999
Excellent Academic Scholarship from Xidian University
·1997-1998
Excellent Academic Scholarship from Xidian University
·1996-1997
Excellent Academic Scholarship from Xidian University
Research Experience
Jan. 2004 —
July. 2004
Reflex And Central Neural Control of Respiratory Function
Lab Rotation Supervisor: Prof. Irene C. Solomon
Sept. 2003 — Dec. 2003
Biomedical Modeling
Lab Rotation Supervisor: Prof. Ki H. Chon
Sept. 2000 — Aug.2003
Research Assistant, Bio-signal detection and processing Lab, Shanghai Jiao Tong University
· NNSFC Projects involved:
“Analysis of dynamical components in the EEG signals of schizophrenia before seizure”(NO. 60071018)
”Clinical Ischemic Injury Monitoring Based on Information Study of Electroencephalogram” (No.60272326)
· Signal separation and extraction. (ICA, etc.)
· System identification and control, analytical dynamics, Nonstationary signals processing. (Advanced Time-frequency Analysis, Information Theory, Chaos Theory, etc.)
· Develop new quantitative analyzing methods of EEG for those who under different injury situations and investigating the underlying mechanisms of the brain.
Teaching Experience
Jan. 2003 — Present
BME 212—Lab Methods in Biomedical Engineering, Teaching Assistant,
Department of Biomedical Engineering, Stony Brook University
Sept. 2003 — Dec. 2003
BME 461—Linear System Analysis and Biomedical Application, Teaching Assistant,
Department of Biomedical Engineering, Stony Brook University
Sept.2001 —Feb.2002
Control Theory, Teaching Assistant,
Department of Biomedical Engineering, Shanghai Jiao Tong University
Other Experience
July 2002
Shanghai No.6 People Hospital (Internship)
Feb.2000 —June2000
Undergraduate Thesis Work
· “Tele-communication of ECGs”
Aug.1998 —Feb.1999
Project for “Challenge Cup” Scientific Creativity Competition
· “Temperature and Humidity Control System of Tobacco Producing”
Instrument developed based on MCS51 chip
CONFERENCE PRESENTATIONS
April, 2005 Jiefei Gu, E. T. Spiegel, K. H. Chon, I. C. Solomon.The Application of Multiple Time-Invariant Spectral Analysis Algorithms to Inspiratory Motor Discharge in Mice, Rats, Cats, And Piglets. To be presented at Experimental Biology 2005, San Diego, CA
April, 2005 E. T. Spiegel, Jiefei Gu, K. H. Chon, I. C. Solomon. The Application of Multiple Time-Varying Spectral Analysis Algorithms to Inspiratory Motor Discharge in Mice, Rats, Cats, And Piglets. To be presented at Experimental Biology 2005, San Diego, CA
Oct. 23-28, 2004 Jiefei Gu, K. H. Chon, I.C. Solomon. Blockade of gap junctions transiently reduces respiratory network complexity in arterially-perfused adult rat. Presented at Neuroscience 2004, Oct. 2004, San Diego, CA
April 17-21, 2004 Jiefei Gu, K. H. Chon, I.C. Solomon. Excitation of phasic inspiratory activity produced by chemical stimulation of the pre-B?tzinger complex in vivo reduces respiratory network complexity. Presented at Experimental Biology 2004, April 2004, Washington DC
Sept. 26-28 2000
IEEE-EMBS Asia-Pacific Conference on Biomedical Engineering, APBME 2000, Hangzhou, China
Nov. 9-11,2001
Chinese Biomedical Electronic Conference, CBME 2001, Wuhan, China
Nov. 19
2002
The 3rd China-Japan Postgraduate Symposium on Biomedical Engineering, Shanghai, China
PUBLICATIONS
[1] Jiefei Gu, K. H. Chon, I.C. Solomen. Chemical activation of pre-Bötzinger complex in vivo reduces respiratory network complexity, Am J Physiol Regulatory Integrative Comp Physiol, Jan 2005; 10.1152/ajpregu.00650.2004.
[2] Jiefei Gu, K. H. Chon, I.C. Solomen. Blockade of gap junctions transiently reduces respiratory network complexity in arterially-perfused adult rat ( Neuroscience 2004)
[3] Jiefei Gu, K. H. Chon, I.C. Solomen. Excitation of phasic inspiratory activity produced by chemical stimulation of the pre-Bötzinger complex in vivo reduces respiratory network complexity ( Experimental Biology 2004)
[4] Jiefei Gu, Shanbao Tong, Yingjie Lee, Yisheng Zhu. Nonextensive Entropy Map of Schizophrenia EEG Analysis of Biomedical Signals and Images, Vol.16, p: 69-71, Biosignal 2002, Brno, Czech Republic, 2002
[5] Jiefei Gu, Yisheng Zhu, Li Gong, Hao Xie. R&D of the Third Generation Distance Education System, Computer Engineering (In Chinese) iss. 8, p:14-19, 2003
[6] Jiefei Gu, Hao Xie, Yisheng Zhu, Hongxuan Zhang Cardiac Chaos Denoising with an Improved ICA Proceedings of The 3rd China-Japan Postgraduate Symposium on Biomedical Engineering, p:47-49, 2002
[7] Ziming Wang, Shanbao Tong , Jiefei Gu, Yisheng Zhu, N.Thakor Nonlinear Analysis of EEG in Brain Injury from Cardiac Arrest Proceedings of The 3rd China-Japan Postgraduate Symposium on Biomedical Engineering, p:55-57, 2002
[8] Shanbao Tong, Anastasios Bezerianos, Jiefei Gu, Yisheng Zhu, Nitish Thakor. Performances of Time Dependent Tsallis Entropy with Application to Neurological Signals (submitted to Physical A)
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