Guanglin Li, Ph.D.

Room #: RIC 1325 (office), 1309 (mail)
Phone: 312-238-2083
Email:guanglin-li@northwestern.edu

 

Research Scientist
Neural Engineering Center for Artificial Limbs

Rehabilitation Institute of Chicago
 

Research Assistant Professor  
Department of Physical Medicine & Rehabilitation
Northwestern University

 

Research Interests

Dr. Li’s research interests include neural engineering, cardiovascular engineering, myoelectric control of artificial limbs, biomedical instrumentation, signal processing and microcontroller-based device design and development, and bioelectromagnetic computational modeling and imaging.

 

Education

• B.S. in Electrical Engineering, Shandong University, 1983
• M.S. in Electrical Engineering, Shandong University, 1988
• Ph.D. in Biomedical Engineering and Instrumentation, Zhejiang University, 1997
• Postdoctoral Research Associate in Bioengineering, the University of Illinois at Chicago, 2002

 

Professional Associations and Activities

• IEEE Society, senior member
• Member, the IEEE Industrial Electronics Society, member
• Sigma Xi Society, member

 

Selected publications

• Liu C, Li G and He B: "Localization of the site of origin of reentrant arrhythmia from body surface potential maps: a model study," Physics in Medicine and Biology, 50(7): 1421-1432, 2005.
• Li G and He B: “Noninvasive estimation of myocardial infarction by means of a heart-model-based imaging approach – a simulation study”, Medical and Biological Engineering and Computing, 42(1): 128-136, 2004.
• Li G., J. Lian, P. Salla, J. Cheng, I. Ramachandra, P. Shah, B. Avitall, and B. He. “Body Surface Laplacian Electrocardiogram of Ventricular Depolarization in Normal Human Subjects”.  J Cardiovasc. Elctrophysiol., vol. 14(1), 1-12, 2003.
• Li G., X. Zhang, J. Lian, and B. He. "Noninvasive Localization of the Site of Origin of Paced Cardiac Activation in Human by Means of a 3D Heart-Excitation-Model". IEEE Transactions on Biomedical Engineering, vol.50(9), 1117-1120, 2003.
• He B, Li G, and Zhang X: “Noninvasive Imaging of Ventricular Transmembrane Potentials within Three-dimensional Myocardium by Means of a Realistic Geometry Anisotropic Heart Model”, IEEE Transactions on Biomedical Engineering, 50: 1190-1202, 2003.
• Li G, Jie Lian, P Salla, J Cheng, I Ramachandra, P Shah, B Avitall, and Bin He. “Body Surface Laplacian Electrocardiogram of Ventricular Depolarization in Normal Human Subjects”.  Journal of Cardiovascular Elctrophysiology, vol. 14(1), 1-12, 2003.
• He B, Li G, and Zhang X,"Noninvasive Three-dimensional Activation Time Imaging of Ventricular Excitation by Means of a Heart-Excitation-Model." Physics in Medicine and Biology, Vol. 47, 4063-4078, 2002.
• Lian J, Li G, Cheng J, and He B. "Body surface mapping of atrial depolarization in healthy human subjects". Medicine Biology & Engineering Computing, vol.40, 650-659, 2002.
• Li G, and He B. "On the spatial resolution of body surface potential and Laplacian pace mapping". Pacing and Clinical electrophysiology, vol.25 (4), 420-429, 2002.
• He B, Li G, and Jie Lian. "A Spline Laplacian ECG Estimator in a Realistic Geometry Volume Conductor", IEEE Transactions on Biomedical Engineering, vol.49 (2), 110-117, 2002.
• Li G and He B. "Localization of the Site of Origin of Cardiac Activation by Means of a Heart-Model-Based Electrocardiographic Imaging Approach". IEEE Transactions on Biomedical Engineering, vol.48 (6), 660-669, 2001.
• He B, Lian J, and Li G. " High-Resolution EEG: A New Realistic Geometry Spline Laplacian Estimation Technique". Electroenceph. Clin. Neurophysiol.,112, 845-852, 2001.