Feasibility studies, conducting experiments, algorithm development, and clinical data analysis for bioelectronics and bioinstrumentation. Experience in designing instruments and software applications for animal and human behavioral experiments, circuit design and software development. Solid knowledge of fundamental engineering concepts, including Analog and Digital Circuits, Signal Processing, DSP, Biomedical Instrumentation and Controls Systems.
Publications
Selected Publications
T. Tang, S. Oh and R. Sadleir, "A robust current pattern for the detection of neonatal intraventricular hemorrhage with Electrical Impedance Tomography", Ann. Biomed. Eng. Vol. 38: 2733-47 (2010).
T. Tang and R. J. Sadleir, "Quantification of intraventricular hemorrhage is consistent using a spherical sensitivity matrix," Journal of Physics: Conference Series, Vol. 224, 012064 (2010).
R. J. Sadleir, F. Neralwala, T. Tang and A. Tucker, "A controllably anisotropic conductivity or diffusion phantom constructed from isotropic layers", Ann. Biomed. Eng. 37: 2522-2531 (2009)
S. Oh, T. Tang, A. S. Tucker, and R. J. Sadleir, "Normalization of a spatially variant image reconstruction problem in electrical impedance tomography using system blurring properties," Physiological Measurement, 30, pp. 275-289 (2009).
A. S. Tucker, R. J. Sadleir and T. Tang, "Preliminary Results from the E-Pack2: a Portable EIT System Optimized for Detecting Hemoperitoneum," Proceedings EIT Conference 2009, Manchester University, Manchester, England, June 12-15, (2009).
