Text Box: RESUME (PDF)
Text Box: EDUCATION Ph.D. candidate in Electrical Engineering (Present) University of Washington, Seattle, WA Master of Science in Electrical Engineering (2006) Michigan State University MSU, 2006 Related Coursework: • RF Circuit Design • Application of Analog Integrated Circuit. • Planar Waveguides and Circuits • Microwave planar structures and application • Semiconductor device and device simulation • Wave propagation in layered media & periodic structures • Signal processing • Biomedical image processing TECHNICAL SKILLS • Programming and simulation: Fortran, MATLAB, C/C++, Java, Ansoft tools, PSPICE, SPICE, Maxwell • Measurement: Spectrum Analyzer, Network analyzer, Oscilloscope, Waveform Generator. • Software: Linux, Windows, Latex, MS Office.
Text Box: WORK EXPERIENCE Application Engineer, Ansoft Corporation, Irvine, CA (Intern Jun-Sept 2007) • Perform a rigorous study of broadband transmission line modeling with Ansoft tools, including HFSS, Q3D, SIwave, and DesignerSI/Nexxim. Catalog the results to instruct customers on best options. • Add rough surface feature into HFSS v11 and Q3D v8 by C, C++ and Java. With this new feature, Ansoft tools can model the 2D and 3D rough surface and simulate its high frequency effect. • Test the HFSS version 11 Beta. Write the training documentations for newest version of HFSS11 and Q3D related to signal integrity. RESEARCH EXPERIENCE Research Assistant, Lab of Applications and Computations in Electromagnetics and Optics Univ. of Washington, Seattle, WA 2006-Present • Model the influence of random rough interface between signal trace and substrate on conductor loss for electronic packaging and PCB level interconnect. • Cooperated with Intel Co. Extract random roughness parameters from the measured data and estimate its effect on signal integrity such as the power attenuation. Research Assistant, Biomedical Ultrasound and Electromagnetic Lab Michigan State Univ., East Lansing, MI 2004 - 2006 • Developed prototype microwave system designed for treatments of recurrent breast cancer on the chest wall. - Simulated the power distribution of high frequency waveguide and spiral antennas in human body by self coding and HFSS. - Perform experiment to measure the antenna effect on human tissue phantom. • Developed a hybrid Radio Frequency (RF) / Ultrasound (US) phased arrays applicator for hyperthermia treatments of locally advanced breast cancer. - Simulated the power distribution of antenna arrays on human body by self coding and commercial software.