Cupertino, California, United States
• Indoor Path Loss Model of 2.4 GHz ZigBee Network (Master Thesis): Predicted the path loss of ZigBee signal with log-normal model; Simulated the field strength of received signal with ray-tracing model; Measured the exact power of received ZigBee signal with ZigBee boards and spectrum analyzer; Compared the results to show the accuracy of ray-tracing model; • Design of Near Infrared Non-Invasive Blood Glucose Detector (Bachelor Thesis): Presented primary research on non-invasive blood glucose apparatus; Introduced the correlative hardware, software, sensor module and relevant arithmetic for the calculation of blood glucose level; • Synthesized Designing of Electronic System: Made the circuit of sense light on the bread board and welded the semiconductor components; • EDA Electronic Designing Automation: Designed sequential circuit with VHDL language, frequency divider and encoder on EDA software development platform to realize the function of LED digital clock; • ARM Mono-Chip Technology & Application: Debugged the software in Code Warrior for ARM Development Suite and the JTAG hardware simulation to control LED stream light and buzzer’s co-operation; • Principle & Interface of Micro-computer: Programmed with 8086/8088 assembly repertoire on DAIS interface experiment development platform and designed interface circuit between Micro-computer and 16 × 16 lattice block; • Keyboard Typing Practice and Test in C Program: Wrote the code of keyboard typing practice and test in C language on WIN-TC development platform; Debugged and ran the code to judge the accuracy of typing randomly given characters with keyboard. Specialties: RF engineering
• Creating test benches in Synopsys USB 3.0 VIP project to evaluate how easily or hard USB 3.0 VIP can be integrated in an user application; • Worked as a contractor of Applied Micro Circuits Corporation, Andover, MA to write Perl codes to parse, expand and format RDL file to MIF file with Adobe FrameMaker in Pemaquint project.