Resume

Objective: To work in a professional environment that motivates me to make the best use of my knowledge and skills in electrical and computer engineering and gain valuable experience

Education:

M.S. in Electrical Engineering, Expected Graduation: May 2011 G.P.A.: 3.667/4.0

Specialization in Embedded Systems.

Keen interest towards image processing(machine vision) and digital signal processing.

University of North Carolina, Charlotte, NC

B.E. in Instrumentation Engineering, December 2008

University of Mumbai, Maharashtra, India.

Computer Skills:

Embedded Processors: TMS32C6713 DSP, ARM9, MSP430F2274, M30620FCPFP, AVR, 8051, 8086, 8085

Programming Languages: C, C++, Bash Script, Ladder Logic, Assembly Language, BASIC

Operating Systems: Linux, Microsoft Windows, MS-DOS, RTLinux, Redboot, µC/OS, Windows CE

Development Platforms: Open CV, TMS32C6713 DSK, TS-7200, CMUcam3, eZ430-RF2500, Renesas M16C QSK, uNiBoard v1.1, STK500, STK501

Software: GCC, GCC-AVR, WinAVR, GCC-MSP, SimpliciTI, Code Composer 3, IAR Embedded WorkBench for MSP430, Automake, GNUplot, MathCAD, MATLAB, High Performance Embedded Workbench, LaTeX, Lyx, Microsoft Office Pro XP, OpenOffice, InTouch

Relevant Experience:

Part of the Embedded Systems Research Group at UNC, Charlotte and Charlotte Area Robotics

Conducting research in the field of Embedded Systems and helping fellow students in designing projects

Lecturer, Rajiv Gandhi Institute of Technology, Mumbai, India, August 2008 – May 2009

Responsible for conducting lectures and laboratory sessions in Digital System Design, Industrial Electronics and Microprocessors

Projects Working on:

Implementing Digital Signal Processing Algorithms such as convolution via frequency domain on to the TMS32C6713 DSP DSK

Porting of the Linux kernel and Ethernet stack onto the ARM9 microcontroller

Projects worked on:

Development of a Digital FIR Filter on AVR microcontrollers, Development of a Low cost, Low Power Wireless Quiz System using the eZ430-RF2500 Tool kit and SimpliciTI, Interfacing a Digital Magnetic Compass(CMPS03) to a AVR microcontroller using IIC, Designing device drivers for the M30620FCPFP microcontroller, Weight based sorting conveyor belt

Graduate courses:

Advanced Embedded Systems, Embedded Systems, Medical Ultrasonics/Imaging, Advanced Digital Signal Processing, Digital System Testing, Computer Architecture, Research Tools and Techniques in Computer Engg.

Undergraduate Courses:

Digital control systems,Image processing, Biomedical instrumentation, Digital signal processing, Advanced control systems, Optimization techniques, Linear integrated circuits, Control system design, Electronic and Digital Instrumentation, Computer communication networks, Principles of communication, Signals and systems, Advanced microprocessors, Digital logic circuits, Power Electronics