Electrical Project

Hai Lu

Electrical and Computer Engineering Department

Tel: 334-***-****

Email: *******@******.***

Objective:

To pursue a career with an organization that will utilize my skills in advanced Electrical Communication Engineering, and allow me to pursue my creative interests in this field.

Keywords:

Pulse Power, Nonlinear Transmission Line, Matlab, HFSS, ADS, Pspice, Ltspice, C++, Optimization algorithm, Building interface between different type software, RF circuits, Digital image processing, Microstrip antenna

Education:

Masters, Electrical and Computer Engineering, 2009-Present, GPA 3.90

Auburn University, AL

Masters, Electrical and Computer Engineering, 2008-2009

Nanjing University of Science and Technology, Nanjing, China

B.S, Communication Engineering, 2004-2008, Major GPA 3.3

Nanjing University of Science and Technology, Nanjing, China

Employment History:

Teaching Assistance, 2010, Auburn University

Grader of ELEC 3810, 2010 Fall

Activities:

1. Oral presentation on “A Modified Genetic Algorithm to Design Peak Pulse Power in Non-Linear Transmission Lines” 2010 IEEE International Power Modulator and High Voltage Conference.

2. Poster Competition Top 5 in Electrical and Computer Engineering Department, Samuel Ginn College of Engineering, Auburn University, 2011

Research Experience:

I have obtained much research experience and increased my research ability to a high level through many research projects I have done. The projects can be listed as follows:

1. 80GHz Microstrip antenna design and test

A 80GHz microstrip antenna is built in HFSS and optimized for application purpose

2. 35GHz GPS device antenna designing, fabrication and test.

A 35GHz microstrip antenna is designed for the application in GPS device, and the antenna was fabricated and tested. The result showed that all antenna’s parameters met with the project requirement perfectly.

3. L-1 norm minimization for image reconstruction

I am currently writing a L-1 norm minimization algorithm in matlab to obtain a sparse solution, so that this algorithm could be implemented to image reconstruction.

4. A Modified Genetic Algorithm to Design Peak Pulse Power in Non-Linear Transmission Lines

This is my thesis project in Auburn University and most of my research is focused on this project. My responsibility is to write the codes in Matlab to realize the interface between the matlab and pspice, and execute the genetic algorithm to calculate the best values of the components in the nonlinear transmission line, so that the most efficient nonlinear transmission lines can be obtained automatically through the interface between these two powerful softwares. I gave an oral presentation based this project on the 2010 IEEE International Power Modulator and High Voltage Conference.

5. A Modified Genetic Algorithm to Design Peak Pulse Power in Non-Linear Transmission Lines (Modified)

I have recently completed replacing the pspice by ltspice. A totally new interface was built between matlab and ltspice in matlab. The non-linear transmission line was also modified for optimization purpose. At the present, I am in the process of writing a journal paper based on this project.

Auburn Courses and Grades

Temporary GPA 3.90

Number

Ex: COMP6520 Name

Network and OS Admin Term

Spring 2001 Grade

ELEC6120 Telecommunication Networks Fall 2009 A

ELEC6130 Rf Devices And Circuits Fall 2009 A

ELEC6200 Computer Arch And Design Spring 2010 A

ELEC6240 Neural Networks Spring 2010 A

ELEC6310 Des Antennas And Antenna Sys Spring 2010 A

ELEC6320 Electromagnetic Compatibility Fall 2009 A

ELEC6340 Microwave And Rf Engineering Fall 2010 A

ELEC6410 Digital Signal Processing Fall 2010 A

ELEC6430 Digital Image Processing Spring 2010 B

ELEC6730 Microelectronic Fabrication Fall 2010 A

ELEC7990(R) RESEARCH AND THESIS Spring 2011

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