Microsoft Office Computer Engineering
Resume:
JYOTHSNA REDDI
Address: ***** ******** **, *** #***, Farmington Hills, MI-48335, USA
Mobile: 503-***-****, Email: ***************@*****.***
Career objective
I am a highly motivated self-starter and passionate Computer Engineering graduate looking for internship/full-time opportunity in a challenging environment where I can put forward my skills and experience to solve real-time business problems and add value to the organization.
Education
Wayne State University, Detroit, MI MS in Computer Engineering GPA: 3.7/4.0 Jan 2016-Dec 2017
J.N.T.U.K, Andhra Pradesh, India B. Tech in Electronics and Communication Eng. Oct 2010-May 2014
Academic Projects
INTELLIGENT BRAKING SYSTEM TO AVOID COLLISION OF VEHICLES USING CAN PROTOCOL
An Ultrasonic sensor interfaced with the Arduino Uno board senses the distance between the two vehicles and warns the driver using the LCD display or monitor and buzzer.
CAN protocol is used to communicate i.e, for transmission and reception from the sensor ECU to the Driver Assistance System that takes decision according to an algorithm designed.
AUTOMATIC EMERGENCY EXIT SYSTEM IN BUS
Led a team of 4 members in designing a prototype that can be used in a bus.
The smoke detection sensor placed inside the bus will sense the smoke emission or fire which enables the microcontroller unit. The controller will then drive a high torque DC motor which is equipped with a hammer that can either shatter or crack the glass pane.
Programmed the module using C programming and Keil Software
CONTROL AND FLASH LEDS AT DIFFERENT RATES
LEDs for lighting and one DIP switch are connected to the Arduino Board.
Arduino programming software is used to develop a program to control the LEDs flashing for different cases of DIP switch based on the specifications.
DESIGNING A LITHIUM-ION BATTERY FOR TOYOTA PRIUS
Calculated the design parameters of Lithium-ion battery for all the four generations of Toyota Prius, which is a full hybrid electric automobile.
Compared the advantages of Li-ion over NiMH batteries.
SOLENOID DESIGN USING ELECTRO MAGNETIC ANALYSIS
Performed parametric magneto static and transient analysis in Maxwell 2D to determine force characteristics on the solenoid anchor with respect to time and position.
Prepared necessary geometry for the analyses using Solidworks. Also familiar with Maxwell 3D.
STATE MACHINES FOR EU ECALL SYSTEM
Designed working state machines for the In-vehicle System (IVS) and Public Safety Answering Point (PSAP) of the European Union eCall System. Implemented them and tested them in the C programming language.
LATEST PROGRESS IN TELEMATICS
Researched on the latest progress in Automatic Crash Notification, Infotainment and Automotive Radar and analyzed their strengths and weaknesses.
Also studied the latest progress in Telematics at the North American International Auto Show.
ECALL TECHNOLOGY SURVEY
Performed a Survey on eCall Technology and summarized their technical problems, methods or approaches and their results.
Derived the high – level requirements for the 3GPP eCall system IVS and PSAP from the European Union Regulation and from 3GPP TS 22.101.
DEVELOPMENT OF ARTIFICIAL NOSE IMPLANT AND IMPLEMENTED USING FPGA
Proposed to use FPGA’s (Field Programmable Gate Array) for the development of artificial nose implant, which can detect hazardous chemicals in an area well in advance before the area becomes too fatal for a human.
Designed encoder and decoder using FPGA (Field Programmable Gate Array). Implemented the different techniques to reduce the number of logic gates involved in the system.
IDENTIFICATION OF ALL GLOBAL AND LOCAL MAXIMUMS AND MINIMUMS USING GENETIC ALGORITHM
Genetic algorithm function from global optimization Toolbox in MATLAB is used to find the global minimum, local minimum and global maximum values for a given function.
DEVELOPMENT OF THREE LAYER NETWORK USING BACK PROPAGATION ALGORITHM
Constructed a three-layer neural network with the back-propagation learning algorithm to approximate the static system for a fuzzy model.
DEVELOPMENT OF PROXYSERVER IN PYTHON
Developed a code for Proxy Server in Python.
Established connection between client and Web Server using Proxy Server.
IMPLEMENTATION OF PROXY SERVER WHICH SUPPORT FOR CACHING IN PYTHON
Implemented Proxy Server code in Python that cache all objects it receives from the origin Servers. The Proxy Server must first try to serve client requests from its cache, if not found in the cache, then it would fetch from the origin Server
Proxy Server support for both Verbose and Silent modes.
DEVELOPMENT OF MULTI-THREADED PROXYSERVER IN PYTHON
Implemented Multi-Threaded proxy server using Socket programming in Python. Developed the program that can serve multiple requests simultaneously.
Created a main thread in which Proxy server listens for a client at a fixed port. When it receives a TCP connection request from a client, it would set up the TCP connection through another port and services the client request in a separate thread. There would be a separate TCP connection in a separate thread for each request/response pair.
Relevant Coursework
Telematics, Embedded Systems, Fuzzy Systems, Statistical Communication Theory, Computer-Aided Logical Design and FPGAS, Advanced Energy Storage Systems, Computer Networks and Programming, Solid State Electronics, Electronic Devices and Circuits, Digital Logic Design, Analog and Digital Communications, Electronic Circuits, Integrated Circuits and Applications, Digital Signal Processing, Telecommunications and Switching Systems, Microwave Engineering, Computer Networks, Computer Organization, VLSI Design, Wireless Communications.
Technical Skills
Programming Languages: C/ EMBEDDED C, PYTHON, MATLAB
Software: Wireshark, Xilinx, CANoe, Pspice, ANSYS Maxwell, ANSYS HFSS, ANSYS Simplorer, Q3D, SOLIDWORKS, AutoCAD, Microsoft Office (Word, PowerPoint, Excel)
Communication protocols: CAN, SPI, I2C, UART, HTTP, FTP, TCP/IP, iSCSI
Have knowledge in OSI network model, Ethernet, DNS, internet/intranet and LAN Technology
Have a hands-on experience in Electrical equipment tools like multimeter, signal generator, oscilloscope, solder workstation, electrical circuits and printed circuit boards
Ability and willingness to learn, develop new technologies, work collaboratively in a cross-functional teams
Excellent written, verbal communication skills and documentation skills
Academic Achievement
Recipient of $3000 for Dean’s Merit Scholarship in Winter 2017 from Wayne State University.
Recipient of $3000 for Graduation School Completion Scholarship in Fall 2017 from Wayne State University.
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