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Teacher’s Assistant Resume

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IN

TECHNICAL SKILLS:

Programming: C, C++, JAVA, Visual Basic, SQL, Python, Swift Language

Protocols: USB 2.0/3.0, UART, SPI, I2C, CAN, JTAG, LIN, BLE, TCP/IP V4/V6, UDP, FTP, LTE, Ethernet.

Hardware: Microcontrollers 16, 32, 64 bit, PIC, NI cDAQ, myDAQ, NI cRIO, PXI, Data Loggers, HW Debugging.

OS: Windows, LINUX, iOS.

Microsoft Office: Word, PowerPoint, Advance Excel (Macros in Excel), Outlook, Project, Visual Studio

Applications & Tools: LabVIEW, NI VeriStand, TestStand, OpenCV, Solid Works, AutoCAD, 3D Designs, MATLAB/SIMULINK, KEIL IDE, VERILOG Design(VHDL), CANalyzer, CANoe, Schematics, testing, PCB Layout, OrCAD, Cadence (Design tools), Xilinx, FPGA, DSP Works, mbed Compiler, Catapult C, PSPICE, MultiSim, ModelSim, Eclipse IDE, IoT, GIS, RTOS, JIRA, Agilent Data Loggers, Xcode, SW Debugging.

WORK EXPERIENCE:

Teacher’s Assistant

Confidential - IN

Responsibilities:

  • Monitored PID control of Pressure and Temperature transmitters in Instrumentation Control loop test facility through SCADA BUS's. Performed Hardware-in-the-loop testing and monitored various physical parameters affecting the Control Loop Test Facility

System.Engineer Trainee

Confidential

Responsibilities:

  • Bench Characterization of load cell units, designed high precision electronics for signal conditioning Unit. Prepared Bill of Materials (BOM). Designed microcontroller based digital interface circuit and firmware development in C++. Provided JTAG debugging option, USB interface and CAN bus. Experienced with trouble shooting while QAC, QV and PV testing.

Confidential

Responsibilities:

  • Respiratory pattern is examined using NI cDAQ and LabVIEW by designing the signal conditioning unit with an amplifier and filter circuits to analyse Exhalation and Inhalation pattern (low level with noise) through NTC Thermistor.

Confidential

Responsibilities:

  • Designed and Algorithm for registration of retinal Images, detection of the vascular tree in each type of image, labelling the bifurcation points of the surrounding vessel orientations. Extracted the location of vessel's bifurcation for estimating the epipolar geometry approach, fused two images keeping the matched Y-features as, converted the 2D image to 3D image.

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