Rishu Singh
To work in a challenging environment, interacting with inspiring
individuals, learn new things and push my limits to realize my goal as well as those of the organization.
adkd9k@r.postjobfree.com
https://www.linkedin.com/in/
rishu-singh-a66541201
Skype :
adkd9k@r.postjobfree.com
EXPERIENCE
MMRFIC, Bangalore — System Engineer
Sept 2020 - PRESENT
● Backend work
● Building End to End communication technique
● Documentation of work
Intern at Vedantu
Feb 2019 - Apr 2019
● Vedantu is a live online tutorial platform that enables personalized learning
● Part of the doubt experts team which helped Students by explaining various topics and clearing the doubts in Maths and Science.
● Helped over 200 Students by clearing the doubts pertaining to JEE examination.
EDUCATION
Bachelor of Technology in Electrical Engineering IIT Dharwad
2016 - 2020 7.05/10
Higher Secondary Education (12th) Saraswati Vidya
Mandir, Ghaziabad
2014 - 2015 72.6%
All India Secondary School Certificate (10th) Saraswati Vidya Mandir, Ghaziabad
2012 - 2013 7.4/10
SKILLS
Programming:C/C++,
Matlab, JAVA.
Software Skills:Autocad,
Solid Works, MS - Office,
Simulink, Arduino.
Achievements
● Core organising
member of Gaming
Club
● Finalist in
Interdepartmental
Table Tennis
Tournament
LANGUAGES
English, Hindi, Punjabi.
PROJECTS
Power System Load Model Estimation (Jan '19 - Apr '19)
● The goal of the project was to estimate load models from measurements.
● There are different types of load in distribution systems like resistive load, induction motor load and inductive load etc. FM Radio Transmitter (Jan '18 - Apr '18)
● For transmitting signals, we had convoluted the desired signal with the carrier signal.
● For this, we used Matlab.
Sound Operated Intruder Alarm System with Flash
Response (Feb '18 - Apr '18)
● Whenever the alarm system detects a sound wave, it starts flashing light whilst producing an intermittent audio alarm to alert us of any intrusion.
Speech Encryption and Decryption (Mar '19 - Apr '19)
● Speech encryption was done by corrupting the speech by convolution by AWGN noise.
● Decryption was done by deconvolving the same corrupted signal by the same AWGN noise.
● The concepts used were convolution, fast fourier transform, inverse fast fourier transform, deconvolution and sampling .