Programming Languages: Python, C++, Verilog HDL, Assembly hardware language and Latex.
Softwares: Proteus, Spyder, Packet Tracer, Keil, Model Sim, Arduino IDE, MATLAB, JabRef, TexMaker, MathType, Libre Draw and Microsoft Office.
Operating Systems: Linux and Windows.
Privacy Preservation in Smart Grids (PhD Topic):
• Objective: Developed secure and privacy-preserving solutions for smart grids, focusing on realtime data reporting, dynamic billing, and energy trading.
• Key Contributions:
o Designed various differential privacy-based models for smart metering to protect user
data during real-time usage reporting.
o Implemented a privacy-preserving demand response system to incentivize cooperative
users while ensuring data confidentiality.
o Proposed game-theoretic auction mechanisms for efficient energy trading in virtual
power plants, prioritizing privacy and social welfare.
• Tools and Technologies: Python Libraries, C++, Differential Privacy Frameworks & Algorithms.
BS Final Year Project: Swashbuckler- Fire Fighting Robotic Vehicle
Design and implementation of a remote controlled robotic vehicle, Controlled by developing an Android application and programming Zigbee modules along with Arduino micro controller.
Tools Used: Arduino IDE, MATLAB, XCTU (Xbee), C++, MIT App inventor
Semester Project: Ultrasonic Distance Meter
Implementation of Ultrasonic sensor based distance meter using Arduino micro controller and displaying the distance over liquid crystal display.
Tools Used: Arduino IDE, MATLAB, C++
Semester Project: GPS Location Tracking System
A fully automatic GPS based tracking system was designed to check our exact location and take decisions on basis of current longitude and latitude.
Tools Used: Arduino IDE, MATLAB, C++
Worked over multiple projects as lead and also as supervisor.
Research in Cognitive Radio Network
Programming in Python, C++ and MATLAB
Problem solving and Algorithm development skills
Fluency in English (IELTS = 7.5 Bands)