I am a highly motivated computer engineering student eager to apply my academic knowledge, technical skills, and passion for technology in a professional setting. In pursuit of a challenging opportunity to leverage my skills and acquire valuable experience, particularly in a professional setting where I can contribute effectively despite my limited prior work experience.
Practical experience in strategic communication, media affairs, and national security-related fields.
Maintained databases, provided IT support, and assisted with security audits and tracking systems.
Research focuses on blockchain and IoT-enabled smart contracts for a robust and transparent supply chain, with a specific focus on load balancing in blockchain-enabled fog computing to enhance efficiency and resource utilization.
Python, C, C
MatLab, AutoCad, CodeBlocks Proteus, Aurdino IDE, Xilinx
Microcontrollers(Arduino Nano, ESP32) , Linux FPGA, Computer Networks
Designed as a Digital Logic Design (DLD) project, this circuit used sensors, a buzzer, LEDs, and a battery supply to detect nearby objects and alert users through light and sound signals.
Designed as a DLD project using logic gates, DIP switches for input, LEDs for output indication, and a comparator circuit to validate the entered 8-bit password against the stored combination.
Built an autonomous sumo robot using an L298N motor driver, DC motors, ultrasonic sensors for obstacle detection, IR sensors for edge detection, and an Arduino Uno for control logic to push opponents outside the ring.
Implemented the classic Josephus problem using programming logic to simulate elimination rounds and determine the safe position in a circular arrangement.
Constructed an autonomous robot using IR sensors and the L298N motor driver to follow a black line path accurately on a contrasting surface.
Created a microcontroller-based system to automate traffic signal changes using timers and programmed logic for synchronized light control at an intersection.
Developed an IoT-based solution using ESP32 to monitor water parameters (like pH and turbidity) and control a basic purification mechanism based on the readings.