My Story
As a motivated 17-year-old student who just passed 12th grade, I am deeply driven by curiosity and the pursuit of interdisciplinary research and exploration. I’ve developed a strong foundation in 3D designs and currently, my academic pursuits have led me to delve into Quantum Mechanics, Quantum Computing and Electronics where I am actively expanding my knowledge of cutting-edge technologies. My research interests are very broad and evolving (from laser-plasma to AI)In addition to my primary interests, I also possess intermediate skills in electronics and Arduino microcontrollers. This diverse skill set empowers me to approach complex problems with a multifaceted perspective, driving continuous growth and learning in the tech and scientific domains. I enjoy formulating thought experiments, publishing daily "thought papers" to track the evolution of my ideas, and challenging conventional boundaries between science, art, and engineering. My goal is not just to study what exists but to explore what could exist. I’m always open to connecting with like-minded thinkers, researchers, and creators.
My ORCID ID
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Projects
1. 3-Bit Relay Based Computer
I made a computer with Relays that can add two 3-Bit numbers and also store the result in a 4-Bit ram. Actually, this type of Relay based computers were used very early during the 1940s, before the vacuum tubes and transistors. I know this is a very basic project to make but I wanted to just learn and recreate those early computers and that is the reason why I decided to make this project.....this was a fun project that taught me a lot.
2. EEG Sensor
A brainwave monitoring EEG sensor made with Operational Amplifiers, Arduino and some electrodes showing real-time neural activity. However, its accuracy is lower than traditional EEG systems and the data is a bit inconsistent, but this was a fun project that taught me a lot.
3. Robotic Claw
A robotic claw with gyro sensors, however i did not finsih this project.
4. EMG Sensor
A basic EMG sensor that measures the electrical activity in muscles. Made with Operational Amplifiers, Arduino and electrodes (made with coins)
5. Study Timer
A study timer that runs on Arduino and says "mission accomplished good work" when the timer stops
6. Bloch Sphere Simulation using Qiskit and Blender
This visualization helps to understand the state of a qubit in 3D space and it taught me many things like quaternion number system too.
7. Virtual Keyboard
Made With Open CV And Python, How it works - There is a motion tracking program running which tracks the movement of hand and fingers. If the distance between my middle finger and index finger is less then it triggers a command to press the button in which my hand is hovering.
