My Projects
Welcome to my projects page, where I showcase my work as an aspiring Biomedical Engineer. Each project reflects my passion for innovation, problem-solving, and applying engineering principles to healthcare challenges.
Predictive Gene Editing Using CRISPR and AI: Synergistic Advances in Genomic Therapeutics.
After reading a Nature article about the world’s first personalized CRISPR therapy that helped save a child (read the article here ), I was inspired to explore how AI and ML could enhance the precision and safety of gene editing. This curiosity led me to write a review paper titled Predictive Gene Editing Using CRISPR and AI: Synergistic Advances in Genomic Therapeutics, examining the intersection of computational intelligence and modern genetics.
OSF Thesis Commons Preprint Read MoreYuth Debate Society (YDS)
As one of the three founders of Yuth Debate Society, an independent initiative aimed at creating a dynamic platform to foster critical thinking and eloquent expression among youth. With the tagline “Debate, the translation of thoughts,” the society emphasizes the art of articulating ideas effectively. We organized one of the city’s premier debate events, “Debate Darbar,” which hosted over 100 participants and offered a truly immersive experience with top judges from the state, a dedicated photography committee, and a unique three-way debate format; covering for, against, and a complex middle perspective. The event featured diverse topics spanning science, politics, and social issues, providing participants with a challenging and enriching environment. More details can be found on our Instagram page: @yuth_debate_society.
Investigatory Report: Analysis of pharmaceutical compounds
For my Class 12 chemistry investigatory report, I chose to analyze common pharmaceutical compounds out of personal interest. The project involved studying paracetamol tablets, cough syrup, and Vitamin C supplements using qualitative and quantitative methods. I conducted tests such as the ferric chloride and potassium dichromate tests for paracetamol, Benedict’s and Fehling’s tests for reducing sugars in cough syrup, and titration methods for Vitamin C estimation. Through this project, I learned practical laboratory techniques, experimental design, data analysis, and scientific reporting, while connecting theoretical knowledge with real-world applications. The full report, detailed procedures, and materials list are available to download below.
Read MoreInvestigatory Report: Studying Earth’s magnetic field using a tangent galvanometer.
For my Class 12 physics investigatory project, I studied the Earth’s magnetic field using a tangent galvanometer. I designed experiments to measure the horizontal component of the field by observing the deflection of a current-carrying coil needle and recorded the data for analysis. This project taught me practical skills in current measurement, data analysis, and experimental physics, while reinforcing my understanding of electromagnetism and the importance of careful observation. The full report and experimental procedures are available to download below.
Blind Stick (Ultrasonic Assistive Cane)
The Blind Stick was one of my first projects inclined towards biomedical engineering, built in Class 9 for the WAAH science competition organized by the Vikram A. Sarabhai Community Science Centre (VASCS). This low-cost assistive device helps visually impaired users navigate safely using an ultrasonic sensor and Arduino, providing intuitive audio feedback for obstacles. Built and tested with Nishi Patel, the project demonstrates simple, practical technology with real-world impact.
Read MoreQuadratic equation solver
In Class 9, I led a team of five to develop a Python-based Quadratic Equation Solver, applying concepts from Class 11 to solve real-world math problems programmatically. The project taught me early skills in algorithm design, logical thinking, and collaborative teamwork, and the PPT used to propose and introduce the project is available to download below.
Read MoreOngoing Projects
Design and Simulation of a Low-Cost, 3D-Printed Upper-Limb Prosthetic Using EMG Sensors and Machine Learning.
Motivated by the global need for affordable prosthetic solutions, I am collaborating with Janmey Panchal to develop a low-cost, 3D-printed upper-limb prosthetic arm that uses EMG sensors and machine learning for intuitive control. This ongoing project has taught me hands-on skills in biosignal processing, modular 3D design, and data-driven control systems, while reinforcing the importance of user-centered engineering. A detailed synopsis and current progress report are available to download below.
3d Design Read More