Computer Science & Engineering at The Ohio State University
Developing a 2D flocking simulation in C++ and SDL3. Implemented a Quadtree for spatial partitioning to optimize neighbor detection, improving scalability for a large number of agents.
Built a web app to manage a fleet of 19 aircraft, digitizing status and workflows. Enabled real-time data sync with Google Cloud Firestore, increasing operational efficiency for 10+ staff members.
Designed a decoder to reconstruct ASCII messages from a noisy channel. Applied linear algebra and syndrome decoding to detect and correct bit flips using generator and parity-check matrices.
As part of the Big Data Analytics Association, collaborating with a team to build an LLM-based predictive model for stock market data, designing an end-to-end AI pipeline.
I am a second-year Computer Science and Engineering honors student at The Ohio State University, with a minor in Mathematics and a 4.0 GPA. My passion lies in solving complex computational problems, specifically in autonomous systems and quantitative finance.
I leverage a deep understanding of algorithms, linear algebra, and low-level C++ programming to build efficient, scalable software that translates rigorous mathematical theory into impactful, real-world applications.
Learn More