Interested in Systems Software & Robotics
Building scalable systems, autonomous robots, and full-stack applications.
I'm a final-year Computer Engineering student at the National University of Singapore, graduating May 2026. I am eager to learn new things and solve complex problems with innovative solutions. I am actively seeking full-time roles in software engineering, infrastructure, and systems — where I can apply my skills across embedded systems, robotics, full-stack development, and AI to build reliable and scalable platforms.
Architected a decentralized Real-World Asset marketplace for carbon credits on the XRP ledger within a 48-hour hackathon. Secured 1st Prize in the BGA Track at the NUS Fintech Summit 2026.
Built the Issuer Portal and Marketplace using Next.js and TypeScript. Implemented trust-minimized Atomic Swap logic using Crypto-Conditional Escrows for secure, non-custodial exchange.
Capstone project — developed an immersive augmented reality multiplayer game on Android using Unity (C#) and Vuforia Engine, with complex laser shooting physics, particle effects, and accurate hit detection.
Integrated real-time player statistics using MQTT-based networking, ensuring low-latency synchronization of health, shields, and damage states across multiple devices.
Built an AI-powered travel planning application at CalHacks that transforms natural language inputs into optimized, interactive itineraries to eliminate backtracking.
Developed a Next.js frontend with an interactive React Leaflet map and a FastAPI Python backend. Engineered custom prompting logic for Claude 3.5 to generate structured JSON routes, integrated with OpenStreetMap for geocoding.
Restaurant management CLI with command parser using regular expressions, sales statistics for orders, revenue, and bestsellers. Managed releases and milestone planning.
Fast-paced multiplayer combat game built with Unity and C#, featuring modular player controllers, hierarchical state machines, and responsive GUI systems.
Engineered the hardware interface between the NXP KL25Z, ESP32, and motor drivers. Programmed synchronized music playback using real-time task scheduling and bare-metal C++.
Led a team to engineer a tele-operated search-and-rescue robot integrating Raspberry Pi 4 and Arduino Uno with 2D LiDAR SLAM for real-time mapping. Architected a distributed control system with fault-tolerant UART communication featuring CRC and multi-threaded teleoperation.
B.Eng in Computer Engineering (Honours)
Core CS · Data Structures & Algorithms, Software Engineering, Computer Networks, Concurrent & Parallel Programming.
AI/ML · Machine Learning, Neural Networks, Big Data Systems.
Hardware · Real-time Operating Systems, Computer Organization, Digital Design, Signals and Systems.
Methodologies · Design Thinking, Systems Thinking and Dynamics, Project Management.
Student Exchange Program · Dean's List
Database Systems, Web Programming, Artificial Intelligence, Algorithms and Computational Complexity.
GCE A-Level · Singapore-PRC SM1 Scholarship
H2 Mathematics, H2 Physics, H2 Chemistry, H2 Economics.
Distinctions in H2 Chemistry, H2 Economics, and H1 General Paper.
President — Harmonica Ensemble
Directed organizational activities including exco meetings, student orientations, and concert coordination. Earned the Outstanding Contribution Award for leadership excellence.