Facilitated weekly office hours and discussion sections for 300+ students, covering core CS topics in the OCaml programming language including recursion, functional data structures, and graph algorithms.

Mentored students in designing full-stack OCaml applications, including a Concurrent Chat Server using LWT library and an AI Chess Bot with Minimax optimization, ensuring code modularity and thread safety.

Conducted rigorous code reviews for final projects, focusing on clean functional design and scalable architecture.

● Investigated the role of juvenile hormone signaling in female mosquito reproductive output and its implications for vector control strategies.

● Supported efforts to analyze ecological consequences of deploying genetically modified mosquitoes for public health.

Collaborated across a 20-member hardware/software team to develop an embedded software for a Sensory Overload Watch processing 300+ bio-signals per second using heart rate variability (HRV) and galvanic skin response (GSR) sensors to detect early symptoms in autistic individuals.

Optimized firmware performance using C/C++ to implement algorithmic thresholds that reduced sensor latency to under 50ms, ensuring immediate haptic feedback that allows users to manage sensory overload episodes.

Conducted 20+ individual peer support sessions monthly, facilitating stress management strategies in high-pressure academic environments while addressing social isolation and mental well-being.

Utilized advanced active listening and problem-solving techniques to de-escalate crisis scenarios, maintaining strict confidentiality and trust protocol in accordance with university ethical guidelines.