Bridging the gap between the complex systems of the human body and intelligent software architecture.
I am a 3rd-year medical student passionate about merging pathophysiology with scalable software architecture. While studying the intricate mechanisms of the human body, I concurrently build robust digital solutions. This dual perspective allows me to approach problem-solving systematically—diagnosing issues in code as I would in medicine, and designing architectures that are as resilient as biological systems.
A high-performance peer-to-peer file sharing solution designed for seamless and encrypted data transfer. Engineered to bypass server limitations, making it ideal for the rapid exchange of large medical datasets and DICOM imaging across different OS environments.
Developed a comprehensive professional platform (arcell.net) to bridge my medical research and technical background. Built with modern backend architecture to ensure scalability and high-speed delivery of clinical and technical documentation.
A conceptual framework designed to integrate patient neuroanatomical data with clinical outcomes. The goal is to create a structured dashboard that assists neurosurgeons in pre-operative planning and post-operative follow-ups through data visualization.
Download my comprehensive CV specifying detailed clinical rotations, software engineering history, and modern technological proficiency.
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