Melfin E Prinson

Final-year Biomedical Engineer with an IEEE peer-reviewed publication and direct hospital experience servicing ICU and radiology equipment. Designed and validated an AI-driven smart prosthetic hand and an LSPR biosensor for H. pylori detection. Proficient in IEC 60601 compliance, design V&V, and cross-functional collaboration with clinical teams. Targeting roles in medical device R&D, biomedical instrumentation, or healthcare IoT.

Biomedical Engineering Intern at Cyrix Healthcare Pvt. Ltd. (2025-06 – 2025-07)

• Improved equipment uptime by reducing calibration turnaround time by ~30% through systematic preventive maintenance and fault analysis of ICU ventilators, infusion pumps, and radiology imaging systems in a live hospital setting.
• Ensured regulatory compliance across 15+ medical devices by applying IEC 60601 biomedical safety standards and hospital-grade testing protocols during design verification and validation (V&V) checks.
• Communicated technical fault findings clearly to clinical staff and biomedical technicians, resolving 20+ equipment failures collaboratively and reducing unplanned ICU downtime across departments.

Embedded Systems Trainee (ARM Cortex) at Cranes Varsity (2025-11 – 2025-12)

• Accelerated firmware delivery by completing a full low-level driver stack for ARM Cortex-M3 (LPC1768) — including UART, I2C, and SPI protocols — within a 6-week timeline, meeting all design V&V milestones.
• Enabled real-time control as measured by a stable 1 ms interrupt response latency by implementing bare-metal embedded firmware with optimised interrupt service routines.
• Architected a machine learning–ready embedded platform by integrating sensor interfaces and cloud-ready data pipelines, directly applied in the IoMT prosthetic project achieving 95%+ movement prediction accuracy.

Virtual Instrumentation Trainee at Prashan Medical Technologies Pvt. Ltd. (2025-03 – 2025-03)

• Delivered automated test coverage for 5 smart medical system prototypes by developing LabVIEW-based virtual bio-instrumentation pipelines for real-time physiological signal acquisition and functional testing.
• Cut manual testing effort by ~40% as measured by test execution time by designing reusable LabVIEW VIs for biosensor signal conditioning — directly applicable to design V&V workflows.

Rapid Prototyping & CAD Trainee at Pixel Botix Technologies Pvt. Ltd. (2025-09 – 2025-09)

• Compressed prototype iteration cycles by 2x by applying FDM 3D printing and SolidWorks parametric CAD design to fabricate functional biomedical device housings, supporting early-stage design verification.
• Validated additive manufacturing output through dimensional inspection, achieving tolerances within ±0.3 mm on a load-bearing prosthetic component.

B.E. in Biomedical Engineering – KIT – Kalaignarkarunadhi Institute of Technology (2027-05)