Focus on in-field product sustaining and failure analysis, improving the design and manufacturing of medical devices to boost product lifecycle and design effectiveness.
Conducted a variety of comprehensive Failure Analysis investigations on multiple kinds of medical devices, to determine root cause for critical component and performance issues.
Engineered and implemented new data-driven dashboards for both failure trends and RMA metrics, enhancing team prioritization and leadership decision-making.
Led crucial cross-functional efforts to investigate persistent field issues, in order to implement hardware design and manufacturing improvements.
Aided in product test phases, determined device failure modes, and built up processes for effectively and securely handling in-field failures on medical devices with wearables and optical systems.
Executed hardware testing with IEC-60601 for medical devices across different product development phases.
Performed detailed failure analysis to determine failure modes in hardware and electrical components.
Created controlled documentation for protocols and handling methods for medical devices, with sensitivity to hardware decontamination and personally identifiable information.
Led design team and created prototype for an advanced COVID facemask using electrohydrodynamic filtration. Top 10 finalist for a national design and innovation competition.
Implemented design concepts and produced wearable prototypes using SLA 3D printing methods. Developed hardware testing for particle filtration and electrode efficiency in controlled settings.
Led the structural design process to design and build an unmanned aerial vehicle to fly autonomously with a load of 55 lbs. Received the Design Presentation Award from the school of engineering.
Created Solidworks models for all design aspects and detailed drawings to manufacture components, with material testing and FEA for successful design verification. Manufactured a structural prototype of the design.
Designed and prototyped a variety of robust wireless power devices for a startup introducing new product lines for consumer electronics.
Designed new prototypes for wireless power devices using lights, motors, and sensors, to implement small scale product lines for consumer electronics including lighting and mobile charging.
Master’s of Mechanical Engineering • University of Washington • Class of 2023
Emphasis in Mechatronics, Manufacturing, and Medical Devices. Cumulative GPA: 3.81
Bachelor’s of Mechanical Engineering • Santa Clara University • Class of 2020
Graduated Cum Laude from the School of Engineering. Cumulative GPA: 3.58
Design Verification and Hardware Testing
Failure Analysis and root cause investigation
Material Testing (strain, bending, tension)
Solidworks CAD and 2D Drafting (GD&T)
FEA and structural simulations
Machine tools, power tools, and soldering
3D Printer and Laser Cutter Expertise
Programming in Python, C, Matlab, LabView
Dashboard creation with SQL and Jira
Technical writing in controlled documentation
Communicate with vendors & manufacturers
Google Workspace and Microsoft Office Suite