Designed a 48"×48" custom adapter plate in SolidWorks to replace Cisco's existing earthquake table fixture across all 4 hydraulic shaker tables. The previous design used a simple 4×4 bolt pattern, requiring a secondary adapter plate to be custom-drilled and stacked on top for each new rack configuration. The new full hole-pattern eliminated the two-plate system entirely — test engineers can now drill directly into the plate with a magnetic drill and mount any server rack configuration in the X, Y, and Z axes without additional fabrication. Design was transferred to engineering drawings and fabricated by an external machine shop.

With the fixture in place, also developed custom MDVT profiles in collaboration with engineering teams to recreate specific real-world conditions in the lab. Working from displacement targets or known field failures, accelerometers were attached to high-leverage areas like cards and brackets to capture how units responded to specific forces and frequencies. Results were delivered back to engineering teams to support root cause analysis and inform design decisions.

One of 5 engineers on a semester-long senior capstone project to design a passive mechanical airflow oscillation system powered solely by a box fan — no external electricity allowed. Led the gear box design and 3D printed lever arm development, which transferred mechanical power from the gears to the louvers.

The lever arm went through multiple iterations — early versions popped out or shifted under load. The breakthrough came from flipping the attachment direction bottom-up rather than top-down, locking it in place. Anemometer-based CFM measurements were used to select the best fan pairing and validate that nine 2.5" louvers at 45 degrees moved air nearly as effectively as the fan alone.

R&D co-op at NxStage Medical, a hemodialysis company specializing in in-home dialysis treatment. Identified that the existing product packaging was causing filter components to break during shipping due to how they were positioned in the box. Redesigned the packaging to eliminate the failure mode while also fitting 20% more product per box — directly reducing both damage rates and shipping costs.

Also designed and built a custom machine shop fixture to hold tube connector assemblies on an Instron machine for force-of-breakage testing against ISO and ASTM standards, and performed pass/fail leakage testing to verify air could not enter the blood line during treatment.

Quality Engineering co-op at DePuy Synthes (Johnson & Johnson) in Raynham, MA. Automated the daily Pareto chart that was previously built manually every shift — wrote an Excel VBA macro that extracted data directly from a local server and generated the chart automatically, giving operators immediate visibility into top errors from the previous shift without any manual work.

Performed validation testing on 4 new ultrasonic welders replacing older machines on the Neuro Surgical Patty line, creating Validation Protocols, Operation Qualifications, and Performance Qualifications with statistical analysis in Minitab. Also conducted a time study of the Non-Conformance return process and identified human fatigue as a contributing factor — operators were manually entering PIDs repeatedly, making transcription errors on a tedious repetitive task. Implemented a barcoding solution that eliminated manual entry entirely, delivering $1,500 in annual savings.

Supplier Quality Engineering co-op on Apple's iPhone team during the iPhone 7 and 7 Plus launch. Performed component-level failure analysis on a select group of field-returned units with display issues — opening the housing, detaching the screen, and swapping components against a working control unit to isolate whether the fault was in the display or the motherboard before sending to the supplier for further analysis.

Also performed manufacturing data analysis across multiple display suppliers in Asia using JMP and Excel, tracking yield rates and defect types across the product lifecycle. Findings were compiled into management reports and supplier-facing summaries to support quality decisions and future product design.

Built and self-hosted a full-stack sports card inventory application on a home Proxmox server running Docker. The app was developed using AI-assisted rapid development and integrates third-party APIs for card data, barcode generation for physical labeling, and a SQLite database backend for tracking the full collection.

Features include a homepage inventory display, full card library view, individual card detail pages with storage location tracking, and an analytics dashboard for collection stats. The entire stack runs on the home server alongside other self-hosted projects.

Built a full-stack internal lab management tool at Cisco using AI-assisted rapid development. The tool replaced a manual test logging process across a 4-engineer team, standardizing data capture and automating Word report generation in the quality-controlled format required for compliance documentation.

The stack includes a front-end entry interface where engineers log what product was tested and when, a SQLite backend database, and automated report output directly to Word. The tool also tracks chamber and shaker table utilization — providing leadership with first-time visibility into equipment usage metrics and saving the team 20+ hours of manual work weekly.