A fourth year mechanical and software engineering student at McGill, looking for internship opportunities for the summer of 2023. To learn more about me please read below, and feel free to reach out to me by email using the "Get in Touch" feature!
Performed a wide discipline of tasks, including:
- Designing P&ID’s, isometric diagrams, and electrical diagrams for a pump system
- Emergency-response plans, lockout / tagout systems
Created tools for predicting loads on aircraft wings and fuselage using numerical methods and machine learning:
- Automating and improving existing conceptual load design tools in Python
- Developing physical interpretations for load prediction results
- Formally presenting and documenting all work throughout each project while using Mercurial version control
Successfully lead a crew to regularly meet assigned contracts’ needs while building positive relationships with clients, through
- Training new employees
- Driving large Isuzu dump trucks
McGill University | 
| Sept 2019 - April 2024 |
|---|---|---|
Major: Mechanical Engineering
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Marianopolis College | 
| Sept 2017 - Sept 2019 |
|---|
A fully functional grocery store application for Web and Android app making use of Agile, the Spring and Vue frameworks, and GitHub version control. Customers make orders in person or for delivery and workers make scheduling changes, modify inventory, and prepare orders, all through a simple user interface while keeping track of accounts and inventory using a Heroku database
Github
A full-stack team project including Umple code generation for the domain model, Gherkin step definitions, Cucumber, and JUnit for testing, and JavaFX for the front-end.
After becoming a leader at Synergy, I decided to further the community's online presence through the creation of a website, as well as various social media platforms.
View Website
A ground-station GUI to track a rocket's data in real-time, to monitor attributes like location, velocity, acceleration, and orientation. This graphical interface was designed in JavaFX, while the backend was written in Java.
A team manufacturing project in which a bike pedal assembly was designed in CAD, transformed to G-Code, and then manufactured by our team using means of CNC milling, turning, and 3D printing.
- Fully designed a “Snap-On” badminton racket designed to minimize string changing time.
- Made use of product planning techniques such as a “House of Quality” and “Pugh’s Decision Matrix”.
