Hey there!
I'm Kevin Tu — an AME student at Centennial College and a former Electrical Engineering student at the University of Ottawa with a strong interest in aircraft maintenance engineering. I enjoy learning about different technologies and how they contribute to advancements in aviation maintenance. I’m always looking for opportunities to further develop my skills and apply my experience to exciting projects in the field.
Application made with Unity that allows users in the construction industry to display their 3D models realtime into their current environment through the use of augmented reality. Taking the information from the 3D model, the application will be able to display different layers of the model and other data, giving the user a plethora of perspectives of the model and aid in the conceptualization of the final product.
Uses a PIC16F684 to execute the line follower code written in assembly to maneuver through a path using a blackline on a white surface.
Prolipsi is a medical web application designed to help users reduce the spread of the COVID-19 virus. This web application will help users determine if medical is treatement is necessary based on an x-ray scan and symptoms they are experiencing. Based on a database of x-ray images of COVID positive lungs and normal lungs, the program uses a neural network to analyze and predict if the uploaded image of the user's lung is COVID positive.
Uses PIC16F684 and coded with MATLAB sim for traffic lights that connect to arduino bridge.
Application is designed for the University of Ottawa Morisset library, providing live path navigation through both visual and auditory feedback. The design takes into consideration a range of disabilities including visual and auditory impairments as well as assists new students to navigate through the library. The simple user interface allows for easy navigation throughout the application and the bilingual, as well as the dark mode and text to speech features, allow for easy accessibility for all students.
Puts text through multiple levels of encryption and generates a key to read the text later on.
A schematic is designed on CircuitMaker which is then tested on a breadboard. A PCB layout is designed based on the schematic created and printed onto a piece of acetate and imprinted onto a copper clad board using a UV exposure unit. PCB is then put through Ilfosol 3 film developer and the circuit is then etched onto the board using Ferric Chloride.
Roulette Board created using a 555 Timer IC and a series of capacitors and transistors.
Models and drawings created using Solidworks.
Feel free to get in touch.
416-624-6849
