CAD Collection
AutoCAD, Solidworks, SketchUp
.jpeg)
Solidworks exploded assembly drawing of an automated robot project.
.jpeg)
Solidworks axle connector designed and 3D printed for an automated robot project.

Solidworks motor bracket designed and 3D printed for an automated robot project.

Solidworks base for an automated robot project.

AutoCAD Railing symbol creation for a Technological Design project
.png)
AutoCAD drawing for a City Permits

AutoCAD draft landscape design for a Technological Design client. An
in-depth report has also been written regarding research and the design process for this project.

AutoCAD drawing for a City Permits
An AutoCAD skill practice drawing


An AutoCAD skill practice drawing
%20(2)-p-500%20(1).png)
Scaled SketchUp presentation drawing for a Frontop Client
%20(1)-p-500.png)
Scaled SketchUp presentation drawing for a Frontop Client
%20(1)%20(1)-p-500.png)
Scaled SketchUp presentation drawing for a Frontop Client
-p-500%20(1).png)
A detailed drawing outlining altercations to the current Railway Crossing Bridge in Toronto, Canada. This drawing is accompanied by engineering calculations and a brief report.
-p-500.png)
A 3D bedroom design with a walk-in closet. An animation of this design is included
here.
.png)
SketchUp presentation drawing and landscape design for a Technological Design client. An
in-depth report has also been written regarding research and the design process for this project.
-p-500.png)
A kitchen draft design for a client.
%20(1)%20(1).png)
Apartment Design For A Tech Design Project
%20(1).png)
3D SketchUp Model of an autonomous robot
.png)
A single floor, floor plan layout design for a client.
PASS 180
A Wearable Technology Engineering Design Project
As part of an Engineering Design Course, our team worked with Toronto Firefighters to prevent false alarms among their PASS device (emergency alert system). Through testing, stakeholder interaction, and multiple prototyping and design iterations we developed a device that simplifies the procedure of turning off the PASS device with a click on a button on a glove. There were various steps and methods used to develop this product which will be outlined below.
Stakeholder Interaction
- Constant interaction with firefighters and manufacturing professionals lead to various
design iterations. Each iteration improved some aspect of the design. - For example, learning first-hand about tasks that a firefighter completes has allowed us to move the activation button to the hands (a location that is easier to access).
- Results - The firefighters advised us of potential issues that may occur with each prototype we presented. With this feedback we were able to modify features to allow for optimal comfort and safety.
Prototyping
- Various design iterations occurred; from simplistic prototyping to a fully functional design.
- Check out our prototyping photos on the right:
- Our final prototype
- A functional prototype
- A proof of concept prototype
- Work from one of our brainstorming sessions. - Results - We noticed key issues early on in our project and were able to solve them fairly quickly, saving resources such as time and materials.
- Prototyping severed as a quick proof of concept that we could show to our stakeholders. Thus we could evaluate designs fairly quickly and choose the best one.
CAD + Programming
- Programs such as MeshMixer and Ardunio were used to create our final prototype. Meshmixer was used to create our 3D exterior while Arudino was used to control the circuitry and motors.
- Results - Design adjustments based on our testing results to were easy and quick to make.
- Our product was more precise in size, shape, and functionality.
Product Infographic
The PASS 180's function and design process is described in this one pager
.png)
A print one-pager product infographic
for my Engineering Design project (1 of 2).

A print one-pager product infographic
for my Engineering Design project (2 of 2).
COVID-19 PPE Design
As part of the Bioengineering Club COVID-19 competition, my team and I redesigned the manufacturing process of beekeeping suits to allow for more industries to quickly create PPE. We also researched materials with anti-viral properties to improve the effectiveness of PPE.
Automated Robot
As part of an Engineering Design course, my team and I created an automated robot that can autonomously locate and plug in an electric car charger into an electric car outlet. We developed a functional prototype prior to the COVID-19 pandemic.
Sensor Rover
As part of an Engineering Design Course, my team and I built a sensor rover that is powered using an Arduino microcontroller. Through various sensors our rover was able avoid crashes between walls.
Redesign Railway Bridge
In my Civil Engineering class, our group was tasked to redesign the Railway Crossing Bridge that better suites the city’s needs. We constructed a truss bridge that was relatively low in cost and allows for a better view of the city. We also completed various bridge calculations to ensure that the bridge was stable.
Design A Cane
A Case-Based Technological Design Project which required various forms of health-related research, design iterations, prototypes, and testing. Designed an adjustable cane that included various features such as movable lights, a camera stand, and various safety features.
Academic Multipurpose Furniture
As part of an Engineering Design Course, we worked with current engineering students to increase work productivity and enhance the educational experience in the Engineering Science Common Room. We created a table with extendable and removable soundproof dividers. This design aims to improve the Common Room’s space efficiency, as well as add additional space for both individual and group work.
Floorplan Design
I was tasked by multiple clients to design a floor plan with the intention of adding an extension and improving the house for sale. I designed several floorplan options and considered current real estate trends, the location of water and electric sources, government by-laws, and potential construction costs.
Landscape Design
A case-based engineering project that required a landscape design that considered functionality, design principles, and vegetation-based research. Read more about this project
here!
Residential Multipurpose Furniture
A Case-Based Technological Design Project which tackled the trend of small condos and living spaces. We create a tables whose legs could flush out into a coffee table. We focused on usability, convenience and design.