Madeleine O’Brien

Product Design Engineering

Hi - I am Madeleine! I am a Product Design Engineer with a passion for using innovation and creativity to make a difference in the world. As someone who holds great passion for engineering, I find myself constantly looking for new ways to apply my knowledge in designs that can help to improve the quality of life for the community. My experience in the MedTech industry has provided me with complex challenges and opportunities to design user-centred products that make a tangible difference in people's lives. This passion carried through to my final year at university, where I developed a design aimed at improving thousands of children's lives.

I am always eager to learn and grow, and love to help others to do the same. Spending time with friends, exploring new places, and building lasting memories takes up much of my spare time. My explorations have taken me to many restaurants and record stores around the world, leading to an interesting collection. When I am home, I enjoy rolling up my sleeves and putting my knowledge to good use, in a DIY or art project!

For me - Engineering is not just a career, but a way to combine the things I love doing in my spare time, with work time.

Remedi

95% of children aged 12-18 fail to receive effective treatment for curable diseases due to poor medication adherence. Effective treatment of medications, particularly antibiotics, is crucial, as incomplete or improper dosing contributes to the growing global threat of antibiotic resistance.
Remedi is an innovative wearable device, with an automated, minimally invasive system for administering antibiotics. Remedi delivers precise doses to the intramuscular layer of the arm, leg, or stomach by utilizing minimally invasive microneedles, ensuring patients receive the full course of treatment.

PenWheel

Workshop staff at Swinburne approached Global Design students to develop an end-effector for the KUKA IIWA14. They needed a tool that would enable the end-effector to draw along a specified path in a repeatable and reliable manner. Inspired by a pinwheel, the PenWheel uses a rotating disc for color changes. A servo motor, controlled by Arduino code, precisely manages the disc’s movement, allowing seamless color switching.

Typhoon

The Right-to-Repair movement is gaining momentum in the the EU, pushing designers and engineers to create products that prioritise accessibility, longevity and sustainability.

Typhoon was a group project that was a finalist in the Best Design for the Right to Repair movement, as an industry partner at Phillips judged. Typhoon was formed using inspiration and components from an existing Ryobi leaf blower. The product focused on ways for the user to open and access all components with the potential to fail, without the need for tools.

ClearFlo

This group project centered around designing elegant and functional tapware suitable for use by every member of the family in a kitchen space. The goal was to create a product that balanced form and function, ensuring it was accessible, practical, and visually appealing.

The design focused on utilising low-volume production methods, making it feasible for smaller manufacturing runs while maintaining quality and efficiency. Positioned at a mid-range price point, the final product was designed to cater to a broad market, offering affordability without compromising on style or functionality.

UpRight

Avail approached Swinburne to design a product that would improve the travel experience of individuals with limited mobility.The product needed to be simple enough for
the user to install or assemble themselves and provide a secure support of 100kg. The product should be designed to allow the product to be portable when transporting, and easy to re-install without the assistance of a trades person at the new location.