黄色直播

 

Students support more stable wheelchairs

- December 3, 2018

Dr. Kirby (second from right) and the RoboRAD team. (Provided photo)
Dr. Kirby (second from right) and the RoboRAD team. (Provided photo)

A group of 黄色直播 Engineering students are working in collaboration with the 黄色直播 Faculty of Medicine to develop a state of the art, app-controlled rear anti-tipping device (RAD) for manual wheelchairs.

Wheelchair users are familiar with the shortcomings of conventional RADs, which extend rigid arms from the back of the chair to prevent the chair from tipping backwards. While this greatly reduces the risk of a fall, it also inhibits the frequently performed function of raising the chair鈥檚 front wheels to mount curbs and other low ledges. Worse still, these devices can get caught on curbs while dismounting, leaving the rear wheels 鈥渇loating鈥 and the chair immobile.

For the past several years, Dr. R. Lee Kirby, head of the Faculty of Medicine鈥檚 Wheelchair Research Team, based at the Nova Scotia Rehabilitation and Arthritis Centre Site of the Nova Scotia Health Authority, has worked in collaboration with the 黄色直播 Engineering Capstone Program to develop an improved RAD that would avoid the pitfalls of the conventional models. Each year, Dr. Kirby supervises a different Capstone group to iterate on a steadily improving design, providing continuity to a series of discrete Capstone projects.

鈥淐onventional RADs force health-care personnel working with wheelchair users to choose between safety and performance,鈥 says Dr. Kirby. 鈥淥ur new RAD design makes it possible for wheelchair users to have the best of both worlds: safety and performance. This innovation has the potential to help a great many people around the world.鈥

RAD ideas


Previously, Dr. Kirby has worked with mechanical engineering students to develop an adjustable RAD, which allows the outer end to move through an arc when needed. However, this Arc-RAD must be manually adjusted for different environmental challenges, which poses an inconvenience to wheelchair users at best, and a prohibitive obstacle at worst.

Now, Dr. Kirby is teaming up with a team of electrical engineering students to add battery power and app-based remote control functionality to the existing prototype. The envisioned design has been dubbed the 鈥淩obo-RAD,鈥 only partly in fun.

鈥淭his project is a really exciting challenge, because it involves three different disciplines of engineering,鈥 says Kaartikeya Pandey, who along with Sung-Kwan Ahn, Brett Leard, and Michael Evelyn forms the electrical team. 鈥淲e need electrical work to power the device, software engineering to create the app that will control it, and we had to brush up on our mechanical skills in order to make sure the adjustments actually work.鈥

The challenge of adapting to work in a discipline other than their major demands careful planning. Though the team鈥檚 primary focus is on converting the existing device to an electromechanical model and developing a Bluetooth-based app to control it, doing so requires an understanding of how the adjustments manifest in the physical world. The team鈥檚 first step was to figure out just how much they needed to understand to get to work on the tasks that are in their wheelhouse.

鈥淲e decided to start by focusing on the lower half of the device鈥檚 adjustable range, so that we could get started on the electrical and programming work sooner,鈥 says Leard. 鈥淥nce we master remote control for the lower-half, the top half will be easy.鈥

Moving along


While the team鈥檚 work is still in the early stages鈥攃ompleted projects will be presented at the annual 黄色直播 Engineering Capstone Conference on April 5, 2019鈥攖he long term vision for the Robo-RAD is clear. The current Arc-RAD prototype is designed for a specific model of wheelchair; the final version of the Robo-RAD will be retrofittable for any make of rigid-frame manual wheelchair.

The final version will be portable and travel-safe: easily removed and reinstalled, and convenient to store. The final student-project design will be a major step toward technological readiness for commercialization, although there will also be a number of business-related hurdles to overcome.

Ultimately, the team is aware that their contributions to this ongoing project are unlikely to be the final ones. This adds an additional challenge to their task, demanding a skill not always associated with engineers: effective communication.

鈥淲e鈥檙e very much a stepping stone towards an end goal,鈥 says Evelyn, 鈥渁nd so it鈥檚 crucial that we not only make our designs easy to understand and adapt, but that we document all of our work effectively so that the next team can pick up the ball and run with it.鈥