A small attachment for your door that fully automates it for wheelchair accessibility. It uses a string to unlatch the handle and rolls the door open with a wheel.
For people with disabilities, it can be difficult if not impossible to leave the house on your own for many reasons. In the case of our client, Lee has quadriplegic cerebral palsy and therefore, can't open a door on his own. I decided to solve this by automating his door. While there are obviously forms of automation for doors that have existed for a long time, there aren't really any home alternatives. Most of the automatic doors you see are bulky metal bars at the top of a door, impersonal, tacky, non-domestic, and overpriced. I decided to create a small, affordable, and easy to install automation for Lee's home. The design is a small box you slide under your door with a wheel on the floor, and a string sticking out the top attached to the door handle. When installing, all you have to do is slide the box under, tie the string around your door handle, and once you plug it in your done!
A device that lets two people support the body weight of someone who is disabled and unable to support themself, allowing him or her to dance freely and return to a sport they love.
Our project is a device made to help a women named Marina, who suffered a traumatic brain injury that resulted in a partial loss of motion on the left side of her body and the inability to dance. Dance brings a story to life, animates a feeling, and spreads cultural awareness, but most importantly it's an expression of creativity and self. Dance brings beauty to the world and everyone in it. The device we developed will allow Marina to return to the art of dance, an activity that she loves, with her siblings who will be there to support her physically and emotionally. Our project addresses the post injury issues of exercise and physical interaction. By helping her to dance, Marina will be able to spend time with her siblings doing something they all love. In order to make this device we used PVC pipe for the two poles that makeup the frame and between them is a metal "Lazy Susan" with a harness in the middle. This allows Marina to spin around without needing to worry about holding onto something or falling. The pieces that attach the "Lazy Susan" to the pipes were 3D printed as were the pieces that stop the "Lazy Susan" from sliding to far up and down the poles. Additionally, caps on the ends of the poles which hold strapping that attaches to the support harnesses is also 3D printed.
Our project is a mobile prosthetic that stimulates contralateral movement in the arms, training the forearms to mimic the natural human gait.
The Armomat is a portable prosthetic which forces one arm to move back when the other is pushed forward, and vice versa. We created this project for a person named Joe, who suffered a traumatic brain injury when he was 18 years old, and has very little control over his right arm. He told us that he had trouble maintaining his balance when walking due to the fact that his left arm does not perform the natural human gait, as he cannot control it; because of this, Joe has to hold his weak arm with the arm he has control over, and we wanted to create something that would assist him. After two very work intensive weeks, my partner and I created several different iterations of methods that would help Joe walk normally, and after encountering countless issues, we created the Armomat.