One of these uncles, Jacques Forest, nicknamed Jaco, was an inventor. Jaco was constantly having new ideas. In the 1980s, he decided to build a mechanical arm to help him accomplish daily tasks. Using windshield wiper motors, bicycle wires, Luxo lamp parts, and a hot-dog claw as a gripper, he was able to build an arm that let him drink a glass of water by himself. Certainly the design wasn't the most elegant and the control was quite rudimentary, but Jaco showed how technology could significantly improve the quality of life of upper-body disabled persons.
Two decades later, while Charles was studying electrical engineering at l’École de Technologie Supérieure, his mother asked if he ever thought of continuing his uncle’s project. Not long after, Charles asked his long-time friend and university colleague Louis-Joseph Caron-L'Écuyer (now Kinova's CTO) to start this adventure with him. The goal: creating the best assistive robot for upper-body disabled people.
Thus was born Kinova and its first creation, the robotic arm Jaco, names after Charles' now-deceased uncle.
It was clear from the start that Kinova should focus on building a robot specifically designed for its users: a system that both answers their needs and respects their condition. The company quickly discarded using existing robotic components or retrofitting available manipulators: those options wouldn't be able to meet all requirements. These included a light and compact design that wouldn't change the wheelchair balance and width. The arm also had to be able to pick a wide variety of objects, feature an intuitive control system, and be weatherproof, reliable, and easy and quick to install and repair.
It took four years to overcome all the technical challenges. From the basement of the university incubator, the two young entrepreneurs had to develop a complex carbon fiber molding process, used to build intricately shaped parts, as well as a control approach simple enough to be mastered even by users with only limited finger movements.
Jaco was introduced in the rehabilitation market in 2010 (the video below showcases the arm's capabilities and how it can help users in different situations).
In 2012, Kinova demonstrated the Jaco Research Edition to the IEEE research community at the 2012 IEEE International Conference on Robotics and Automation (ICRA), in St-Paul, Minn. By adding the necessary programming tools to Jaco, the platform became a versatile solution for a broad range of research topics: mobile manipulation, automated grasping, brain-machine interfaces, and others.
Kinova now has sold over 150 Jaco units. The company, which currently employs 20 people, intends to expand its product line for manipulation in the next few years. At ICRA 2013, in May, Kinova will unveil its brand new manipulation solution for the research community.