Ultra-lightweight Intelligent Wheelchair Receives $1M as Winner of Mobility Unlimited Challenge
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December 17, 2020
The winner of the three-year Mobility Unlimited Challenge has now been announced with Phoenix Instinct from the UK receiving $1 million to further develop their intelligent ultra-light carbon fiber wheelchair, bring it to market, and ultimately, transform millions of lives in the disability community for the greater good.
The Toyota Mobility Foundation, established by Toyota in 2014, launched the $4 million global challenge back in 2017 in partnership with Nesta Challenges, in a bid to drive innovation in the field of assistive technologies for people with lower-limb paralysis in a demonstration of Toyota’s mission of Mobility for All and further vision of producing happiness for all.
The Challenge called for talented engineers, innovators, and designers from around the world to submit their designs for groundbreaking devices, integrated with the latest technologies, to enhance the mobility and independence of end users. Over eighty teams from 28 countries around the world entered.
The University of Pittsburgh’s Human Engineering Research Laboratories (HERL) led the assessment of the entries and provided mentorship alongside a team of Toyota subject matter experts, and the winner was chosen by a panel of expert judges (see Notes to Editors below for details).
Designed by Phoenix Instinct, the Phoenix i uses intelligent systems to automatically adjust its center of gravity, making the ultra-lightweight carbon fiber frame extremely stable and easier to maneuver. It uses front-wheel power-assist to reduce painful vibrations and minimize strain on the user. The chair’s intelligent powered braking system automatically detects when the user is going downhill and adjusts to manage the user’s descent.
Andrew Slorance from Phoenix Instinct said: “Winning the Toyota Mobility Unlimited Challenge is incredible for Phoenix Instinct and for wheelchair users. The wheelchair as we know it has been technologically unchanged for decades. The funding we received through the Challenge allowed us to prove smart technology makes for an easier to use and safer wheelchair with the potential for a suite of new features. With the prize money we can now advance this work and bring the Phoenix I wheelchair to the consumer.
It’s a very exciting time with Toyota moving into the mobility sector, we're going to see significant advances in mobility devices. At Phoenix Instinct we're thrilled to be leading the smart wheelchair revolution.”
Sir Philip Craven, member of the Board of Directors at Toyota Motor Corporation and former President of the International Paralympic Committee shared: “Mobility means freedom. It means liberation from being limited in life. As we believe at Toyota, when we are free to move, we are able to fully participate in society, and I’m excited for each of these devices supported by the Mobility Unlimited Challenge, particularly the winning device, because of how it will allow so many people to better do what they want to do.”
Ryan Klem, Director of Programs for Toyota Mobility Foundation commented: “The entire competition has been an enriching journey for us all, bringing together the efforts of many experts, mentors, advocates, and more to invest in the five finalists to develop their devices and bring them into the lives of people that need them. We are thrilled to announce Phoenix Instinct as the winner of the Mobility Unlimited Challenge. The judges were impressed by the way the device incorporated intelligent systems in its design in a way that represents a true advance for the wheelchair and could see it having a clear route to market. TMF is dedicated to continuing to support these passionate teams, and we hope, through this process, that all the teams are able to find resources to do the same as they have all shown incredible creativity and innovation. We believe this Challenge will result in huge improvements in assistive technology and are extremely proud of what all of the teams have achieved.”
Liz Vossen of Nesta Challenges said: “For too long, the disability community has faced restricted mobility and accessibility. The coronavirus pandemic has forced a change in attitudes towards remote working, showing that it is possible to be present and productive at home. However, the pandemic also highlighted the need for non-disabled people to have a better understanding of the importance of mobility for all. We hope that these devices will improve the mobility of people across the world and contribute to a more inclusive future.”
The four other finalists were:
- The Evowalk: Evolution Devices (United States) - a smart wearable simulator that goes right below the knee and uses artificial intelligence to support your muscles at the right time aiding in rehabilitating walking and preventing falls for people with foot drop.
- Qolo (Quality of Life with Locomotion): Team Qolo, University of Tsukuba (Japan) - a standing mobility device that integrates exoskeleton and wheelchair functions. It supports the function of standing and sitting with a passive assist mechanism for people with lower limb paralysis.
- Quix: IHMC & MYOLYN (United States) - a highly mobile, powered exoskeleton offering fast, stable and agile upright mobility.
- Wheem-i: Italdesign (Italy) - a wheel-on semi-autonomous electric device that provides ride sharing for wheelchair users. It is primarily designed for micro mobility and is usable on a variety of surfaces.
At its core, the Challenge was developed to highlight the importance of collaboration with end-users and create inventions with the disability community in mind. It supports the UN’s Sustainable Development goals, specifically Goal #10 of reducing inequalities in supporting devices that help people with paralysis better access society for economic, social, educational and other opportunities. Key specifications for choosing the winning invention included devices that will integrate seamlessly into people’s lives and environments while being comfortable and easy to use, enabling greater independence and increased participation in daily life. The judging criteria was based on innovation, insight and impact, functionality and usability, quality and safety, and market potential and affordability.
Around the world, millions of people are living with lower-limb paralysis (the most common causes being strokes, spinal cord injury and multiple sclerosis). While there are no statistics on paralysis worldwide, the World Health Organization estimates there are 250,000-500,000 new cases of spinal cord injury globally every year.
Mobility Unlimited Challenge Judging Panel:
- Professor Linamara Battistella, Physical and Rehabilitation Medicine doctor at the University of Sao Paulo (Brazil)
- Winfried Beigel, Director of Research and Development for Otto Bock Mobility Solutions (Germany)
- Dr. Mary Ellen Buning, President-elect for the Rehabilitation Engineering and Assistive Technology Society of North America (United States)
- Dr. Kay Kim, President of NT Robot Co (South Korea)
- Dr. Eric Krotkov, Chief Science Officer at Toyota Research Institute (United States)
- Eric LeGrand, disability rights advocate (United States)
- Sophie Morgan, television presenter and disability advocate (United Kingdom)
- Ruth Peachment, Occupational Therapy Clinical Specialist at the National Spinal Injuries Centre (United Kingdom)
- Matthew Reeve, Director of the Christopher & Dana Reeve Foundation (United States)
- Dr. Yoshiyuki Sankai, President of robotics company Cyberdyne (Japan)
- Dr. Lloyd Walker, professional rehabilitation engineer at Tech4Life (Australia)
ABOUT TOYOTA MOBILITY FOUNDATION
The Toyota Mobility Foundation was established in August 2014 to support the development of a more mobile society. The Foundation aims to support strong and equitable mobility systems. It utilizes Toyota’s expertise in technology, safety, and the environment, working in collaboration with universities, government, non-profit organizations, research institutions and other organizations to address mobility issues around the world. Solutions till date have aimed at resolving urban transportation problems, expanding the utilization of multi-modal mobility and developing solutions for future generations.
About Nesta Challenges
Across the world, there are many people and communities that are overlooked and underserved, facing ever more complex challenges. Nesta Challenges tackles some of these problems by harnessing and fostering innovation, fresh thinking and technology to achieve positive impact.
From health to conservation, finance to agriculture, assistive technology to education, we connect people, businesses and experts to drive fresh thinking and deliver systemic change.
Nesta Challenges uses prizes to stimulate innovative solutions to some of the biggest challenges we face, including:
- The Longitude Prize, created to tackle growing levels of antimicrobial resistance and reduce the use of antibiotics.
- The Inclusive Technology Prize, a challenge prize to encourage innovations that gives disabled people equal access to life's opportunities.
- The UNDP’s Renewable Energy Challenge Prize, to find a renewable energy solution capable of providing off-grid power to cover the needs of war-returnee families in rural Bosnia and Herzegovina.
- The Dynamic Demand Challenge Prize, created to reduce carbon emissions by shifting energy demand to off peak times or through excess renewable generation.
To find out more visit https://www.nesta.org.uk/project/nesta-challenges/
The Human Engineering Research Laboratories (HERL) has been at the forefront of assistive technology research for 25 years. A collaboration between the University of Pittsburgh, the VA Pittsburgh Healthcare System, and the UPMC Health System, HERL is dedicated to wheelchair and mobility research, specifically by improving the mobility and function of Veterans and all people with disabilities through advanced engineering in clinical research and medical rehabilitation on local, national, and international levels. Using state-of-the-art laboratories and research instruments, HERL also studies robotics in assistive technology, athletics in rehabilitation, assistive living spaces, wheelchair transfer efficiency, clinician training, and force and vibration on wheelchair users.