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  • Assistive & Accessible Technology

Logo of the title of the project: fit for purpose prosthetics. For is represented by the number four which in the center has a hand with half an arm that appear to be a prosthetic.

Country: Jordan, Uganda, United Kingdom

Fit-for-purpose, affordable body-powered prostheses

Fit-for-purpose, affordable body-powered prostheses is designing upper limb prostheses that are both low cost and fit for their purpose and circumstance. The project is funded through the Engineering and Physical Sciences Research Council (EPSRC) and National Institute for Health Research (NIHR) Global Challenges Research Fund.

A close up of an industrial machine leaving a dark pattern on a sheet of perspex/glass.

Country: United Kingdom

MakeSpace at HereEast

GDI hub has joined forces with the Surgical Robot Vision Lab and the Autonomous Manufacturing Lab to create a shared space that brings together a wealth of expertise as well as equipment, improving knowledge exchange and increasing collaboration opportunities.

Affordable powered mobility toy for young children, with panels for children to paint on and a simple seat design.

Country: India, Kenya

Powered mobility for young children everywhere

Young children everywhere need to be mobile - to be able to explore their world, make choices about what they want to do, who they want to play with, and where they want to go.

A picture of a computer model of a dynamic seat for children with severe movement disorders

Country: United Kingdom

Dynamic seating for children with severe movement disorders

GDI Hub is working with Designability to evaluate a new kind of seat that moves with the child and enables them to explore movement while they are seated and well supported

Country: United Kingdom

CROWDBOT: A crowd-aware shared-control wheelchair navigation system

CROWDBOT will enable mobile robots to navigate autonomously and assist humans in crowded areas, rather than simply stopping when the going gets tough.

Country: Indonesia, Sierra Leone

Community-led Solutions: Assistive Tech in informal settlements

Researchers from the Development Planning Unit at UCL, along with Leonard Cheshire, are working with the GDI Hub to undertake an exciting programme working with communities living in conditions of informality (often referred to as slums) in Freetown, Sierra Leone and Banjarmasin, Indonesia.

A busy street scene in India showing a broad range or motor and manually powered wheeled transport for disabled people

Country: India

Street Rehab in India

An EPSRC GCRF project the project tested a new methodology for creating accessible maps for fast changing cities like Delhi. Using embedded sensors attached to wheelchairs, we mapped accessible and difficult to access routes. Initially, the project also aimed to capture rehabilitation metrics whilst pushing a wheelchair beyond a clinical environment, but instead the community of wheelchair users we worked with preferred to use the tool as an advocacy tool.

A computer generated 3D model of a wheelchair on a blue chequered background.

Country: United Kingdom

Power-up! - Fuelling the next generation of assistive technologies

A research project to understand how and when manual wheelchair users need and use power assistance and to determine if fuel cell technology is suitable for the power requirements of assistive technology, specifically wheelchairs.

A computer-generated frame model of a right arm with thumb, index and second fingers extended. Multi-coloured triangles surround the design.

Country: United Kingdom

Body 2.0 - Extending ability through 3D printing technology

This project looked at identity and the changing perception of disabled people and disability. The primary focus was prosthetics and the use of new technologies including 3D printing to democratise prosthetics and allow individuals to customise their assistive devices in a timely and affordable way.

A female wheelchair user in dark clothes and beanie hat ascending a ramp from right to left in a sports hall.

Country: United Kingdom

ARCCS - Accessible Routes from Crowdsourced Cloud Services

Ongoing research where we have developed a new technique for wheelchair localisation and surface determination using a fusion of GPS/IMU information and machine learning. Data captured helps wheelchair users travel in a more effective ways and share data to demonstrate accessibility issues and encourage improvements.

Female in a wheelchair carrying a water bottle in an informal settlement. Kid walking in the back.

Country: Global

AT2030: Drive Availability and Affordability of Assistive Technology

To address the need gap and significantly scale up the provision of affordable and appropriate Assistive Technology, this sub-programme will test market shaping methodologies which include research, scoping, and future planning; the creation of market shaping tools; and pilot testing of market interventions. This sub-programme is led by the Clinton Health Access Initiative (CHAI).

Group photo of AT 2030 members

AT2030: Open Up Market Access

To align and consolidate global Assistive Technology efforts as well as to lay the foundations for systems-level change on a global scale this sub-programme will provide a set of global benchmarks and standards for Assistive Technology. The sub-programme will develop models of integrated Assistive Technology service provision, including screening and training tools; develop procurement tools; as well as a mobile tool to identify population needs for Assistive Technology. This programme is being co-led by WHO, UNICEF, and the London School of Hygiene and Tropical Medicine.