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Details of Grant 

EPSRC Reference: EP/N010280/1
Title: ADAM: Anthropomorphic Design for Advanced Manufacture
Principal Investigator: Ashcroft, Professor IA
Other Investigators:
Benford, Professor S Goodridge, Professor R Buis, Dr A
Aickelin, Professor U
Researcher Co-Investigators:
Project Partners:
Department: Faculty of Engineering
Organisation: University of Nottingham
Scheme: Standard Research - NR1
Starts: 11 January 2016 Ends: 10 July 2017 Value (£): 269,486
EPSRC Research Topic Classifications:
Design & Testing Technology Design Engineering
EPSRC Industrial Sector Classifications:
Manufacturing
Related Grants:
Panel History:
Panel DatePanel NameOutcome
25 Jun 2015 Design the Future Interviews Round 2 Announced
Summary on Grant Application Form
The loss of a limb, either from a congenital defect or surgical amputation, e.g. through accident or disease, has a devastating effect on a person, from both a physical and emotional viewpoint, resulting in a profound lifestyle effect on the individual. In terms of a congenital defect there is the on-going and developing issue of having a significantly different capability than peers, whereas with later life amputees there is the shock of a sudden reduction in physical ability. The mitigation of this problem is to restore as much function as possible and great strides have been made in recent years in utilizing advanced materials and other technologies to develop lower limb prostheses that aid the mobility of amputees. The current landscape of upper limb prosthesis, however, is dominated by designs which are expensive, heavy and uncomfortable with limited functionality leading to poor uptake, with rejections rates up to 45% reported in some literature. Although some highly advanced designs with apparently impressive functionality have been developed in recent years, these still have problems of high weight, poor comfort and poor human-prosthetic interfacing, alongside costs being prohibitive for most individual. Moreover they are uncomfortable and difficult to control, leading to a high rejection rate and preference for simpler, less functional devices with many patients.

Our view is that the emergence of advanced manufacturing and design techniques and increased understanding of man-machine interfaces should be driving a step-change in the effectiveness of upper limb prosthesis but that this is being hindered by the lack of an appropriate design system, with the result that most of the highly advanced designs are actually of little added benefit to the patient. In this proposal we aim to develop an integrated design system in which the needs of the patient, together with constraints, such as the manufacturing technologies available and requirements for device accreditation for healthcare etc., inform the whole design to manufacture process. The core of the proposed design system is a computational platform that interfaces with the various stakeholders, e.g. clinician, designer, manufacturer, controlling data transfer and analysis and applying optimization algorithms to drive the design to an optimal for each individual patient's needs.

Realising an affordable, customised and high performance prosthesis will transform the lives of thousands of people with upper limb absence in the UK and millions on a global scale. With current advances in technology, manufacturing processes, design methods and data-handling techniques it is now possible to envisage a Design System that can integrate stakeholder input throughout the design process, thereby creating the next generation of anthropomorphic prosthetics and physical enhancements.

Key Findings
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Potential use in non-academic contexts
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Summary
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Organisation Website: http://www.nottingham.ac.uk