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Details of Grant 

EPSRC Reference: EP/K018205/1
Title: EVOLVABLE ASSEMBLY SYSTEMS - TOWARDS OPEN, ADAPTABLE AND CONTEXT-AWARE EQUIPMENT AND SYSTEMS
Principal Investigator: Ratchev, Professor SM
Other Investigators:
Krasnogor, Professor N Sharples, Professor S Kinnell, Dr P
Logan, Dr B Axinte, Professor DA Popov, Professor A
Benardos, Dr P
Researcher Co-Investigators:
Dr E M Kelly Dr R F Oates
Project Partners:
ABB Airbus Group Limited AstraZeneca
BAE Systems Destaco GE (General Electric Company)
Hyde Group Ltd Manufacturing Technology Centre Midlands Aerospace Alliance
Siemens TQC Ltd
Department: Faculty of Engineering
Organisation: University of Nottingham
Scheme: Standard Research
Starts: 01 February 2013 Ends: 31 July 2018 Value (£): 2,151,284
EPSRC Research Topic Classifications:
Control Engineering Design Engineering
Manufacturing Machine & Plant
EPSRC Industrial Sector Classifications:
Aerospace, Defence and Marine Pharmaceuticals and Biotechnology
Manufacturing
Related Grants:
Panel History:
Panel DatePanel NameOutcome
26 Nov 2012 Flexible & Reconfigurable Manufacturing Systems Panel Announced
Summary on Grant Application Form
Assembly of final products in sectors such as automotive, aerospace, pharmaceutical and medical industries is a key production process in high labour cost areas such as the UK. To respond to the current challenges manufacturers need to transform current capital-intensive assembly lines into smart systems that can react to external and internal changes and can self-heal, self-adapt and reconfigure. This need is dictated by: (1) demand for rapid ramp-up and downscale of production systems; (2) the fact that current assembly systems lack autonomous responsiveness to disruptive events and demand fluctuations; (3) an economics and societal drive towards 'manufacturing as a service'. Consequently, there is a need for a radically new approach towards development of future assembly systems able to continuously evolve to respond to changes in product requirements and demand with extremely short set-up times combined with low cost of maintenance, system reconfiguration and capability upgrade with emerging new technologies. As the level and type of automation changes, future assembly systems will also require a different type of engagement of human operators in hybrid decision-making, monitoring and system adaptation.

The proposed research brings together a multidisciplinary and multi-sector partnership drawing upon skills from across the University of Nottingham with an established track record in multi-disciplinary transformative research, and industries representing key high value manufacturing companies together with their representative bodies. The goal of the research programme is to define and validate the vision and support architecture, theoretical models, methods and algorithms for Evolvable Assembly Systems as a new platform for open, adaptable, context-aware and cost effective production.

The research programme will deliver a new paradigm shift in adaptable and cost effective manufacture that breaks with traditional approaches and is predicated on an innovative intertwining of the following foundational research challenges in complex collective adaptive manufacturing systems: Product-Process-System Evolution; Data Analytics; Knowledge Modelling; Emergence Engineering; and Open Manufacturing. These fundamentally 'collective', pillars for a new extremely flexible and evolvable manufacturing infrastructure are expected to shed new insights on the self-configuration, self-organisation, self-adaptation and evolution of future production platforms. Together the pillars will presage a game-changing strategy for industry's ability to respond and solve current and future societal grand challenges linked to retaining and expanding manufacturing operations in the UK.

The research will ultimately enable a compressed product life cycle through the delivery of robust and compliant manufacturing systems that can be rapidly configured and optimised, thus reducing production ramp-up times and programme switchovers. This will lead to increased opportunities for new, small and independent production stakeholders, particularly those involved in the realisation of product, process and assembly system co-evolution. Our approach of building an underlying architecture, using simulated and real-world data to test and populate models, and working closely with industry stakeholders, will ensure scalable and adaptable approaches that will be transferable between different manufacturing sectors.
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