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Building Information Modelling and Management (BIM(M)) research at the University of Salford has contributed to the concept and development of an integrated approach to improved efficiency in the construction sector:
Between 1992 and 2002, Loughborough University invented an award-winning approach to planning complex, highly interdependent development projects. Since 2008 the Analytical Design Planning Technique (ADePT) method has resulted in:
Over the past 13 years the University of Bath has been leading research into low-impact bio-based construction materials, including the construction and testing of two full-scale prototype buildings: BaleHaus (2009) and HemPod (2010) built on campus. The research has directly promoted: the development and wider market acceptance of award winning low carbon construction products (ModCell® and Hemcrete®); successful delivery of award winning buildings; and the wider sector uptake of these technologies, including in a new school building in Bath. The work has directly benefited industry partners working to meet UK Government policy requirements to deliver low carbon infrastructure and benefited society through the delivery of affordable sustainable buildings.
The volume and diversity of data that companies need to handle are increasing exponentially. In order to compete effectively and ensure companies' commercial sustainability, it is becoming crucial to achieve robust traceability in both their data and the evolving designs of their systems. The CRISTAL software addresses this. It was originally developed at CERN, with substantial contributions from UWE Bristol, for one of the Large Hadron Collider (LHC) experiments, and has been transferred into the commercial world. Companies have been able to demonstrate increased agility, generate additional revenue, and improve the efficiency and cost-effectiveness with which they develop and implement systems in various areas, including business process management (BPM), healthcare and accounting applications. CRISTAL's ability to manage data and their provenance at the terabyte scale, with full traceability over extended timescales, based on its description-driven approach, has provided the adaptability required to future proof dynamically evolving software for these businesses.
This case study embodies a non-linear relationship between underpinning research, software development and deployment. It involves computer science research at UWE in conjunction with its applied development for the world's largest particle physics laboratory and onward deployment commercially into private sector industry.
Research at Teesside University has enhanced sustainability and productivity in construction and related sectors. Between 1998 and 2008, Professor Dawood's research team developed a range of advanced multi-constraint and multi-dimensional visual construction planning and coordination approaches and tools. The global commercial application of this work in Architectural, Engineering and Construction (AEC) organisations has generated a substantial economic impact. For five indicative organisations used as examples in this case study, the impact amounts to more than £1,500,000 in the form of increased turnover, cash injection from technology funds and a spin out company.
Building Information Management (BIM) involves the creation and use of digital information about built assets. Mandated by UK and other governments because of its potential to reduce waste and optimise efficiency, its successful exploitation requires changes in construction technology and process. This research has had a transformational impact on both. Our technical research forms the basis of the National Library of BIM objects, as well as technological solutions and product developments for many organisations. Our work with UK and overseas governments has shaped industry's uptake of BIM. We have founded a centre of excellence to introduce BIM to practitioners and organisations, and created a commercial joint-venture consultancy company.
Research at Newcastle University on formal methods for the design of computing systems has had a major impact on the delivery of new high-dependability products by industry. The methods (VDM and Event-B), to which we have made significant contributions, have been embodied in tools (VDMTools, Overture, Rodin) and applied in industry. The reach of the work extends to industries in Europe (e.g. in the rail sector by Siemens, 2011) and Japan (e.g. in firmware design by Sony, 2008). Significance is seen in reported improvements in defect detection rates of up to a factor of 5 over previous processes and the cost-effectiveness of design processes. The "Mobile FeliCa" chip developed using VDMTools is now incorporated into over 200 million mobile phones worldwide. Our approach to disseminating research has engendered lively international and online end-user communities further developing and using the tools today.
Research during the 1990's at Newcastle University resulted in the development of CANopen (Control Area Network open), a manufacturer independent communication protocol for connecting multiple devices used in industrial systems. It has resulted in opening up the market by providing the platform for a low-cost simplified method of connecting off-the-shelf devices to communicate effectively over a network, benefiting the global economy and inspiring innovation. The significance of the impact is evident by the wide incorporation of the technology in a diverse range of products ranging from health care, automotive, renewable energy, rail and aerospace industries. The reach of the impact is evident by its use in product development by national and international companies and is the de-facto European standard EN 50325-4 (CiA 301).
It is widely acknowledged that conventional approaches to planning and development exacerbate environmental problems with consequential negative social and economic impacts. This award winning research proposes alternatives by examining the systems and techniques used in the design of autonomous eco-building in order to identify best practice in the procurement of low carbon buildings. The research findings were first tested and subsequently validated, through the design and construction of a community building in Lincolnshire. This building has won multiple awards for innovations in sustainability and the underpinning research has impacted at regional, national and international level through direct application to design, changes to professional practice and through enhanced public awareness
The impact relates to improved productivity, operational efficiency, working practice and knowledge management within the European maritime industry through the use of a Virtual Integration Platform (VIP). The platform is a software package developed within the University of Strathclyde that has been used by eleven European ship design, engineering and project management consultancies, which specialise in the application of advanced computational design, analysis and physical modelling techniques within projects on an international scale. Specific company benefits of using the VIP include: 67% reduction in process time; guaranteed data consistency; additional productivity of 15 hours/day from automated over-night operation; capturing and reuse of expertise; cost effectiveness (lack of data consistency typically costs €100k per project); and ease of operation within complex design processes.