9 Feb, 2021 - The Bristol-based Centre for Modelling & Simulation (CFMS), today announced it is working with HS2 to deliver innovative digital engineering projects that optimise the design and performance of the new high-speed rail project.
CFMS completed a number of projects last year to optimise earthworks for flood prevention, which resulted in significant savings and improvements, and additional projects are in progress to improve air acoustics and other aspects of the project.
Howard Mitchell, HS2 Head of Innovation, said “HS2 is helping to change the face of British industry and is a great opportunity to drive new digital ideas and skills. Digital design and analysis tools enable us to design and build better first time, optimising efficiency and the operation of HS2.
“HS2 is working with CFMS to harness its world class modelling capability to help improve the design and performance of the project. We are working together on the optimisation of earthworks for flood prevention, schedule modelling and understanding sound waves around trains and structures, leading to significant savings and improvements across the project.”
Professor Iain Gray, Chairman of CFMS, said: “Technology advances mean more industries can now benefit from tools such as complex simulation and modelling. CFMS pioneered digital engineering in aerospace and is demonstrating the benefits across a range of industries. We are excited to be helping HS2 and the rail industry to adopt these tools and gain efficiency.”
Digital engineering tools, such as advanced simulation, model-based engineering and artificial intelligence can help to improve the design, development and operation of high-value, complex projects such as HS2.
Using its expertise in digital engineering, CFMS created virtual models to predict reservoir breach scenarios. With these digital models, the plans for earthworks to prevent flood damage were verified, resulting in significant savings. Future projects will focus on supporting the development of the HS2 ‘virtual railway’ concept, a core competence to provide essential data to aid decision making and improve services.
CFMS has pioneered new approaches to digital engineering largely within the aerospace and automotive sectors. With the HS2 projects, it is demonstrating the potential of digital engineering to deliver significant improvements in other sectors, including infrastructure, energy and net zero.
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Notes to editors
For media enquiries, please contact Grayling on CFMS@grayling.com or 0117 910 6360.
CFMS is an independent digital engineering research organisation, providing design & analysis services, consultancy and IT infrastructure to help organisations create better solutions to pioneer new product development.
With a full portfolio of digital capabilities, CFMS brings greater insight into how a system will perform throughout its lifecycle, resulting in more efficient development and more effective solutions.
Working with research and commercial organisations of all sizes, CFMS experts in model-based engineering, data science, advanced simulation and computing use digital tools and methods to optimise designs and processes, resulting in better productivity and lower costs.
Through four core service lines and activities, we enable our customers to accelerate design and manufacturing productivity and competitiveness for their products, processes and services;
Integrated system architectures that can deliver improved performance
Greater insight into the performance of products or processes in service
More informed decision making based on simulated or real-world data
Cost effective access to state-of the art computational infrastructure
Examples of recent projects include;
automated designs for folding wingtips to improve aircraft efficiency
simulating flood events to optimise defences, saving millions in construction costs
optimised production-line inspection using artificial intelligence to improve quality
For further information about how CFMS can help your organisation, visit www.cfms.org.uk, call 0117 906 1100 or email email@example.com.