Siemens adds NVH system prediction capabilities to Simcenter portfolio for early design and virtual prototyping

Siemens Digital Industries Software today introduced system NVH prediction, a new Simcenter™ software application that can bring the benefits of a comprehensive digital twin approach to accurately and easily predict the interior and exterior Noise, Vibration and Harshness (NVH) performance of a vehicle before a physical prototype is available for any type of vehicle: hybrid, fully electric or internal combustion engine (ICE). This new Simcenter™ application helps engineers front load full vehicle NVH analysis and detect potential component NVH performance issues earlier by using measured and simulated component models to build a virtual prototype assembly. Simcenter is part of Xcelerator, Siemens’ integrated portfolio of software, services and application development platform.

In today’s fast-moving automotive manufacturing market, NVH engineers need a new level of tools to carry out the in-depth analysis required to optimize performance. Electrification means the powertrains of today (and tomorrow) are much quieter than ICE units, so they won’t mask noise sources such as tires or auxiliaries including HVAC systems and wipers. Meanwhile, the need for greater numbers of variants means that building physical prototypes for every variant within a reasonable timeframe and budget is impossible.

Simcenter uses a systems-engineering approach to enable the rapid creation of multiple vehicle variants. System-level component models based on test and/or simulation data are created by NVH experts and published to a library. These take advantage of the latest technology, such as  component-based transfer path analysis which allows engineers to characterize the NVH sources independently from the final receiver, to ensure that they are validated, scalable and reliable.

These validated components can then be rapidly assembled by non-NVH experts to represent a new variant and performance assessment can begin, reducing set-up times to a matter of minutes. This systems-based approach allows rapid reuse of available data and expertise by a much wider community of users within an organization. By enabling non experts to conduct performance prediction studies, it facilitates NVH performance assessments to be carried out at all stages of vehicle development.

“Test and simulation teams need to work closely to ensure quality in the face of a shortened development cycle and reduced budgets for multiple physical prototypes,” said Patrick Corbeels, product manager, Siemens Digital Industries Software. “Our new NVH prediction tools democratize access to this technology by allowing expert created libraries to be used efficiently by anyone that needs them, saving time and reducing bottlenecks in the test and simulation process.”

To learn more about the new Simcenter NVH prediction software visit:  https://blogs.sw.siemens.com/simcenter/vehicle-nvh-prediction-master-the-actual-performance-with-a-virtual-prototype/

Component model created from test and simulation data and saved into a library for easier and faster virtual system assembly Component model created from test and simulation data and saved into a library for easier and faster virtual system assembly
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