Software simulates real-life system dynamics.
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Press Release Summary:
Combining deployment of Auto-Recursive Solver with Sub Mechanisms capability, LMS Virtual.Lab Motion v5 provides building block approach to model and simulate complex mechanisms. Auto-Recursive Solver facilitates solving of complex simulation models with series of linked components and high number of contact points between components. Included algorithm computes contact forces and local deformation of flexible body intermittently hitting rigid sphere.
Original Press Release:
LMS Virtual.Lab Motion Rev 5 Introduces New Auto-Recursive Solver
Highly efficient and accurate solver solution records up to 60% time savings in solving complex simulation models
Leuven, Belgium - September 20, 2005 - LMS International, the engineering innovation company, announced the extension of LMS Virtual.Lab Motion with breakthrough solver technologies and new modeling capabilities to simulate real-life system dynamics. The new Auto-Recursive Solver records up to 60% time savings in solving complex simulation models with long series of linked components and high number of contact points between components. This eliminates the calculation bottleneck for the simulation of the dynamic behavior of timing chains, belts, tracked vehicles, complex production machines, etc. As a result, LMS Virtual.Lab Motion allows users to accurately simulate the internal forces and accelerations of these mechanisms, which are typically very difficult to measure through prototype tests.
The new Auto-Recursive Solver takes advantage of repeated bodies connected by revolute, rev-rev, or rev-trans kinematic constraints. When this topology is present in a model, it can be exploited to solve the acceleration terms more efficiently compared to a traditional motion solver based on Cartesian equations. LMS Virtual.Lab Motion offers a unique implementation of the Auto-Recursive Solver, since it coexists with the traditional motion solver in a single, integrated solution. The user herewith benefits from the performance and accuracy benefits of both solver solutions combined in a single simulation model.
LMS Virtual.Lab Motion Rev 5 combines the deployment of the Auto-Recursive Solver with a new Sub Mechanisms capability. This new feature introduces a building block approach to efficiently model and simulate complex mechanism models like an engine valve train or a tracked vehicle. It intelligently avoids the usage of redundant geometry information when repeated elements are involved. This makes the resulting simulation models smaller and more efficient to solve, resulting in less memory consumption and faster calculation runs.
With Rev 5, LMS Virtual.Lab Motion also gains a reliable and efficient algorithm to compute the contact forces and local deformation of a flexible body intermittently hitting a rigid sphere. This allows engineering teams to take local deformation in contact regions into account, and to add another real life dimension to motion simulation. Typical applications for this new functionality include sunroofs, roller bearings, telescopic shafts, valves, timing chains, elevators, aircraft wing flap, latch mechanisms, etc.
"LMS Virtual.Lab Motion offers a complete and integrated solution to realistically simulate the dynamics of mechanical systems, and accurately determine the resulting internal dynamic loads and stresses," commented Willy Bakkers, Executive Vice-President and General Manager of the LMS CAE Division. "With the introduction of Rev 5, LMS Virtual.Lab Motion gains new solver capabilities and efficient modeling techniques for the simulation of complex mechanical assemblies. LMS Virtual.Lab Motion herewith extends its capabilities to accurately simulate the dynamic performance of new designs early in the development cycle."
About LMS:
LMS is an engineering innovation partner for companies in the automotive, aerospace and other advanced manufacturing industries. LMS enables its customers to get better products faster to market, and to turn superior process efficiency to their strategic competitive advantage. LMS delivers a unique combination of virtual simulation software, testing systems, and engineering services. We are focused on the mission critical performance attributes in key manufacturing industries, including structural integrity, handling, safety, reliability, comfort and sound quality. Through our technology, people and over 25 years of experience, LMS has become the partner of choice for most of the leading discrete manufacturing companies worldwide. LMS, a Dassault Systmes Gold Partner, is certified to ISO9001:2000 quality standards and operates through a network of subsidiaries and representatives in key locations around the world.
