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3D Virtual Prototype Simulation
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Motion
1D Multi-Domain System Simulation
3D Virtual Prototype Simulation
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LMS Virtual.Lab
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Acoustics
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Noise and Vibration
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Correlation
Motion
Motion Introduction
Standard Motion
Powertrain Motion
Suspension Motion
Full Vehicle Motion
Gear Motion
Track Motion
Motion Options
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Durability
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Structures
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Modeling and Assembly
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Optimization
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Designer
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Other LMS Virtual Prototype Simulation Applications
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What's new in LMS Virtual.Lab Revision 6
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What's new in LMS Virtual.Lab Revision 7
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LMS Virtual.Lab Demo Movies
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LMS Virtual.Lab Motion Overview
LMS Virtual.Lab Motion
Optimizing Real-Life Performance of Mechanical Systems - Manufacturers are pressured to deliver more complex products with increased quality in shorter development cycles. Engineering the performance of mechanical designs with traditional test-based development processes is no longer an option. The only valid alternative is evaluating functional performance attributes on a virtual prototype. LMS Virtual.Lab ...
LMS Virtual.Lab Standard Motion
LMS Virtual.Lab Standard Motion is a complete and integrated solution to simulate realistic motion and loads of mechanical systems. It permits engineers to quickly analyze and optimize the real-world behavior of the mechanical design and to guarantee that it performs as expected, before committing to expensive physical prototype testing. The Virtual.Lab Standard Motion solution allows users to model ...
LMS Virtual.Lab Powertrain Motion
In developing new and improved engines, engineers often face conflicting design goals. They are challenged to reduce engine emissions and fuel consumption, yet deliver engines with more power, reduced vibrations, an optimal sound and maintenance free operation. LMS Virtual.Lab Powertrain Motion is a complete and integrated solution to simulate the complex dynamic performance of engines, and to accurately ...
LMS Virtual.Lab Suspension Motion
LMS Virtual.Lab Suspension Motion is a complete and integrated solution to simulate realistic motion and loads of suspension systems. It allows engineers to design quarter and half suspensions that deliver the expected ride and handling behavior. The Suspension Motion solution offers vehicle-engineering teams a dedicated environment to efficiently set up and analyze suspension models. With the specialized ...
LMS Virtual.Lab Full Vehicle Motion
The LMS Virtual.Lab Full Vehicle Motion solution simulates the ride and handling behavior of vehicles from passenger cars, to motor sports vehicles and up to multi-axle vehicles such as trucks and buses.Front- and rear-axle suspension models created with the LMS Virtual.Lab Suspension Interface can easily be integrated in a full-vehicle model and extended with the steering system, brakes, powertrain ...
LMS Virtual.Lab Gear Motion
LMS Virtual.Lab Gear Motion automates the modeling and simulation of a system of helical or spur gears for automotive, ground vehicle or general machinery applications. The solution predicts the dynamic behavior of a gear system and the loads acting on its components. Using it, engineers can study how effects like back-lash in the gear system are spread throughout a mechanical system, and detect the ...
LMS Virtual.Lab Track Motion
LMS Virtual.Lab Track Motion is a modeling and simulation tool to accelerate the design and engineering of a track vehicle’s dynamic behavior. It allows engineers to easily model track vehicles on several levels of detail, ranging from simple predictions of the gross motion of the chassis, to detailed models including lots of detail for the tracks, sprockets, idlers, road wheels etc. Simulation ...
LMS Virtual.Lab Motion – Options
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» News
LMS Virtual.Lab Motion Rev 7 strengthens simulation capability for vehicle handling and ride comfort
LMS Virtual.Lab Landing Gear reduces errors and saves time in landing gear engineering
» Application Cases
Arctic Cat uses LMS Test.Lab and LMS Virtual.Lab to optimize NVH
GM replaces driveline tests with simulation
Timoney Technology uses LMS Virtual.Lab Motion to design independent suspensions a
