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 and driveline, electronic control systems and tires.

To get an accurate insight in vehicle dynamics performance, full vehicle models are used in standard scenarios such as straight-line braking, acceleration, cornering, potholes and curb strike. Closed loop controls drive the vehicle through a double lane change, J-turns, constant radius turns, etc.

To use motion simulations as input for downstream durability and comfort analysis with Virtual.Lab Durability and Virtual.Lab Noise and Vibration, accurate wheel forces are vital. LMS CD Tire (CD for Comfort and Durability) provides a scalable 2D, 2.5D and 3D approach that accurately tracks tire vibrations up to 80 Hertz. The road surface interface handles very large sets of digitized test track data during both calculation and model visualization.

Features

Full vehicle modeling template for quick assembly of front and rear suspension models on a vehicle body
Standard Tire Interface with basic 2D tire models and STI interface links to external tire models such as TNO Delft Tire and F-Tire
Human driver model for open-loop and closed-loop maneuvers
Dedicated vehicle dynamics post-processing functionalities include body roll, pitch, yaw angles and rates, and suspension related characteristics such as toe, camber angle, caster, etc.
Seamless integration of the optional LMS CD Tire and the Monroe Shock Absorber Model with virtual vehicle models

Benefits

Ensures efficient modeling and analysis of virtual vehicles with Full Vehicle Simulation Templates
Saves on costly test track time by simulating ride and handling behavior on virtual prototypes
Provides accurate durability input loads for suspension optimization very early in the design process, by driving full-vehicle motion models mounted with tire models on a digital test track
Verifies control strategies of power assisted steering, power assisted braking, ESP, etc., in the concept stage on 3D virtual vehicle models

Solution Pack Content

Desktop
Motion Pre/Post-Processor
Motion Solver
User Defined Subroutines
Collision Detection
Basic Geometry
Solid Modeling
Flexible Bodies
Suspension Interface
Full Vehicle Interface
Drive line
Standard Tire (including STI Interface)
Suspension Elements

Solution Pack Options

LMS CD Tire
Shock Absorber
Aerodynamics Element
Controls and Hydraulics
MSC.ADAMS to LMS Virtual.Lab Motion Converter
CAE Interface (ABAQUS, ANSYS, I-DEAS Universal File, MSC.NASTRAN, PERMAS)
NASTRAN Analysis Driver
ANSYS Analysis Driver
AMESIM, DSH+, EASY5, Matlab Interface
Stress Recovery
Automatic Substructuring
Design Sensitivity Analysis