Collaborative definition of a product across its different views from requirements, to conception, to production up to operation. Complex product behavior modeling and execution, including 3D simulation.
CATIA Dynamic Behavior Libraries
Modelica Lifelike Modelization Components
This world-leading suite of Modelica lifelike modelization components helps you to realistically model and simulate engineering domain scenarios, for example, powertrain, hydraulics, suspension and electrical scenarios. It's specifically designed for advanced modeling of complex multi-physical systems (for the automotive, aerospace, robotics, and energy sectors) and ensures that you design and validate better products faster than ever.
- Obtain multi-discipline, global, and realistic simulations while mastering the whole system definition and ensuring validation.
- Drastically improve the way complex interacting systems are engineered within the automotive, aerospace, robotics and energy industries.
- Significantly reduce unnecessary design errors, prototypes, and cost with lifelike modelization components.
- Simulate a broad spectrum of system engineering scenarios to design and validate better products.
- Enable high-fidelity modeling of complex integrated systems with compatible model libraries for many engineering fields.
- Easily build individual components or adapt existing components to match unique needs with open libraries.
Powertrain LibraryFocuses on powertrain car modeling with an emphasis on standard and planetary gears with losses and flexible driveline models. In addition, basic components are available in order to model the longitudinal dynamics of a whole car.
Smart Electric Drives LibraryAllows modeling and simulation of an entire electric drive system and is ideal for simulation of hybrid electrical vehicles and new alternative concepts with electrical auxiliaries. It also provides components for modelling any type of electrical drive including the energy storage device, power electronics, and motor models. The library has been developed primarily for modelling the electrical drives in automotive hybrid vehicles but can be applied to any other application.
Hydraulic LibraryContains the most important components for modeling hydraulic circuits. Coupling elements exist to connect hydraulic components with blocks of the blocks library and elements of the Modelica Mechanics Library.
Pneumatic LibraryHelps design pneumatic drive systems and provides multi-domain modeling with other Modelica Libraries. Users can model actuators, control system development, and deploy real-time capable models.
Vehicle Dynamics Library - CarsSimulates complete road vehicles with focus on chassis dynamics. The chassis models are based on multibody mechanics with detailed models of wheel suspensions and tires. The library also contains powerful road descriptions and driver models.
Vehicle Dynamics Library - TrucksSimulates complete road vehicles with focus on chassis dynamics. The chassis models are based on multibody mechanics with detailed models of wheel suspensions and tires. The library also contains powerful road descriptions and driver models.
Vehicle Dynamics Library - Car SuspensionsSimulates complete road vehicles with focus on chassis dynamics. The chassis models are based on multibody mechanics with detailed models of wheel suspensions and tires. The library also contains powerful road descriptions and driver models.
Vehicle Dynamics Library - DrivelinesHelps users to study the detailed interaction between the driveline and the chassis including wind-up, joint-bending, reaction forces and torques.
Dynamics Library - Active SafetyAllows users to develop active safety functions and is delivered with extended signal routing functionality and predefined functions for anti-lock brakes, yaw stability, traction control, etc.
Vehicle Dynamics Library - Parse File InterfaceThe Parsfile Converter utility is used for migrating model information from the Parsfile format into the Vehicle Dynamics Library.
Air Conditioning LibraryHas been adapted to the particular needs of automotive air conditioning systems. The library models are based on several years of experience and validation in advanced research applications. It provides easy-to-use templates for standard automotive cycle configurations and validated models for conventional and trans-critical A/C and refrigeration cycles. Common interfaces with all other Modelica libraries can be coupled with other libraries, for example, Powertrain, for total vehicle power studies or the Blocks library for control design.