Systems EngineeringMastering the cross-discipline systems development process
How do you manage multiple systems modeling and simulation applications and deliver your products on time?
As the number and complexity of embedded systems continues to grow, the effective definition, modeling and simulation of these individual systems, and their interaction with other systems, becomes increasingly important. Systems engineering is essential to avoid detecting unexpected system interactions during the validation and verification phases of the product development process.
Dassault Systèmes delivers a unique solution that fully enables and supports the cross-discipline systems engineering development process - from systems definition through to modeling, simulation, verification and business process management.
A solution that provides a unified and integrated approach to systems engineering that manages the overall development process with cross discipline definition and navigation of the many relationships that exist between the different systems artifacts that define today’s complex products.
- Leverage a best-in-class model-based system development platform to accelerate the development and validation of complex systems and products
- Ensure compliance with market requirements and regulations while improving time-to-market and reducing costs through world-class requirements engineering
- Collaborate across all disciplines to define a complete systems architecture through multiple operational, functional and component views
- Verify the behavior of complex products and systems, that span multiple engineering disciplines, through Modelica based modeling and simulation
- Integrate the embedded systems and 3D product design processes to leverage intelligent embedded systems in the 3DEXPERIENCE simulation of complex mechatronic products and systems
Systems ArchitectureDefine the systems architecture of complex products and systems
From aircraft to cars, industrial machinery, ships, and white goods, the complexity of the products and of the systems that keep them running is steadily increasing. How do you manage this complexity while delivering your products on time? The Systems Engineering solution from Dassault Systèmes enables you to model and compose complex product and systems architectures, while defining and executing their embedded systems.
Electrical SystemsOptimize Electrical Wire Harness and Cable System Design
Electrical systems design for all products and industries, from aircraft to cars, white goods, ships and process plant, continues to be a challenge. Their associated wire harnesses, cable systems and electrical components continues to increase in quantity and complexity. Dassault Systèmes' provides a comprehensive, powerful and open solution for the 2D & 3D design and manufacture of electrical wire harnesses, cable systems and rigid-flexible printed circuit boards.
Fluid SystemsDesign of Piping, Tubing & HVAC Systems
From aerospace applications through to process and power plant design, the 2D & 3D definition of fluid systems is driven by multiple standards and specifications that fully define the system classification and usage context. The Dassault Systèmes fluid systems design solution provides a powerful specification driven design environment that integrates your company know-how into the detailed design process.
Modelica Systems Simulation - 3DEXPERIENCEACCELERATE THE DEVELOPMENT OF COMPLEX PRODUCTS AND SYSTEMS
The 3DEXPERIENCE Platform uses the open Modelica language and Functional Mockup Interface (FMI) standard to rapidly model and simulate multi-physic dynamic and control systems. These systems can contain a combination of mechanical, electrical, electronic, hydraulic, thermal, control, electric power or process-oriented characteristics and components.
Modelica Systems LibrariesRAPIDLY MODEL, SIMULATE AND VALIDATE COMPLEX ENGINEERING SYSTEMS
Modelica systems libraries are developed by domain specialists. Used in conjunction with Dassault Systèmes' Modelica based solutions (either CATIA 3DEXPERIENCE or Dymola) to quickly model and simulate the behavior of complex systems that span multiple engineering disciplines - from flight and vehicle dynamics through to electric power systems.