Process steps for developing and validating automotive ECU software.

dSPACE offers a complete and integrated development environment for embedded software and systems. Our hardware and software tools are convenient to use and will save you valuable development time and money, whether you apply them throughout the entire process or only for individual project phases. dSPACE systems support established development and validation processes, also with respect to functional safety requirements, and give you ways to adapt your process chains to new challenging needs. Selected cooperation partners from the dSPACE Partner Program complete the portfolio with their own state-of-the-art products. With constant innovations, key technologies and standards, and dedicated service and support, dSPACE helps you achieve long-term success and put your visions into action. 

The topic of highly automated driving is the focus of many automobile manufacturers’ development activities. Requirements such as 360° redundant surround view with numerous heterogeneous sensors, high-precision positioning or car connectivity are also challenging topics for tool suppliers.

The dSPACE response to this is an end-to-end tool chain for autonomous driving from a single source. Unique rapid prototyping solutions of high-performance platforms and a tailored software environment allow for the development of complete multisensor applications in the vehicle, from perception and fusion algorithms to real-time controls. The significant increase in testing effort can be managed only by moving the tests forward to software-in-the-loop (SIL) simulation. PC clusters enable a high test throughput by means of greatly parallelizing computer nodes and simulations while at the same time maximizing scalability. For release tests, the hardware-in-the-loop (HIL) simulation remains indispensable. One of the greatest challenges for this is integrating real environment sensors such as camera, radar or lidar and the sensor fusion. dSPACE offers a complete range of integration options, from simple restbus simulation and raw data feed to over-the-air stimulation. 

Face aux préoccupations grandissantes liées à l’environnement, les concepts de véhicules de demain doivent renoncer aux moteurs à combustion internes et faire confiance aux systèmes d’alimentation alternatifs. Les machines électriques sont la solution idéale parce qu’elles sont indépendantes des ressources limitées et fonctionnent sans émissions à partir du moment où elles utilisent l’électricité gagnée à partir des énergies renouvelables. L’électrification des véhicules se poursuivant, les développements actuels se concentrent sur les modes de sécurité et de dépannage, sur l’augmentation des plages et de l’efficacité des transmissions électriques, sur la réduction des temps de chargement et sur l’amélioration du stockage et des installations de recharge.

Une batterie de véhicule électrique est rechargée dans une station de recharge qui fait généralement partie d’une infrastructure complexe de recharge. Grâce à des développements récents, le véhicule électrique et la station de recharge communiquent entre eux afin d’optimiser le processus d’échange d’énergie et de planifier les temps de chargement – un concept appelé « smart charging ».

Electromobility and Electric Drives

Whether you are working on electric motors, power electronics, batteries, electrical networks, or intelligent charging systems: dSPACE offers a complete portfolio based on decades of experience for all your electromobility projects.

  • Solutions for the Automotive Industry Introductions, PDF, Anglais, 9195 KB
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