- driving dynamics
Chassis controllers must meet high demands due to the functional range between comfort and sportiness. Focusing on ensuring the availability and functionality of prototype vehicles, EVOMOTIV supports the customer in controller development.
Project Details
Initial situation:
In order to meet the high requirements for the functional spread between comfort and sportiness, the chassis controllers are developed by the customer in-house. The degree of novelty and the complexity of the project represent major challenges in the area of system integration. Software development and application must therefore run in parallel.
Project assignment:
Supporting the customer in controller development, functional validation, integration and application in the chassis area with a focus on ensuring the availability and functionality of prototype vehicles.
Implementation:
At the beginning of development, controllers are tested on vehicles with dSpace Autobox so that the best one can then be transferred to the target control unit. This is followed by integration into the entire prototype fleet in order to further test the controller through application, inspection and acceptance runs and finally release it. At the same time, the coordination of construction and commissioning of prototype vehicles of all maturity levels is ensured so that test operations can run smoothly.
Solution:
In close cooperation with workshops, controller development, system development and driving dynamics managers, controller development is advanced to release and vehicle availability and functionality are ensured.
In order to meet the high requirements for the functional spread between comfort and sportiness, the chassis controllers are developed by the customer in-house. The degree of novelty and the complexity of the project represent major challenges in the area of system integration. Software development and application must therefore run in parallel.
Project assignment:
Supporting the customer in controller development, functional validation, integration and application in the chassis area with a focus on ensuring the availability and functionality of prototype vehicles.
Implementation:
At the beginning of development, controllers are tested on vehicles with dSpace Autobox so that the best one can then be transferred to the target control unit. This is followed by integration into the entire prototype fleet in order to further test the controller through application, inspection and acceptance runs and finally release it. At the same time, the coordination of construction and commissioning of prototype vehicles of all maturity levels is ensured so that test operations can run smoothly.
Solution:
In close cooperation with workshops, controller development, system development and driving dynamics managers, controller development is advanced to release and vehicle availability and functionality are ensured.
ProjectTools
CANape
CANoe
dSpac
MATLAB/Simulink
