Scenario-based virtual testing is seen as a key element to bring the overall safety validation effort for automated driving functions to an economically feasible level. In this work, a generic and modular architecture for simulation of automotive perception sensors is introduced, as part of the overall virtual testing pipeline. It is based on the functional decomposition of real world perception sensors. All interfaces between the individual modules of the model architecture are oriented on internationally recognized standards and therefore facilitate a high degree of interchangeability. In addition, a wrapper framework handles all outer communication and enables a profile-based parameterization of the model, where every profile reflects a specific set of parameters tailored to the specifications and use case of the end user.
Highly Parameterizable and Generic Perception Sensor Model Architecture
A Modular Approach for Simulation Based Safety Validation of Automated Driving
Proceedings
2021-08-03
12 pages
Article/Chapter (Book)
Electronic Resource
German
British Library Conference Proceedings | 2015
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