Abstract As a part of the chassis, electromechanical active roll stabilization systems increase the spread between driving dynamics and driving comfort. There are several distinct advantages compared to the passive versions: improved driving comfort, increased lateral tire force and adjusted self-steering behavior. Functional upgrading results from the interaction of mechatronic components: actuators, sensors and information processing. Using system control as a functional key component within information processing plays a decisive role in this process. Numerous conflicting goals represent a challenge regarding system development. On the one hand due to the high demand on the dynamics of the set forces in the chassis; on the other hand, because of the typical automotive requirements such as limited power resources, a high operating temperature and the sensitive acoustics. The following paper provides an insight into the system function of the electromechanical active roll stabilization employed in different D-segment vehicles of the Porsche AG. Special focus is placed on the description of a modular-hierarchical structured control strategy as it has already proven its value despite the above-mentioned conflicting goals. The control structure primarily consists of three core elements: the sensor data fusion of external disturbance variables including an internal preview, the modal transformation of the disturbance excitation into axle specific variables as well as a model based subordinate actuator control.


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    Title :

    Control strategy for electromechanical active roll stabilization


    Contributors:
    Dr. Illg, Igor (author) / Freuer, A. (author) / Eisenbarth, M. (author) / Nareyko, G. (author) / Koch, T. (author)


    Publication date :

    2018-01-01


    Size :

    13 pages





    Type of media :

    Article/Chapter (Book)


    Type of material :

    Electronic Resource


    Language :

    English