Control allocation of active rear steering and vehicle dynamics control using a new tire model

Moad Kissai; Bruno Monsuez; Adriana Tapus; Didier Martinez

doi:10.18178/ijmerr.7.6.608-616

Control allocation of active rear steering and vehicle dynamics control using a new tire model

Moad Kissai, Bruno Monsuez, Adriana Tapus, Didier Martinez

Renault

Research output: Contribution to journal › Article › peer-review

Abstract

Most of automotive researches are focused on autonomous vehicles. Both industrials and academics are working on several changes, and the way to coordinate the increasing number of chassis systems is one among them. This paper proposes a more suitable control architecture for autonomous vehicles complexity. This architecture is based on control allocation techniques developed especially to handle over-actuated systems. The allocation is made by taking into account the tire dynamics couplings through a new linear tire model with varying parameters. Simulations of combined manoeuvres proved the potential of this architecture and its relevance for future autonomous vehicles.

Original language	English
Pages (from-to)	608-616
Number of pages	9
Journal	International Journal of Mechanical Engineering and Robotics Research
Volume	7
Issue number	6
DOIs	https://doi.org/10.18178/ijmerr.7.6.608-616
Publication status	Published - 1 Nov 2018

Keywords

Active rear wheel steering
Autonomous vehicles
Chassis systems coordination
Terms-control allocation
Tire modelling
Vehicle dynamics control

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10.18178/ijmerr.7.6.608-616

Cite this

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title = "Control allocation of active rear steering and vehicle dynamics control using a new tire model",

abstract = "Most of automotive researches are focused on autonomous vehicles. Both industrials and academics are working on several changes, and the way to coordinate the increasing number of chassis systems is one among them. This paper proposes a more suitable control architecture for autonomous vehicles complexity. This architecture is based on control allocation techniques developed especially to handle over-actuated systems. The allocation is made by taking into account the tire dynamics couplings through a new linear tire model with varying parameters. Simulations of combined manoeuvres proved the potential of this architecture and its relevance for future autonomous vehicles.",

keywords = "Active rear wheel steering, Autonomous vehicles, Chassis systems coordination, Terms-control allocation, Tire modelling, Vehicle dynamics control",

author = "Moad Kissai and Bruno Monsuez and Adriana Tapus and Didier Martinez",

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AU - Tapus, Adriana

AU - Martinez, Didier

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AB - Most of automotive researches are focused on autonomous vehicles. Both industrials and academics are working on several changes, and the way to coordinate the increasing number of chassis systems is one among them. This paper proposes a more suitable control architecture for autonomous vehicles complexity. This architecture is based on control allocation techniques developed especially to handle over-actuated systems. The allocation is made by taking into account the tire dynamics couplings through a new linear tire model with varying parameters. Simulations of combined manoeuvres proved the potential of this architecture and its relevance for future autonomous vehicles.

KW - Active rear wheel steering

KW - Autonomous vehicles

KW - Chassis systems coordination

KW - Terms-control allocation

KW - Tire modelling

KW - Vehicle dynamics control

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IS - 6

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Control allocation of active rear steering and vehicle dynamics control using a new tire model

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Keywords

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