2015
DOI: 10.1155/2015/263424
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Global Chassis Control System Using Suspension, Steering, and Braking Subsystems

Abstract: A novelGlobal Chassis Control(GCC) system based on a multilayer architecture with three levels: top: decision layer, middle: control layer, and bottom: system layer is presented. The main contribution of this work is the development of a data-based classification and coordination algorithm, into a single control problem. Based on a clustering technique, the decision layer classifies the current driving condition. Afterwards, heuristic rules are used to coordinate the performance of the considered vehicle subsy… Show more

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Cited by 16 publications
(16 citation statements)
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“…(3) (4) The difference between the wheel acceleration and brake pressure can be calculated by the next equations 24:…”
Section: Fig 3 Quarter Car Modelmentioning
confidence: 99%
“…(3) (4) The difference between the wheel acceleration and brake pressure can be calculated by the next equations 24:…”
Section: Fig 3 Quarter Car Modelmentioning
confidence: 99%
“…Therefore, it is proposed to achieve the required neutral-steer response directly by the closed loop dynamics, reducing the need for pre-filtering elements or reference model. The yaw rate reference signal is set to [26]:…”
Section: Steering Controller Designmentioning
confidence: 99%
“…Controllers have to work simultaneously. They have their own information system and Electronic Control Unit (ECU), which require more costs and space [10]. The only way to add "integration" in the process is by allowing additional communications between the controllers as the Fig.…”
Section: Systems Downstream Coordinationmentioning
confidence: 99%
“…• Fault-tolerance: it ensures a minimum of operations safety even if the high-level controller fails, • Extensibility: it can be evolved to a multi-layer hierarchical structure to add more functionalities, • Modularity: it allows manufacturers and suppliers develop independently complementary control algorithms. Using this structure, [10] used three main layers with two levels of abstraction: 1) Decision Layer: Identifies the current driving situation first, then decide how to coordinate the subsystems actions, 2) Control Layer: Transforms the control objectives generated by the Decision Layer to references for each of the local controllers, 3) Physical Layer: Contains simply the different actuators and sensors. It should be noted that the decision layer plays a major role to ensure the overall system safety.…”
Section: B Supervisory Controlmentioning
confidence: 99%
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