In this paper a vehicle is described using two different energetic graphical techniques: power-oriented graphs (POG) and energetic macroscopic representation (EMR). As these techniques have different features and purposes, they can be used together to model different parts of the same system. The POG technique is used to model the interaction between tire and road in order to have a dynamic energetic model, while the EMR technique is used to repreIn this paper a vehicle is described using two different energetic graphical techniques: Power-Oriented Graphs (POG) and Energetic Macroscopic Representation (EMR). As these techniques have different features and purposes, they can be used together to model different parts of the same system. The POG technique is used to model the interaction between tire and road in order to have a dynamic energetic model, while the EMR technique is used to represent the whole system and deduce the control structure through the inversion-based methodology. Thanks to the use of both techniques the whole vehicle can be represented and a structure to control the vehicle velocity is given.sent the whole system and deduce the control structure through the inversion-based methodology. Thanks to the use of both techniques the whole vehicle can be represented and a structure to control the vehicle velocity is given.

Modelling and control of a vehicle with tire-road interaction using Power-Oriented-Graph and Energetic-Macroscopic-Representation formalisms / Grossi, Federica; W., Lhomme; Zanasi, Roberto; A., Bouscayrol. - ELETTRONICO. - (2009), pp. 1-6. (Intervento presentato al convegno Advanced Electromechanical Motion Systems & Electric Drives Joint Symposium tenutosi a Lille, fra nel 1-3 July 2009) [10.1109/ELECTROMOTION.2009.5259151].

Modelling and control of a vehicle with tire-road interaction using Power-Oriented-Graph and Energetic-Macroscopic-Representation formalisms

GROSSI, Federica;ZANASI, Roberto;
2009

Abstract

In this paper a vehicle is described using two different energetic graphical techniques: power-oriented graphs (POG) and energetic macroscopic representation (EMR). As these techniques have different features and purposes, they can be used together to model different parts of the same system. The POG technique is used to model the interaction between tire and road in order to have a dynamic energetic model, while the EMR technique is used to repreIn this paper a vehicle is described using two different energetic graphical techniques: Power-Oriented Graphs (POG) and Energetic Macroscopic Representation (EMR). As these techniques have different features and purposes, they can be used together to model different parts of the same system. The POG technique is used to model the interaction between tire and road in order to have a dynamic energetic model, while the EMR technique is used to represent the whole system and deduce the control structure through the inversion-based methodology. Thanks to the use of both techniques the whole vehicle can be represented and a structure to control the vehicle velocity is given.sent the whole system and deduce the control structure through the inversion-based methodology. Thanks to the use of both techniques the whole vehicle can be represented and a structure to control the vehicle velocity is given.
2009
Advanced Electromechanical Motion Systems & Electric Drives Joint Symposium
Lille, fra
1-3 July 2009
1
6
Grossi, Federica; W., Lhomme; Zanasi, Roberto; A., Bouscayrol
Modelling and control of a vehicle with tire-road interaction using Power-Oriented-Graph and Energetic-Macroscopic-Representation formalisms / Grossi, Federica; W., Lhomme; Zanasi, Roberto; A., Bouscayrol. - ELETTRONICO. - (2009), pp. 1-6. (Intervento presentato al convegno Advanced Electromechanical Motion Systems & Electric Drives Joint Symposium tenutosi a Lille, fra nel 1-3 July 2009) [10.1109/ELECTROMOTION.2009.5259151].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/641222
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