Title :
Robust Observer Design of Tire Forces in Heavy-Duty Vehicles
Author :
Imine, Hocine ; Khemoudj, Omar ; Djemai, Mohamed ; Busawon, Krishna
Author_Institution :
Lab. Exploitation, Univ. Paris-Est, Marne-la-Vallée, France
Abstract :
This paper presents a robust observer design methodology to estimate tire forces in heavy-duty vehicles. The proposed methodology uses low-cost sensors and observer-based numerical differentiators. In addition to the already available sensors, low-cost sensors from the CAN bus are employed to get additional measurements. Sliding mode differentiators are used to optimize the sensors´ configuration. Validation of the proposed estimation methodology is made by comparing the results with that generated using the PROSPER software simulator. The finite-time convergence with small estimation error suggests that the proposed methodology is valid and can be applied in real time.
Keywords :
control system synthesis; controller area networks; convergence; observers; road vehicles; robust control; tyres; variable structure systems; vehicle dynamics; CAN bus; PROSPER software simulator; error estimation; finite time convergence; heavy duty vehicles; robust observer design; sliding mode differentiators; tire force estimation; Axles; Force; Modeling; Observers; Sensors; Tires; Vehicle dynamics; Wheels; Heavy vehicle modeling; estimation; sliding mode observer; vertical forces;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2015.2443180
