Title :
Nonlinear Moving Horizon Estimation for combined state and friction coefficient estimation in autonomous driving
Author :
Zanon, Mario ; Frasch, Janick V. ; Diehl, Moritz
Author_Institution :
Optimization in Eng. Center (OPTEC), K.U. Leuven, Heverlee, Belgium
Abstract :
Real-time autonomous driving requires a precise knowledge of the state and the ground parameters, especially in dangerous situations. In this paper, an accurate yet computationally efficient nonlinear multi-body vehicle model is developed, featuring a detailed Pacejka tire model, and a Moving Horizon Estimation (MHE) scheme is formulated. To meet the real-time requirements, an efficient algorithm based on the Real Time Iteration (RTI) scheme for the Direct Multiple Shooting method is exported through automatic C code generation. The exported plain C-code is tailored to the model dynamics, resulting in computation times in the range of a few milliseconds. In addition to state estimates, MHE provides friction coefficient estimates, allowing the controller to adapt to varying road conditions. Simulation results from an obstacle avoidance scenario on a low friction road are presented.
Keywords :
collision avoidance; friction; iterative methods; mobile robots; motion control; nonlinear control systems; road safety; road vehicles; state estimation; tyres; MHE scheme; Pacejka tire model; RTI scheme; automatic C code generation; dangerous situations; direct multiple shooting method; friction coefficient estimation; friction road; ground parameters; model dynamics; nonlinear moving horizon estimation; nonlinear multibody vehicle model; obstacle avoidance; real time iteration scheme; real-time autonomous driving; road conditions; state estimates; Computational modeling; Friction; Load modeling; Tires; Vehicle dynamics; Vehicles; Wheels; Moving Horizon Estimation; autonomous driving; code generation; road friction estimation;
Conference_Titel :
Control Conference (ECC), 2013 European
Conference_Location :
Zurich
