论文信息 - Using a high order sliding modes for diving control a torpedo autonomous underwater vehicle

Using a high order sliding modes for diving control a torpedo autonomous underwater vehicle

In this paper, a high order sliding modes control (HOSMC) is used to control TAIPAN, a torpedo shaped AUV from LIRMM, France. The implementation of a second order sliding mode controller in this system is the main contribution of this work. Sliding mode control (SMC) is adequate for controlling AUVs, since it offers robustness in the presence of uncertainties parameters and environmental disturbances, however the main drawback is the chattering effects that stimulates high frequency vibration that can damage the actuators. HOSMC control preserves the properties of standard SMC and removes the chattering effects. The design of proportional derived (PD), SMC and HOSMC controller for control TAIPAN depth are described. A comparative study between the control laws is presented. The nonlinear hydrodynamic model of TAIPAN is used in the numerical simulations. Simulation results, that enlighten performance of the automatic controllers are shown.

B. Jouvencel | T. Salgado-Jimenez

[1] A. J. Healey,et al. Adaptive sliding mode control of autonomous underwater vehicles in the dive plane , 1990 .

[2] Joseph Z. Ben-Asher,et al. Aircraft Pitch Control via Second-Order Sliding Technique , 2000 .

[3] Giorgio Bartolini,et al. Second-order sliding-mode control of container cranes , 2002, Autom..

[4] A. J. Healey,et al. Multivariable sliding mode control for autonomous diving and steering of unmanned underwater vehicles , 1993 .

[5] Timothy Prestero,et al. Verification of a six-degree of freedom simulation model for the REMUS autonomous underwater vehicle , 2001 .

[6] L. Rodrigues,et al. Sliding mode control of an AUV in the diving and steering planes , 1996, OCEANS 96 MTS/IEEE Conference Proceedings. The Coastal Ocean - Prospects for the 21st Century.

[7] Tamaki Ura,et al. Fast reinforcement learning algorithm for motion planning of nonholonomic autonomous underwater vehicle in disturbance , 2002, IEEE/RSJ International Conference on Intelligent Robots and Systems.

[8] B. Jalving,et al. The NDRE-AUV flight control system , 1994 .