Title :
Doppler-Based Ground Speed Sensor Fusion and Slip Control for a Wheeled Rover
Author :
Lhomme-Desages, D. ; Grand, C. ; Guinot, J.-C. ; Ben Amar, F.
Author_Institution :
Inst. des Syst. Intelligents et de Robot., Univ. Pierre et Marie Curie, Paris, France
Abstract :
High-speed unmanned ground vehicles evolving on natural terrains can exhibit a significant slip and skid. An estimation of both friction and traction forces can allow to achieve a better control. In order to implement a control architecture based on the vehicle dynamic model and the wheel-soil interaction model, the knowledge of the wheels slip rate is required. The wheel angular velocities can be precisely measured. But the true measurement of the ground speed of the vehicle is much more challenging. A low-cost Doppler radar is used, in conjunction with an accelerometer, to obtain the ground speed. Thus, the knowledge of the slip rate allows us to setup an in situ procedure for the estimation of soil parameters that is based on the measurement of the motors torques. A wheel slippage controller has also been implemented, which is a first step toward high-level dynamic control.
Keywords :
Doppler radar; sensor fusion; vehicle dynamics; Doppler radar; Doppler-based ground speed sensor fusion; accelerometer; control architecture; dynamic control; friction force; motor torque; slip control; traction force; unmanned ground vehicle; vehicle dynamic model; wheel angular velocity; wheel slippage controller; wheel-soil interaction model; wheeled rover; wheels slip rate; Angular velocity; Doppler radar; Force control; Friction; Land vehicles; Road vehicles; Sensor fusion; Vehicle dynamics; Velocity measurement; Wheels; Doppler; field robotics; rover; slippage; wheel–soil interaction;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2009.2013713
