Online adaptive observer for rollover avoidance of reconfigurable agricultural vehicles

Abstract

Tractor rollover is one of the main case of severe accident in agriculture. Since such vehicles move on natural ground with varying conditions and different kind of terrain, the risk of rollover is difficult to estimate and predict using classical on-road approaches. This paper proposes an online adaptive observer to assess and avoid rollover risk in agricultural vehicles which move in off-road terrain. In particular, the approach focuses on reconfigurable tractor dedicated to move in terrain with important slope (such as grape harvester). It is based on the coupling between an intermittent measurement and an estimation of a stability metric, namely the Lateral Load Transfer (LLT). Thanks to this adaptive method, terrain and vehicle parameters are updated in order to take into account for the effects of changes in center of gravity height and total vehicle mass. This then allows to monitor the stability of the vehicle whatever the state of the slope correction system, the soil type and the load of the machine. The algorithm capabilities are tested through experiments using a grape harvester equipped with hydraulic actuators.