Rania Majdoubi, Lhoussaine Masmoudi, Abderrahmane Elharif

Journal of Terramechanics, Volume 110, 2023, Pages 47-68, ISSN 0022-4898

https://doi.org/10.1016/j.jterra.2023.08.001.(https://www.sciencedirect.com/science/article/pii/S0022489823000666)

Abstract: In this paper, the coupled longitudinal and lateral control of the mobile agricultural robot “Agri-Eco-Robot’’ is addressed. As a first step, the Newton's law is used to develop the dynamical modeling of the mobile agricultural robot. The wheel-ground contact is modeled using the Terramechanics law called Extended-Bekker. The validation of the developed vehicle model was then conducted using an automotive simulator. The developed vehicle model is then used to derive the coupled control laws for the lateral and the longitudinal vehicle dynamics. The proposed controller is realized using two overlapping controllers, the first is dealing with coupled control of longitudinal and lateral dynamics to command the traction, and the second is the controller that minimize slipping, both are developed using the Lyapunov's theory. This controller is compared with the dynamics where the slip ratio is not controlled according to two scenarios in which one is the heigh velocity and the other is low velocity, this control law is validated using an automotive simulator applied to the mobile robot ‘Agri-Eco-Robot’. The result of this control law shows the necessity of the slipping control when navigating in a rough environment such as agricultural fields, assuming a low-speed command to ensure system stability.

Keywords: Combined controller; Mobile agricultural robots; Navigation in a rough environment; Dynamic model; Terramechanics law; Trajectory control law; Traction; Slip ratio; Lyapunov's control; Heigh velocity; Low velocity