On the mobility of all‐terrain rovers
Abstract
Purpose
The purpose of this paper is to evaluate the locomotion performance of all‐terrain rovers employing rocker‐type suspension system.
Design/methodology/approach
In this paper, a robot with advanced mobility features is presented and its locomotion performance is evaluated, following an analytical approach via extensive simulations. The vehicle features an independently controlled four‐wheel‐drive/4‐wheel‐steer architecture and it also employs a passive rocker‐type suspension system that improves the ability to traverse uneven terrain. An overview of modeling techniques for rover‐like vehicles is introduced. First, a method for formulating a kinematic model of an articulated vehicle is presented. Next, a method for expressing a quasi‐static model of forces acting on the robot is described. A modified rocker‐type suspension is also proposed that enables wheel camber change, allowing each wheel to keep an upright posture as the suspension conforms to ground unevenness.
Findings
The proposed models can be used to assess the locomotion performance of a mobile robot on rough‐terrain for design, control and path planning purposes. The advantage of the rocker‐type suspension over conventional spring‐type counterparts is demonstrated. The variable camber suspension is shown to be effective in improving a robot's traction and climbing ability.
Research limitations/implications
The paper can be of great value when studying and optimizing the locomotion performance of mobile robots on rough terrain. These models can be used as a basis for advanced design, control and motion planning.
Originality/value
The paper describes an analytical approach for the study of the mobility characteristics of vehicles endowed with articulated suspension systems. A variable camber mechanism is also presented.
Keywords
Citation
Reina, G. and Foglia, M. (2013), "On the mobility of all‐terrain rovers", Industrial Robot, Vol. 40 No. 2, pp. 121-131. https://doi.org/10.1108/01439911311297720
Publisher
:Emerald Group Publishing Limited
Copyright © 2013, Emerald Group Publishing Limited