Kinematics of wheeled mobile robots on uneven terrain
نویسندگان
چکیده
This paper deals with the kinematic analysis of a wheeled mobile robot (WMR) moving on uneven terrain. It is known in literature that a wheeled mobile robot, with a fixed length axle and wheels modeled as thin disk, will undergo slip when it negotiates an uneven terrain. To overcome slip, variable length axle (VLA) has been proposed in literature. In this paper, we model the wheels as a torus and propose the use of a passive joint allowing a lateral degree of freedom. Furthermore, we model the mobile robot, instantaneously, as a hybrid-parallel mechanism with the wheel–ground contact described by differential equations which take into account the geometry of the wheel, the ground and the non-holonomic constraints of no slip. We present an algorithm to solve the direct and inverse kinematics problem of the hybrid-parallel mechanism involving numerical solution of a system of differential-algebraic equations. Simulation results show that the three-wheeled WMR with torus shaped wheels and passive joints can negotiate uneven terrain without slipping. Our proposed approach presents an alternative to variable length axle approach. 2004 Elsevier Ltd. All rights reserved.
منابع مشابه
A simulation framework for evolution on uneven terrains for synchronous drive robot
This paper presents a simulation framework for evolution on uneven terrains for a wheeled mobile robot such as a synchronous drive robot. The framework lends itself as a tool capable of solving various problems, such as forward kinematic based evolution, inverse kinematic based evolution, path planning and trajectory tracking. This framework becomes particularly useful when we understand that t...
متن کاملModeling of Wheeled Mobile Robots using Dextrous Manipulation Kinematics
This document introduces a new kinematic simulation of a wheeled mobile robot operating on uneven terrain. Our modeling method borrows concepts from dextrous manipulation. This allows for an accurate simulation of the way 3-dimensional wheels roll over a smooth ground surface. The purpose of the simulation is to validate a new concept for design of off-road wheel suspensions, called Passive Var...
متن کاملFuzzy Motion Control for Wheeled Mobile Robots in Real-Time
Due to various advantages of Wheeled Mobile Robots (WMRs), many researchers have focused to solve their challenges. The automatic motion control of such robots is an attractive problem and is one of the issues which should carefully be examined. In the current paper, the trajectory tracking problem of WMRs which are actuated by two independent electrical motors is deliberated. To this end, and ...
متن کاملEvaluation of Uneven Terrain Traversability for Wheeled Mobile Robots by Fractal Terrain Model
Planetary rover should be designed so that it can travel on uneven terrains robustly under several limitations such as size, weight, costs, etc. However, it is difficult to get precise or whole terrain information beforehand to check the performance of the designed rover. In this paper, we propose a simulation model of uneven terrains based on fractional Brownian motions (fBm’s) for evaluating ...
متن کاملContinuum Robotic Elements for Enabling Negotiation of Uneven Terrain in Unstructured Environments
We address the potential for continuous “continuum” robot elements to transform the nature of robotic traversal of uneven terrain. Continuum robots are “dual” to traditional robot structures, with their inherent capabilities featuring strengths in areas that are key weaknesses for conventional robots. These capabilities match well to current challenges in robot mobility, particularly in unstruc...
متن کامل