Universal Path-Following of Wheeled Mobile Robots: A Closed-Form Bounded Velocity Solution

Universal Path-Following of Wheeled Mobile Robots: A Closed-Form Bounded Velocity Solution

This paper presents a nonlinear, universal, path-following controller for Wheeled Mobile Robots (WMRs). This approach, unlike previous algorithms, solves the path-following problem for all common categories of holonomic and nonholonomic WMRs, such as omnidirectional, unicycle, car-like, and all stee...

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Detalles Bibliográficos
Autores principales: Reza Oftadeh, Reza Ghabcheloo, Jouni Mattila
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
wheeled mobile robots
path-following
nonholonomic constraints
Chemical technology
TP1-1185
Acceso en línea:https://doaj.org/article/e29687aa47ae41f6a43b5db80e95fc71
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Sumario:This paper presents a nonlinear, universal, path-following controller for Wheeled Mobile Robots (WMRs). This approach, unlike previous algorithms, solves the path-following problem for all common categories of holonomic and nonholonomic WMRs, such as omnidirectional, unicycle, car-like, and all steerable wheels. This generality is the consequence of a two-stage solution that tackles separately the platform path-following and wheels’ kinematic constraints. In the first stage, for a mobile platform divested of the wheels’ constraints, we develop a general paradigm of a path-following controller that plans asymptotic paths from the WMR to the desired path and, accordingly, we derive a realization of the presented paradigm. The second stage accounts for the kinematic constraints imposed by the wheels. In this stage, we demonstrate that the designed controller simplifies the otherwise impenetrable wheels’ kinematic and nonholonomic constraints into explicit proportional functions between the velocity of the platform and that of the wheels. This result enables us to derive a closed-form trajectory generation scheme for the asymptotic path that constantly keeps the wheels’ steering and driving velocities within their corresponding, pre-specified bounds. Extensive experimental results on several types of WMRs, along with simulation results for the other types, are provided to demonstrate the performance and the efficacy of the method.

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