Energy optimal control of mobile manipulators subject to compensation of external disturbance forces

This study proposes a new class of controllers for mobile manipulators subject to both undesirable forces exerted on the end-effector and unknown friction forces coming from joints directly driven by the actuators as well as undesirable forces resulting from the kinematic singularities appearing on...

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Published inMechanism and machine theory Vol. 167; p. 104550
Main Author Galicki, Mirosław
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2022
Subjects
Disturbance compensation
External forces
Lyapunov stability
Non-holonomic mobile manipulator
Optimal finite-time trajectory tracking
Lyapunov stability
Non-holonomic mobile manipulator
External forces
Disturbance compensation
Optimal finite-time trajectory tracking
Online AccessGet full text
ISSN0094-114X
DOI10.1016/j.mechmachtheory.2021.104550

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Abstract This study proposes a new class of controllers for mobile manipulators subject to both undesirable forces exerted on the end-effector and unknown friction forces coming from joints directly driven by the actuators as well as undesirable forces resulting from the kinematic singularities appearing on the mechanism trajectory. Based on the suitably defined task space non-singular terminal sliding manifold (TSM) and the Lyapunov stability theory, we derive a class of estimated extended transposed Jacobian controllers which seem to be effective in counteracting the unstructured forces. Due to a redundant nature of the tasks to be accomplished, our controllers also a involve useful criterion function (energy consumption) in optimally tracking a desired trajectory. Moreover, in order to eliminate (or to alleviate) undesirable chattering effects the proposed control laws include second order sliding techniques. The numerical computations, which are carried out for a mobile manipulator consisting of a platform of (2, 0) type and a holonomic manipulator of two revolute kinematic pairs, illustrate the performance of the proposed controllers and simultaneously their minimizing properties. Numerical comparison with other control algorithms well-known in the literature is also given. •We offer the solution of energy optimal robust control of mobile manipulators.•The mobile manipulator is subject to unknown external disturbance forces.•Controllers involve new non-singular TSM manifold to track desired trajectory.•The approach is based on utilizing the sliding techniques of the second order.•Our controllers tackle also singular configurations.
AbstractList This study proposes a new class of controllers for mobile manipulators subject to both undesirable forces exerted on the end-effector and unknown friction forces coming from joints directly driven by the actuators as well as undesirable forces resulting from the kinematic singularities appearing on the mechanism trajectory. Based on the suitably defined task space non-singular terminal sliding manifold (TSM) and the Lyapunov stability theory, we derive a class of estimated extended transposed Jacobian controllers which seem to be effective in counteracting the unstructured forces. Due to a redundant nature of the tasks to be accomplished, our controllers also a involve useful criterion function (energy consumption) in optimally tracking a desired trajectory. Moreover, in order to eliminate (or to alleviate) undesirable chattering effects the proposed control laws include second order sliding techniques. The numerical computations, which are carried out for a mobile manipulator consisting of a platform of (2, 0) type and a holonomic manipulator of two revolute kinematic pairs, illustrate the performance of the proposed controllers and simultaneously their minimizing properties. Numerical comparison with other control algorithms well-known in the literature is also given. •We offer the solution of energy optimal robust control of mobile manipulators.•The mobile manipulator is subject to unknown external disturbance forces.•Controllers involve new non-singular TSM manifold to track desired trajectory.•The approach is based on utilizing the sliding techniques of the second order.•Our controllers tackle also singular configurations.
ArticleNumber 104550
Author Galicki, Mirosław
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  surname: Galicki
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  email: m.galicki@ibem.uz.zgora.pl
  organization: Faculty of Mechanical Engineering, University of Zielona Góra, Zielona Góra, Podgorna 50, Poland
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Keywords Lyapunov stability
Non-holonomic mobile manipulator
External forces
Disturbance compensation
Optimal finite-time trajectory tracking
Language English
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Snippet This study proposes a new class of controllers for mobile manipulators subject to both undesirable forces exerted on the end-effector and unknown friction...
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StartPage 104550
SubjectTerms Disturbance compensation
External forces
Lyapunov stability
Non-holonomic mobile manipulator
Optimal finite-time trajectory tracking
Title Energy optimal control of mobile manipulators subject to compensation of external disturbance forces
URI https://dx.doi.org/10.1016/j.mechmachtheory.2021.104550
Volume 167
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