Dynamics and Switching Control of a Class of Underactuated Mechanical Systems with Variant Constraints

Locomotion systems with variant constraints are familiar in real world applications, but the dynamics and control issues of variant constraint systems have not been sufficiently discussed to date. From the viewpoint of Lagrange–d’Alembert equations with additional variable constraints, this paper investigates the modeling approaches of a class of hybrid dynamical systems (HDS) with instantaneously variant constraints and the switching control techniques of stabilizing the HDS to given periodic orbits. It is shown that under certain conditions there possibly exist zero impact periodic orbits in the HDS, and the HDS can be stabilized to the period-one orbits by a linear controller with only partial state feedback, even though the HDS are generally underactuated nonholonomic systems. As an example, a one-legged planar hopping robot is employed to demonstrate the main results of modeling and control of a class of HDS.

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Design, modeling and control of a hopping robot

Proceedings of 1993 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS '93) ◽

10.1109/iros.1993.583877 ◽

2002 ◽

Cited By ~ 18

Author(s):

H. Rad ◽

P. Gregorio ◽

M. Buehler

Keyword(s):

Modeling And Control ◽

Hopping Robot ◽

And Control

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Dynamics and Control of Displaced Periodic Orbits Using Solar-Sail Propulsion

Journal of Guidance Control and Dynamics ◽

10.2514/1.15655 ◽

2006 ◽

Vol 29 (3) ◽

pp. 527-537 ◽

Cited By ~ 25

Author(s):

John Bookless ◽

Colin McInnes

Keyword(s):

Periodic Orbits ◽

Solar Sail ◽

Dynamics And Control ◽

And Control

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A one linear actuator hopping robot: modeling and control

Advanced Robotics ◽

10.1163/156855303322395172 ◽

2003 ◽

Vol 17 (8) ◽

pp. 709-737 ◽

Cited By ~ 4

Author(s):

Son Kuswadi ◽

Aki Ohnishi ◽

Akiko Takahashi ◽

Mitsuji Sampei ◽

Shigeki Nakaura

Keyword(s):

Linear Actuator ◽

Modeling And Control ◽

Hopping Robot ◽

And Control ◽

Robot Modeling

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Dynamics and control of a class of underactuated mechanical systems

IEEE Transactions on Automatic Control ◽

10.1109/9.788533 ◽

1999 ◽

Vol 44 (9) ◽

pp. 1663-1671 ◽

Cited By ~ 336

Author(s):

M. Reyhanoglu ◽

A. van der Schaft ◽

N.H. Mcclamroch ◽

I. Kolmanovsky

Keyword(s):

Mechanical Systems ◽

Underactuated Mechanical Systems ◽

Dynamics And Control ◽

And Control

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Dynamics and Control of a Hopping Robot for Extreme Environment Exploration on the Moon and Mars

2020 IEEE Aerospace Conference ◽

10.1109/aero47225.2020.9172617 ◽

2020 ◽

Cited By ~ 4

Author(s):

Himangshu Kalita ◽

Akash S. Gholap ◽

Jekan Thangavelautham

Keyword(s):

Extreme Environment ◽

The Moon ◽

Hopping Robot ◽

Environment Exploration ◽

Dynamics And Control ◽

And Control

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Dynamics and Control of a Tethered Satellite System Based on the SDRE Method

International Journal of Aerospace Engineering ◽

10.1155/2016/3610507 ◽

2016 ◽

Vol 2016 ◽

pp. 1-16 ◽

Cited By ~ 3

Author(s):

Yong-Lin Kuo

Keyword(s):

Nonlinear Dynamic ◽

Equations Of Motion ◽

Nonlinear Dynamic Analysis ◽

Satellite System ◽

Convergence Time ◽

Tethered Satellite ◽

Modeling And Control ◽

Tethered Satellite System ◽

Dynamics And Control ◽

And Control

This paper presents the nonlinear dynamic modeling and control of a tethered satellite system (TSS), and the control strategy is based on the state-dependent Riccati equation (SDRE). The TSS is modeled by a two-piece dumbbell model, which leads to a set of five nonlinear coupled ordinary differential equations. Two sets of equations of motion are proposed, which are based on the first satellite and the mass center of the TSS. There are two reasons to formulate the two sets of equations. One is to facilitate their mutual comparison due to the complex formulations. The other is to provide them for different application situations. Based on the proposed models, the nonlinear dynamic analysis is performed by numerical simulations. Besides, to reduce the convergence time of the librations of the TSS, the SDRE control with a prescribed degree of stability is developed, and the illustrative examples validate the proposed approach.

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Quasi-coordinates based dynamics modeling and control design for nonholonomic systems

Nonlinear Analysis ◽

10.1016/j.na.2008.10.049 ◽

2009 ◽

Vol 71 (12) ◽

pp. e118-e131 ◽

Cited By ~ 4

Author(s):

Elżbieta Jarzębowska

Keyword(s):

Control Design ◽

Nonholonomic Systems ◽

Dynamics Modeling ◽

Modeling And Control ◽

And Control

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Tools to Assist Teaching and Learning of Mechanisms, Robotics, and Biomechanics

Volume 2: 34th Annual Mechanisms and Robotics Conference, Parts A and B ◽

10.1115/detc2010-28537 ◽

2010 ◽

Author(s):

Robert L. Williams

Keyword(s):

Real World ◽

Teaching And Learning ◽

Human Motion ◽

Robot Kinematics ◽

Kinematics And Dynamics ◽

Ohio University ◽

Internet Resources ◽

Real World Applications ◽

Dynamics And Control ◽

And Control

This paper details some innovations developed at Ohio University for augmenting the teaching and learning of mechanism kinematics and dynamics, robot kinematics, dynamics, and control, and the musculoskeletal biomechanics of human motion. Common to all three courses are NotesBooks, significant MATLAB use in class, homework, and projects, term projects simulated from real-world applications, and Internet resources developed and hosted by the author at Ohio University.

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