A comprehensive study is reported herein for the evaluation of Lagrangian functions for linear systems possessing symmetric or nonsymmetric coefficient matrices. Contrary to popular beliefs, it is shown that many coupled linear systems do not admit Lagrangian functions. In addition, Lagrangian functions generally cannot be determined by system decoupling unless further restriction such as classical damping is assumed. However, a scalar function that plays the role of a Lagrangian function can be determined for any linear system by decoupling. This generalized Lagrangian function produces the equations of motion and it contains information on system properties, yet it satisfies a modified version of the Euler–Lagrange equations. Subject to this interpretation, a solution to the inverse problem of linear Lagrangian dynamics is provided.
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March 2018
Research-Article
The Inverse Problem of Linear Lagrangian Dynamics
Rubens Goncalves Salsa, Jr.,
Rubens Goncalves Salsa, Jr.
Department of Mechanical Engineering,
University of California Berkeley,
Berkeley, CA 94720
e-mail: rsalsa@berkeley.edu
University of California Berkeley,
Berkeley, CA 94720
e-mail: rsalsa@berkeley.edu
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Daniel T. Kawano,
Daniel T. Kawano
Department of Mechanical Engineering,
Rose-Hulman Institute of Technology,
Terre Haute, IN 47803
e-mail: kawano@rose-hulman.edu
Rose-Hulman Institute of Technology,
Terre Haute, IN 47803
e-mail: kawano@rose-hulman.edu
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Fai Ma,
Fai Ma
Department of Mechanical Engineering,
University of California Berkeley,
Berkeley, CA 94720
e-mail: fma@berkeley.edu
University of California Berkeley,
Berkeley, CA 94720
e-mail: fma@berkeley.edu
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George Leitmann
George Leitmann
Department of Mechanical Engineering,
University of California Berkeley,
Berkeley, CA 94720
e-mail: gleit@berkeley.edu
University of California Berkeley,
Berkeley, CA 94720
e-mail: gleit@berkeley.edu
Search for other works by this author on:
Rubens Goncalves Salsa, Jr.
Department of Mechanical Engineering,
University of California Berkeley,
Berkeley, CA 94720
e-mail: rsalsa@berkeley.edu
University of California Berkeley,
Berkeley, CA 94720
e-mail: rsalsa@berkeley.edu
Daniel T. Kawano
Department of Mechanical Engineering,
Rose-Hulman Institute of Technology,
Terre Haute, IN 47803
e-mail: kawano@rose-hulman.edu
Rose-Hulman Institute of Technology,
Terre Haute, IN 47803
e-mail: kawano@rose-hulman.edu
Fai Ma
Department of Mechanical Engineering,
University of California Berkeley,
Berkeley, CA 94720
e-mail: fma@berkeley.edu
University of California Berkeley,
Berkeley, CA 94720
e-mail: fma@berkeley.edu
George Leitmann
Department of Mechanical Engineering,
University of California Berkeley,
Berkeley, CA 94720
e-mail: gleit@berkeley.edu
University of California Berkeley,
Berkeley, CA 94720
e-mail: gleit@berkeley.edu
1Corresponding author.
Contributed by the Applied Mechanics Division of ASME for publication in the JOURNAL OF APPLIED MECHANICS. Manuscript received September 28, 2017; final manuscript received December 11, 2017; published online January 4, 2018. Assoc. Editor: Walter Lacarbonara.
J. Appl. Mech. Mar 2018, 85(3): 031002 (10 pages)
Published Online: January 4, 2018
Article history
Received:
September 28, 2017
Revised:
December 11, 2017
Citation
Goncalves Salsa, R., Jr., Kawano, D. T., Ma, F., and Leitmann, G. (January 4, 2018). "The Inverse Problem of Linear Lagrangian Dynamics." ASME. J. Appl. Mech. March 2018; 85(3): 031002. https://doi.org/10.1115/1.4038749
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