The global modal parameterization for non-linear model-order reduction in flexible multibody dynamics

Bruls, Olivier; Duysinx, Pierre; Golinval, Jean-Claude

doi:10.1002/nme.1795

Request a copy

Article (Scientific journals)

The global modal parameterization for non-linear model-order reduction in flexible multibody dynamics

Bruls, Olivier; Duysinx, Pierre; Golinval, Jean-Claude

2007 • In International Journal for Numerical Methods in Engineering, 69 (5), p. 948-977

Peer Reviewed verified by ORBi

Permalink
https://hdl.handle.net/2268/17107

DOI
10.1002/nme.1795

Files (1)Send to Details Statistics Bibliography Similar publications

Files

Full Text

PaperReduction05Proof.pdf

Author preprint (1.32 MB)

Request a copy

All documents in ORBi are protected by a user license.

Send to

RIS BibTex APA Chicago Permalink X Linkedin

Details

Keywords :

model reduction; component-mode technique; non-linear projection; flexible multibody dynamics; parallel mechanisms

Abstract :

[en] In flexible multibody dynamics, advanced modelling methods lead to high-order non-linear differential-algebraic equations (DAEs). The development of model reduction techniques is motivated by control design problems, for which compact ordinary differential equations (ODEs) in closed-form are desirable. In a linear framework, reduction techniques classically rely on a projection of the dynamics onto a linear subspace. In flexible multibody dynamics, we propose to project the dynamics onto a submanifold of the configuration space, which allows to eliminate the non-linear holonomic constraints and to preserve the Lagrangian structure. The construction of this submanifold follows from the definition of a global modal parameterization (GMP): the motion of the assembled mechanism is described in terms of rigid and flexible modes, which are configuration-dependent. The numerical reduction procedure is presented, and an approximation strategy is also implemented in order to build a closed-form expression of the reduced model in the configuration space. Numerical and experimental results illustrate the relevance of this approach. Copyright (c) 2006 John Wiley

Disciplines :

Mechanical engineering
Aerospace & aeronautics engineering

Author, co-author :

Bruls, Olivier ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > LTAS - Vibrations et identification des structures

Duysinx, Pierre ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > Ingénierie des véhicules terrestres

Golinval, Jean-Claude ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > LTAS - Vibrations et identification des structures

Language :

English

Title :

The global modal parameterization for non-linear model-order reduction in flexible multibody dynamics

Publication date :

2007

Journal title :

International Journal for Numerical Methods in Engineering

ISSN :

0029-5981

eISSN :

1097-0207

Publisher :

John Wiley & Sons Ltd, Chichester, United Kingdom

Volume :

Issue :

Pages :

948-977

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 16 July 2009

Statistics

Number of views

174 (50 by ULiège)

Number of downloads

11 (5 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

OpenAlex citations

Bibliography

Géradin, M., Cardona, A., (2001) Flexible Multibody Dynamics: A Finite Element Approach, , Wiley: New York
Shabana, A.A., (1998) Dynamics of Multibody Systems, , (2nd edn). Cambridge University Press: Cambridge, MA
De Veubeke, B.F., The dynamics of flexible bodies (1976) International Journal of Engineering Science, 14, pp. 895-913
Shabana, A.A., Wehage, R.A., A coordinate reduction technique for dynamic analysis of spatial substructures with large angular rotations (1983) Journal of Structural Mechanics, 11, pp. 401-431
Book, W.J., Recursive Lagrangian dynamics of flexible manipulator arms (1984) International Journal of Robotics Research, 3 (3), pp. 87-101
Cardona, A., Géradin, M., A superelement formulation for mechanism analysis (1991) International Journal for Numerical Methods in Engineering, 32 (8), pp. 1565-1594
Bottasso, C.L., Croce, A., Leonello, D., Neural-augmented planning and tracking pilots for maneuvering multibody dynamics (2005) Proceedings of the ECCOMAS Conference on Advances in Computational Multibody Dynamics, , Madrid, Spain, June
Moore, B.C., Principal component analysis in linear systems: Controllability, observability and model reduction (1981) IEEE Transactions on Automatic Control, 26, pp. 17-32
Glover, K.D., All optimal Hankel-norm approximation of linear multivariable systems and their L∞-error bounds (1984) International Journal of Control, 39 (6), pp. 1115-1193
Sorensen, D.C., Antoulas, A.C., The sylvester equation and approximate balanced reduction (2002) Linear Algebra and Its Applications, 351-352, pp. 671-700
Grimme, E.J., Krylov projection methods for model reduction (1997), Ph.D. Thesis, ECE Department, University of Illinois, Urbana, Champaign
Gallivan, K., Vandendorpe, A., Van Dooren, P., Model reduction of MIMO systems via tangential interpolation (2004) SIAM Journal on Matrix Analysis and Applications, 26 (2), pp. 328-349
Su, T.J., Craig, R.J., Model reduction and control of flexible structures using Krylov vectors (1991) AIAA Journal of Guidance, Control, and Dynamics, 14 (2), pp. 260-267
Meyer, D.G., Srinivasan, S., Balancing and model reduction for second-order form linear systems (1996) IEEE Transactions on Automatic Control, 41 (11), pp. 1632-1644
Bai, Z., Su, Y., Dimension reduction of large-scale second-order dynamical systems via a second-order Arnoldi method (2005) SIAM Journal on Scientific Computing, 26 (5), pp. 1692-1709
Hurty, W.C., Dynamic analysis of structural systems using component modes (1965) AIAA Journal, 3 (4), pp. 678-685
Craig, R., Bampton, M., Coupling of substructures for dynamic analysis (1968) AIAA Journal, 6 (7), pp. 1313-1319
Mac Neal, R., A hybrid method of component mode synthesis (1975) Computers and Structures, 1, pp. 581-601
Rubin, S., Improved component mode representation for structural dynamics analysis (1975) AIAA Journal, 13 (8), pp. 995-1006
Craig, R., A review of time-domain and frequency domain component-mode synthesis methods (1987) International Journal of Analytical and Experimental Modal Analysis, 11 (6), pp. 562-570
Géradin, M., Rixen, D., (1997) Mechanical Vibrations: Theory and Application to Structural Dynamics, , (2nd edn). Wiley: New York
Pearson, K., On lines and planes of closest fit to points in space (1901) Philosophical Magazine, 2, pp. 609-629
Lall, S., Marsden, J.E., Glavaski, S., A subspace approach to balanced truncation for model reduction of nonlinear control systems (2002) International Journal of Robust Nonlinear Control, 12, pp. 519-535
Rewienski, M.J., A trajectory piecewise-linear approach to model order reduction of nonlinear dynamical systems (2003), Ph.D. Thesis, Massachusetts Institute of Technology
Takagi, T., Sugeno, M., Fuzzy identification of systems and its applications to modeling and control (1985) IEEE Transactions on Systems, Man, and Cybernetics, 15, pp. 116-132
Nelles, O., Nonlinear system identification with local linear neuro-fuzzy models (1999), Ph.D. Thesis, Darmstadt, TU
Murray-Smith, R., A local model network approach to nonlinear modelling (1994), Ph.D. Thesis, Department of Computer Science, University of Strathclyde, Glasgow, Scotland, November
Angelis, G.Z., System analysis, modelling and control with polytopic linear models (2001), Ph.D. Thesis, Technische Universiteit Eindhoven
Scherer, C.W., LPV control and full block multipliers (2001) Automatica, 37, pp. 361-375
Scherpen, J., Balancing for nonlinear systems (1993) System and Control Letters, 21, pp. 143-153
Raibert, M.H., Analytical equations vs. table look-up for manipulation: A unifying concept (1977) Proceedings of the IEEE Conference on Decision and Control, , New Orleans
Papastavridis, J.G., (1998) Tensor Calculus and Analytical Dynamics, , CRC Press: Boca Raton, FL
Park, F.C., Kim, J.W., Singularity analysis of closed kinematic chains (1999) Journal of Mechanical Design, 121 (1), pp. 32-38. , (ASME)
Zlatanov, D., Bonev, I., Gosselin, C., Constraint singularities as configuration space singularities, 2001 (2006), http://www.parallemic.org/Reviews/Review008.html, [5 May]
Liu, G., Lou, Y., Li, Z., Singularities of parallel manipulators: A geometric treatment (2003) IEEE Transactions on Robotics and Automation, 19 (4), pp. 579-594
Brüls, O., Integrated simulation and reduced-order modeling of controlled flexible multibody systems (2005), Ph.D. Thesis, University of Liège, Belgium
Haftka, R.T., Gürdal, Z., Kamat, M.P., (1990) Elements of Structural Optimization, , (2nd edn). Kluwer Academic Publishers: Dordrecht, The Netherlands
Kim, T.S., Kim, Y.Y., MAC-based mode-tracking in structural topology optimization (2000) Computers and Structures, 74, pp. 375-383
Montgomery, D.C., (1997) Design and Analysis of Experiments, , (4th edn). Wiley: New York
Zienkiewicz, O.C., Taylor, R.L., (1989) The Finite Element Method. Vol. 1. Basic Formulations and Linear Problems, , (4th edn). McGraw-Hill: London
Press, W.H., Teukolsky, S.A., Vetterling, W.T., Flannery, B.P., (1992) Numerical Recipes in C-The Art of Scientific Computing, , (2nd edn). Cambridge University Press: Cambridge, MA
Cardona, A., Klapka, I., Géradin, M., Design of a new finite element programming environment (1994) Engineering Computations, 11, pp. 365-381
Wilson, T.R., The design and construction of flexible manipulators (1986), Master's Thesis, Georgia Institute of Technology
Huggins, J.D., Experimental verification of a model of a two-link flexible, lightweight manipulator (1988), Master's Thesis, Georgia Institute of Technology
Lee, J.W., Dynamic analysis and control of lightweight manipulators with flexible parallel link mechanism (1990), Ph.D. Thesis, Georgia Institute of Technology
Brüls, O., Duysinx, P., Golinval, J.-C., A model reduction method for the control of rigid mechanisms (2006) MUBO, 15 (3), pp. 215-231