Inertial couplings between unilateral and bilateral holonomic constraints in frictionless Lagrangian systems

In this paper, the following problem is analyzed: Given a frictionless Lagrangian system subject to complementarity relations (due to a set of unilateral constraints) that define a linear complementarity problem whose matrix is the so-called Delassus’ matrix, study the influence of a set of bilatera...

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Bibliographic Details
Published inMultibody system dynamics Vol. 29; no. 3; pp. 289 - 325
Main Author Brogliato, Bernard
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.03.2013
Springer Verlag
Subjects
Automotive Engineering
Control
Dynamical Systems
Electrical Engineering
Engineering
Mathematics
Mechanical Engineering
Optimization
Optimization and Control
Vibration
Solid mechanics
Impact
Singularity
Gauss’ principle
Multibody systems
Kinetic angle
Linear complementarity problem
Reduced coordinates
Delassus’ matrix
Lagrange multiplier
Bilateral constraints
Unilateral constraints
Lagrangian system
Gauss' principle
Delassus' matrix
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ISSN1384-5640
1573-272X
DOI10.1007/s11044-012-9317-8

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Summary:In this paper, the following problem is analyzed: Given a frictionless Lagrangian system subject to complementarity relations (due to a set of unilateral constraints) that define a linear complementarity problem whose matrix is the so-called Delassus’ matrix, study the influence of a set of bilateral constraints added to the dynamics on the Delassus’ matrix. Two main paths are followed: the Lagrange multipliers method and the reduced coordinates method. The link with optimization (the Gauss’ principle of mechanics) and the case of impacts, are also examined. The kinetic angles between the bilateral and the unilateral constraints are used to study the definiteness of the Delassus’ matrix.
ISSN:1384-5640
1573-272X
DOI:10.1007/s11044-012-9317-8