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1

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The Euler-Poincaré equations and double bracket dissipation (1996)

Bloch, Anthony ; Krishnaprasad, P. S. ; Marsden, Jerrold E. ; [et al.]

Springer

Communications in mathematical physics 175 (1996), S. 1-42

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ISSN: 1432-0916

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Physics

Notes: Abstract This paper studies the perturbation of a Lie-Poisson (or, equivalently an Euler-Poincaré) system by a special dissipation term that has Brockett's double bracket form. We show that a formally unstable equilibrium of the unperturbed system becomes a spectrally and hence nonlinearly unstable equilibrium after the perturbation is added. We also investigate the geometry of this dissipation mechanism and its relation to Rayleigh dissipation functions. This work complements our earlier work (Bloch, Krishnaprasad, Marsden and Ratiu [1991, 1994]) in which we studied the corresponding problem for systems with symmetry with the dissipation added to the internal variables; here it is added directly to the group or Lie algebra variables. The mechanisms discussed here include a number of interesting examples of physical interest such as the Landau-Lifschitz equations for ferromagnetism, certain models for dissipative rigid body dynamics and geophysical fluids, and certain relative equilibria in plasma physics and stellar dynamics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02101622

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2

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Gyroscopic control and stabilization (1992)

Wang, L. -S. ; Krishnaprasad, P. S.

Springer

Journal of nonlinear science 2 (1992), S. 367-415

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ISSN: 1432-1467

Keywords: gyroscopic control ; stabilization

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Physics

Notes: Summary In this paper, we consider the geometry of gyroscopic systems with symmetry, starting from an intrinsic Lagrangian viewpoint. We note that natural mechanical systems with exogenous forces can be transformed into gyroscopic systems, when the forces are determined by a suitable class of feedback laws. To assess the stability of relative equilibria in the resultant feedback systems, we extend the energy-momentum block-diagonalization theorem of Simo, Lewis, Posbergh, and Marsden to gyroscopic systems with symmetry. We illustrate the main ideas by a key example of two coupled rigid bodies with internal rotors. The energy-momentum method yields computationally tractable stability criteria in this and other examples.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01209527

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3

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The Hamiltonian structure of nonlinear elasticity: The material and convective representations of solids, rods, and plates (1988)

Simo, Juan C. ; Marsden, Jerrold E. ; Krishnaprasad, P. S.

Springer

Archive for rational mechanics and analysis 104 (1988), S. 125-183

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ISSN: 1432-0673

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00251673

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4

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Nonholonomic mechanical systems with symmetry (1996)

Bloch, Anthony M. ; Krishnaprasad, P. S. ; Marsden, Jerrold E. ; [et al.]

Springer

Archive for rational mechanics and analysis 136 (1996), S. 21-99

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ISSN: 1432-0673

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Physics

Notes: Abstract This work develops the geometry and dynamics of mechanical systems with nonholonomic constraints and symmetry from the perspective of Lagrangian mechanics and with a view to control-theoretical applications. The basic methodology is that of geometric mechanics applied to the Lagrange-d'Alembert formulation, generalizing the use of connections and momentum maps associated with a given symmetry group to this case. We begin by formulating the mechanics of nonholonomic systems using an Ehresmann connection to model the constraints, and show how the curvature of this connection enters into Lagrange's equations. Unlike the situation with standard configuration-space constraints, the presence of symmetries in the nonholonomic case may or may not lead to conservation laws. However, the momentum map determined by the symmetry group still satisfies a useful differential equation that decouples from the group variables. This momentum equation, which plays an important role in control problems, involves parallel transport operators and is computed explicitly in coordinates. An alternative description using a “body reference frame” relates part of the momentum equation to the components of the Euler-Poincaré equations along those symmetry directions consistent with the constraints. One of the purposes of this paper is to derive this evolution equation for the momentum and to distinguish geometrically and mechanically the cases where it is conserved and those where it is not. An example of the former is a ball or vertical disk rolling on a flat plane and an example of the latter is the snakeboard, a modified version of the skateboard which uses momentum coupling for locomotion generation. We construct a synthesis of the mechanical connection and the Ehresmann connection defining the constraints, obtaining an important new object we call the nonholonomic connection. When the nonholonomic connection is a principal connection for the given symmetry group, we show how to perform Lagrangian reduction in the presence of nonholonomic constraints, generalizing previous results which only held in special cases. Several detailed examples are given to illustrate the theory.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02199365

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5

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Hamiltonian structures and stability for rigid bodies with flexible attachments (1987)

Krishnaprasad, P. S. ; Marsden, J. E.

Springer

Archive for rational mechanics and analysis 98 (1987), S. 71-93

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ISSN: 1432-0673

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Physics

Notes: Abstract The dynamics of a rigid body with flexible attachments is studied. A general framework for problems of this type is established in the context of Poisson manifolds and reduction. A simple model for a rigid body with an attached linear extensible shear beam is worked out for illustration. Second, the Energy-Casimir method for proving nonlinear stability is recalled and specific stability criteria for our model example are worked out. The Poisson structure and stability results take into account vibrations of the string, rotations of the rigid body, their coupling at the point of attachment, and centrifugal and Coriolis forces.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00279963

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6

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The dynamics of coupled planar rigid bodies. II. Bifurcations, periodic solutions, and chaos (1989)

Oh, Y. -G. ; Sreenath, N. ; Krishnaprasad, P. S. ; [et al.]

Springer

Journal of dynamics and differential equations 1 (1989), S. 269-298

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ISSN: 1572-9222

Keywords: Geometric mechanics ; reduction ; stability ; chaos ; rigid body dynamics ; periodic orbits ; 58F

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics

Notes: Abstract We give a complete bifurcation and stability analysis for the relative equilibria of the dynamics of three coupled planar rigid bodies. We also use the equivariant Weinstein-Moser theorem to show the existence of two periodic orbits distinguished by symmetry type near the stable equilibrium. Finally we prove that the dynamics is chaotic in the sense of Poincaré-Birkhoff-Smale horseshoes using the version of Melnikov's method suitable for systems with symmetry due to Holmes and Marsden.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01053929

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7

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Hamiltonian dynamics of a rigid body in a central gravitational field (1990)

Wang, Li-Sheng ; Krishnaprasad, P. S. ; Maddocks, J. H.

Springer

Celestial mechanics and dynamical astronomy 50 (1990), S. 349-386

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ISSN: 1572-9478

Keywords: Hamiltonian mechanics ; relative equilibrium ; rigid body dynamics

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract This paper concerns the dynamics of a rigid body of finite extent moving under the influence of a central gravitational field. A principal motivation behind this paper is to reveal the hamiltonian structure of the n-body problem for masses of finite extent and to understand the approximation inherent to modeling the system as the motion of point masses. To this end, explicit account is taken of effects arising because of the finite extent of the moving body. In the spirit of Arnold and Smale, exact models of spin-orbit coupling are formulated, with particular attention given to the underlying Lie group framework. Hamiltonian structures associated with such models are carefully constructed and shown to benon-canonical. Special motions, namely relative equilibria, are investigated in detail and the notion of anon-great circle relative equilibrium is introduced. Non-great circle motions cannot arise in the point mass model. In our analysis, a variational characterization of relative equilibria is found to be very useful. Thereduced hamiltonian formulation introduced in this paper suggests a systematic approach to approximation of the underlying dynamics based on series expansion of the reduced hamiltonian. The latter part of the paper is concerned with rigorous derivations of nonlinear stability results for certain families of relative equilibria. Here Arnold's energy-Casimir method and Lagrange multiplier methods prove useful.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02426678

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8

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The self-tuning controller: Comparison with human performance in the control of arterial pressure (1985)

Stern, Kenneth S. ; Chizeck, Howard J. ; Walker, Bruce K. ; [et al.]

Springer

Annals of biomedical engineering 13 (1985), S. 341-357

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ISSN: 1573-9686

Keywords: Self-tuning controller ; Drug infusion ; Adaptive control ; Nitroprusside

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract A self-tuning controller was implemented for the automated infusion of sodium nitroprusside to lower mean arterial pressure in anesthetized dogs. The system incorporated a recursive least-squares parameter identifier and a modified minimumvariance controller. The onset delay was estimated on-line, the performance criterion included the cost of control, and requested step-changes were automatically translated into five successive smaller steps to reduce overshoot. The performance of the system in lowering mean arterial pressure was quantitatively compared with that of a well-trained anesthesiologist. In 10 runs in four animals, the automated system performed as well as the physician who devoted 100% of his attention to the task. Since the stability of the self-tuning controller cannot be guaranteed, such a system should be operated only in the presence of appropriate supervisory algorithms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02407765

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