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Directions in Mathematical Systems Theory and Optimization: Lecture Notes in Control and Information Sciences, cartea 286

Editat de Anders Rantzer, Christopher I. Byrnes
en Limba Engleză Paperback – 5 noi 2002
For more than three decades, Anders Lindquist has delivered fundamental cont- butions to the ?elds of systems, signals and control. Throughout this period, four themes can perhaps characterize his interests: Modeling, estimation and ?ltering, feedback and robust control. His contributions to modeling include seminal work on the role of splitting subspaces in stochastic realization theory, on the partial realization problem for both deterministic and stochastic systems, on the solution of the rational covariance extension problem and on system identi?cation. His contributions to ?ltering and estimation include the development of fast ?ltering algorithms, leading to a nonlinear dynamical system which computes spectral factors in its steady state, and which provide an alternate, linear in the dimension of the state space, to computing the Kalman gain from a matrix Riccati equation. His further research on the phase portrait of this dynamical system gave a better understanding of when the Kalman ?lter will converge, answering an open question raised by Kalman. While still a student he established the separation principle for stochastic function differential equations, including some fundamental work on optimal control for stochastic systems with time lags. He continued his interest in feedback control by deriving optimal and robust control feedback laws for suppressing the effects of harmonic disturbances. Moreover, his recent work on a complete parameterization of all rational solutions to the Nevanlinna-Pick problem is providing a new approach to robust control design.
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Specificații

ISBN-13: 9783540000655
ISBN-10: 3540000658
Pagini: 384
Ilustrații: XIII, 391 p.
Dimensiuni: 155 x 235 x 20 mm
Greutate: 0.61 kg
Ediția:2003
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Lecture Notes in Control and Information Sciences

Locul publicării:Berlin, Heidelberg, Germany

Public țintă

Research

Descriere

For more than three decades, Anders Lindquist has delivered fundamental cont- butions to the ?elds of systems, signals and control. Throughout this period, four themes can perhaps characterize his interests: Modeling, estimation and ?ltering, feedback and robust control. His contributions to modeling include seminal work on the role of splitting subspaces in stochastic realization theory, on the partial realization problem for both deterministic and stochastic systems, on the solution of the rational covariance extension problem and on system identi?cation. His contributions to ?ltering and estimation include the development of fast ?ltering algorithms, leading to a nonlinear dynamical system which computes spectral factors in its steady state, and which provide an alternate, linear in the dimension of the state space, to computing the Kalman gain from a matrix Riccati equation. His further research on the phase portrait of this dynamical system gave a better understanding of when the Kalman ?lter will converge, answering an open question raised by Kalman. While still a student he established the separation principle for stochastic function differential equations, including some fundamental work on optimal control for stochastic systems with time lags. He continued his interest in feedback control by deriving optimal and robust control feedback laws for suppressing the effects of harmonic disturbances. Moreover, his recent work on a complete parameterization of all rational solutions to the Nevanlinna-Pick problem is providing a new approach to robust control design.

Cuprins

Systems with Lebesgue Sampling.- Acoustic Attenuation Employing Variable Wall Admittance.- Some Remarks on Linear Filtering Theory for Infinite Dimensional Systems.- A Note on Stochastic Dissipativeness.- Internal Model Based Design for the Suppression of Harmonic Disturbances.- The Convergence of the Extended Kalman Filter.- On the Separation of Two Degrees of Freedom Controller and its Application to H Control for Systems with Time Delay.- The Principle of Optimality in Measurement Feedback Control for Linear Systems.- Linear System Identification as Curve Fitting.- Optimal Model Order Reduction for Maximal Real Part Norms.- Quantum Schrödinger Bridges.- New Integrability Conditions for Classifying Holonomic and Nonholonomic Systems.- On Spectral Analysis using Models with Pre-Specified Zeros.- Balanced State Representations with Polynomial Algebra.- Nonconvex Global Optimization Problems: Constrained Infinite-Horizon Linear-Quadratic Control Problems for Discrete Systems.

Caracteristici

Includes supplementary material: sn.pub/extras