Accelerated iterative distributed controller synthesis with a Barzilai-Borwein step size

Frederik Deroo; Michael Ulbrich; Brian D.O. Anderson; Sandra Hirche

doi:10.1109/CDC.2012.6426735

Accelerated iterative distributed controller synthesis with a Barzilai-Borwein step size

Frederik Deroo, Michael Ulbrich, Brian D.O. Anderson, Sandra Hirche

Research output: Contribution to journal › Conference article › peer-review

15 Scopus citations

Abstract

Distributed control of large-scale dynamical systems poses a new challenge to the field of control driven by the technological advances of modern communication networks. A particular challenge is the distributed design of such control systems. Here, a distributed iterative controller synthesis method for continuous time linear systems using a gradient descent method is presented. One of the main contributions is the determination of the step size according to a distributed Barzilai-Borwein (BB) method. As the control objective, we treat the finite horizon linear quadratic cost functional. The gradient approach uses communication only with direct neighbors and is based on the forward simulation of the system states and the backwards simulation of adjoint states. The effectiveness of the approach is shown by means of numerical simulations.

Original language	English
Article number	6426735
Pages (from-to)	4864-4870
Number of pages	7
Journal	Proceedings of the IEEE Conference on Decision and Control
DOIs	https://doi.org/10.1109/CDC.2012.6426735
State	Published - 2012
Event	51st IEEE Conference on Decision and Control, CDC 2012 - Maui, HI, United States Duration: 10 Dec 2012 → 13 Dec 2012

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title = "Accelerated iterative distributed controller synthesis with a Barzilai-Borwein step size",

abstract = "Distributed control of large-scale dynamical systems poses a new challenge to the field of control driven by the technological advances of modern communication networks. A particular challenge is the distributed design of such control systems. Here, a distributed iterative controller synthesis method for continuous time linear systems using a gradient descent method is presented. One of the main contributions is the determination of the step size according to a distributed Barzilai-Borwein (BB) method. As the control objective, we treat the finite horizon linear quadratic cost functional. The gradient approach uses communication only with direct neighbors and is based on the forward simulation of the system states and the backwards simulation of adjoint states. The effectiveness of the approach is shown by means of numerical simulations.",

author = "Frederik Deroo and Michael Ulbrich and Anderson, {Brian D.O.} and Sandra Hirche",

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doi = "10.1109/CDC.2012.6426735",

language = "English",

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journal = "Proceedings of the IEEE Conference on Decision and Control",

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note = "51st IEEE Conference on Decision and Control, CDC 2012 ; Conference date: 10-12-2012 Through 13-12-2012",

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AU - Deroo, Frederik

AU - Ulbrich, Michael

AU - Anderson, Brian D.O.

AU - Hirche, Sandra

PY - 2012

Y1 - 2012

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AB - Distributed control of large-scale dynamical systems poses a new challenge to the field of control driven by the technological advances of modern communication networks. A particular challenge is the distributed design of such control systems. Here, a distributed iterative controller synthesis method for continuous time linear systems using a gradient descent method is presented. One of the main contributions is the determination of the step size according to a distributed Barzilai-Borwein (BB) method. As the control objective, we treat the finite horizon linear quadratic cost functional. The gradient approach uses communication only with direct neighbors and is based on the forward simulation of the system states and the backwards simulation of adjoint states. The effectiveness of the approach is shown by means of numerical simulations.

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EP - 4870

JO - Proceedings of the IEEE Conference on Decision and Control

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M1 - 6426735

T2 - 51st IEEE Conference on Decision and Control, CDC 2012

Y2 - 10 December 2012 through 13 December 2012

ER -

Accelerated iterative distributed controller synthesis with a Barzilai-Borwein step size

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