Risk adjusted receding Horizon control of constrained Linear Parameter Varying Systems

M. Sznaier; C. Lagoa; A. A. Stoorvogel; X. Li

doi:10.1016/S1474-6670(17)31283-1

Risk adjusted receding Horizon control of constrained Linear Parameter Varying Systems

M. Sznaier, C. Lagoa, A. A. Stoorvogel, X. Li

Electrical Engineering

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

Abstract

In the past few years, control of Linear Parameter Varying Systems (LPV) has been the object of considerable attention, as a way of formalizing the intuitively appealing idea of gain scheduling control for nonlinear systems. However, currently available LPV techniques are both computationally demanding and (potentially) very conservative. In this paper we propose to address these difficulties by combining Receding Horizon and Control Lyapunov Functions techniques in a risk-adjusted framework. The resulting controllers are guaranteed to stabilize the plant and have computational complexity that increases polynomially, rather than exponentially, with the prediction horizon.

Original language	English (US)
Pages (from-to)	561-566
Number of pages	6
Journal	IFAC Proceedings Volumes (IFAC-PapersOnline)
Volume	37
Issue number	13
DOIs	https://doi.org/10.1016/S1474-6670(17)31283-1
State	Published - 2004
Event	6th IFAC Symposium on Nonlinear Control Systems, NOLCOS 2004 - Stuttgart, Germany Duration: Sep 1 2004 → Sep 3 2004

All Science Journal Classification (ASJC) codes

Control and Systems Engineering

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10.1016/S1474-6670(17)31283-1

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title = "Risk adjusted receding Horizon control of constrained Linear Parameter Varying Systems",

abstract = "In the past few years, control of Linear Parameter Varying Systems (LPV) has been the object of considerable attention, as a way of formalizing the intuitively appealing idea of gain scheduling control for nonlinear systems. However, currently available LPV techniques are both computationally demanding and (potentially) very conservative. In this paper we propose to address these difficulties by combining Receding Horizon and Control Lyapunov Functions techniques in a risk-adjusted framework. The resulting controllers are guaranteed to stabilize the plant and have computational complexity that increases polynomially, rather than exponentially, with the prediction horizon.",

author = "M. Sznaier and C. Lagoa and Stoorvogel, {A. A.} and X. Li",

note = "Publisher Copyright: Copyright {\textcopyright} 2004 IFAC.; 6th IFAC Symposium on Nonlinear Control Systems, NOLCOS 2004 ; Conference date: 01-09-2004 Through 03-09-2004",

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doi = "10.1016/S1474-6670(17)31283-1",

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T1 - Risk adjusted receding Horizon control of constrained Linear Parameter Varying Systems

AU - Sznaier, M.

AU - Lagoa, C.

AU - Stoorvogel, A. A.

AU - Li, X.

PY - 2004

Y1 - 2004

N2 - In the past few years, control of Linear Parameter Varying Systems (LPV) has been the object of considerable attention, as a way of formalizing the intuitively appealing idea of gain scheduling control for nonlinear systems. However, currently available LPV techniques are both computationally demanding and (potentially) very conservative. In this paper we propose to address these difficulties by combining Receding Horizon and Control Lyapunov Functions techniques in a risk-adjusted framework. The resulting controllers are guaranteed to stabilize the plant and have computational complexity that increases polynomially, rather than exponentially, with the prediction horizon.

AB - In the past few years, control of Linear Parameter Varying Systems (LPV) has been the object of considerable attention, as a way of formalizing the intuitively appealing idea of gain scheduling control for nonlinear systems. However, currently available LPV techniques are both computationally demanding and (potentially) very conservative. In this paper we propose to address these difficulties by combining Receding Horizon and Control Lyapunov Functions techniques in a risk-adjusted framework. The resulting controllers are guaranteed to stabilize the plant and have computational complexity that increases polynomially, rather than exponentially, with the prediction horizon.

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DO - 10.1016/S1474-6670(17)31283-1

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SN - 1474-6670

VL - 37

SP - 561

EP - 566

JO - IFAC Proceedings Volumes (IFAC-PapersOnline)

JF - IFAC Proceedings Volumes (IFAC-PapersOnline)

IS - 13

T2 - 6th IFAC Symposium on Nonlinear Control Systems, NOLCOS 2004

Y2 - 1 September 2004 through 3 September 2004

ER -

Risk adjusted receding Horizon control of constrained Linear Parameter Varying Systems

Abstract

All Science Journal Classification (ASJC) codes

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