Constrained linear quadratic regulation

Scokaert, P.O.M.; Rawlings, James B.

doi:10.1109/9.704994

Cited by 479 publications

(301 citation statements)

References 11 publications

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“…we have identified S) and the state estimation errors are sufficiently small. This is a special case of the results in [11] for prestabilized systems. In [11] an algorithm is given for choosing N online.…”

Section: Mpc Strategymentioning

confidence: 99%

MPC for uncertain systems using the Youla parameterizations

Thomsen

Niemann

Poulsen

2008

2008 47th IEEE Conference on Decision and Control

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Section: Mpc Strategymentioning

confidence: 99%

MPC for uncertain systems using the Youla parameterizations

Thomsen

Niemann

Poulsen

2008

2008 47th IEEE Conference on Decision and Control

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“…Many rigorous design methods are available now to provide some guaranteed properties on stability. 19,20) Here, we use a simple method that saturates the control input when the control input exceeds a given saturation; that is…”

Section: ¼ àKs ð28þmentioning

confidence: 99%

“…Equations (5) and (19) are integrated over one period to calculate matrix G and the initial condition of F. Then, Eq. (44) provides the guidance to integrate Eqs.…”

mentioning

confidence: 99%

Solar Sail Halo Orbit Control using Reflectivity Control Devices

Gong

2014

Trans. Japan Soc. Aero. S Sci.

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A new solar sail orbit control strategy is proposed for the solar sail halo orbit mission. The reflectivity control device, initially developed for attitude control, is utilized to control the solar sail orbit by switching the states between absorption and specular reflection. The solar radiation pressure force of a solar sail equipped with reflectivity control devices is modeled, and can be changed continuously by adjusting a continuous variable associated with the reflectivity control device. This model is used to study the artificial Lagrange point and periodic orbit around it in the restricted three-body problem. The dynamical equations of motion are linearized around the periodic orbit, and linear quadratic regulator and Floquet theory are utilized to design the control law for the linear time-periodic system. Utilization of attitude adjustment is a way to control the orbit of the solar sail without reflectivity control devices. In this paper, the reflectivity control device is used to stabilize the periodic orbit without attitude adjustment. The results based on attitude adjustment and reflectivity control devices are compared. The simulations indicate that the strategy using reflectivity control devices is more robust with respect to initial errors.

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“…The most wellknown effort is the work of Scokaert and Rawlings (1998), where they extend the work of Sznaier and Damborg (1987). The idea is to solve a sequence of quadratic programs (QPs) of finite horizon length, which is monotonically non-decreasing.…”

Section: Introductionmentioning

confidence: 99%

Solving the infinite-horizon constrained LQR problem using splitting techniques

Stathopoulos

Korda

Jones

2014

IFAC Proceedings Volumes

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This paper presents a method to solve the constrained infinite-time linear quadratic regulator (LQR) problem. We use an operator splitting technique, namely the alternating minimization algorithm (AMA), to split the problem into an unconstrained LQR problem and a projection step, which are solved repeatedly, with the solution of one influencing the other. The first step amounts to the solution of a system of linear equations (with the possibility to pre-factor) and the second step is a simple clipping. Therefore, each step can be carried out efficiently. The scheme is proven to converge to the solution to the infinite-time constrained LQR problem and is illustrated by numerical examples.

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Constrained linear quadratic regulation

Cited by 479 publications

References 11 publications

MPC for uncertain systems using the Youla parameterizations

MPC for uncertain systems using the Youla parameterizations

Solar Sail Halo Orbit Control using Reflectivity Control Devices

Solving the infinite-horizon constrained LQR problem using splitting techniques

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