Retrospective Cost Adaptive Control of Spacecraft Attitude Using Magnetic Actuators

Cruz, Gerardo; Bernstein, Dennis S.

doi:10.2514/6.2013-4563

Cited by 3 publications

(2 citation statements)

References 15 publications

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“…Backstepping is a common discrete-time adaptive method which has been used for satellite attitude control [20{22]. Cruz and Bernstein designed and implemented various model reference adaptive controllers in a discrete-time model [23].…”

Section: Introductionmentioning

confidence: 99%

Model Reference Adaptive Control (MRAC) of a Small Satellite in the Presence of Parameters Uncertainties

2019

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An accurate control algorithm for small satellites is critical to mission success.In this paper, a novel discrete-time Model Reference Adaptive Control (MRAC) algorithm is developed based on a uni ed approach for the attitude control of a three-axis stabilized nonlinear satellite model. The linearized model of a satellite with unknown dynamic parameters is derived and a Recursive Least Squares (RLS) algorithm is used to identify the linear model's unknown parameters. In order to take into account the nonlinear model of satellite dynamics, the proposed MRAC strategy is used considering the linear model, the estimation error; and the di erence between the actual nonlinear system and the linear model outputs. The actual nonlinear model of the satellite includes moments of inertia uncertainties, external disturbances, and sensor noise on the outputs. The introduced controller performance is compared with a conventional discrete -time MRAC which demonstrates excellent simultaneous regulation and tracking capabilities.

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Section: Introductionmentioning

confidence: 99%

Model Reference Adaptive Control (MRAC) of a Small Satellite in the Presence of Parameters Uncertainties

2019

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“…In [6], design and implementation of various model reference adaptive controllers have been designed in discrete time mode. Accordingly, Retrospective Cost Adaptive Control (RCAC) method has been used for satellite attitude control in [7].Meanwhile, a method called "unified" approach has been initially introduced in [8]. In [2], a supervisory control algorithm has been offered for the satellite attitude control in the presence of inertia matrix uncertainty based on the unified approach.…”

Section: Introductionmentioning

confidence: 99%

Unified Model Reference Adaptive Attitude Control of a Satellite in Presence of Uncertain Parameters: Design and Implementation

Saberi¹,

Dastgerdi²,

Zandieh³

2015

IJCA

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In this paper, a discrete-time model reference adaptive attitude control algorithm (MRAC) will be designed based on unified approach for a three-axis stabilized satellite. In this algorithm, environmental disturbances and nonlinear dynamic terms will be estimated as a time-varying unknown parameter. In this method, nonlinear dynamic equation of satellite is rewritten as a linear model with uncertain parameters as the main novel idea. Therefore, MRAC algorithm is designed for the linear model in the presence of uncertain parameters, and then it will be applied to the nonlinear model of the satellite in presence of uncertain or unknown parameters. The proposed method is capable of simultaneous tracking and regulation. The designed algorithm will be implemented in software in the loop test bed with the use of ARM microcontroller in real time mode in order to evaluation and verification of its performance.

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Retrospective cost adaptive spacecraft attitude control using control moment gyros

Camblor

Cruz

Esteban

et al. 2014

2014 American Control Conference

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Retrospective Cost Adaptive Control of Spacecraft Attitude Using Magnetic Actuators

Cited by 3 publications

References 15 publications

Model Reference Adaptive Control (MRAC) of a Small Satellite in the Presence of Parameters Uncertainties

Model Reference Adaptive Control (MRAC) of a Small Satellite in the Presence of Parameters Uncertainties

Unified Model Reference Adaptive Attitude Control of a Satellite in Presence of Uncertain Parameters: Design and Implementation

Retrospective cost adaptive spacecraft attitude control using control moment gyros

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