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		<doi>10.1155/2013/318072</doi>
		<issn>2314-4904</issn>
		<issn>2314-4912</issn>
		<citationkey>SouzaAren:2013:DeSaAt</citationkey>
		<title>Design of satellite attitude control algorithm based on the SDRE method using gas jets and reaction wheels</title>
		<year>2013</year>
		<secondarytype>PRE PI</secondarytype>
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		<author>Souza, Luiz Carlos Gadelha de,</author>
		<author>Arena, Victor Massad Ruiz,</author>
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		<group>DMC-ETE-INPE-MCTI-GOV-BR</group>
		<group>DMC-ETE-INPE-MCTI-GOV-BR</group>
		<affiliation>Instituto Nacional de Pesquisas Espaciais (INPE)</affiliation>
		<affiliation>Instituto Nacional de Pesquisas Espaciais (INPE)</affiliation>
		<electronicmailaddress>gadelha@dem.inpe.br</electronicmailaddress>
		<e-mailaddress>marcelo.pazos@inpe.br</e-mailaddress>
		<journal>Journal of Engineering</journal>
		<volume>2013</volume>
		<pages>318072</pages>
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		<keywords>satellite attitude control algorithm, SDRE method, gas jets, reaction wheel torque, space mission cost, angle maneuver, LQR linear controller, SDRE filter, DMC 3D satellite simulator, state-dependent Riccati equation, plant nonlinearities, system noise, angular velocity reduction, switching control algorithm, minimum system energy.</keywords>
		<abstract>An experimental attitude control algorithm design using prototypes can minimize space mission costs by reducing the number of errors transmitted to the next phase of the project. The Space Mechanics and Control Division (DMC) of INPE is constructing a 3D simulator to supply the conditions for implementing and testing satellite control hardware and software. Satellite large angle maneuver makes the plant highly nonlinear and if the parameters of the system are not well determined, the plant can also present some level of uncertainty. As a result, controller designed by a linear control technique can have its performance and robustness degraded. In this paper the standard LQR linear controller and the SDRE controller associated with an SDRE filter are applied to design a controller for a nonlinear plant. The plant is similar to the DMC 3D satellite simulator where the unstructured uncertainties of the system are represented by process and measurements noise. In the sequel the State-Dependent Riccati Equation (SDRE) method is used to design and test an attitude control algorithm based on gas jets and reaction wheel torques to perform large angle maneuver in three axes. The SDRE controller design takes into account the effects of the plant nonlinearities and system noise which represents uncertainty. The SDRE controller performance and robustness are tested during the transition phase from angular velocity reductions to normal mode of operation with stringent pointing accuracy using a switching control algorithm based on minimum system energy. This work serves to validate the numerical simulator model and to verify the functionality of the control algorithm designed by the SDRE method.</abstract>
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		<language>en</language>
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		<url>http://dx.doi.org/10.1155/2013/318072</url>
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