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dc.contributor.authorBelmahdjoub, Sid Ali
dc.contributor.authorAnane, Ishak; Bekhiti, Belkacem (promoteur); Azmedroub, Boussad (promoteur)
dc.date.accessioned2021-04-04T08:36:31Z
dc.date.available2021-04-04T08:36:31Z
dc.date.issued2020
dc.identifier.urihttp://di.univ-blida.dz:8080/jspui/handle/123456789/11037
dc.descriptionMémoire de Master .-Numéro de Thèse 124/2020fr_FR
dc.description.abstractThe kinematic model of a body is a system of equations that define the position in space of each particle of the body from the values of a set of variables. The time variation of these variables describes the motion of the body. After, we review the different ways to describe the rigid motion and how to express all the kinematic variables and their time derivatives that we need later to formulate the dynamics. Finally, the kinematics of the flexible body are described by adding a set of deformation functions on to the rigid body kinematics, Many multibody dynamics software are available to build such kind of models but they address the nonlinear behavior and they are too much loud to be handled at the early prototyping phase. in the present work we starts by defining the metaheuristic optimization algorithm used later in PID tuning and after that we have two linear aproche the direct state space methode with three degree of freedom and free hybrid model with six degree of freedom after that in each model we apply the diffirent control thecnique proposed, this fact leads clearly to an improvement of the pointing accuracy. finaly a comparative stady between the two aproaches.fr_FR
dc.language.isoenfr_FR
dc.publisherUniversité Blida 01fr_FR
dc.subjectStructures flexibles; Dynamic Model; Linear system; Pivot Joint; Modélisation multi-corps; Cantilever Hybrid Model; Decoupling Control; MIMO-PID; PSO algorithm; ACO algorithmfr_FR
dc.titleLinear multivariable compensator design for flexible structure satellitefr_FR
dc.typeThesisfr_FR
Collection(s) :Mémoires de Master

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