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A linear complementarity model for multibody systems with frictional unilateral and bilateral constraints 被引量:1
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作者 Hai-Ping Gao Qi Wang Shi-Min Wang Li Fu 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2011年第4期587-592,共6页
The Lagrange-I equations and measure differential equations for multibody systems with unilateral and bilateral constraints are constructed. For bilateral constraints, frictional forces and their impulses contain the ... The Lagrange-I equations and measure differential equations for multibody systems with unilateral and bilateral constraints are constructed. For bilateral constraints, frictional forces and their impulses contain the products of the filled-in relay function induced by Coulomb friction and the absolute values of normal constraint reactions. With the time-stepping impulse-velocity scheme, the measure differential equations are discretized. The equations of horizontal linear complementarity problems (HLCPs), which are used to compute the impulses, are constructed by decomposing the absolute function and the filled-in relay function. These HLCP equations degenerate into equations of LCPs for frictional unilateral constraints, or HLCPs for frictional bilateral constraints. Finally, a numerical simulation for multibody systems with both unilateral and bilateral constraints is presented. 展开更多
关键词 Coulomb friction Bilateral constraint Unilat-eral constraint - Horizontal linear complementarity problem(HLCP) Time-stepping impulse-velocity algorithm
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H-infinity output feedback control for descriptor systems with delayed states
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作者 Jun' e FENG Peng CUI Zhaolin CHENG 《控制理论与应用(英文版)》 EI 2005年第4期341-347,共7页
This paper considers the H-infinity dynamic output feedback control for descriptor systems with delay in states. The controller is a descriptor system without delay. Several equivalent sufficient conditions for the ex... This paper considers the H-infinity dynamic output feedback control for descriptor systems with delay in states. The controller is a descriptor system without delay. Several equivalent sufficient conditions for the existence of one descriptor dynamic controller without impulsive models are given. Furthermore the explicit expression of the desired controller is obtained. The detailed design of the controller is presented using the cone complementarity linearization iterative algorithm and the LMI method. A ntumerical example is shown to illustrate the designed method. 展开更多
关键词 Descriptor systems Time-delay system H-infinity output feedback control LMI Cone complementarity linearization iterafive algorithm
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