The adaptive output feedback control strategy is presented for a class of nonholonomic systems in chained form with nonlinearity uncertainties. A new observer and a filter are introduced for the states and parameter e...The adaptive output feedback control strategy is presented for a class of nonholonomic systems in chained form with nonlinearity uncertainties. A new observer and a filter are introduced for the states and parameter estimation. The proposed control strategies guarantee the convergence of the closed-loop system. The simulation example demonstrates the efficiency of the proposed method.展开更多
This paper investigates the robust stabilization of the nonholonomic control systems with strongly non- linear uncertainties. In order to make the state scaling effective and to prevent the finite time escape phenomen...This paper investigates the robust stabilization of the nonholonomic control systems with strongly non- linear uncertainties. In order to make the state scaling effective and to prevent the finite time escape phenomenon from happening, the switching control strategy based on the state measurement of the first subsystem is employed to achieve the asymptotic stabilization. The recursive integrator backstepping technique is applied to the design of the robust controller. The simulation example demonstrates the efficiency and robust features of the proposed method.展开更多
Deformable quadrotors can manipulate their specific structure for specialized tasks or excellent flight performance under diverse conditions.With added deformation mechanism,the quadrotor exhibits higher flexibility;h...Deformable quadrotors can manipulate their specific structure for specialized tasks or excellent flight performance under diverse conditions.With added deformation mechanism,the quadrotor exhibits higher flexibility;however,this is accompanied by difficulties in modeling analysis and controller design,which are crucial issues.Here,a novel deformable quadrotor that can alter its arm's length is designed by combining the crank-slider mechanism and cross-configuration.The dynamics,including the attitude and position systems,are analyzed and the former is further described as switched linear parameter varying(SLPV)systems from a control-oriented perspective.In addition,a combined SLPV/proportion-integration-differentiation(PID)attitude controller is developed to handle different deformable quadrotor modes,which guarantees the stability of the closed-loop attitude system during the deformation process and achieves attitude tracking.Furthermore,together with the cascade PID position controller,the entire flight controller is constructed whose feasibility is verified via fixed-point hovering and trajectory tracking experiments.展开更多
This paper deals with the stabilization of the nonholonomic systems with strongly nonlinear uncertainties. The objective is to design an output feedback law such that the closed-loop system is globally asymptotically ...This paper deals with the stabilization of the nonholonomic systems with strongly nonlinear uncertainties. The objective is to design an output feedback law such that the closed-loop system is globally asymptotically regulated at the origin. The systematic strategy combines the input-state scaling technique with the backstepping technique. A novel switching control strategy based on the output measurement of the first subsystem is employed to make the subsystem far away from the origin. The simulation demonstrates the effectiveness of the proposed controller.展开更多
基金supported by the National Natural Science Foundation of China (No.60574007, 60674027)Doctoral Foundation of Education Ministry of China (No.20050446001)
文摘The adaptive output feedback control strategy is presented for a class of nonholonomic systems in chained form with nonlinearity uncertainties. A new observer and a filter are introduced for the states and parameter estimation. The proposed control strategies guarantee the convergence of the closed-loop system. The simulation example demonstrates the efficiency of the proposed method.
基金National Natural Science Foundation of China (No.60674027).
文摘This paper investigates the robust stabilization of the nonholonomic control systems with strongly non- linear uncertainties. In order to make the state scaling effective and to prevent the finite time escape phenomenon from happening, the switching control strategy based on the state measurement of the first subsystem is employed to achieve the asymptotic stabilization. The recursive integrator backstepping technique is applied to the design of the robust controller. The simulation example demonstrates the efficiency and robust features of the proposed method.
基金supported by Hong Kong RGC General Research Fund(Grant Nos.14203019,14202820,and 14214322)the International Science and Technology Cooperation Project of Guangzhou Economic and Technological Development District(Grant No.2020B1212070022)。
文摘Deformable quadrotors can manipulate their specific structure for specialized tasks or excellent flight performance under diverse conditions.With added deformation mechanism,the quadrotor exhibits higher flexibility;however,this is accompanied by difficulties in modeling analysis and controller design,which are crucial issues.Here,a novel deformable quadrotor that can alter its arm's length is designed by combining the crank-slider mechanism and cross-configuration.The dynamics,including the attitude and position systems,are analyzed and the former is further described as switched linear parameter varying(SLPV)systems from a control-oriented perspective.In addition,a combined SLPV/proportion-integration-differentiation(PID)attitude controller is developed to handle different deformable quadrotor modes,which guarantees the stability of the closed-loop attitude system during the deformation process and achieves attitude tracking.Furthermore,together with the cascade PID position controller,the entire flight controller is constructed whose feasibility is verified via fixed-point hovering and trajectory tracking experiments.
基金This research is supported by the National Natural Science Foundation of China under Grant No. 60974127.
文摘This paper deals with the stabilization of the nonholonomic systems with strongly nonlinear uncertainties. The objective is to design an output feedback law such that the closed-loop system is globally asymptotically regulated at the origin. The systematic strategy combines the input-state scaling technique with the backstepping technique. A novel switching control strategy based on the output measurement of the first subsystem is employed to make the subsystem far away from the origin. The simulation demonstrates the effectiveness of the proposed controller.
