Abstract An adaptive dynamic surface control (DSC) scheme is proposed for the multiinput and multioutput (MIMO) attitude motion of nearspace vehicles (NSVs) in the presence of external dis turbance, system uncer...Abstract An adaptive dynamic surface control (DSC) scheme is proposed for the multiinput and multioutput (MIMO) attitude motion of nearspace vehicles (NSVs) in the presence of external dis turbance, system uncertainty and input saturation. The external disturbance and the system uncer tainty are efficiently tackled using a Nussbaum disturbance observer (NDO), and the adaptive controller is constructed by combining the dynamic surface control technique to handle the problem of "explosion of complexity" inherent in the conventional backstepping methodl For handling the input saturation, an auxiliary system is designed with the same order as that of the studied MIMO attitude system. Using the error between the saturation input and the desired control input as the input of the designed auxiliary system, a series of signals are generated to compensate for the effect of the saturation in the dynamic surface control design. It is proved that the developed control scheme can guarantee that all signals of the closedloop control system are semiglobally uniformly bounded. Finally, simulation results illustrate that the proposed control scheme can achieve satis factory tracking performance under the composite effects of the input saturation and the external disturbance.展开更多
基金supported by Jiangsu Natural Science Foundation(No.SBK20130033)Program for New Century Excellent Talents in University of China(No.NCET-11-0830)+2 种基金The Six Talents Peak Project of Jiangsu Province(No.2012-XXRJ-010)Aeronautical Science Foundation of China(No.20145152029)the Specialized Research Fund for the Doctoral Program of Higher Education of China(No.20133218110013)
文摘Abstract An adaptive dynamic surface control (DSC) scheme is proposed for the multiinput and multioutput (MIMO) attitude motion of nearspace vehicles (NSVs) in the presence of external dis turbance, system uncertainty and input saturation. The external disturbance and the system uncer tainty are efficiently tackled using a Nussbaum disturbance observer (NDO), and the adaptive controller is constructed by combining the dynamic surface control technique to handle the problem of "explosion of complexity" inherent in the conventional backstepping methodl For handling the input saturation, an auxiliary system is designed with the same order as that of the studied MIMO attitude system. Using the error between the saturation input and the desired control input as the input of the designed auxiliary system, a series of signals are generated to compensate for the effect of the saturation in the dynamic surface control design. It is proved that the developed control scheme can guarantee that all signals of the closedloop control system are semiglobally uniformly bounded. Finally, simulation results illustrate that the proposed control scheme can achieve satis factory tracking performance under the composite effects of the input saturation and the external disturbance.
