50results about How to "Guaranteed global stability" patented technology

The invention discloses a method and system for suppressing vibration harmonics of a magnetic levitation rotor with multiple traps connected in parallel. The signal extraction point of the device is placed at the input end of the magnetic levitation controller, and the signal insertion point of the parallel phase shift notch filter is placed at the displacement error signal. The invention is aimed at the magnetic levitation rotor, considering the influence of rotor mass imbalance and sensor vibration, and establishing a harmonic The magnetic levitation rotor dynamics model of wave disturbance effectively suppresses the different frequency disturbance components of the harmonic current at the variable speed frequency by connecting multiple traps with different phase shifts in parallel, thereby effectively suppressing the harmonic vibration and ensuring the closed-loop stability of the system at the same time. And it has reference significance to the harmonic suppression problem under the condition of variable speed of the magnetic levitation-rotor system.

The invention relates to a multi-model adaptive control method and a multi-model adaptive control system of a spherical tank system. The method comprises the steps as follows: identifying a spherical tank liquid level control system through at least one linear model and at least one nonlinear model based on a neural network, wherein the two models correspond to a linear adaptive controller and a nonlinear adaptive controller based on the neural network respectively; and switching to the optimal controller to implement control at each sampling moment on the basis of a performance index switching unit. Compared with a conventional nonlinear multi-model adaptive control method, the limit of nonlinear terms of the spherical tank liquid level control system is relaxed to bounded growth rate, and the adaptability of the multi-model adaptive controller can be effectively improved.

The invention discloses a self-adaptive inversion control system and method of a micro gyroscope. The control system comprises a reference trajectory module, a middle signal generating module, a self-adaptive inversion controller, a parameter self-adaptive mechanism module, an angular speed estimation module and a micro gyroscope system with unknown parameters. The control system controls the two axle vibration trajectory of the micro gyroscope to track a given reference trajectory and estimates the unknown parameters of the micro gyroscope, wherein the unknown parameters comprise the external input angular rate and a control law, and a self-adaptive algorithm of the parameters is designed based on the Lyapunov stability theory. Therefore, global stability of the control system and asymptotic convergence of tracking errors are guaranteed. An anti-interference robust item is further added to the control law, so that the anti-interference performance of the system is improved. The self-adaptive inversion control system and method of the micro gyroscope provide an excellent foundation for expanding the application range of the micro gyroscope.

The invention discloses a self-adaption iterative learning control method for a micro-gyroscope. The method includes the following steps that firstly, a non-dimensional kinetic model of the micro-gyroscope is established; secondly, a reference trajectory module outputs reference trajectories of x axis vibration and y axis vibration of the micro-gyroscope, wherein the reference trajectories include position signals and speed signals; thirdly, a self-adaption law module receives the reference trajectories and output of a micro-gyroscope system and estimates the increments of parameters according to the self-adaption law; fourthly, a controller module receives new parameter estimation and acts together with trajectory tracking errors and speed tracking errors to generate control signal output of the self-adaption iterative learning control method; fifthly, output signals of the controller module are received, and position information and speed information of vibrating parts of the micro-gyroscope are output; sixthly, the third step, the fourth step and the fifth step are repeatedly executed according to an iterative method, and the final position information and the final speed information of the vibrating parts of the micro-gyroscope are obtained. By means of the method, the reference trajectory tracking performance of the micro-gyroscope system can be improved.

The invention proposes a contour tracking method based on field strength information, which belongs to the field of robot field source search. This method first establishes the dynamic model of the mobile robot in the plane coordinate system. After the mobile robot starts to track the expected contour line, it measures the field strength information of the signal field at the current position of the robot through the sensor installed on the robot. Finally, based on the field strength Information design control quantity, control the mobile robot to reach the desired field strength, and keep track of the isoline corresponding to the strength. The method of the invention only needs field strength information as a feedback variable, is simple in design, can ensure the global stability of the tracking method without limiting the initial state of the mobile robot, and the design of control parameters does not depend on the initial position of the mobile robot. The method of the invention can realize effective contour tracking without the position information of the robot and the distribution of the signal field, has high reliability and is suitable for engineering application.

The invention discloses a near space variable wing aircraft adaptive winglet switching control system and a working method thereof, and belongs to the technical field of aviation aerospace propulsion control. For the problem of stable tracking control of speed and attitude of a near space variable wing aircraft and with the influence of a variable wing structure on modeling and the problem of switching control in the winglet telescoping process being considered, the method is characterized by obtaining a state equation expression based on a nonlinear model of an aircraft; and according to relative order of velocity and pitch angle, establishing reference models of an adaptive control system. A designed adaptive controller comprises a nominal controller and an adaptive update module, wherein the adaptive update module is used for automatically updating controller parameters to realize smooth transition before and after winglet switching. The system and method can ensure global stability of a closed-loop system, and the system is allowed to have good tracking performance and robust performance.