Networked Tracking Control Based on Internal Model Principle and Adaptive Event-Triggering Mechanism

Abstract: In this paper, the non-static error tracking control issue for the networked control system is considered. First, the unstable modes of the external disturbance signal and the output signal of the reference system are established to form a new series system with the controlled objects. Then, an internal model compensation controller is presented to achieve non-static tracking error. Furthermore, an adaptive eventtriggering mechanism is introduced as a communication method to improve network resource utilizatio… Show more

“…On the other hand, resonant controllers are widely applied in power electronics (e.g., active power filters, power factor corrections and the connection of photovoltaic systems to the grid) [13][14][15][16][17][18]. According to the internal model principle (IMP), a highperformance tracking controller must embed the model of the references to be asymptotically tracked and the model of the perturbations to be asymptotically rejected [10,[19][20][21][22]. The model of a signal can be the poles of the Laplace or Z transform of that signal.…”

Variable Frequency Resonant Controller Based on Generalized Predictive Control for Biased-Sinusoidal Reference Tracking and Multi-Layer Perceptron

“…On the other hand, resonant controllers are widely applied in power electronics (e.g., active power filters, power factor corrections and the connection of photovoltaic systems to the grid) [13][14][15][16][17][18]. According to the internal model principle (IMP), a highperformance tracking controller must embed the model of the references to be asymptotically tracked and the model of the perturbations to be asymptotically rejected [10,[19][20][21][22]. The model of a signal can be the poles of the Laplace or Z transform of that signal.…”

Variable Frequency Resonant Controller Based on Generalized Predictive Control for Biased-Sinusoidal Reference Tracking and Multi-Layer Perceptron