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Fault Tolerant Control Schemes for Wireless Networked Control Systems with an Integrated Scheduler
In recent years, the wireless networked control systems (W-NCSs) has gained increasing popularity in industrial processes. To guarantee the system control performance, fault tolerant control (FTC) strategies have been proposed especially to deal with the malfunction in sensors, actuators or other system components. For the real-time requirement in industrial systems, the FTC performances of W-NCSs not only depend on the developed control algorithms but also on the network protocols at the medium access control (MAC) layer. These protocols, in form of schedulers, determine the transmission orders of messages and play significant roles in the control performances of W-NCSs. Under these circumstances, it is challenging but promising to investigate FTC schemes for W-NCSs with an integrated scheduler. This thesis is devoted to the development of FTC strategies for W-NCSs with an integrated scheduler. In the first part of this thesis, the procedures of integrating a scheduler into W-NCSs are introduced. Due to the requirement for deterministic transmission behaviors via the wireless network, the time division multiple access (TDMA) mechanism is adopted in W-NCSs. The TDMA-based scheduler is taken as a dynamic system and formulated into a periodic system. After that, with the integration of the scheduler, the W-NCSs are modeled as discrete linear time periodic (LTP) systems. The second part of this thesis focuses on the developments of FTC schemes for the integrated LTP systems. Two types of faults, i.e., additive faults (AFs) and multiplicative faults (MFs), are considered in our work. Specifically, a group of fault tolerant controllers are constructed for the AFs case, and seek to ensure that the outputs of LTP systems satisfy a set of H_infty performance indices. On the other hand, a lifting technology and an adaptive observer are applied to handle the situation of MFs. Due to the distribution of W-NCSs and the limitation of communication bandwidth, theorems are presented to solve the structure-restriction problem ...
Fault Tolerant Control Schemes for Wireless Networked Control Systems with an Integrated Scheduler
In recent years, the wireless networked control systems (W-NCSs) has gained increasing popularity in industrial processes. To guarantee the system control performance, fault tolerant control (FTC) strategies have been proposed especially to deal with the malfunction in sensors, actuators or other system components. For the real-time requirement in industrial systems, the FTC performances of W-NCSs not only depend on the developed control algorithms but also on the network protocols at the medium access control (MAC) layer. These protocols, in form of schedulers, determine the transmission orders of messages and play significant roles in the control performances of W-NCSs. Under these circumstances, it is challenging but promising to investigate FTC schemes for W-NCSs with an integrated scheduler. This thesis is devoted to the development of FTC strategies for W-NCSs with an integrated scheduler. In the first part of this thesis, the procedures of integrating a scheduler into W-NCSs are introduced. Due to the requirement for deterministic transmission behaviors via the wireless network, the time division multiple access (TDMA) mechanism is adopted in W-NCSs. The TDMA-based scheduler is taken as a dynamic system and formulated into a periodic system. After that, with the integration of the scheduler, the W-NCSs are modeled as discrete linear time periodic (LTP) systems. The second part of this thesis focuses on the developments of FTC schemes for the integrated LTP systems. Two types of faults, i.e., additive faults (AFs) and multiplicative faults (MFs), are considered in our work. Specifically, a group of fault tolerant controllers are constructed for the AFs case, and seek to ensure that the outputs of LTP systems satisfy a set of H_infty performance indices. On the other hand, a lifting technology and an adaptive observer are applied to handle the situation of MFs. Due to the distribution of W-NCSs and the limitation of communication bandwidth, theorems are presented to solve the structure-restriction problem ...
Fault Tolerant Control Schemes for Wireless Networked Control Systems with an Integrated Scheduler
Xu, Dongmei (author)
2014-11-13
Theses
Electronic Resource
English
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