24 results
Search Results
2. Robust Containment Control of Uncertain Multi-Agent Systems With Time-Delay and Heterogeneous Lipschitz Nonlinearity.
- Author
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Parsa, Mohsen and Danesh, Mohammad
- Subjects
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MULTIAGENT systems , *UNCERTAIN systems , *LINEAR matrix inequalities , *ROBUST control , *DATA transmission systems , *ROBUST optimization , *TOPOLOGY - Abstract
This paper investigates the robust containment control problem of multiagent systems with heterogeneous uncertainty and nonlinearity while the nonlinear parts have to satisfy the Lipschitz condition. In this paper, both input time-delay and data transmission time-delay between the agents are considered simultaneously and communication topology of the multiagent systems may switch in the steady-state condition. Under the mentioned conditions, the objective of this paper is to make all the followers’ states converge to the convex hull shaped by the leaders’ states with an expected exponential rate. To this end, an appropriate smooth protocol is proposed. Then, a Lyapunov–Krasovskii functional composed of five terms is proposed and the stability condition is denoted by two linear matrix inequalities (LMIs). In addition to the stability assurance, solving the LMIs would obtain the suitable gains for the protocol. Finally, some numerical simulations are given to verify the theoretical analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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3. Cluster Event-Triggered Tracking Cooperative and Formation Control for Multivehicle Systems: An Extended Magnification Region Condition.
- Author
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Wang, Bohui
- Subjects
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CLOSED loop systems , *MOTOR vehicle dynamics , *LINEAR matrix inequalities , *ARTIFICIAL satellite tracking , *NONLINEAR dynamical systems , *COOPERATIVE societies - Abstract
This paper investigates the cluster event-triggered tracking cooperative and formation control for multivehicle systems with nonlinear vehicles dynamics under switching directed communication topologies and safety missions. By employing the cluster event-triggered control strategy, the assumption of continuous feedback control gains and the condition of information exchange limited in a small domain can be relaxed. By constructing an appropriate tracking cooperative condition, a class of cluster event-triggered tracking cooperative control law with an extended magnification region condition is proposed based on bounded parameters and intermittent event samples. When the safety tasks are activated, it is displayed in terms of linear matrix inequalities that the tracking cooperative control for closed-loop multivehicle systems subject to nonlinear vehicles dynamics will be achieved, if the constructed sampling condition and the dwell time constraint of switching communication scenarios can be held. Furthermore, the proposed method is extended to formation control problem for the multivehicle systems. Simulations are presented to demonstrate the effectiveness of the proposed approaches. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
4. Cooperative Control of Multiple High-Order Agents With Nonidentical Unknown Control Directions Under Fixed and Time-Varying Topologies.
- Author
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Wang, Qingling, Psillakis, Haris E., and Sun, Changyin
- Subjects
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TOPOLOGY , *DIRECTED graphs , *NONLINEAR functions , *DISTRIBUTED algorithms , *COOPERATIVE societies , *SPANNING trees , *MULTIAGENT systems - Abstract
Existing results for cooperative control of high-order agents mainly employ the Nussbaum-type function to cope with unknown control directions and mostly require an assumption that the control directions are identical and unknown. This paper proposes a class of algorithms with nonlinear PI functions to relax such an assumption and make them suitable for nonidentical unknown control directions. It is proven that if the distributed nonlinear PI functions are suitably selected, the proposed algorithms can achieve consensus for high-order agents under strongly connected topologies and switching topologies with a jointly strongly connected basis (JSCB). Furthermore, we extend the consensus results to the case of time-varying topologies described by $\delta $ -connected, continuous graphs. As a special case, the consensus of high-order agents under the directed graph having a spanning tree is also investigated. Finally, illustrative simulations are presented to indicate the efficiency of the proposed algorithms. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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5. Consensus of One-Sided Lipschitz Multiagents Under Switching Topologies.
- Author
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Razaq, Muhammad Ahsan, Rehan, Muhammad, Ahn, Choon Ki, Khan, Abdul Qayyum, and Tufail, Muhammad
- Subjects
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SPANNING trees , *TOPOLOGY , *NONLINEAR dynamical systems , *NONLINEAR functions - Abstract
This paper considers the leader-following consensus of multiagents with one-sided Lipschitz nonlinear dynamics by considering switching topologies. For the suitable selection of the consensus control gain matrix and coupling weight, a new condition for consensus is achieved for switching communication links with a directed spanning tree in the topology by constraining the dwell time. Employing a communication restoration mechanism allows a method to be obtained for the case in which a topology violates a permanent directed spanning tree. Computationally straightforward consensus controller design conditions that are necessary and sufficient for the former conditions are also developed for both cases. These simpler conditions can be used to obtain consensus protocol gains directly through convex routines. An algorithm is also provided to solve nonlinear constraints using the cone complementary linearization approach by considering a nonlinear objective function optimization problem. A numerical simulation is provided for multiagents that demonstrates the proposed control schemes’ efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
6. Consensus of High-Order Discrete-Time Multiagent Systems With Switching Topology.
- Author
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Zhang, Yinyan, Li, Shuai, and Liao, Liefa
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MULTIAGENT systems , *DISCRETE-time systems , *TOPOLOGY - Abstract
The communication cost is generally higher for the consensus of high-order multiagent systems than that for low-order multiagent systems. In this paper, two novel distributed protocols are proposed to address the consensus of high-order discrete-time multiagent systems. By the proposed consensus protocols, each agent only needs to transmit the value of a variable to neighbor agents regardless of the order of agent dynamics. Theoretical analysis shows that the proposed protocols guarantee asymptotic consensus of the agent states in different cases of communication graphs, including jointly connected ones. Simulative examples verify the theoretical results and the efficacy of the proposed protocols. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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7. Admissible Consensus for Homogenous Descriptor Multiagent Systems.
- Author
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Liu, Xiaofan, Xie, Yongfang, Li, Fanbiao, and Gui, Weihua
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MULTIAGENT systems , *DESCRIPTOR systems , *LINEAR matrix inequalities , *UNDIRECTED graphs , *MATRIX inequalities - Abstract
This paper addresses the admissible consensus problem for homogenous descriptor multiagent systems with undirected graphs and disturbances. First, to achieve the consensus objective and attenuate the effects of disturbances, the distributed controllers are formulated and the admissible consensus problems are formulated. Another improvement emphasizes that the proposed approach can simplify the complexity of the admissible consensus analysis by using the state transformation during the admissible analysis and disturbances suppression analysis. Moreover, based on Riccati inequalities and linear matrix inequalities, two necessary and sufficient conditions are presented to ensure the admissible consensus and disturbances suppression objectives. Finally, two simulation examples are provided to demonstrate the effectiveness of the proposed approaches. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
8. H∞ Consensus for Multiagent-Based Supply Chain Systems Under Switching Topology and Uncertain Demands.
- Author
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Li, Qing-Kui, Lin, Hai, Tan, Xi, and Du, Shengli
- Subjects
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SUPPLY chains , *TOPOLOGY , *MULTIAGENT systems , *SYMMETRIC matrices - Abstract
Supply chain systems are network systems with several subchains each of which consists of facilities and distribution entities (suppliers, manufacturers, distributors, and retailers), and thus such systems can be viewed as multiagent systems. Consensus or coordination of multiple subchains is crucial for a stable market supply, especially in the case of some subchains suffering from production interruption, or losing connection with others, which become isolated subchains in some time period due to irresistible reasons. Once some unspecified isolated subchains appear, the topology structure of the system will be changed, and thus the multiagent-based supply chain system can be modeled as a switched system. This paper aims to investigate the problem of ${H_\infty }$ consensus for multiagent-based supply chain systems under switching topology and uncertain demands. To achieve the consensus of the system, switching controller is designed in which both production rate and distributed consensus protocol are considered. Sufficient conditions are given such that the whole system reaches consensus and desirable attenuation of bullwhip effect with an average dwell time approach, which allows some subchains to be isolated in some time periods. Finally, a simulation example is presented to illustrate the effectiveness of the proposed method. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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9. Consensus Seeking in Multiagent Systems With Markovian Switching Topology Under Aperiodic Sampled Data.
- Author
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Wang, Xin, Wang, Hui, Li, Chuandong, Huang, Tingwen, and Kurths, Jurgen
- Subjects
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MULTIAGENT systems , *LINEAR matrix inequalities , *TOPOLOGY - Abstract
This paper is concerned with the consensus issue for a class of multiagent systems with Markovian switching topology under aperiodic sampled data measurements. By constructing a novel piecewise stochastic Lyapunov-Krasovskii functional, some novel conditions with less conservative are established such that the consensus is achieved in the mean square sense. In contrast to some previous publications, the sample period is no longer fixed and the transition probability matrix of Markovian switching topology is uncertain. This issue which is of practical and theoretical significance is further investigated when the sampled data controller of each agent is suffered from distinct time-varying input delay. Quite different with the related studies, a maximally allowable input delay upper bound is replaced by the permissible input delay interval. Furthermore, the corresponding consensus is elegantly obtained in terms of linear matrix inequalities. Finally, the effectiveness and practicability of our consensus criteria are well illustrated by the numerical examples. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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10. Event-Based Distributed Tracking Control for Second-Order Multiagent Systems With Switching Networks.
- Author
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Duan, Peihu, Liu, Kexin, Huang, Na, and Duan, Zhisheng
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MULTIAGENT systems , *SWITCHING systems (Telecommunication) , *VELOCITY measurements , *ARTIFICIAL satellite tracking - Abstract
This paper investigates an event-based tracking problem of networked second-order systems with unknown inertias and switching networks, where the leader’s trajectory is dynamic and is available to only a subset of followers. Besides, the followers have only local interactions. A new class of distributed event-triggered control protocols with and without velocity measurements are designed to guarantee the tracking performance. Furthermore, it is strictly proved that the proposed algorithms guarantee a fully Zeno-free triggering for all the agents. Finally, simulation results are provided to demonstrate the effectiveness of the proposed theoretical results. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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11. Asymptotic Frequency Synchronization of Kuramoto Model by Step Force.
- Author
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Mao, Yanbing and Zhang, Ziang
- Subjects
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SYNCHRONIZATION , *ALGORITHMS , *FREQUENCY stability , *ELECTRIC network topology , *TOPOLOGY - Abstract
This paper explains how network topology acts as a control variable for the asymptotic frequency synchronization of the Kuramoto model with finite oscillators. We first investigate the stability of asymptotic frequency synchronization in the Kuramoto model with step force generated by topology switching. We derive a sufficient condition for the asymptotic synchronization. Interestingly, the stability implies that with no constraint on the phase differences or the coupling strength, the asymptotic frequency synchronization can be achieved under certain topology-switching signals. Then, based on the stability of asymptotic frequency synchronization, two triggered topology-switching algorithms are proposed. The step force together with the topology-switching algorithm work as a new frequency synchronization algorithm. Compared with the existing results, the merit of the proposed frequency synchronization algorithms is that they have no constraint on the magnitude of the coupling strength or the phase differences. Simulations are provided to verify the effectiveness of the proposed algorithms. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
12. Adaptive Consensus of Multiagent Systems With Unknown High-Frequency Gain Signs Under Directed Graphs.
- Author
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Wang, Qingling and Sun, Changyin
- Subjects
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DIRECTED graphs , *MULTIAGENT systems - Abstract
This paper solves the adaptive consensus problem for first-order linearly parameterized agents with completely nonidentical unknown high-frequency gain signs under directed graphs. A new class of Nussbaum-type function-based algorithms are proposed to handle the unknown high-frequency gain signs adaptively and cooperatively. It is shown that if the underlying topology is a fixed graph with strongly connected or switching topologies having a jointly strongly connected basis, the first-order linearly parameterized agents with nonidentical unknown high-frequency gain signs can achieve asymptotic consensus. Finally, the effectiveness of proposed algorithms are verified by one simulation example. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
13. Cluster Lag Consensus for Second-Order Multiagent Systems with Nonlinear Dynamics and Switching Topologies.
- Author
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Wang, Yi, Li, Yixiao, Ma, Zhongjun, Cai, Guoyong, and Chen, Guanrong
- Subjects
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MULTIAGENT systems , *NONLINEAR systems , *SYSTEM dynamics , *TOPOLOGY , *NONLINEAR dynamical systems - Abstract
Aiming to solve the cluster lag consensus (CLC) problem of networked nonlinear agents with a switching topologies, this paper proposes a control algorithm based on the measurements of position and velocity. When the network has several clusters of agents, under the conditions that each cluster is a strongly connected digraph including isolated agents, and at least one agent in each cluster can communicate with the common leader each time, a sufficient condition is derived for reaching CLC. Finally, a numerical simulation is demonstrated to validate the proposed control algorithm and the developed conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
14. Distributed Time-Varying Formation Control for Linear Swarm Systems With Switching Topologies Using an Adaptive Output-Feedback Approach.
- Author
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Wang, Rui, Dong, Xiwang, Li, Qingdong, and Ren, Zhang
- Subjects
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LINEAR control systems , *PARTICLE swarm optimization , *LAPLACIAN matrices , *ELECTRIC network topology , *TOPOLOGY , *FEEDBACK control systems , *LINEAR systems , *ADAPTIVE control systems - Abstract
Fully distributed time-varying formation (TVF) control problems are addressed in this paper using an adaptive output-feedback approach for general linear swarm systems with fixed and switching topologies. In contrast to the earlier results on formation control problems, the general linear swarm system can achieve the predefined TVF using only local output information and independent of the Laplacian matrix associated with the communication topologies. The implementation cost of calculating the global information and requiring full state information is avoided when achieving the desired TVF. First, a node-based TVF control protocol is constructed via dynamic output feedback for the case with fixed communication topology, where adaptive-based coupling weights are introduced to eliminate the dependence on the global information about the topology. Then an algorithm is presented to determine the gain matrices in the node-based adaptive TVF control protocol, and a feasible formation constraint is provided. The stability of the algorithm is proved based on the Lyapunov theory. Furthermore, under the case of switching communication topologies, an edge-based TVF control protocol is constructed with dynamic output feedback and an adaptive law for adjusting the coupling weights among agents. A sufficient condition is derived using the common Lyapunov theory for general linear swarm systems to achieve the predefined TVF satisfying the feasible formation constraint. Two numerical examples are presented to illustrate the theoretical results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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15. Distributed Control of Large-Scale Networked Control Systems With Communication Constraints and Topology Switching.
- Author
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Zhang, Dan, Nguang, Sing Kiong, and Yu, Li
- Subjects
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SENSOR networks , *TOPOLOGY - Abstract
This paper investigates the problem of sensor-network-based distributed control for large-scale networked control systems, in which the communication constraint and topology switching problems are addressed. In the considered system, a discrete-time interconnected process is controlled by a network of sensors, controllers, and actuators that collect information about the plant, and apply control actions to manage the plant dynamics. The motivation for this paper is that the communication between the plant network and the controller network can be exploited for the system-wide purpose. To deal with the communication constraint problem, strategies such as the event-based communication and logarithmic quantization are applied. Furthermore, in a networked environment, the real-time information of the topology switching is not always available at the controller network side, hence a bunch of synchronous/asynchronous controllers are designed such that the closed-loop system is exponentially stable and achieves a prescribed H_\infty disturbance attenuation level. Finally, an illustrative example on a benchmark continuous stirred-tank reactor system is presented to demonstrate the effectiveness of the proposed new control technique. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
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16. Consensus Problem in High-Order Multiagent Systems With Lipschitz Nonlinearities and Jointly Connected Topologies.
- Author
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Rezaee, Hamed and Abdollahi, Farzaneh
- Subjects
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MULTIAGENT systems , *NONLINEAR theories , *SWITCHING theory - Abstract
The leaderless consensus problem in a class of high-order multiagent systems with Lipschitz nonlinearities is studied in this paper. Despite existing leaderless consensus protocols devoted to high-order multiagent systems with Lipschitz nonlinearities, the proposed protocol in this paper guarantees achieving consensus in networks of agents with jointly connected topologies. To achieve this goal, first a consensus protocol for high-order multiagent systems with general linear models is proposed. By introducing a common Lyapunov candidate for the set of switching topologies and based on the Cauchy convergence criterion, achieving consensus under the proposed protocol is studied. Then, sufficient conditions are derived under which the results are extended to the case of Lipschitz nonlinearities in agents models. Numerical examples validate the proposed consensus protocol. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
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17. Observer-Based Consensus for Positive Multiagent Systems With Directed Topology and Nonlinear Control Input.
- Author
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Wu, Han and Su, Housheng
- Subjects
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MULTIAGENT systems , *POSITIVE systems , *LINEAR matrix inequalities , *NONNEGATIVE matrices , *TOPOLOGY - Abstract
This paper studies the consensus problem for directed positive multiagent systems with nonlinear control input. The directed topology is supposed to be strongly connected. For the case of sector input nonlinearities, the non-negative global consensus conditions are presented by using a novel analysis method which directly considers the nonlinear input, and the feedback matrices are obtained with convex optimization method by solving the quadratic matrix inequalities subject to non-negative constraints. For the case of saturation-type sector input nonlinearities, the global consensus and local consensus results are analyzed, respectively. With the properties of Metzler matrix, the non-negative consensus results are further extended to the strongly connected and balanced positive multiagent systems subject to (saturation-type) sector input nonlinearities and parameter uncertainties. The results are simplified, and the feedback matrices can be given by solving iterative linear matrix inequality with non-negative constraints. Two simulation examples and a practical electrical circuit model are finally carried out to verify the proposed control schemes. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
18. Completely Distributed Guaranteed-Performance Consensualization for High-Order Multiagent Systems With Switching Topologies.
- Author
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Xi, Jianxiang, Wang, Cheng, Liu, Hao, and Wang, Le
- Subjects
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MULTIAGENT systems , *LINEAR matrix inequalities , *TOPOLOGY , *QUANTUM cryptography , *NONLINEAR systems , *LINEAR systems - Abstract
The guaranteed-performance consensualization for high-order linear and nonlinear multiagent systems with switching topologies is respectively realized in a completely distributed manner in the sense that consensus design criteria are independent of interaction topologies and switching motions. This paper first proposes an adaptive consensus protocol with guaranteed-performance constraints and switching topologies, where interaction weights among neighboring agents are adaptively adjusted and state errors among all agents can be regulated. Then, a new translation-adaptive strategy is shown to realize completely distributed guaranteed-performance consensus control and an adaptive guaranteed-performance consensualization criterion is given on the basis of the Riccati inequality. Furthermore, an approach to regulate the consensus control gain and the guaranteed-performance cost is proposed in terms of linear matrix inequalities. Moreover, main conclusions for linear multiagent systems are extended to Lipschitz nonlinear cases. Finally, two numerical examples are provided to demonstrate theoretical results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
19. Model Free Adaptive Iterative Learning Consensus Tracking Control for a Class of Nonlinear Multiagent Systems.
- Author
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Bu, Xuhui, Yu, Qiongxia, Hou, Zhongsheng, and Qian, Wei
- Subjects
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ITERATIVE learning control , *MULTIAGENT systems , *NONLINEAR systems , *NONLINEAR dynamical systems , *CONSENSUS (Social sciences) - Abstract
This paper proposes a distributed model free adaptive iterative learning control (MFAILC) method for a class of unknown nonlinear multiagent systems to perform consensus tracking. Here, both fixed and iteration-varying topologies are considered and only a subset of followers can access the desired trajectory in each topology. To design the control protocol, the agent’s dynamic is first transformed into a dynamic linearization model along the iteration axis, and then a distributed MFAILC scheme is constructed to guarantee that all agents can track the desired trajectory. Through rigorous analysis, it is shown that under this novel distributed MFAILC scheme, the tracking errors of all agents are convergent along the iteration axis. The main merit of this design is that consensus tracking task can be achieved only utilizing the input/output data of the multiagent system. Three examples are given to validate the effectiveness of the proposed design. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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20. Distributed$H_\infty$State Estimation for a Class of Filtering Networks With Time-Varying Switching Topologies and Packet Losses.
- Author
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Yan, Huaicheng, Yang, Qian, Zhang, Hao, Yang, Fuwen, and Zhan, Xisheng
- Subjects
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MARKOV processes , *FILTERING software - Abstract
In this paper, the distributed ${H_{\infty }}$ state estimation problem is investigated for a class of filtering networks with time-varying switching topologies and packet losses. In the filter design, the time-varying switching topologies, partial information exchange between filters, the packet losses in transmission from the neighbor filters and the channel noises are simultaneously considered. The considered topology evolves not only over time, but also by event switches which are assumed to be subjects to a nonhomogeneous Markov chain, and its probability transition matrix is time-varying. Some novel sufficient conditions are obtained for ensuring the exponential stability in mean square and the switching topology-dependent filters are derived such that an optimal ${H_{\infty }}$ disturbance rejection attenuation level can be guaranteed for the estimation disagreement of the filtering network. Finally, simulation examples are provided to demonstrate the effectiveness of the theoretical results. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
21. Event-Triggered Control for Consensus of Multiagent Systems With Fixed/Switching Topologies.
- Author
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Wu, Zheng-Guang, Xu, Yong, Lu, Renquan, Wu, Yuanqing, and Huang, Tingwen
- Subjects
- *
MULTIAGENT systems , *TOPOLOGY - Abstract
In this paper, the leader-following consensus problem of high-order multiagent systems via event-triggered control is discussed. A novel distributed event-triggered communication protocol based on state estimates of neighboring agents is proposed to solve the consensus problem of the leader-following systems. We first investigate the consensus problem in a fixed topology, and then extend to the switching topologies. State estimates in fixed topology are only updated when the trigger condition is satisfied. However, state estimates in switching topologies are renewed with two cases: 1) the communication topology is switched or 2) the trigger condition is satisfied. Clearly, compared to continuous-time interaction, this protocol can greatly reduce the communication load of multiagent networks. Besides, the event-triggering function is constructed based on the local information and a new event-triggered rule is given. Moreover, “Zeno behavior” can be excluded. Finally, we give two examples to validate the feasibility and efficiency of our approach. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
22. Finite-Time Consensus of Switched Multiagent Systems.
- Author
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Lin, Xue and Zheng, Yuanshi
- Subjects
- *
MULTIAGENT systems , *COMPUTER simulation - Abstract
This paper focuses on the finite-time consensus (FTC) problem of switched multiagent system (MAS) which is composed of continuous-time and discrete-time subsystems. Different from the existing results, each agent of this system is controlled by switching control method. To achieve consensus in finite time for the switched MAS, two types of consensus protocols (the FTC protocol and the fixed-time consensus (FdTC) protocol) are proposed. By using algebraic graph theory, Lyapunov theory and matrix theory, it is proved that the FTC problem in strongly connected network and leader-following network can be solved, respectively. When the initial states of agents are not available, the FdTC protocol is applied to solve the FTC problem. Simulations are provided to illustrate the effectiveness of our theoretical results. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
23. Distributed Tracking of Nonlinear Multiagent Systems Under Directed Switching Topology: An Observer-Based Protocol.
- Author
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Wen, Guanghui, Yu, Wenwu, Xia, Yuanqing, Yu, Xinghuo, and Hu, Jianqiang
- Subjects
- *
DISTRIBUTED tracking , *MULTIAGENT systems , *LIPSCHITZ spaces - Abstract
This paper deals with a consensus tracking problem for multiagent systems (MASs) with Lipschitz-type nonlinear dynamics and directed switching topology. Unlike most existing works where the relative full state measurements of neighboring agents are utilized, it is assumed that only the relative output measurements of neighboring agents are available for coordination. To achieve consensus tracking in the considered MASs, a new class of observer-based protocols is proposed. By appropriately constructing some topology-dependent multiple Lyapunov functions, it is theoretically shown that distributed consensus tracking in the closed-loop MASs equipped with the designed protocols can be ensured if each possible topology contains a directed spanning tree rooted at the leader and the dwell time for the switchings among different topology is less than a derived positive quantity. Interestingly, it is found that the communication topology for observers’ states may be independent with that of the feedback signals. The derived results are further extended to the case of directed switching topology with only average dwell time constraints. Finally, the effectiveness of the analytical results is demonstrated via numerical simulations. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
24. Second-Order Locally Dynamical Consensus of Multiagent Systems With Arbitrarily Fast Switching Directed Topologies.
- Author
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Li, Huaqing, Liao, Xiaofeng, and Huang, Tingwen
- Subjects
- *
MULTIAGENT systems , *NONLINEAR analysis , *ELECTRIC network topology , *MATRIX decomposition , *SWITCHING systems (Telecommunication) - Abstract
This paper is mainly concerned with the analysis of the second-order locally dynamical consensus of multiagent systems with nonlinear dynamics in the directed networks with arbitrarily fast switching topologies. In our designed framework, the time-varying network topology is constant in each time interval and then randomly jumps to another topology when certain occasional events occur at some random moments. In addition, we further assume that the dwell time of each topology is unknown in advance and the corresponding adjacency weighted matrix is not necessarily nonnegative due to the probable existence of deteriorated communication channels in the underlying interaction network. By the orthogonal decomposition method, the state vector of the resultant error dynamical system can be further decomposed as two transversal components, one of which evolves along the consensus manifold and the other evolves transversally with the consensus manifold. Then, by introducing the generalized matrix measure and by applying the tools of contraction and circle analysis, the second-order locally dynamical consensus of multiagent systems with arbitrarily fast switching directed topologies is theoretically investigated in detail, and some easily verified sufficient conditions are also presented. It is shown that, under sufficiently large coupling strengths, the random switchings can be effectively tolerated and the consensus can be achieved for all agents in the network. Finally, numerical simulation examples are also provided to demonstrate the feasibility and effectiveness of the obtained theoretical results. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
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