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Distributed Prescribed-Time Interval Bipartite Consensus of Multi-Agent Systems on Directed Graphs: Theory and Experiment

Xin Gong, Yukang Cui, Jun Shen, Zhan Shu, Tingwen Huang

2020IEEE Transactions on Network Science and Engineering90 citationsDOI

Abstract

This work deals with the analysis and protocol design problems of the prescribed-time interval bipartite consensus of multi-agent systems on signed and directed graphs. A new distributed protocol with hybrid constant and time-varying feedbacks of local signed error is proposed, whose consensus time period is independent of the specific topology among agents and initial states of all agents. By introducing a series of well-structured Lyapunov functions, the technical difficulties arising from the asymmetrical Laplacian matrices of directed graphs are circumvented. The effectiveness of this prescribed-time protocol for multi-agent systems on signed digraphs with a spanning tree is proven both on structurally balanced digraphs and structurally unbalanced ones with a positive root subgraph. An illustrative simulation example and a prescribed-time bipartite formation experiment on a swarm of nano-quadcopters are implemented to show the validity and practicability of these proposed protocols.

Topics & Concepts

Bipartite graphMulti-agent systemSpanning treeLaplacian matrixInterval (graph theory)Protocol (science)Computer scienceConsensusDirected graphStrongly connected componentMathematicsMathematical optimizationTopology (electrical circuits)Theoretical computer scienceDiscrete mathematicsAlgorithmCombinatoricsGraphArtificial intelligenceMedicinePathologyAlternative medicineDistributed Control Multi-Agent SystemsNeural Networks Stability and SynchronizationOpportunistic and Delay-Tolerant Networks
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