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Jordan Form-Based Algebraic Conditions for Controllability of Multiagent Systems under Directed Graphs

Shuai Liu, Zhijian Ji, Huizi Ma

2020Complexity19 citationsDOIOpen Access PDF

Abstract

Based on the Jordan form of system matrix, this paper discusses algebraic conditions for the controllability of the multiagent network system with directed graph from two aspects: leader-follower network attribute and coupling input disturbance. Leader-follower network attribute refers to the topology structure and information communication among agents. Coupling input disturbance includes the number of external coupling inputs and the selection of leader nodes. When the leader-follower network attribute is fixed, the selection method of coupling input disturbance is studied for the controllability, and when the coupling input disturbance is known, we derive necessity and sufficiency conditions to determine the controllability. The reliability of theoretical results is verified by numerical examples and model simulation. Besides, the generally perfect controllability is introduced, that is, the system is always controllable regardless of the number and the locations of leaders. In practical engineering applications, the perfectly controllable topology can improve the system fault tolerance and accelerate the commercialization process, which has a profound significance for promoting the modernization process.

Topics & Concepts

ControllabilityNetwork controllabilityTopology (electrical circuits)Computer scienceFault toleranceCoupling (piping)Process (computing)Network topologyControl theory (sociology)Distributed computingMathematicsEngineeringArtificial intelligenceComputer networkControl (management)Applied mathematicsCentralityBetweenness centralityCombinatoricsMechanical engineeringOperating systemDistributed Control Multi-Agent SystemsNeural Networks Stability and SynchronizationEnergy Efficient Wireless Sensor Networks
Jordan Form-Based Algebraic Conditions for Controllability of Multiagent Systems under Directed Graphs | Litcius