Litcius/Paper detail

Event-Driven Connectivity-Preserving Coordinated Control for Multiple Spacecraft Systems With a Distance-Dependent Dynamic Graph

Yongxia Shi, Qinglei Hu

2021IEEE Transactions on Cybernetics35 citationsDOI

Abstract

This article considers the connectivity preservation coordinated control problem for multiple spacecraft systems subject to limited communication resources and sensing capability. By constructing a novel bump function, a distance-dependent dynamic communication network model is first presented, which characterizes the interaction strength as a nonlinear smooth function varying with the relative distance of spacecraft continuously. Subsequently, based on an edge-tension potential function, a distributed event-driven coordinated control scheme is proposed to achieve formation consensus, while ensuring that adjacent spacecraft is always within the allowable connectivity range. Meanwhile, to avoid redundant data transmissions, a hybrid dynamic event-triggered mechanism with maximum triggering interval is developed to schedule the communication frequency among spacecraft. It is proven that the onboard communication resources occupation can be reduced significantly and the Zeno phenomenon is strictly excluded. Finally, the efficiency of the proposed method for, as an example, four-spacecraft formation system is substantiated.

Topics & Concepts

SpacecraftComputer scienceControl theory (sociology)ScheduleDistributed computingTelecommunications networkRange (aeronautics)Nonlinear systemFunction (biology)Event (particle physics)Control (management)EngineeringAerospace engineeringTelecommunicationsPhysicsArtificial intelligenceBiologyOperating systemQuantum mechanicsEvolutionary biologyDistributed Control Multi-Agent SystemsSpacecraft Dynamics and ControlSpace Satellite Systems and Control