Abstract

Abstract In this article, we consider consensus problems in networks of agents with double-integrator dynamics and non-uniform time-varying delays. The agent dynamics is adopted as a typical point mass model based on Newton's law. Without assuming that the weighting factors in the information update schemes are non-negative, we propose two protocols such that both the state and the velocity of agents achieve consensus. An equivalent reduced-order system is introduced to analyse the convergence of the protocols. Some necessary and (or) sufficient conditions for consensus are established in terms of linear matrix inequalities. Simulation results are provided that demonstrate the effectiveness of our theoretical results. Keywords: consensusmulti-agent systemreduced-order systemtime-varying delay Acknowledgements The authors are grateful to the anonymous reviewers for their valuable comments and suggestions that helped improve the presentation of this article. This work was supported by NSFC (60704039, 60674050 and 60528007), National 973 Program (2002CB312200), National 863 Program (2006AA04Z258) and 11-5 project (A2120061303).