Zeng Guoqi, Bai Yu, Liu Chunlei, Cui Kai, and Yue Huanyin


  1. [1] H. Jabbari, G. Oriolo, and H. Bolandi, An adaptive schemefor image-based visual servoing of an underactuated UAV,International Journal of Robotics and Automation, 29(1), 2014,92–104.
  2. [2] G.Y. Yin, S.L. Zhou, P.C. He, et al., Research status anddevelopment trend of cooperative task allocation for multipleUAVs in foreign countries, Aerodynamic Missile Journal, 2016,5, 54–58.
  3. [3] C. Shen, K.L. Wu, and Y.R. Song, Key trends in swarmingUAVs combat development, Aerodynamic Missile Journal, 11,2016, 28–33.
  4. [4] M. Aljehani and M. Inoue, Multi-UAVs tracking and scanningsystems in M2M communication for disaster response, presentedat 2016 IEEE 5th Global Conference on Consumer Electronics,Kyoto, Japan, 11–14 Oct. 2016.
  5. [5] A. Sinha, A. Tsourdos, and B. White, Multi UAV negotiationfor coordinated tracking of contaminant cloud, presented at2009 European Control Conference (ECC), Budapest, Hungary,23–26 Aug. 2009, 109–144.
  6. [6] F.Z. Chen, J.H. Huang, and Y.H. Zhao, Analysis on un-manned swarm fighting system of U.S. armed forces, Journalof Equipment Academy, 27(2), 2016, 34–37.
  7. [7] K.T. San, E.Y. Lee, and Y.S. Chang, The delivery assignmentsolution for swarms of UAVs dealing with multi-dimensionalchromosome representation of genetic algorithm, presented at2016 IEEE 7th Annual Ubiquitous Computing, Electronics &Mobile Communication Conference (UEMCON), New York,NY, USA, 20–22 Oct. 2016, 1–7.
  8. [8] H. Shakhatreh, A.A. Khreishah, J. Chakareski, H.B. Salameh,and I. Khalil, On the continuous coverage problem for a swarmof UAVs, presented at 2016 IEEE 37th Sarnoff Symposium,Newark, NJ, USA, 19–21 Sept. 2016, 130–135.
  9. [9] J. Dai, J. Cheng, and M. Song, Cooperative task assignmentfor heterogeneous multi-UAVs based on differential evolutionalgorithm, presented at 2009 IEEE International Conferenceon Intelligent Computing and Intelligent Systems, Shanghai,China, 20–22 Nov. 2009, 163–167.
  10. [10] N. Gao, Z.H. Qu, and X.J. Li, On modeling and discrete particleswarm optimization for task assignment of cooperating UAVs,presented at 2011 Chinese Control and Decision Conference(CCDC), Mianyang, China, 23–25 May 2011, 1044–1049.
  11. [11] W.R. Yao, N. Wan, and N.M. Qi, Hierarchical path generationfor distributed mission planning of UAVs, presented at 2016IEEE 55th Conference on Decision and Control (CDC), LasVegas, NV, USA, 12–14 Dec. 2016, 1681–1686.
  12. [12] S.X. Wang, J.H. He, Y. Huang, and A. Wang, Cooperativetask assignment of uninhabited combat air vehicles based onimproved MOSFLA algorithm, presented at 2016 3rd Inter-national Conference on Systems and Informatics (ICSAI),Shanghai, China, 19–21 Nov. 2016, 427–432.
  13. [13] C.W. Ruan, Z.L. Zhou, H.Q. Liu, and H.Y. Yang, Task as-signment under constraint of timing sequential for cooperativeair combat, Journal of Systems Engineering and Electronics,27, 2016, 836–844.
  14. [14] Z.H. Hu and M. Zhao, Research and development of UAVmission planning system, Aerospace Electronic Warfare, 4,2009, 49–51.
  15. [15] H.Q. Liu, X.Z.Wei, Z.W.Fu, and Z.L. Zhou, Cooperative taskassignment of manned/unmanned aerial vehicle formation inair combat, Electronic Optics & Control, 6, 2013, 16–19.
  16. [16] C.W. Wei, Y. Pei, D.S. Liu, and W.P. Wang, Target alloca-tion method of multi-UAVs cooperative task based on PSO,Computer and Modernization, 11, 2015, 32–35.
  17. [17] J. Chen, W.Z. Zha, Z.H. Peng, and J. Zhang, Cooperativearea reconnaissance for multi-UAVs in dynamic environment,presented at 2013 9th Asian Control Conference (ASCC),Istanbul, Turkey, 23–26 June 2013, 1–6.
  18. [18] B. Di, R. Zhou, and Q.X. Ding, Distributed coordinatedheterogeneous task allocation for unmanned aerial vehicles,Control and Decision, 2, 2013, 274–278.
  19. [19] F. Su, Y. Chen, and L.C. Shen, UAV cooperative multi-taskassignment based on ant colony algorithm, Chinese Journal ofAeronautics, S1, 2008, 184–191.
  20. [20] H.A. Kurdi, A. Ebtesam, A. Maram, et al., Autonomous taskallocation for multi-UAV systems based on the locust elasticbehavior, Applied Soft Computing, 71, 2018, 110–126.
  21. [21] J. Wu, H. Wang, N. Li, et al., Distributed trajectory op-timization for multiple solar-powered UAVs target trackingin urban environment by Adaptive Grasshopper Optimiza-tion Algorithm, Aerospace Science and Technology, 70, 2017,497–510.

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