GUIDING UNMANNED AERIAL VEHICLE PATH PLANNING DESIGN BASED ON IMPROVED ANT COLONY ALGORITHM, 48-54.

Wenzhi Wu and Ying Wei

References

1. [1] H.H. Owaied, H.A. Farhan, N. Al-Hawamdeh, et al., A modelfor intelligent tourism guide system, Journal of Applied Sci-ences, 11(2), 2011, 342–347.
2. [2] S. Xu, E.S.L. Ho, and H.P.H. Shum, A hybrid metaheuristicnavigation algorithm for robot path rolling planning in anunknown environment, Mechatronic Systems and Control, 47,2019, 46072.
3. [3] G. Farid, et al., Comprehensive modelling and static feedbacklinearization-based trajectory tracking control of a quadrotorUAV, Mechatronic Systems and Control, 46(3), 2018, 97–106.
4. [4] Z. Sun, M. Wei, Z. Zhang, et al., Secure routing protocol basedon Multi-objective Ant-colony-optimization for wireless sensornetworks, Applied Soft Computing, 77, 2019, 366–375.
5. [5] N.P. Husain, N.N. Arisa, P.N. Rahayu, et al., Least squaressupport vector machines parameter optimization based onimproved ant colony algorithm for hepatitis diagnosis, JournalIlmu Komputerdan Informasi, 10(1), 2017, 43–49.
6. [6] K. Zhou, A.L. Jensen, C.G. Sørensen, et al., Agriculturaloperations planning in fields with multiple obstacle areas,Computers and Electronics in Agriculture, 109, 2014, 12–22.
7. [7] I.A. Khodashinskii and P.A. Dudin, Identification of fuzzy sys-tems using a continuous ant colony algorithm, Optoelectronics,Instrumentation and Data Processing, 48(1), 2012, 54–61.
8. [8] M. Dorigo, L.M. Gambardella, M. Middendorf, and T. Stutzle,Guest editorial: special section on ant colony optimization,IEEE Transactions on Evolutionary Computation, 6, 2002,317–319.
9. [9] M. Dorigo, V. Maniezzo, and A. Colorni, Ant system: opti-mization by a colony of cooperating agents, IEEE Transactionson Systems, Man, and Cybernetics, Part B: Cybernetics, 26,1996, 29–41.
10. [10] S. Moon, Handbook of unmanned aerial vehicles (Netherlands:Springer, 2014), 1547–1576.
11. [11] M. Coombes, W.H. Chen, and C. Liu, Fixed wing UAV surveycoverage path planning in wind for improving existing groundcontrol station software, 2018 37th Chinese Control Conference(CCC), Wuhan, China, 2018, 9820–9825.
12. [12] S.Z. Sverdlov, Flight duration potential and relative efficiencyof an electric multicopter, Russian Aeronautics, 60(2), 2017,163–168.
13. [13] K. Joshua and A. Lucieer, Sensor correction of a 6-bandmultispectral imaging sensor for UAV remote sensing, RemoteSensing, 4(5), 2012, 1462–1493.
14. [14] C. Liang, X. Wu, F. Wang, Z. Song, and F. Zhang, Re-search on field film recognition algorithm based on UAV, ActaAgriculturae Zhejiangensis, 2019, 1005–1011.
15. [15] M. Zhao, Black broadcast positioning and tracking based onUAV platform, Zhejiang Sci-Tech University, 2019.
16. [16] J. Yang, Pose tracking and path planning of multi-sensor fusionUAV, Zhejiang University, 2019.

Important Links:

• Abstract
• DOI: 10.2316/J.2021.201-0105
• From Journal (201) Mechatronic Systems and Control - 2021

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