|1||SHETTY V K, SUDIT M, NAGI R Priority-based assignment and routing of a fleet of unmanned combat aerial vehicles. Computers & Operations Research, 2008, 35 (6): 1813- 1828.|
|2||GRECU D L, GONSALVES P G. Agent-based simulation environment for UCAV mission planning and execution. Proc. of the AIAA Guidance, Navigation, and Control Conference and Exhibit, 2000. DOI: 10.2514/6.2000-4481.|
|3||KARAMAN S, FRAZZOLI E Linear temporal logic vehicle routing with applications to multi-UAV mission planning. International Journal of Robust & Nonlinear Control, 2011, 21 (12): 1372- 1395.|
|4||LAMONT G B. UAV swarm mission planning development using evolutionary algorithms and parallel simulation-Part II SCI-195. https://www.semanticscholar.org/paper/UAV-Swarm-Mission-Planning-Development-Using-and-II-Lamont/b079cfbaf1a0783cbb26800033e3bf1fffc28be1?p2df=.|
|5||POHL A G, LAMONT G B Multi-objective UAV mission planning using evolutionary computation. Proc. of the Conference on Winter Simulation, 2008, 1268- 1279.|
|6||TIAN J, SHEN L C, ZHENG Y X Genetic algorithm based approach for multi-UAV cooperative reconnaissance mission planning problem. Lecture Notes in Computer Science, 2006, 4203, 101- 110.|
|7||EVERS L, BARROS A I, MONSUUR H, et al. UAV mission planning: from robust to agile. http://doi.org/10.1007/978-3-319-12075-1_1.|
|8||KOPEIKIN A N, PONDA S S, JOHNSON L B, et al Dynamic mission planning for communication control in multiple unmanned aircraft teams. Unmanned Systems, 2013, 1 (1): 41- 58.|
|9||WANG X L, WU J B, HUANG H B, et al Multiple tasks scheduling algorithm for UAV attacking in uncertain environment. Proc. of the International Conference on Systems and Informatics, 2012, 735- 739.|
|10||SONMEZOCAK E, KURT S. Optimum route planning and scheduling for unmanned aerial vehicles. Monterey: Naval Postgraduate School, 2008.|
|11||XU C F, DUAN H B, LIU F Chaotic artificial bee colony approach to uninhabited combat air vehicle path planning. Aerospaceence & Technology, 2010, 14 (8): 535- 541.|
|12||EDISON E, SHIMA T Integrated task assignment and path optimization for cooperating uninhabited aerial vehicles using genetic algorithms. Computers & Operations Research, 2011, 38 (1): 340- 356.|
|13||LIU Z, LUO Q, DING W, et al A task assignment algorithm for multiple aerial vehicles to attack targets with dynamic values. IEEE Trans. on Intelligent Transportation Systems, 2012, 14 (1): 236- 248.|
|14||XIA Y, BATTA R, NAGI R Controlling a fleet of unmanned aerial vehicles to collect uncertain information in a threat environment. The Journal of the Operations Research Society of America, 2017, 65 (3): 674- 692.|
|15||MUFALLI F, BATTA R, NAGI R Simultaneous sensor selection and routing of unmanned aerial vehicles for complex mission plans. Computers & Operations Research, 2012, 39 (11): 2787- 2799.|
EVERS L, DOLLEVOET T, BARROS A I, et al Robust UAV mission planning. Annals of Operations Research, 2014, 222 (1): 293- 315.
SEMIZ F, POLAT F Solving the area coverage problem with UAVs: a vehicle routing with time windows variation. Robotics and Autonomous Systems, 2020, 126, 103435.
|18||LIU H, LI X M, WU G H, et al An iterative two-phase optimization method based on divide and conquer framework for integrated scheduling of multiple UAV. IEEE Trans. on Intelligent Transportation Systems, 2020, 22 (9): 5926- 5938.|
DASDEMIR E, KOKSALAN M, OZTURK D T A flexible reference point-based multi-objective evolutionary algorithm: an application to the UAV route planning problem. Computers and Operations Research, 2020, 114, 104811.
LIU H, LI X M, FAN M F, et al An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy. IEEE Trans. on Intelligent Transportation Systems, 2022, 23 (4): 3061- 3073.
|21||CHOWDHURY S, SHAHVARI O, MARUFUZZAMAN M, et al Drone routing and optimization for post-disaster inspection. Computers & Industrial Engineering, 2021, 159, 107495.|
NGUYEN M A, DANG G T H, HA M H, et al The min-cost parallel drone scheduling vehicle routing problem. European Journal of Operational Research, 2022, 299 (3): 910- 930.
SARICICEK I, AKKUS Y Unmanned aerial vehicle hub-location and routing for monitoring geographic borders. Applied Mathematical Modelling, 2015, 39 (14): 3939- 3953.
|24||YAKICI E Solving location and routing problem for UAVs. Computers & Industrial Engineering, 2016, 102, 294- 301.|
MACRINA G, PUGLIESE L D P, GUERRIERO F, et al Drone-aided routing: a literature review. Transportation Research Part C: Emerging Technologies, 2020, 120, 102762.
|26||OTTO A, AGATZ N, CAMPBELL J, et al. Optimization approaches for civil applications of unmanned aerial vehicles (UAVs) or aerial drones: a survey. Networks, 2018, 72(4): 411-458.|
|27||SCHANZ M V The reaper harvest. Air Force Magazine, 2011, 94 (4): 36- 39.|
|28||BENO V, ADAMCIK J F Unmanned combat air vehicle: MQ-9 Reaper. Proc. of the International Conference of Scientific Paper AFASES, 2014, 22- 24.|
ROPKE S, PISINGER D An adaptive large neighborhood search heuristic for the pickup and delivery problem with time windows. Transportation Science, 2006, 40 (4): 455- 472.
LAPORTE G, MUSMANNO R, VOCATURO F An adaptive large neighbourhood search heuristic for the capacitated arc-routing problem with stochastic demands. Transportation Science, 2010, 44 (1): 125- 135.
|31||LEI H T, LAPORTE G, GUO B The capacitated vehicle routing problem with stochastic demands and time windows. Computers & Operations Research, 2011, 38 (12): 1775- 1783.|
DAYARIAN I, CRAINIC T G, GENDREAU M, et al An adaptive large-neighborhood search heuristic for a multi-period vehicle routing problem. Transportation Research Part E: Logistics and Transportation Review, 2016, 95, 95- 123.
|33||ZHOU T R, ZHANG J M, SHI J M, et al Multidepot UAV routing problem with weapon configuration and time window. Journal of Advanced Transportation, 2018, 2018, 7318207.|
|34||WANG X P, TANG L X A population-based variable neighborhood search for the single machine total weighted tardiness problem. Computers & Operations Research, 2009, 36 (6): 2105- 2110.|
|35||LEI D M Population-based neighborhood search for job shop scheduling with interval processing time. Computers & Industrial Engineering, 2011, 61 (4): 1200- 1208.|
LIU S G A hybrid population heuristic for the heterogeneous vehicle routing problems. Transportation Research Part E: Logistics and Transportation Review, 2013, 54, 67- 78.
SAVELSBERGH M W P An efficient implementation of local search algorithms for constrained routing problems. European Journal of Operational Research, 1990, 47 (1): 75- 85.
|||Lei HU, Boqi XI, Guoxing YI, Hui ZHAO, Jiapeng ZHONG. A multiple heterogeneous UAVs reconnaissance mission planning and re-planning algorithm [J]. Journal of Systems Engineering and Electronics, 2022, 33(6): 1190-1207.|
|||Honghong ZHANG, Xusheng GAN, Shuangfeng LI, Zhiyuan CHEN. UAV safe route planning based on PSO-BAS algorithm [J]. Journal of Systems Engineering and Electronics, 2022, 33(5): 1151-1160.|
|||Guan WANG, Yufeng ZHAN, Yuanqing XIA, Liping YAN. Distributed point-to-point routing method for tasks in cloud control systems [J]. Journal of Systems Engineering and Electronics, 2022, 33(4): 792-804.|
|||Naikang YU, Bin QIAN, Rong HU, Yuwang CHEN, Ling WANG. Solving open vehicle problem with time window by hybrid column generation algorithm [J]. Journal of Systems Engineering and Electronics, 2022, 33(4): 997-1009.|
|||Jinqiang HU, Husheng WU, Renjun ZHAN, Rafik MENASSEL, Xuanwu ZHOU. Self-organized search-attack mission planning for UAV swarm based on wolf pack hunting behavior [J]. Journal of Systems Engineering and Electronics, 2021, 32(6): 1463-1476.|
|||Yindong SHEN, Liwen PENG, Jingpeng LI. An improved estimation of distribution algorithm for multi-compartment electric vehicle routing problem [J]. Journal of Systems Engineering and Electronics, 2021, 32(2): 365-379.|
|||Jiaming ZHANG, Zhong LIU, Jianmai SHI, Chao CHEN. Weapon configuration, allocation and route planning with time windows for multiple unmanned combat air vehicles [J]. Journal of Systems Engineering and Electronics, 2018, 29(5): 953-968.|
|||Yuxing MAO, Huiyuan ZHAO, Dongmei YAN. Weak node protection to maximize the lifetime of wireless sensor networks [J]. Journal of Systems Engineering and Electronics, 2018, 29(4): 693-706.|
|||Ye DENG, Wanhong ZHU, Hongwei LI, Yonghui ZHENG. Multi-type ant system algorithm for the time dependent vehicle routing problem with time windows [J]. Journal of Systems Engineering and Electronics, 2018, 29(3): 625-638.|
|||Jiting Li, Sheng Zhang, Xiaolu Liu, and Renjie He. Multi-objective evolutionary optimization for geostationary orbit satellite mission planning [J]. Systems Engineering and Electronics, 2017, 28(5): 934-945.|
|||Xiaoxuan Hu, Yanhong Liu, and Guoqiang Wang. Optimal search for moving targets with sensing capabilities using multiple UAVs [J]. Systems Engineering and Electronics, 2017, 28(3): 526-535.|
|||Huijiao Bu, Jin Zhang, and Yazhong Luo. Space station short-term mission planning using ontology modelling and time iteration [J]. Journal of Systems Engineering and Electronics, 2016, 27(2): 407-421.|
|||Haitao Yuan, Jing Bi, and Bohu Li. Workload-aware request routing in cloud data center using software-defined networking [J]. Journal of Systems Engineering and Electronics, 2015, 26(1): 151-.|
|||Huicheng Hao, Wei Jiang, and Yijun Li. Improved algorithms to plan missions for agile earth observation satellites [J]. Journal of Systems Engineering and Electronics, 2014, 25(5): 811-821.|
|||Pei Wang, Gerhard Reinelt, and Yuejin Tan. Self-adaptive large neighborhood search algorithm for parallel machine scheduling problems [J]. Journal of Systems Engineering and Electronics, 2012, 23(2): 208-215.|