1 |
黄勇, 李元锋, 张枣, 等. 舰载近防武器对无人机蜂群的拦截分析[J]. 火力与指挥控制, 2020, 45 (1): 105- 109.
|
|
HUANG Y , LI Y F , ZHANG Z , et al. Analysis of shipborne close-in defense weapon system intercepting UAV swarm[J]. Fire Control & Command Control, 2020, 45 (1): 105- 109.
|
2 |
冯政, 吴傲, 王谦喆. 无人机集群打击海面目标指定时间协同控制方法[J]. 电光与控制, 2022, 29 (9): 43- 47.
|
|
FENG Z , WU A , WANG Q Z . Cooperative control method of designated time for UAV swarm attacking sea target[J]. Electronics Optics & Control, 2022, 29 (9): 43- 47.
|
3 |
黄吉传, 周德云. 无人机协同作战兰彻斯特方程设计与作战进程预测[J]. 电光与控制, 2018, 25 (12): 40- 44.
doi: 10.3969/j.issn.1671-637X.2018.12.009
|
|
HUANG J C , ZHOU D Y . Design of Lanchester equation and prediction of operational process for cooperative operation of UAVs[J]. Electronics Optics & Control, 2018, 25 (12): 40- 44.
doi: 10.3969/j.issn.1671-637X.2018.12.009
|
4 |
TSOURDOS A , WHITE B , SHANMUGAVEL M . Cooperative path planning of unmanned aerial vehicles[M]. Hoboken, New Jersey: John Wiley & Sons, 2010.
|
5 |
GHAMRY K A, KAMEL M A, ZHANG Y. Multiple UAVs in forest fire fighting mission using particle swarm optimization[C]// Proc. of the International Conference on Unmanned Aircraft Systems, 2017: 1404-1409.
|
6 |
GOTTLIEB Y , SHIMA T . UAVs task and motion planning in the presence of obstacles and prioritized targets[J]. Sensors, 2015, 15 (11): 29734- 29764.
doi: 10.3390/s151129734
|
7 |
KIM M H , BAIK H , LEE S . Resource welfare based task allocation for UAV team with resource constraints[J]. Journal of Intelligent & Robotic Systems, 2015, 77, 611- 627.
|
8 |
YAO W R , QI N M , LIU Y F . Online trajectory generation with rendezvous for UAVs using multistage path prediction[J]. Journal of Aerospace Engineering, 2017, 30 (3): 04016092.
doi: 10.1061/(ASCE)AS.1943-5525.0000694
|
9 |
MANATHARA J G , GHOSE D . Rendezvous of multiple UAVs with collision avoidance using consensus[J]. Journal of Aerospace Engineering, 2012, 25 (4): 480- 489.
doi: 10.1061/(ASCE)AS.1943-5525.0000145
|
10 |
MANATHARA J G , SUJIT P B , BEARD R W . Multiple UAV coalitions for a search and prosecute mission[J]. Journal of Intelligent & Robotic Systems, 2011, 62, 125- 158.
|
11 |
SHANMUGAVEL M , TSOURDOS A , WHITE B , et al. Cooperative path planning of multiple UAVs using Dubins paths with clothoid arcs[J]. Control Engineering Practice, 2010, 18 (9): 1084- 1092.
doi: 10.1016/j.conengprac.2009.02.010
|
12 |
ZENG J , DOU L H , XIN B . Multi-objective cooperative salvo attack against group target[J]. Journal of Systems Science & Complexity, 2018, 31 (1): 244- 261.
|
13 |
严飞, 祝小平, 周洲, 等. 考虑同时攻击约束的多异构无人机实时任务分配[J]. 中国科学: 信息科学, 2019, 49 (5): 555- 569.
|
|
YAN F , ZHU X P , ZHOU Z , et al. Real-time task allocation for a heterogeneous multi-UAV simultaneous attack[J]. Scientia Sinica Informationis, 2019, 49 (5): 555- 569.
|
14 |
MCLAIN T W , BEARD R W . Coordination variables, coordination functions, and cooperative timing missions[J]. Journal of Guidance, Control, and Dynamics, 2005, 28 (1): 150- 161.
|
15 |
BEARD R W , MCLAIN T W , GOODRICH M A , et al. Coordinated target assignment and intercept for unmanned air vehicles[J]. IEEE Trans.on Robotics and Automation, 2002, 18 (6): 911- 922.
|
16 |
SHIMA T , RASMUSSEN S , GROSS D . Assigning micro UAVs to task tours in an urban terrain[J]. IEEE Trans.on Control Systems Technology, 2007, 15 (4): 601- 602.
|
17 |
袁利平, 陈宗基, 周锐, 等. 多无人机同时到达的分散化控制方法[J]. 航空学报, 2010, 31 (4): 797- 805.
|
|
YUAN L P , CHEN Z J , ZHOU R , et al. Decentralized control for simultaneous arrival of multiple UAVs[J]. Acta Aeronautica et Astronautica Sinica, 2010, 31 (4): 797- 805.
|
18 |
QU H , XING K , ALEXANDER T . An improved genetic algorithm with co-evolutionary strategy for global path planning of multiple mobile robots[J]. Neurocomputing, 2013, 120, 509- 517.
|