Intelligent communication and networking key technologies for manned/unmanned cooperation: states-of-the-art and trends

被引:0
|
作者
Yin H. [1 ,2 ]
Wei J. [2 ]
Zhao H. [2 ]
Zhang J. [2 ]
Wang H. [2 ]
Ren B. [1 ]
机构
[1] Academy of Military Sciences, Beijing
[2] College of Electronic Science and Technology, National University of Defense Technology, Changsha
来源
Tongxin Xuebao/Journal on Communications | / 45卷 / 01期
基金
中国国家自然科学基金;
关键词
intelligent communication; intelligent networking; manned/unmanned systems; swarm intelligence;
D O I
10.11959/j.issn.1000-436x.2024037
中图分类号
学科分类号
摘要
The intelligent communication and networking technologies for manned/unmanned cooperation was comprehensively surveyed. Firstly, the requirements on communication and networking were analyzed from the application scenarios of manned/unmanned cooperation. Then, in context of physical layer, link layer and network layer respectively, the key issues regarding channel modeling, waveform design, networking protocol and intelligent collaboration were analyzed. And the states-of-the-art in this research area and the characteristics of representative technologies were deeply studied. In the end, the possible development trends and promising technologies were prospected on the way to make the manned/unmanned cooperative communication and networking more intelligent, more efficient and more flexible. © 2024 Editorial Board of Journal on Communications. All rights reserved.
引用
收藏
页码:1 / 17
页数:16
相关论文
共 83 条
  • [71] ZHOU Y, MA X Y, HU S T, Et al., QoE-driven adaptive deployment strategy of multi-UAV networks based on hybrid deep reinforcement learning, IEEE Internet of Things Journal, 9, 8, pp. 5868-5881, (2022)
  • [72] DAS A, GERVET T, ROMOFF J, Et al., TarMAC: targeted multi-agent communication, International Conference on Machine Learning, pp. 1538-1546, (2019)
  • [73] ZHANG S Q, ZHANG Q, LIN J., Succinct and robust multi-agent communication with temporal message control, Advances in Neural Information Processing Systems, 33, pp. 17271-17282, (2020)
  • [74] ZHANG X C, ZHAO H T, WEI J B, Et al., Cooperative trajectory design of multiple UAV base stations with heterogeneous graph neural networks, IEEE Transactions on Wireless Communications, 22, 3, pp. 1495-1509, (2023)
  • [75] SUKHBAATAR S, SZLAM A, FERGUS R., Learning multiagent communication with backpropagation, (2016)
  • [76] LIU Y, WANG W X, HU Y J, Et al., Multi-agent game abstraction via graph attention neural network, Proceedings of the AAAI Conference on Artificial Intelligence, 34, 5, pp. 7211-7218, (2020)
  • [77] MAO H, GONG Z, ZHANG Z, Et al., Learning multi-agent communication under limited-bandwidth restriction for internet packet routing, (2019)
  • [78] WANG R D, HE X, YU R S, Et al., Learning efficient multi-agent communication: an information bottleneck approach, Proceedings of the Proceedings of the 37th International Conference on Machine Learning, pp. 9908-9918, (2020)
  • [79] LIN T, HUH J, STAUFFER C, Et al., Learning to ground multi-agent communication with autoencoders, Advances in Neural Information Processing Systems, 34, pp. 15230-15242, (2021)
  • [80] ZHANG Y C, ZHANG P, WEI J B, Et al., Semantic communication for intelligent agents: architecture and examples, Science in China (Information Sciences), 52, 5, pp. 907-921, (2022)
123456789