通感低空覆盖关键技术与组网  

Key Technologies and Networking in ISAC for Low-Altitude Coverage

作  者:林旭[1] 刘涛[1] 张诗壮 施嵘[1] LIN Xu;LIU Tao;ZHANG Shizhuang;SHI Rong(ZTE Corporation,Shenzhen 518057,China)

机构地区:[1]中兴通讯股份有限公司,中国深圳518057

出  处:《中兴通讯技术》2025年第1期53-57,共5页ZTE Technology Journal

摘  要:通感一体化(ISAC)技术深度融合通信与感知能力,将在重点低空区域实现通信与感知的无缝覆盖。为充分发挥面向低空经济的ISAC系统的潜力,需要重点研究低空覆盖下通感一体化的关键技术与组网技术。系统阐述了波束成形与波束跟踪技术、人工智能(AI)赋能的ISAC技术、通信感知相互辅助增强技术、基于智能反射面(IRS)的ISAC技术,以及通感一体化组网技术等。这些关键技术与组网技术,能够有效提升低空覆盖场景下的ISAC系统的性能。Integrated sensing and communication(ISAC)technology deeply integrates communication and sensing capabilities,and is anticipated to attain seamless communication and sensing coverage for critical low-altitude areas.To fully exploit the potential of ISAC systems oriented towards the low-altitude economy,it is necessary to focus on the key technologies and networking technologies.Beamforming and beam tracking technologies,artificial intelligence(AI)-empowered ISAC technologies,mutual assistance and enhancement between communication and sensing technologies,ISAC technologies based on intelligent reflecting surfaces(IRS),and ISAC networking technologies are systematically described.These key technologies and networking technologies can effectively improve the performance of the ISAC system in low-altitude coverage scenarios.

关 键 词:通感一体化 低空覆盖 人工智能 智能反射面 通感一体化组网 

分 类 号:TN9[电子电信—信息与通信工程]

 

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