电磁频谱认知智能关键技术与未来展望OA
Key Technologies and Future Prospects of Cognitive Intelligence in Electromagnetic Spectrum
电磁频谱资源是国家战略稀缺资源,电磁频谱空间已成为第六维作战空间.在第6代移动通信(Sixth-generation mobile communication,6G)与低空经济加速发展的背景下,用频设备规模持续扩大,用频需求日趋复杂多元,频谱环境呈现高度动态时变特性,导致频谱资源稀缺问题不断加剧、频谱安全威胁日益凸显,频谱对抗态势愈发激烈.传统基于被动感知的频谱管控系统在感知精度、响应时效与协同能力等方面面临显著瓶颈.电磁频谱认知智能管控以频谱大模型等新兴技术为引擎,依托多模态频谱感知、多层级频谱认知与多要素频谱决策,构建形成"感知-认知-决策-行动"一体化的认知决策闭环,推动频谱管控模式从静态规划、被动响应向动态调配、主动调控演进,并逐步向更高层级的智能化、无人化方向发展,以支撑未来复杂电磁环境中的频谱管控需求.本文系统综述了电磁频谱认知智能的技术体系架构、认知决策闭环机制及其关键技术,并对未来趋势进行了展望,旨在为破解复杂电磁环境下高效频谱管控的难题以及构建下一代全域自主的认知智能频谱管控体系提供理论参考与技术指引.
Electromagnetic spectrum resources are strategically scarce national resources,and the electromagnetic spectrum space has become the sixth-dimensional operational domain.Against the backdrop of the development of the sixth-generation mobile communication(6G)and the acceleration of the low-altitude economy,the scale of frequency-using equipment continues to expand,and the demand for spectrum use is becoming increasingly complex and diverse.The spectrum environment exhibits highly dynamic and time-varying characteristics,leading to the intensification of spectrum resource scarcity,the increasingly prominent spectrum security threat,and more intense spectrum confrontation situations.Traditional spectrum management systems based on passive sensing face significant bottlenecks in terms of sensing accuracy,response timeliness,and collaborative capabilities.Electromagnetic spectrum cognitive intelligent management and control,driven by emerging technologies such as large spectrum models,relies on multimodal spectrum sensing,multi-level spectrum cognition,and multi-factor spectrum decision-making to establish an integrated"Observe-Cognition-Decide-Act"cognitive decision-making loop.It promotes the evolution of spectrum management from static planning and passive response to dynamic allocation and proactive regulation,gradually moving toward higher levels of intelligence and automation,to support spectrum management needs in future complex electromagnetic environments.This paper systematically reviews the technical system architecture,the cognitive decision-making loop mechanism,and key technologies of electromagnetic spectrum cognitive intelligence,and offers an outlook on future trends.It aims to provide theoretical reference and technical guidance for addressing the challenges of efficient spectrum management in complex electromagnetic environments and for constructing the next-generation,fully autonomous cognitive intelligent spectrum management system.
张海仁;阮天宸;刘纯玉;周福辉;吴启晖
南京航空航天大学电磁频谱空间认知动态系统工业和信息化部重点实验室,南京 211106南京航空航天大学电磁频谱空间认知动态系统工业和信息化部重点实验室,南京 211106||南京航空航天大学人工智能学院,南京 211106南京航空航天大学电磁频谱空间认知动态系统工业和信息化部重点实验室,南京 211106南京航空航天大学电磁频谱空间认知动态系统工业和信息化部重点实验室,南京 211106||南京航空航天大学人工智能学院,南京 211106南京航空航天大学电磁频谱空间认知动态系统工业和信息化部重点实验室,南京 211106
信息技术与安全科学
电磁频谱管控认知智能频谱大模型智能体通信具身智能
electromagnetic spectrum managementcognitive intelligencelarge spectrum modelsagent communicationembodied intelligence
《数据采集与处理》 2026 (3)
642-662,21
国家自然科学基金(62231015). National Natural Science Foundation of China(No.62231015).
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