情报杂志2025,Vol.44Issue(7):28-36,6,10.DOI:10.3969/j.issn.1002-1965.2025.07.005
北约战略传播中人工智能应用的机制与路径
Mechanism and Path of AI Application in NATO Strategic Communication
摘要
Abstract
[Research purpose]NATO strategic communication(StratCom)has become a wartime military action to shape the informa-tion environment and launch information weapon attacks.Analyzing the mechanism of AI application in NATO StratCom helps to grasp the new trends of NATO StratCom deployment in the context of conflict,providing a reference for China to guard against potential threats.[Research method]Using the 5W communication model as the analytical framework and the five key elements of communication activi-ties as the main analytical objects,this study employs a path analysis method to dissect the mechanisms underlying each aspect of NATO StratCom involving the application of AI.Based on NATO's new initiatives,this study employs online surveys and case analysis to sum-marize the application conditions and key characteristics.[Research result/conclusion]The application of AI in NATO StratCom has formed an operational mechanism of"subject coordination-channel selection-audience analysis-content generation-effect feed-back",which is not a one-way linear path,but a multi-dimensional and complex cycle.With the support of AI,NATO StratCom has new characteristics such as wide coverage of propaganda,covert information transmission,and efficient communication activities.This de-ployment expands the boundaries of the militarization of AI,triggering an AI arms race in new domains.At the same time,it poses techni-cal and ethical challenges,potentially leading to international questioning.关键词
北约/战略传播/人工智能/俄乌冲突/信息战Key words
NATO/strategic communication/artificial intelligence/Russia-Ukraine conflict/InfoOps引用本文复制引用
刘箫锋,马建光,刘杨钺..北约战略传播中人工智能应用的机制与路径[J].情报杂志,2025,44(7):28-36,6,10.基金项目
国家社会科学基金重点项目"ANT视域下的颠覆性技术创新研究"(编号:20AZX006) (编号:20AZX006)
军队高层次科技创新人才工程自主科研项目"混合xxx新特点新机理研究"(编号:22-TDRCJH-02-063) (编号:22-TDRCJH-02-063)
全军军事类研究生资助课题重大项目"认知xxx研究"(编号:JY2023A009)研究成果. (编号:JY2023A009)
