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A Flexible Task Planning Method for Air–Ground Cross-Domain Uncrewed Swarm Inspired by Wolf Pack Hunting Behavior

群体行为 任务(项目管理) 战场 运动规划 计算机科学 路径(计算) 时间范围 人工智能 遥控水下航行器 任务分析 群机器人 实时计算 车辆动力学 机器人 模拟 粒子群优化 分布式计算 工程类 运筹学 避碰 多智能体系统 非线性系统
作者
QIANG PENG,Husheng Wu,Renjun Zhan,XUE BAI,Yuanqing Xia,Yinan Guo,FENG WANG
出处
期刊:IEEE Transactions on Aerospace and Electronic Systems [Institute of Electrical and Electronics Engineers]
卷期号:62: 7085-7102
标识
DOI:10.1109/taes.2026.3668746
摘要

To address the highly nonlinear and multimodal planning challenges encountered by the air-ground cross-domain unmanned swarm when executing time-sensitive missions in dynamic battlefield environments, this paper proposes a Flexible Task Planning (FTP) method inspired by the self-organized hunting behavior of wolf packs. By constructing models for heterogeneous unmanned platforms, time-constrained multi-task scenarios, and three-dimensional battlefield environments, a multi-objective effectiveness evaluation system, which integrates value gains, path costs, time costs, and damage costs, is established. Leveraging the wolf pack hunting mechanism, a rolling horizon strategy is adopted to achieve online real-time planning in dynamic settings: target priorities are dynamically ranked based on cost-effectiveness assessments, and a transition probability calculation method that integrates relative cost-effectiveness and responsiveness is designed to achieve flexible task allocation. Additionally, swarm collaboration effects are quantified with parallel path planning and a cooperative gain factor. Simulation results indicate that FTP performs exceptionally well in scenarios involving expanded swarm scales and increased task complexity, with a stable comprehensive score above 0.8 and a task completion rate over 94%. Moreover, its computational efficiency is significantly superior to that of traditional methods, which validates its remarkable advantages in terms of dynamic adaptability, collaborative efficiency, and scalability. This proposed approach offers an efficient solution for the cooperative operations of air-ground cross-domain unmanned swarm.
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