Cooperative Mission Planning of USVs Based on Intention Recognition

Changting Shi, Yanqiang Wang, Jing Shen, Junhui Qi
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Abstract

To enhance task completion efficiency and quality, the coordination of Unmanned Surface Vehicle (USV) formations in complex environmental situations often requires user intervention. This paper proposes a human-machine collaborative approach for USV mission planning and explores a method for identifying user intervention intentions. A method for recognizing user intention based on intervention style was proposed. The method utilizes the Improved Particle Swarm Optimization-Support Vector Machine (IPSO-SVM) model to recognize intervention style and emphasizes human intention recognition to enhance the ability of USV in complex environments. The method involves modeling continuous intervention operations and incorporating intervention style features to accurately identify user intent. The study proposes a fusion method that combines feature attention, self-attention, and Fusion of Long Short-Term Memory Networks (FLSTMS) to achieve its purpose. Furthermore, it suggests a cooperative mission planning method based on prospect theory, which integrates user risk propensity and identified intentions to optimize planning. Simulation experiments confirm the effectiveness of this approach, highlighting its advantages over traditional methods.

Abstract Image

基于意图识别的 USV 合作任务规划
为了提高任务完成的效率和质量,在复杂环境情况下协调无人水面飞行器(USV)编队往往需要用户干预。本文提出了一种用于 USV 任务规划的人机协作方法,并探索了一种识别用户干预意图的方法。本文提出了一种基于干预风格的用户意图识别方法。该方法利用改进的粒子群优化-支持向量机(IPSO-SVM)模型来识别干预风格,并强调人的意图识别,以提高 USV 在复杂环境中的能力。该方法包括对连续干预操作进行建模,并结合干预风格特征来准确识别用户意图。研究提出了一种融合方法,将特征注意、自我注意和长短期记忆网络(FLSTMS)融合在一起,以实现其目的。此外,研究还提出了一种基于前景理论的合作任务规划方法,该方法综合了用户风险倾向和识别意图,以优化规划。模拟实验证实了这种方法的有效性,凸显了它与传统方法相比的优势。
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