Track Ⅱ

Mission Planning and Control Technology for Low-Altitude Unmanned Aerial Vehicle   (Submission Deadline: Sep. 30, 2025)

(低空无人飞行器任务规划与管控技术)


Chair: 

Co-chair: 

Changping Du

Binghua Li

Zhejiang University, China

Hangzhou International Innovation Institute of Beihang University, China


Keywords:

Topics:

  • Mission Planning 

    (任务规划)

  • Intelligent Control and Optimization 

    (智能控制优化)

  • Intelligent Obstacle Avoidance 

    (智能避障)

  • Intelligent Detection and Guidance 

    (智能探测与制导)

  • Complex Environment Representation 

    (复杂环境表征)

  • UAV Control 

    (无人机管控)

  • Mission Management Techniques for Low-Altitude Scenarios 

    (低空场景任务管理技术)

  • Mission Planning Technology for Low-Altitude Scenarios 

    (低空场景任务规划技术)

  • Urban Complex Environment Characterization Technology 

    (城市复杂环境表征技术)

  • Intelligent Detection and Situation Awareness Technology 

    (智能探测与感知技术)

  • Intelligent Location and Guidance Technology 

    (智能定位与制导技术)

  • Intelligent Obstacle Avoidance and Optimization Technology 

    (智能避障与控制优化技术)

  • Command and Control Technology for Low-Altitude Unmanned System 

    (低空无人系统指挥控制技术)

  • Flight Safety Management Technology for Low-Altitude Unmanned Systems 

    (低空无人系统飞行安全管理技术)


Summary:

As one of the core carriers of low-altitude economy, low-altitude unmanned aerial vehicle (LUAV) will be applied in more and more scenarios and scales. Therefore, it is of great significance to study and develop LUAV mission planning and control technology. This session focuses on the latest research progress and engineering applications of LUAV in mission planning, complex.


低空无人飞行器作为低空经济的核心载体之一,其应用场景和应用规模将不断扩展,研究和发展低空无人飞行器任务规划与管控技术具有重要意义。本主题重点介绍低空无人飞行器在城市复杂环境中任务规划、复杂环境表征、智能避障、智能探测与制导、无人机管控、智能控制优化等方面的最新研究进展和工程应用。欢迎来自高校、科研院所、产业界的专家学者踊跃投稿、参与讨论。