沈劭劼团队25年成果一览：9篇顶刊顶会，从算法到系统的工程闭环

Core Viewpoint - The article emphasizes the advancements and contributions of the Aerial Robotics Group (ARCLab) at Hong Kong University of Science and Technology (HKUST) in the fields of autonomous navigation, drone technology, sensor fusion, and 3D vision, highlighting their dual focus on academic influence and engineering implementation [2][3][23]. Summary by Sections Team and Leadership - The ARCLab is led by Professor Shen Shaojie, who has been instrumental in the development of intelligent driving technologies and has received numerous accolades for his research contributions [2][3]. Achievements and Recognition - The team has received multiple prestigious awards, including IEEE T-RO Best Paper Awards and IROS Best Student Paper Awards, showcasing their high academic impact and engineering capabilities [3][4]. Research Focus and Innovations - ARCLab's research focuses on five main areas: more stable state estimation and multi-source fusion, lightweight mapping and map alignment, reliable navigation in complex/extreme environments, comprehensive scene understanding and topology reasoning, and precise trajectory prediction and decision-making [23][24]. Productization and Engineering Execution - The lab emphasizes a product-oriented approach with strong engineering execution, addressing real-world challenges and prioritizing solutions that are reproducible, deployable, and scalable [3][4]. Talent Development - ARCLab has successfully nurtured a number of young scholars and technical leaders who are active in both academia and industry, contributing to the lab's sustained high output and influence [4]. Key Research Papers and Contributions - The article outlines several key research papers from 2025, focusing on advancements in state estimation, mapping, navigation, scene understanding, and trajectory prediction, all of which are aimed at enhancing the robustness and efficiency of autonomous systems [4][23]. Keywords for 2025 - The keywords for the year 2025 are stability, lightweight, practicality, universality, and interpretability, reflecting the lab's ongoing commitment to addressing real-world challenges in autonomous systems [24].