Gaofan Ji | Robot Visual Navigation | Best Researcher Award

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Gaofan Ji | Robot Visual Navigation | Best Researcher Award

Mr. Gaofan Ji, Huzhou Institute of Zhejiang University, China.

Gaofan Ji, a passionate researcher in artificial intelligence 🤖, specializes in human posture estimation, robot visual navigation, and point cloud 3D reconstruction. Currently pursuing a master’s in Electronic Information Engineering 📚 at Huzhou University, Gaofan previously earned a bachelor’s degree in Vehicle Engineering 🚗 from Shandong University of Science and Technology. Proficient in Python, C++, ROS, and computer vision tools like PyTorch and OpenCV 💻, Gaofan thrives in creating innovative AI solutions. Beyond academia, he enjoys running, playing table tennis 🏓, and photography 📸, reflecting a well-rounded personality with a zest for technology and life.

Publication Profiles

Orcid

Education and Experience

  • 🎓 2018.9–2022.6: Bachelor’s in Vehicle Engineering, Shandong University of Science and Technology
  • 📖 2022.9–2025.6: Master’s in Electronic Information Engineering, Huzhou University
  • 🏢 2022.9–Present: Researcher at Huzhou Institute of Zhejiang University in Computer Vision

Suitability For The Award

Mr. Gaofan Ji, a postgraduate student in Electronic Information Engineering at Huzhou University, specializes in Computer Vision with a focus on human posture estimation, robot visual navigation, and 3D point cloud reconstruction. With expertise in Python, C++, ROS, Pytorch, and OpenCV, he has honed skills in artificial intelligence, applying them to practical research. His academic background, technical proficiency, and passion for AI make him a promising candidate for the Best Researcher Award.

Professional Development

Gaofan Ji’s professional expertise is centered on cutting-edge technologies in computer vision and artificial intelligence 🤖. Skilled in Python, C++, ROS, and Ubuntu systems, he leverages tools like PyTorch and OpenCV for AI development 💻. At the Huzhou Institute, his work focuses on human posture estimation, robot visual navigation, and 3D point cloud reconstruction 🧩. With a strong foundation in vehicle and electronic information engineering 🚗, he is adept at integrating software tools with AI for innovative solutions. A tech enthusiast who continuously explores advancements, Gaofan combines technical skills with a passion for problem-solving and innovation 🌟.

Research Focus

Publication Top Notes

  • 📄 MBSDet: A Novel Method for Marine Object Detection in Aerial Imagery with Complex Background Suppression (2024) 🌊🚁📷
  • 📄 A Novel Multi-LiDAR-Based Point Cloud Stitching Method Based on a Constrained Particle Filter (2024)  📡🛸🌐

Ms. Yuanjiong Ying | Robotics Awards | Best Researcher Award

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Ms. Yuanjiong Ying | Robotics Awards | Best Researcher Award

Ms. Yuanjiong Ying, Shanghai Jiao Tong University, China

Ms. Yuanjiong Ying is an accomplished M.S. student in Robotics at Shanghai Jiao Tong University, where she also earned her B.S. in Mechanical Engineering, recognized with honors such as the Outstanding Graduate Award and Academic Scholarship. With extensive internship experience at Huawei’s 2012 Lab and JAKA Robotics Co., Ltd., she has developed advanced algorithms for autonomous driving and collaborative robotics. Her project leadership includes creating state estimation algorithms for UAVs in GPS-denied environments and developing a vision-inertial SLAM system, showcasing her expertise in robotics, visual perception, and autonomous systems.

Professional Profile:

Scopus

Suitability for the Award

Ms. Yuanjiong Ying is an outstanding candidate for the Best Researcher Award due to the following reasons:

  1. Academic Excellence:
    • Ms. Ying has consistently demonstrated academic excellence throughout her studies, maintaining a top GPA and earning numerous honors and awards. Her rigorous academic background in robotics and mechanical engineering, coupled with her performance at one of China’s top universities, positions her as a leading young researcher.
  2. Research Impact:
    • Despite her relatively early career stage, Ms. Ying has already made significant contributions to the field of robotics, evidenced by her authorship of key publications and patents. Her work on multi-view active sensing, collision-evaluation systems, and efficient moving horizon estimation has the potential to advance human-robot interaction, UAV localization, and collaborative robotics.
  3. Professional Experience:
    • Her internships at Huawei and JAKA Robotics provided her with practical experience in applying her research to real-world problems, particularly in autonomous driving and collaborative robotics. Her contributions to high-resolution visual representation and safety trajectory planning demonstrate her ability to translate complex theoretical concepts into practical applications.
  4. Leadership and Innovation:
    • Ms. Ying’s leadership roles in project management and her involvement in extracurricular activities reflect her ability to lead and innovate. Her experience in organizing significant university events also suggests strong organizational and interpersonal skills, which are critical for a successful research career.

Summary of Qualifications

  1. Education:

    • M.S. in Robotics (2022.09 – 2025.06), Shanghai Jiao Tong University:
      • GPA: 3.8/4.0, Top 10%.
    • B.S. in Mechanical Engineering (2018.09 – 2022.06), Shanghai Jiao Tong University:
      • GPA: 3.7/4.3, Top 15%.
      • Honors: Outstanding Graduate Award, Outstanding Student Leader Award, Academic Scholarship, Excellence Scholarship.

  2. Publications & Patents:

    • Authored and co-authored several impactful papers and patents, including:
      • “Multi-View Active Sensing for Human-Robot Interaction via Hierarchically Connected Tree” (1st Author, SNA).
      • “CEASE: Collision-Evaluation-based Active Sense System for Collaborative Robotic Arms” (2nd Author, TIM).
      • “A Computationally Efficient Moving Horizon Estimation for Flying Robots’ Localization Regarding a Single Anchor” (2nd Author, ROBIO).
      • Patents: Proactive Safety Protection Technology for Collaborative Robots, Active Vision Algorithm Based on Cylindrical Representation of Humanoid Obstacles, Design of a Decoupled Active Vision Mechanism Enclosure.

  3. Internship Experience:

    • Huawei 2012 Lab, Central Media Technology Institute (2024.06 – Present):
      • Worked on Autonomous Driving Algorithm as an intern, focusing on high-resolution visual representation for multimodal large models in autonomous parking scenarios.
    • JAKA Robotics Co., Ltd. (2023.02 – 2024.03):
      • Developed visual perception algorithms for collaborative robots, focusing on safety trajectory planning and proactive visual perception.

  4. Project Experience:

    • Flying Robots’ Localization Algorithms Based on Multi-Sensor Data Fusion:
      • Project Lead, developed state estimation algorithms for UAV positioning in GPS-denied environments.
    • UAV Simultaneous Localization and Mapping System Based on Vision-Inertial Sensors:
      • Developed a tightly-coupled SLAM system for UAV localization.

  5. Extracurricular Activities:

    • Director of Culture and Sports Center, Shanghai Jiao Tong University Student Union (2019.03 – 2022.03):
      • Organized significant events such as the Graduation Ceremony and Anniversary Celebration.

  6. Professional Skills:

    • Programming Languages: Python, C++, MATLAB.
    • Software: PyTorch, HuggingFace, ROS, MoveIt!, Gazebo, Rviz, Linux, Git, Solidworks, AutoCAD.
    • LLMs: Proficient in LLM principles and fine-tuning; Familiar with models like LLaVA, CLIP, LLaMA, InternVL.
    • Robotic Systems: Proficient in the full operation process of robots (perception, planning, control); Familiar with VINS-Fusion framework, multi-sensor data fusion, and multi-camera environmental perception.

Conclusion

Ms. Yuanjiong Ying is a highly suitable candidate for the Best Researcher Award. Her combination of academic excellence, impactful research, professional experience, and leadership qualities makes her an exceptional contender for this recognition. Her contributions to robotics, particularly in human-robot interaction and UAV localization, highlight her potential to become a leading researcher in her field.