Zhengquan Piao | Robotics | Best Researcher Award

Dr. Zhengquan Piao | Robotics | Best Researcher Award

Dr. Zhengquan Piao | Robotics | – Engineer at China North Artificial Intelligence & Innovation Research Institute, China

Zhengquan Piao is an emerging researcher in computer vision, autonomous systems, and intelligent detection technologies. His research reflects a growing focus on advanced methodologies such as deep learning, pattern recognition, and sensor fusion. With several peer-reviewed publications and a rising citation profile, Piao is positioning himself as a significant contributor to the fields of intelligent transportation, object detection, and AI-driven robotics. His research emphasizes practical, scalable solutions that address real-world challenges, particularly in vehicle detection, underground mapping, and smart navigation systems.

Profile Verified:

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Education:

Zhengquan Piao received his academic training in computer science and artificial intelligence, where he developed a strong foundation in machine learning, algorithm design, and control theory. His education likely includes postgraduate study from a research-focused institution, possibly Beijing Institute of Technology (BIT), where he deepened his understanding of computer vision, neural networks, and autonomous systems. This academic background has provided him with the analytical and technical tools essential for his cutting-edge research in object recognition and navigation.

Experience:

Professionally, Piao has gained hands-on experience through a range of academic and technical projects that integrate AI with robotics and automation. He has played key roles in designing object detection architectures, enhancing vehicle perception systems, and developing algorithms for real-time localization in complex environments. His participation in national conferences and collaborations with multidisciplinary teams reflects a well-rounded profile of academic research and practical engineering. Piao’s project involvement also demonstrates his ability to work across domains, including transportation safety, aerial imaging, and intelligent mapping.

Research Interest:

Piao’s research interests center around few-shot learning, domain adaptation, autonomous navigation, and sensor-based object detection. He is especially interested in how to enable machines to learn from limited data in resource-constrained environments. His projects often combine LiDAR, camera fusion, deep neural networks, and unsupervised learning to build intelligent systems capable of operating reliably in both structured and unstructured settings. He is also focused on applications in autonomous driving and underground navigation, where accuracy and robustness are critical.

Awards:

While Zhengquan Piao has not yet received formal individual awards, his contributions have begun to gain traction in the academic community, evidenced by a growing number of citations and involvement in collaborative, government-funded research. His compliance with open-access mandates and continued publication in high-quality venues highlight a dedication to research transparency and academic integrity. These efforts position him well for future recognition and academic honors.

Publications:

📘 “Few-shot traffic sign recognition with clustering inductive bias and random neural network” – Pattern Recognition (2020), cited by 38 articles – proposes a novel few-shot learning model for traffic signs.
📙 “AccLoc: Anchor-Free and two-stage detector for accurate object localization” – Pattern Recognition (2022), cited by 25 – introduces an efficient detection method free of anchor boxes.
📗 “Unsupervised domain-adaptive object detection via localization regression alignment” – IEEE Transactions on Neural Networks and Learning Systems (2023), cited by 20 – focuses on domain adaptation in object detection.
📕 “Anchor-free object detection with scale-aware networks for autonomous driving” – Electronics (2022), cited by 3 – improves detection in self-driving vehicle systems.
📓 “An Intelligent Localization Method for Underground Space Targets Based on the Fusion of Camera and LiDAR” – ICIRAC (2024) – addresses underground localization with sensor fusion.
📒 “An Efficient Compression Method for Collaborative 3D Mapping in Confined Space with Limited Resources” – IEEE Conference on Signal, Information and Data (2024) – introduces 3D data compression methods.
📔 “Downsample-Based Improved Dense Point Cloud Registration Framework” – International Conference on Guidance, Navigation and Control (2024) – proposes improvements to point cloud registration for dense environments.

Conclusion:

In summary, Zhengquan Piao is a promising researcher with a clear trajectory of impactful and innovative work. His focus on real-world challenges, including autonomous vehicle perception, few-shot learning, and sensor fusion, demonstrates both originality and technical depth. With growing academic recognition and a solid portfolio of publications, he has established himself as a rising contributor in AI and robotics. Although still early in his academic journey, Piao’s contributions and collaborative spirit strongly position him as a worthy candidate for the Best Researcher Award.

 

 

 

 

Fatemeh Golpayegani | Artificial Intelligence | Best Researcher Award

Dr. Fatemeh Golpayegani | Artificial Intelligence | Best Researcher Award 

Assistant Professor | University College Dublin | Ireland

📜 Short Bio:

Fatemeh Golpayegani is currently an Assistant Professor at the School of Computer Science, University College Dublin (UCD), where she contributes significantly to research and academic activities in the field of computer science. Her expertise lies in multi-agent systems, edge computing, and intelligent transport systems.

Profile:

SCOPUS

🎓 Education:

Fatemeh pursued her academic journey with a strong foundation in computer science:

  • Ph.D. in Computer Science (2013-2018)
    Trinity College Dublin, Dublin, Ireland
    Thesis Title: “Collaboration community formation in open systems for agents with multiple goals.”
    Supervised by Prof. Siobhan Clarke.
  • M.Sc. in Computer (Software) Engineering (2010-2012)
    Sharif University of Technology, Tehran, Iran
    Thesis Title: “Development of a process line engineering approach based on product line engineering methods for engineering agent-oriented methodologies.”
  • B.Sc. Hons in Computer (Software) Engineering (2006-2010)
    Alzahra University, Tehran, Iran

👩‍🏫 Experience:

Fatemeh has held various academic and professional roles:

  • Assistant Professor (Dec 2020 – Present)
    School of Computer Science, UCD, Dublin, Ireland
  • Postdoctoral Researcher (June 2018 – Jan 2019)
    CONNECT, School of Computer Science and Statistics, Trinity College Dublin, Ireland
  • Software Engineer (Sept 2010 – Aug 2013)
    ITOrbit, Tehran, Iran

🔍 Research Interest:

Her research interests encompass:

Multi-agent Systems, Edge Computing, Intelligent Transport Systems, Agent-based Modeling

🏆 Award:

Fatemeh Golpayegani is recognized as a member of the Young Academy of Ireland (2023-2027), highlighting her contribution to advancing research and cultural life in Ireland.

📚 Publications:

Fatemeh has contributed significantly to her field with numerous peer-reviewed publications. A selection of her notable works include:

Adaptation in Edge Computing: A review on design principles and research challenges
Published in ACM Transactions on Autonomous and Adaptive Systems, 2024. Cited by: 15

Handling uncertainty in self-adaptive systems: an ontology-based reinforcement learning model
Published in Journal of Reliable Intelligent Environments, 2023. Cited by: 20

Towards the Use of Hypermedia MAS and Microservices for Web Scale Agent-Based Simulation
Published in SN Computer Science, 2022.

Intelligent Shared Mobility Systems: A Survey on Whole System Design Requirements, Challenges and Future Direction
Published in IEEE Access, 2022.

Using Social Dependence to Enable Neighbourly Behaviour in Open Multi-agent Systems
Published in ACM Transactions on Intelligent Systems and Technology (TIST), 2019.

These publications underscore her research breadth and impact in areas such as adaptive systems, shared mobility, and multi-agent collaboration.