Luciano Alessandro Ipsaro Palesi | Computer Science | Research Excellence Award

Research Excellence Award

Luciano Alessandro Ipsaro Palesi
University of Florence, Italy

Luciano Alessandro Ipsaro Palesi
AffiliationUniversity of Florence
CountryItaly
Scopus ID57226812823
Documents24
Citations282
h-index9
Subject AreaComputer Science
EventInternational Research Awards
ORCID0000-0001-8992-2084

Luciano Alessandro Ipsaro Palesi is a researcher affiliated with the University of Florence whose scholarly activities focus on computer science, artificial intelligence, smart cities, digital twins, intelligent transportation systems, and Internet of Things applications. His publication record demonstrates consistent contributions to data-driven urban intelligence and decision-support technologies. His research profile reflects interdisciplinary collaboration and sustained engagement with emerging computational methodologies.[1]

Abstract

This article summarizes the academic profile and research accomplishments of Luciano Alessandro Ipsaro Palesi. His work emphasizes intelligent mobility, explainable artificial intelligence, digital twin infrastructures, and smart city technologies. Through peer-reviewed publications and collaborative projects, he has contributed to practical solutions addressing urban planning, transportation optimization, and data-centric decision support systems.[2]

Keywords

Artificial Intelligence, Explainable AI, Smart Cities, Digital Twins, Intelligent Transportation Systems, Internet of Things, Deep Learning, Urban Mobility Analytics, Decision Support Systems, Data-Driven Computing.

Introduction

Modern computer science increasingly intersects with urban intelligence and connected infrastructures. Luciano Alessandro Ipsaro Palesi has participated in research addressing these evolving challenges through innovative computational models and scalable architectures. His publications highlight the integration of artificial intelligence with real-world mobility and smart city environments, creating measurable benefits for public services and urban sustainability.[3]

Research Profile

Affiliated with the University of Florence, Palesi has developed a research portfolio spanning digital twins, machine learning, mobility analytics, and Internet of Things ecosystems. His publication metrics include 24 indexed documents, 282 citations, and an h-index of 9. These indicators demonstrate active scholarly engagement and growing influence within applied computer science research communities.[1]

Research Contributions

His contributions include AI-driven traffic optimization, privacy-preserving mobility analysis, digital twin frameworks, and explainable artificial intelligence applications. Research outputs have explored predictive transportation models, public mobility demand matching, smart parking solutions, and urban environmental analytics. These studies support evidence-based decision making for municipalities and intelligent service platforms.[4]

Publications

Recent publications include studies on human-centered artificial intelligence, dynamic mobility demand matching, traffic signal optimization, digital twin architectures, and explainable AI methodologies. His work appears in recognized venues such as IEEE Access, Expert Systems with Applications, Computer Networks, Applied Soft Computing, and Big Data and Cognitive Computing. These publications collectively illustrate a consistent focus on intelligent systems and urban innovation.[5]

Research Impact

The practical orientation of his research has contributed to advancements in mobility management, smart infrastructure monitoring, and AI-enabled public services. Citation activity and collaborations across interdisciplinary teams indicate the relevance of his work within academic and applied settings. His studies support scalable solutions for contemporary urban and technological challenges.[2]

Award Suitability

The International Research Awards recognize individuals demonstrating sustained scholarly achievement and meaningful scientific contributions. Palesi’s publication record, citation performance, and involvement in advanced computational research align with these objectives. His interdisciplinary approach and engagement with emerging technologies support his suitability for recognition within international academic award programs.

Conclusion

Luciano Alessandro Ipsaro Palesi has established a notable academic profile through research focused on intelligent systems, smart cities, and artificial intelligence. His contributions demonstrate technical rigor, practical relevance, and collaborative scholarship. Continued research activity within these domains is expected to further strengthen his academic impact and professional recognition.

References

  1. Elsevier. (n.d.). Scopus author details: Luciano Alessandro Ipsaro Palesi, Author ID 57226812823. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57226812823
  2. Fanfani, M., Ipsaro Palesi, L. A., & Nesi, P. (2026). Human-Centered AI for Decision Support Systems: A Systematic Review of Application Domains, Architecture Designs, Current Trends and Future Directions. Big Data and Cognitive Computing.
    https://doi.org/10.3390/bdcc10060186
  3. Bellini, P., Ipsaro Palesi, L. A., Giovannoni, A., & Nesi, P. (2023). Managing Complexity of Data Models and Performance in Broker-Based Internet/Web of Things Architectures. Internet of Things.
    https://doi.org/10.1016/j.iot.2023.100834
  4. Fereidooni, Z., Ipsaro Palesi, L. A., & Nesi, P. (2025). Multi-Agent Optimizing Traffic Light Signals Using Deep Reinforcement Learning. IEEE Access.
    https://doi.org/10.1109/ACCESS.2025.3578518
  5. Bilotta, S., Ipsaro Palesi, L. A., & Nesi, P. (2025). Exploiting Open Data for CO2 Estimation via Artificial Intelligence and Explainable AI. Expert Systems with Applications.
    https://doi.org/10.1016/j.eswa.2025.128598

Shaowei Wang | Computer Science | Distinguished Scientist Award

Mr. Shaowei Wang | Computer Science | Distinguished Scientist Award

Guangzhou University | China

Dr. Shaowei Wang is currently an Associate Professor at the School of Artificial Intelligence, Guangzhou University. He earned his Ph.D. from the University of Science and Technology of China (USTC) in 2019. Prior to his academic appointment, he worked as an Applied Researcher at Tencent Technology (Shenzhen), where he contributed to industry-grade privacy-preserving solutions. His research primarily focuses on privacy-preserving computing, federated learning, and AI security, with a strong emphasis on differential privacy techniques and secure data sharing protocols. Dr. Wang has an impressive scholarly record, having authored or co-authored over 40 peer-reviewed papers, with 15 publications as the first or corresponding author in top-tier venues such as USENIX Security, IEEE S&P, INFOCOM, and ICDE. As of September 2025, his work has garnered 1,106 citations, achieving an h-index of 16 (Google Scholar indexed), reflecting the impact and relevance of his contributions to the field. He has been the Principal Investigator (PI) for six research projects, including three funded by the National Natural Science Foundation of China, and a key researcher in five national-level and regional-level projects. Notable ongoing research includes work on shuffled differential privacy, privacy attacks on pre-trained models, and secure digital identity protocols. His academic excellence and innovation have earned him multiple accolades, including an Honorable Mention Award at USENIX Security, a Top 3% Paper Award at ICASSP, and the First Prize in Natural Sciences from the Guangdong Artificial Intelligence Association. Dr. Wang remains committed to advancing the frontiers of privacy-preserving AI through impactful research, interdisciplinary collaboration, and high-quality publications in the global research community.

Profile: Scopus | Google Scholar

Featured Publications

Wang, S., Huang, L., Nie, Y., Zhang, X., Wang, P., Xu, H., & Yang, W. (2019). Local differential private data aggregation for discrete distribution estimation. IEEE Transactions on Parallel and Distributed Systems, 30(9), 2046–2059.

Xin, B., Yang, W., Geng, Y., Chen, S., Wang, S., & Huang, L. (2020). Private FL-GAN: Differential privacy synthetic data generation based on federated learning. In ICASSP 2020 – 2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) (pp. [pages not provided]). IEEE.

Shen, Y., Huang, L., Li, L., Lu, X., Wang, S., & Yang, W. (2015). Towards preserving worker location privacy in spatial crowdsourcing. In 2015 IEEE Global Communications Conference (GLOBECOM) (pp. 1–6). IEEE.

Nie, Y., Yang, W., Huang, L., Xie, X., Zhao, Z., & Wang, S. (2018). A utility-optimized framework for personalized private histogram estimation. IEEE Transactions on Knowledge and Data Engineering, 31(4), 655–669.

Wang, S., Huang, L., Nie, Y., Wang, P., Xu, H., & Yang, W. (2018). PrivSet: Set-valued data analyses with local differential privacy. In IEEE INFOCOM 2018 – IEEE Conference on Computer Communications (pp. 1088–1096). IEEE.

Yang, G., Wang, S., & Wang, H. (2021). Federated learning with personalized local differential privacy. In 2021 IEEE 6th International Conference on Computer and Communication Systems (ICCCS) (pp. [pages not provided]). IEEE.

Xin, B., Geng, Y., Hu, T., Chen, S., Yang, W., Wang, S., & Huang, L. (2022). Federated synthetic data generation with differential privacy. Neurocomputing, 468, 1–10.