Rafael Natalio Fontana Crespo – Sustainable Development – Young Scientist Award

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Rafael Natalio Fontana Crespo - Sustainable Development - Young Scientist Award

Young Scientist Award - Italy

AUTHOR PROFILE

ORCID

RAFAEL NATALIO FONTANA CRESPO 🌊

Rafael Natalio Fontana Crespo is a distinguished researcher in the field of power systems and renewable energy forecasting. His expertise lies in applying machine learning techniques to optimize grid power forecasting and improve the reliability of renewable energy systems. He is particularly known for his innovative work in wave energy converters, making him a leader in the intersection of artificial intelligence and sustainable energy technologies.

RESEARCH IN WAVE ENERGY πŸ”‹

Rafael's research primarily focuses on short-term grid power forecasting, where he leverages machine learning techniques to enhance the prediction accuracy of wave energy converters. His recent comparative analysis of these techniques has highlighted new methods for improving uncertainty analysis in energy forecasting, which is crucial for integrating renewable sources into the grid.

EXPERT IN ARTIFICIAL INTELLIGENCE πŸ€–

With a strong foundation in engineering applications of artificial intelligence, Rafael has made significant contributions to the field. His work on LSTM (Long Short-Term Memory) models for grid power forecasting provides novel insights into how AI can be applied to improve the stability and efficiency of energy systems. His research paves the way for smarter, AI-driven energy management solutions.

INNOVATIONS IN ADDITIVE MANUFACTURING πŸ› οΈ

Rafael's contributions extend beyond energy systems to manufacturing technologies. He played a key role in developing a distributed software platform for additive manufacturing, showcased at the IEEE International Conference on Emerging Technologies and Factory Automation. This platform aims to streamline the manufacturing process, pushing forward the boundaries of Industry 4.0.

PUBLICATIONS AND IMPACT πŸ“š

Rafael has authored several influential papers in prestigious journals and conferences. His work on machine learning and energy systems has been widely cited, including his 2024 paper on grid power forecasting published in the Engineering Applications of Artificial Intelligence journal. He continues to influence the scientific community with his cutting-edge research in AI applications.

CONFERENCE CONTRIBUTIONS 🌍

Rafael regularly presents his research at international conferences, such as the IEEE Annual Computers, Software, and Applications Conference (COMPSAC). His presentations on wave energy forecasting and AI-based solutions for energy grid management have garnered attention, solidifying his reputation as a forward-thinking engineer and researcher in global platforms.

FUTURE-ORIENTED RESEARCH 🧠

With a clear vision for the future, Rafael aims to continue advancing AI-driven solutions for renewable energy systems. His ongoing work explores the integration of artificial intelligence in real-time energy management, making energy grids more adaptive, resilient, and capable of supporting large-scale renewable energy adoption.

NOTABLE PUBLICATION

Title: A comparative analysis of Machine Learning Techniques for short-term grid power forecasting and uncertainty analysis of Wave Energy Converters
Authors: Rafael Natalio Fontana Crespo, Alessandro Aliberti, Lorenzo Bottaccioli, Edoardo Pasta, Sergej Antonello Sirigu, Enrico Macii, Giuliana Mattiazzo, Edoardo Patti
Year: 2024
Journal: Engineering Applications of Artificial Intelligence

Title: A Distributed Software Platform for Additive Manufacturing
Authors: Rafael Natalio Fontana Crespo, Davide Cannizzaro, Lorenzo Bottaccioli, Enrico Macii, Edoardo Patti, Santa Di Cataldo
Year: 2023
Conference: 2023 IEEE 28th International Conference on Emerging Technologies and Factory Automation (ETFA)

Title: LSTM for Grid Power Forecasting in Short-Term from Wave Energy Converters
Authors: Rafael Natalio Fontana Crespo, Alessandro Aliberti, Lorenzo Bottaccioli, Enrico Macii, Giorgio Fighera, Edoardo Patti
Year: 2023
Conference: 2023 IEEE 47th Annual Computers, Software, and Applications Conference (COMPSAC)

Syed Nasir Abbas – Sustainable Development – Best Researcher Award

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Syed Nasir Abbas - Sustainable Development - Best Researcher Award

University of Sargodha - Pakistan

AUTHOR PROFILE

SCOPUS

πŸŽ“ EDUCATIONAL BACKGROUND AND RESEARCH EXPERIENCE

Syed Nasir Abbas is an accomplished civil engineer with a deep focus on material science, particularly in the areas of concrete and composite materials. He has completed his BSc and MSc research, investigating crucial topics such as the "Relationship between Plasticity Index and Expansion Index" and the "Flexural Capacity of Brick – FRP Composite." His academic work laid the foundation for further explorations into the mechanical behavior of construction materials.

πŸ”¬ RESEARCH SUPERVISION AND TEACHING

With years of experience in the field, Syed Abbas has guided multiple research projects for both Civil Engineering and Civil Engineering Technology students. His supervision has led to the successful completion of various final-year projects, emphasizing the impact of alternative materials on concrete properties, such as the use of Waste Foundry Sand (WFS) to enhance compressive strength and workability.

πŸ—οΈ INNOVATIVE RESEARCH IN CONCRETE AND COMPOSITE MATERIALS

Syed Abbas has made significant contributions to understanding the mechanical properties of concrete by integrating recycled materials. His groundbreaking work includes investigating the use of high-density polyethylene (HDPE), electronic waste (e-waste), and fly ash-based geo polymer concrete. These studies aim to improve the sustainability and performance of modern construction materials, which are vital for the future of civil engineering.

πŸ“š PUBLISHED WORKS AND SCIENTIFIC CONTRIBUTIONS

Syed Abbas has published several papers in reputed journals, such as MDPI Sustainability and Science International Lahore. His research covers a wide range of topics, from flexural behavior of brick-FRP composites to the mechanical properties of concrete with alternative aggregates like HDPE and fly ash. His work highlights the potential for more sustainable and efficient construction materials.

🌍 SUSTAINABLE BUILDING MATERIALS

A core aspect of Syed Abbas’s research is sustainability in construction. His investigations into the use of recycled and alternative materials, including the combined effect of silica fume and various fibers, showcase his dedication to reducing the environmental impact of concrete production. This focus aligns with global efforts to promote eco-friendly and sustainable building practices.

🧱 EXPERIMENTAL STUDIES ON CONCRETE PERFORMANCE

Syed Abbas has conducted numerous experimental studies aimed at improving concrete’s compressive strength and overall performance. By exploring the effects of different compaction methods, admixtures, and the partial replacement of cement with silica fume, he continues to push the boundaries of material science in civil engineering.

πŸ† AWARDS AND RECOGNITION IN THE FIELD

Through his dedication and innovative approach, Syed Abbas has earned recognition in the civil engineering community. His research not only contributes to the academic understanding of material properties but also offers practical solutions for improving construction techniques and building sustainability in the modern world.

NOTABLE PUBLICATION

Title: Combined effect of silica fume and various fibers on fresh and hardened properties of concrete incorporating HDPE aggregates
Authors: S.N. Abbas, M.I. Qureshi, M.K. Alkharisi, M. Alturki, Z. Ahmad
Journal: Construction and Building Materials
Year: 2024

Title: An Investigation of Mechanical Properties of Fly Ash Based Geopolymer and Glass Fibers Concrete
Authors: S.N. Abbas, M.I. Qureshi, M.M. Abid, A. Zia, M.A.U.R. Tariq
Journal: Sustainability (Switzerland)
Year: 2022

Title: An Investigation of Mechanical Properties of Concrete by Applying Sand Coating on Recycled High-Density Polyethylene (HDPE) and Electronic-Wastes (E-Wastes) Used as a Partial Replacement of Natural Coarse Aggregates
Authors: S.N. Abbas, M.I. Qureshi, M. Abid, M.A.U.R. Tariq, A.W.M. Ng
Journal: Sustainability (Switzerland)
Year: 2022