Giuseppe Marano | Structural Engineering | Environmental Leadership in Civil Engineering Award

Environmental Leadership in Civil Engineering Award

Giuseppe Marano
Politecnico di Torino

Giuseppe Marano
Affiliation Politecnico di Torino
Country Italy
Scopus ID 57382102800
Documents 374
Citations 5901
h-index 44
Subject Area Structural Engineering
Event Global Civil Engineering Awards
ORCID 0000-0001-8472-2956

Giuseppe Marano is a distinguished researcher in structural engineering at Politecnico di Torino whose scholarly activities have contributed to the advancement of sustainable structural systems, optimization methods, reliability analysis, and innovative civil engineering design approaches. Through an extensive publication record and significant citation impact, his work has supported the development of efficient engineering solutions that align with modern environmental and infrastructure challenges. His academic contributions demonstrate a sustained commitment to scientific excellence, interdisciplinary collaboration, and the responsible advancement of civil engineering knowledge.[1]

Abstract

Giuseppe Marano has established a notable academic profile in structural engineering through research focused on structural optimization, reliability assessment, sustainable construction systems, and advanced computational methods. His publications address challenges associated with resilient infrastructure, material efficiency, and innovative engineering design. By integrating analytical modeling with practical engineering applications, he has contributed to improving structural performance while supporting environmental sustainability objectives. The breadth of his scholarly output, combined with substantial citation recognition, reflects the influence of his work within the international engineering community. These achievements position him as a significant contributor to contemporary civil engineering research and innovation.[1][2]

Keywords

Structural Optimization, Reliability Analysis, Sustainable Structures, Evolutionary Algorithms, Steel Structures, Concrete Structures, Infrastructure Resilience, Computational Mechanics, Structural Design, Civil Engineering Innovation.

Introduction

Giuseppe Marano has pursued research addressing complex engineering challenges related to structural behavior, optimization techniques, and sustainable infrastructure development. His investigations combine theoretical rigor with practical relevance, supporting the advancement of engineering methodologies capable of improving safety, efficiency, and long-term environmental performance within civil engineering systems.[2]

Research Profile

Giuseppe Marano’s research profile encompasses structural engineering, optimization algorithms, reliability-based design, and sustainable infrastructure analysis. His scholarly activities demonstrate extensive engagement with computational methods and engineering applications that support improved structural efficiency, resource conservation, and resilience across diverse civil engineering projects and built environments.[1]

Research Contributions

Giuseppe Marano has contributed to the development of optimization frameworks and reliability assessment methodologies that support sustainable structural design. His studies have enhanced understanding of material utilization, structural performance evaluation, and computational decision-making processes, facilitating more efficient engineering solutions aligned with environmental and economic considerations.[3]

Publications

Giuseppe Marano has authored and co-authored numerous peer-reviewed publications addressing structural optimization, advanced computational techniques, reliability engineering, and sustainable construction practices. His research outputs have appeared in recognized international journals and have contributed substantially to ongoing academic discussions within structural and civil engineering disciplines.[2][4]

Research Impact

Giuseppe Marano’s research impact is reflected through substantial citation metrics, international visibility, and broad scholarly engagement. His work has informed subsequent studies in optimization and structural engineering while supporting the adoption of analytical approaches that contribute to sustainable infrastructure planning and evidence-based engineering decision making.[1]

Award Suitability

Giuseppe Marano demonstrates characteristics aligned with the Environmental Leadership in Civil Engineering Award through sustained contributions to efficient structural systems, optimization-driven sustainability, and engineering innovation. His research supports environmentally responsible infrastructure development while advancing scientific knowledge that promotes resource-conscious and resilient engineering practices.[3][5]

Conclusion

Giuseppe Marano has developed an influential body of research within structural engineering that combines scientific rigor, practical relevance, and sustainability-oriented innovation. His publication record, citation performance, and contributions to optimization-based engineering research collectively support recognition within international civil engineering and environmental leadership initiatives.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Giuseppe Marano, Author ID 57382102800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57382102800
  2. Google Scholar. (n.d.). Citation metrics and publication overview for Giuseppe Marano.
    https://scholar.google.com/citations?user=55sHnI4AAAAJ&hl=en&oi=sra
  3. Xiong, B., Demartino, C., Xu, J., Simi, A., Marano, G. C., & Xiao, Y. (2024). High-strain rate compressive behavior of concrete made with substituted coarse aggregates: Recycled crushed concrete and clay bricks. Construction and Building Materials, 450, 138924.
    https://doi.org/10.1016/j.conbuildmat.2021.123875
  4. ResearchGate. Research profile and publication archive for Giuseppe Marano.
    https://www.researchgate.net/profile/Giuseppe-Marano-2
  5. Global Civil Engineering Awards. Environmental Leadership in Civil Engineering Award information.
    https://civilengineeringawards.com/

Paula Leal | Geotechnical Engineering | Innovative Research Award

Innovative Research Award

Paula Leal
University of Beira Interior, Portugal

                        Paula Leal
Affiliation University of Beira Interior
Country Portugal
Subject Area Geotechnical Engineering
Event Global Civil Engineering Awards
ORCID 0009-0009-7319-9034

The Innovative Research Award article presents an academic overview of Paula Leal and her scholarly activities associated with geotechnical engineering research at the University of Beira Interior. The profile summarizes research interests, publication activities, academic contributions, and potential relevance to the Global Civil Engineering Awards. Information presented is intended for academic recognition purposes and is supported through publicly available researcher identifiers and scholarly records.[1][2]

Abstract

Paula Leal is affiliated with the University of Beira Interior and contributes to research within the field of geotechnical engineering. Her academic profile reflects engagement with engineering investigations related to soil behavior, geotechnical characterization, infrastructure performance, and applied civil engineering methodologies. Through scholarly dissemination and participation in research activities, her work supports the advancement of engineering knowledge relevant to sustainable construction and geotechnical assessment. Academic identifiers including ORCID and indexed researcher profiles facilitate transparency, visibility, and accessibility of her scientific contributions. These attributes collectively demonstrate a commitment to research excellence, professional development, and scholarly communication within engineering disciplines.[1][2]

Keywords

Geotechnical Engineering, Soil Mechanics, Ground Improvement, Foundation Engineering, Civil Engineering, Infrastructure Assessment, Engineering Geology, Sustainable Construction, Geomechanics, Research Innovation.

Introduction

Geotechnical engineering plays a fundamental role in infrastructure safety, construction performance, and sustainable development. Paula Leal’s academic activities contribute to this field through research engagement, scholarly communication, and participation in engineering investigations. Her professional profile reflects continued involvement in advancing technical understanding and practical engineering applications.[1]

Research Profile

As a researcher associated with the University of Beira Interior, Paula Leal maintains an identifiable scholarly presence through recognized academic platforms. Her profile demonstrates participation in engineering research and supports the dissemination of scientific findings relevant to geotechnical engineering and related civil engineering disciplines.[1][2]

Research Contributions

Research contributions attributed to Paula Leal are associated with advancing knowledge in geotechnical engineering through analytical investigation, technical assessment, and scientific reporting. Such work supports evidence-based engineering practices and contributes to the broader understanding of ground behavior and infrastructure-related challenges.[1][3]

Publications

Publication activity represents an important indicator of scholarly engagement. Indexed author profiles associated with Paula Leal indicate participation in academic publishing and dissemination of research findings. These publications contribute to the visibility of engineering research and support ongoing scientific dialogue within the geotechnical community.[1]

Research Impact

The impact of engineering research extends beyond publication outputs by informing professional practice, supporting infrastructure development, and encouraging methodological improvements. Through scholarly dissemination and academic visibility, Paula Leal’s research profile contributes to knowledge exchange within engineering and applied scientific communities.[1][2]

Award Suitability

Paula Leal demonstrates characteristics commonly considered in academic recognition programs, including institutional affiliation, scholarly dissemination, professional visibility, and engagement with engineering research.[3] These attributes align with the objectives of the Global Civil Engineering Awards and support consideration for recognition under innovation-focused categories.[2]

Conclusion

The academic profile of Paula Leal reflects active engagement within geotechnical engineering and participation in scholarly research activities. Through recognized researcher identifiers, publication records, and institutional affiliation, her contributions support scientific advancement and demonstrate relevance to academic recognition initiatives within civil engineering disciplines.[1][2]

References

  1. ORCID. (n.d.). Research profile of Paula Leal ORCID Registry. https://orcid.org/0009-0009-7319-9034
  2. Fernandes-Leal, P. C., Moyano-Ayala, H. P., & Dinis-Almeida, M. S. F. (n.d.). Cold asphalt mixtures with industrial waste for rapid pavement repairs. https://www.preprints.org/manuscript/202605.0220

  3. Fernandes-Leal, P. C., Moyano-Ayala, H. P., & Dinis-Almeida, M. S. F. (n.d.). Cold asphalt mixtures with industrial by-products for rapid pavement repairs. https://www.mdpi.com/2071-1050/18/10/5147

Maryam Nasim | Structural Health Monitoring | Innovator of the Year in Civil Engineering Award

Dr. Maryam Nasim | Structural Health Monitoring | Innovator of the Year in Civil Engineering Award

Research Fellow | University of Melbourne | Australia

Dr. Maryam Nasim is a researcher at the University of Melbourne, Australia, specializing in structural engineering, thermo-mechanical analysis, and data-driven modeling techniques. She has authored 6 scholarly publications, receiving 45 citations with an h-index of 3, reflecting a growing research impact. Her work integrates finite element methods with machine learning approaches, such as XGBoost, to predict structural behavior under complex loading conditions. She actively collaborates with international researchers, contributing to interdisciplinary advancements. Her research supports the development of safer and more efficient structural systems, addressing real-world engineering challenges related to performance, reliability, and resilience under thermal and mechanical stresses.

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Featured Publications


An investigation of water-flow pressure distribution on bridge piers under flood loading

– Structure and Infrastructure Engineering, 2019 | Citations: 39

Damage estimation of a concrete pier when exposed to extreme flood and debris loading

– Journal of Marine Science and Engineering, 2022 | Citations: 10

A demonstration of a digital twin framework for structural health monitoring: Application to bridge infrastructures

– Journal of Infrastructure Intelligence and Resilience, 2025 | Citations: 3

Xiuying Yao | Structural Engineering | Best Researcher Award

Dr. Xiuying Yao | Structural Engineering | Best Researcher Award

Associate Professor | China University of Petroleum | China

Xiuying Yao is a faculty member at China University of Petroleum (Beijing) specializing in chemical engineering, with expertise in flow batteries, slurry batteries, battery modification, and multiphase flow and simulation. She has extensive professional experience as a principal investigator and core technical member on major national and regional research programs, contributing leadership to projects spanning energy storage systems and complex gas–solid and gas–liquid flow technologies. Her research focuses on multiphase flow behavior, electrochemical energy systems, and catalytic and hydrodynamic enhancement, with over 30 peer-reviewed publications in leading journals such as Fuel, Materials Today Chemistry, Particuology, and AIChE Journal, alongside multiple authorized invention patents. Her work has received multiple science and technology and technological invention awards from national professional societies, and she is an active member of the academic community with international research experience and recognized scholarly contributions, with a research impact reflected by 158 citations across 126 documents, 33 publications, and an h-index of 6.

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Renyu Wang | Transportation Engineering | Research Excellence Award

Ms. Renyu Wang | Transportation Engineering | Research Excellence Award

Beijing Jiaotong University | China

Ms. Wang Renyu is a researcher at Beijing Jiaotong University, Beijing, China, specializing in electrical power systems, intelligent monitoring, and data-driven modeling for railway and traction applications. His research focuses on online adaptive evolution algorithms, multi-scale periodic update strategies, and temperature estimation models for traction transformers, addressing critical challenges in equipment safety and operational reliability. He has authored 10 scholarly publications indexed in Scopus, with 43 citations and an h-index of 4, reflecting growing academic impact. Wang has collaborated with 14 co-authors, indicating active engagement in team-based and interdisciplinary research. His recent open-access article in the International Journal of Electrical Power and Energy Systems highlights his contribution to adaptive, real-time estimation methods relevant to smart railways and modern power infrastructures. Through applied research aligned with intelligent transportation systems, his work supports predictive maintenance, energy efficiency, and the safe operation of electrified rail networks, contributing to sustainable and resilient transportation development worldwide.

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Radek Martinek | Structural Engineering | Research Excellence Award

Prof. Dr. Radek Martinek | Structural Engineering | Research Excellence Award

Dean of the Faculty | VSB – Technical University of Ostrava | Czech Republic

Prof. Radek Martinek is a Full Professor of Cybernetics and Dean of the Faculty of Electrical Engineering and Computer Science at the Technical University of Ostrava, with recognized expertise in biomedical engineering, cybernetics, and advanced signal processing. He has served in senior academic and research leadership roles including vice dean, deputy head for research, laboratory manager, and editor-in-chief of an international engineering journal, while leading and contributing to major national, industrial, and international projects in healthcare technologies, Industry 4.0, smart sensing, and secure data systems. His research focuses on non-invasive biomedical signal processing, sensor systems, artificial intelligence, explainable AI, blockchain-enabled healthcare, and fetal monitoring, resulting in a substantial body of high-impact journal publications and patented innovations. His distinctions include best researcher and best paper awards, repeated recognition among the world’s top cited scientists, senior IEEE membership, and service on scientific boards and evaluation panels, with a research impact of 5,987 citations, 397 publications, and an h-index of 36.

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