Ernesto Urbaez | Engineering | Research Excellence Award

Research Excellence Award

Ernesto Urbaez
Virginia Tech, United States
Ernesto Urbaez
Affiliation Virginia Tech
Country United States
Scopus ID mhBCpBoAAAAJ
Documents 22
Citations 88
h-index 5
Subject Area Engineering
Event Global Academic Awards
ORCID 0009-0004-8646-972X

Ernesto Urbaez of Virginia Tech has demonstrated sustained engagement in engineering-related investigations supported by peer-reviewed publications, citation performance, and interdisciplinary technical contributions. His academic profile reflects participation in contemporary engineering research areas and scholarly dissemination through indexed publications.[1]

Abstract

This academic article summarizes the research profile and scholarly contributions of Ernesto Urbaez in the field of engineering. The profile is characterized by peer-reviewed publications, measurable citation activity, and participation in technically oriented research initiatives. With documented scholarly output and an emerging citation footprint, the researcher demonstrates active engagement in engineering sciences and interdisciplinary technological inquiry. The recognition under the Research Excellence Award category reflects academic consistency, publication quality, and contribution to research dissemination within the global academic community.[1]

Keywords

Engineering Research, Academic Recognition, Scholarly Publications, Citation Metrics, Research Excellence Award, Virginia Tech, Technical Innovation, Interdisciplinary Engineering, Research Impact, Scholarly Contribution

Introduction

Engineering research plays a significant role in advancing scientific understanding, industrial innovation, and applied technological development. Academic recognition programs such as the Research Excellence Award evaluate researchers based on publication performance, citation influence, research quality, and broader scholarly engagement. Ernesto Urbaez has contributed to the engineering domain through publications and collaborative academic activities associated with Virginia Tech. The documented metrics associated with the researcher indicate sustained participation in scholarly communication and research dissemination.[2]

Research evaluation frameworks commonly consider indicators such as the number of indexed documents, citation counts, and h-index values to assess scholarly productivity and influence. These metrics provide insight into the visibility and academic reach of published work while also supporting comparative analysis within related scientific disciplines.[3]

Research Profile

Ernesto Urbaez is affiliated with Virginia Tech in the United States and has established a research profile centered on engineering-oriented investigations and scholarly publication activity. The researcher has accumulated 22 documented publications and 88 citations, resulting in an h-index of 5. These indicators suggest a developing yet academically visible research trajectory within engineering sciences.[1]

The academic profile demonstrates engagement with technical methodologies, engineering analysis, and interdisciplinary collaboration. Citation activity associated with the publications indicates that the researcher’s work has received measurable scholarly attention within the broader scientific community.[2]

  • Affiliation with Virginia Tech and participation in engineering-related academic research.
  • Documented scholarly output consisting of indexed publications and citation activity.
  • Contribution to interdisciplinary engineering investigations and technical dissemination.
  • Recognition within academic evaluation frameworks through citation-based indicators.

Research Contributions

The research contributions associated with Ernesto Urbaez reflect participation in engineering scholarship through technical publications and collaborative academic studies. The body of work contributes to the dissemination of engineering knowledge and supports the advancement of applied scientific inquiry. The publications collectively indicate involvement in analytical problem-solving, engineering methodologies, and technical evaluation processes.[4]

Research activity in engineering frequently involves integration of theoretical modeling, applied experimentation, and computational evaluation. The scholarly contributions attributed to the researcher align with these broader academic practices and demonstrate engagement with evolving engineering challenges and technological frameworks.[5]

  • Participation in peer-reviewed engineering research publications.
  • Engagement with interdisciplinary technical investigations and collaborative studies.
  • Contribution to scientific communication and academic dissemination.
  • Support for engineering innovation through scholarly inquiry and analytical research.

Publications

The publication profile of Ernesto Urbaez demonstrates active participation in engineering scholarship and academic communication. The documented publication count reflects continued research productivity and involvement in technical dissemination channels indexed within recognized scholarly databases.[1]

  1. Engineering-related peer-reviewed publications indexed through scholarly databases.
  2. Collaborative technical studies involving analytical and interdisciplinary methodologies.
  3. Research dissemination through conference papers and academic communication channels.
  4. Contributions to applied engineering and technology-oriented investigations.

Representative DOI-linked academic references associated with engineering scholarship include publications addressing analytical modeling, computational engineering, and interdisciplinary research methodologies.[6]

Research Impact

Research impact is frequently evaluated through citation performance, publication visibility, and broader academic influence. Ernesto Urbaez has achieved 88 citations with an h-index of 5, indicating that portions of the researcher’s published work have received consistent scholarly acknowledgment. These metrics suggest growing recognition within engineering-related academic discussions and technical literature.[3]

Citation indicators should be interpreted within the broader context of discipline-specific publication practices, collaboration networks, and research timelines. Nevertheless, the available metrics demonstrate evidence of measurable engagement from the academic community and reflect the relevance of the researcher’s contributions within engineering scholarship.[4]

Award Suitability

The Research Excellence Award recognizes researchers demonstrating scholarly consistency, technical contribution, and measurable academic engagement. Ernesto Urbaez’s profile aligns with several criteria commonly associated with academic recognition programs, including peer-reviewed publication activity, citation-based visibility, and participation in engineering research initiatives.[5]

The combination of indexed publications, citation metrics, and institutional affiliation with Virginia Tech supports the researcher’s suitability for recognition under the Research Excellence Award category. The profile reflects continued participation in scientific inquiry and contribution to the dissemination of engineering knowledge through scholarly communication.[2]

Conclusion

Ernesto Urbaez has developed a scholarly profile characterized by engineering-related research activity, peer-reviewed publication output, and measurable citation performance. The academic indicators associated with the researcher demonstrate engagement with technical inquiry and interdisciplinary engineering scholarship. Recognition through the Research Excellence Award category reflects the researcher’s contributions to scientific dissemination and ongoing participation within the academic research community.[1]

References

  1. Google Scholar. (n.d.). Scholar profile details: Ernesto Urbaez, Author ID mhBCpBoAAAAJ. Google Scholar.

    https://scholar.google.com/citations?user=mhBCpBoAAAAJ&hl=en&inst=13410158990364976897
  2. Pilot Study to Incorporate Network-Level Structural Condition in Agency Pavement Management Practices.
    https://journals.sagepub.com/doi/10.1177/03611981241252152
  3. Calibration of a 3D-FE Model with Non-Contact Laser Doppler Vibrometer (LDV) Measurements of Pavement Deflection Velocity Under Accelerated Pavement Testing

    https://www.mdpi.com/2076-3417/16/10/4611
  4. Cracking performance evaluation of BMD surface mixtures with conventional and high RAP contents: insights from accelerated pavement testing program
    doi.org/10.1080/10298436.2026.2620548
  5. Methodology to Validate Traffic Speed Deflection Devices (TSDDs) Measurements Using Laser Doppler Vibrometers (LDV) Sensors
    https://vtechworks.lib.vt.edu/items/057248d4-1094-453d-b197-f023494f73b1
  6. Crossref. (n.d.). Estimation of the” C” value considered In the AASHTO-93 guide for back analysis of the elastic modulus of the subgrade. Crossref.
    https://trid.trb.org/View/1143765

Abdulaziz Almaktoom | Engineering | Best Researcher Award

Assoc. Prof. Dr. Abdulaziz Almaktoom | Engineering | Best Researcher Award

Effat University | Saudi Arabia

Assoc. Prof. Dr. Abdulaziz Almaktoom, is a distinguished scholar and leader in Operations and Supply Chain Management, serving as Associate Professor and Chair of the Business Administration Department. With 39 publications, 275 citations, and an h-index of 10, he is recognized among the top 20 scientists in Decision Science and Operations Management in Saudi Arabia. His expertise spans operations management, project management, data analytics, industrial ergonomics, lean and six sigma, quality assurance, risk management, and applied statistics. He has pioneered innovative curriculum development, establishing specialized programs and securing full accreditation from NCAAA and AACSB. Renowned for mentoring students, leading cross-functional teams, and driving industry collaborations, he combines research excellence with impactful teaching. His strategic vision has enhanced academic standards, tripled student enrollment, and supported students’ success, while his consultancy and professional certifications underscore his commitment to advancing operational efficiency, research innovation, and applied solutions across industry and academia.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Merabet, A., Saighi, A., Saad, H., Ferradji, M. A., Laboudi, Z., & Almaktoom, A. T. (2025). AI for colon cancer: A focus on classification, detection, and predictive modeling. International Journal of Medical Informatics, 106115.

Almaktoom, A. T., & Yusuf, N. (2025). Optimizing forecasting techniques for cost-effective procurement of controlled medications in Saudi Arabia’s healthcare system. International Journal of Pharmaceutical and Healthcare Marketing.

Almaktoom, A. T. (2025). Resilience modeling of mobile service for quality assurance. Operations Management Research, 18(1), 182–194.

Sasikumar, A., Ravi, L., Devarajan, M., Selvalakshmi, A., & Almaktoom, A. T. (2024). Corrections to “Blockchain-Assisted Hierarchical Attribute-Based Encryption Scheme for Secure Information Sharing in Industrial Internet of Things.” IEEE Access, 12, 163197–163197.

Bezoui, M., Kermali, A., Bounceur, A., Qaisar, S. M., & Almaktoom, A. T. (2024). Deep reinforcement learning for multiobjective scheduling in Industry 5.0 reconfigurable manufacturing systems. In Machine Learning for Networking: 6th International Conference, MLN 2023

qinghua Gui | Engineering | Best Researcher Award

qinghua Gui | Engineering | Best Researcher Award

Mr qinghua Gui, University of Science and Technology of China, China

Based on the provided details, it seems that Qinghua Gui is a suitable candidate for a “Best Researcher Award,” particularly within the field of engineering, specifically sodium-ion battery condition monitoring. However, the articles listed under Paola Imperatore do not align with Qinghua Gui’s research focus, as they are concentrated in sociopolitical and environmental mobilization topics.

Publication profile

Orcid

Education

A Doctor of Engineering (D.E.) is an advanced professional degree that focuses on applying engineering principles to real-world problems. This degree typically emphasizes research, innovation, and practical solutions in various fields such as civil, mechanical, electrical, and industrial engineering. D.E. graduates often lead in academia, industry, or government, contributing to technological advancements, infrastructure development, and cutting-edge engineering projects. The program combines rigorous coursework with applied research, equipping professionals with the skills to solve complex engineering challenges and drive progress in their respective fields. 🌍🔧💡

Towards an Ecological Transition from Below

This article explores worker mobilization within the automotive sector, analyzing how grassroots efforts contribute to ecological transitions. It provides insights into the intersection between labor and environmental activism, which is a timely and significant contribution to understanding social movements.

Le trasformazioni del movimento ambientalista in Italia

This study addresses the transformation of Italy’s environmental movement, particularly the balance between institutionalization and conflict. The focus is on the evolution of environmental activism, offering valuable historical and political context for the environmental discourse in Italy.

A Working-Class Environmentalism: The GKN Case Study

This article examines class-based environmentalism, particularly within the GKN case. It highlights the intersection of labor and environmental struggles, emphasizing the role of the working class in advocating for environmental justice. This is an important perspective in sociological and labor studies.

Territories and Protest: Mobilization Opportunities

In this paper, Imperatore explores the relationship between political opportunities and protest mobilization, focusing on cases such as the No TAP and No Grandi Navi movements. This study provides a theoretical framework for understanding how political and discursive factors influence environmental protests.

The Case of the Excavation in the Apuan Alps

This article discusses the environmental and social impact of excavation in the Apuan Alps. It focuses on environmental degradation and the local protests that have emerged in response. This case study underscores the complex interaction between industry, environment, and local activism.

Research focus

Qinghua Gui’s research focuses on energy materials, specifically in the field of sodium-ion batteries and solar energy systems. His work explores the behavior of cathode materials like NaNi₁/₃Fe₁/₃Mn₁/₃O₂ and Na₄Fe₃(PO₄)₂(P₂O₇) under thermal runaway conditions, contributing to battery safety and performance. Additionally, he has worked on improving solar energy efficiency through the design of compound parabolic concentrators to minimize light loss in vacuum tubes. His expertise spans energy storage, photo-thermal conversion, and renewable energy technology development. 🔋☀️⚡

Conclusion

While Paola Imperatore’s research is diverse and covers vital topics in environmental activism, labor studies, and political sociology, it does not match Qinghua Gui’s field of expertise in sodium-ion battery condition monitoring. For the “Best Researcher Award” within an engineering or technological research context, Qinghua Gui would be a stronger candidate. Conversely, Paola Imperatore would be an excellent candidate for awards focused on environmental sociology or labor activism research.

Publication top notes

Comparison of NaNi<sub>1/3</sub>Fe<sub>1/3</sub>Mn<sub>1/3</sub>O<sub>2</sub> and Na<sub>4</sub>Fe<sub>3</sub>(PO<sub>4</sub>)<sub>2</sub>(P<sub>2</sub>O<sub>7</sub>) cathode sodium-ion battery behavior under overcharging induced thermal runaway