Qing Zhang | Engineering | Best Researcher Award

Best Researcher Award

Qing Zhang
Affiliation Henan University of Technology
Country China
Scopus ID 57219119559
Documents 19
Citations 232
h-index 9
Subject Area Engineering
Event International Forensic Scientist Awards

Qing Zhang

Henan University of Technology, China

Qing Zhang is an engineering researcher affiliated with Henan University of Technology whose scholarly work focuses on tribology, mechanical engineering, vibration analysis, lubrication technology, and the operational reliability of mine winding hoisting steel wire ropes. Her published studies examine the interaction between vibration, lubrication environments, and wear mechanisms affecting steel wire ropes used in mining systems. These investigations contribute to improved operational safety, equipment durability, and predictive maintenance strategies in industrial engineering applications.[1]

Abstract

This article summarizes the academic profile of Qing Zhang in recognition of contributions to engineering research related to tribological behavior, mechanical wear, lubrication systems, and mining equipment reliability. Her work explores the influence of vibration under different lubrication environments on mine winding hoisting steel wire ropes, providing engineering insights for extending service life and improving operational safety. The research integrates tribological analysis with practical industrial applications and demonstrates measurable scholarly influence through peer-reviewed publications and citations.[2]

Keywords

  • Tribology
  • Steel Wire Rope
  • Mechanical Engineering
  • Lubrication
  • Vibration Analysis

Introduction

Engineering systems operating in demanding mining environments require dependable wire rope performance under complex loading and lubrication conditions. Qing Zhang’s research addresses these challenges through investigations into tribological mechanisms influencing friction, wear, and durability. Such studies contribute to the optimization of maintenance strategies and provide scientific evidence supporting safer industrial operations.[3]

Research Profile

According to available scholarly metrics, Qing Zhang has authored 19 indexed publications with 232 citations and an h-index of 9. Her work primarily falls within engineering disciplines, emphasizing tribology, machinery reliability, friction behavior, lubrication performance, and material degradation under operational vibration conditions.[1]

Research Contributions

One representative publication, Research on the tribological behaviours of mine winding hoisting steel wire ropes affected by vibration under different lubricating environments, investigates the relationship between vibration and lubrication in influencing wear characteristics of steel wire ropes. The findings improve understanding of friction mechanisms and support engineering decisions concerning lubrication selection, equipment maintenance, and operational efficiency in mining environments.[4]

Publications

  • Research on the tribological behaviours of mine winding hoisting steel wire ropes affected by vibration under different lubricating environments.
  • Additional peer-reviewed studies in tribology, engineering reliability, and mechanical systems.

Research Impact

The combination of peer-reviewed publications, citation performance, and engineering relevance demonstrates a sustained contribution to applied mechanical research. Her findings provide practical value for industrial maintenance planning and support continued advances in engineering safety and tribological system optimization.[5]

Award Suitability

Based on documented scholarly achievements, research productivity, and measurable scientific impact, Qing Zhang presents a profile consistent with evaluation for the Best Researcher Award. Recognition would acknowledge sustained engineering research, practical industrial relevance, and contributions to the understanding of tribological behavior in mining equipment while remaining subject to the award committee’s independent assessment criteria.

Conclusion

Qing Zhang’s research portfolio reflects continued engagement with engineering challenges involving tribology, lubrication, and machinery reliability. Through peer-reviewed investigations and measurable scholarly influence, her work contributes to safer and more efficient mining operations while supporting advances in applied mechanical engineering research.[2]

External Links

References

  1. Elsevier. (n.d.). Scopus Author Details: Qing Zhang, Author ID 57219119559.
    https://www.scopus.com/authid/detail.uri?authorId=57219119559
  2. Zhang, Q., Guo, Y., Yan, B., et al. Research on the tribological behaviours of mine winding hoisting steel wire ropes affected by vibration under different lubricating environments.
  3. Tribology International. Engineering studies on tribological performance and wear mechanisms.
  4. DOI Foundation. Digital Object Identifier System.
  5. International Forensic Scientist Awards. Award information and evaluation framework.
    hforensicscientist.org

Constantinescu Rodica Claudia | Engineering | Best Researcher Award

Best Researcher Award

Constantinescu Rodica Claudia
National University of Science and Technology POLITEHNICA Bucharest

Constantinescu Rodica Claudia
Affiliation National University of Science and Technology POLITEHNICA Bucharest
Country Romania
Scopus ID 7004524928
Documents 55
Citations 104
h-index 6
Subject Area Engineering
Event International Forensic Scientist Awards
ORCID 0000-0001-7744-2518

Rodica-Claudia Constantinescu, also known as Rodica-Claudia Vieru, is a Romanian engineering researcher and academic affiliated with the National University of Science and Technology POLITEHNICA Bucharest. Her scholarly activities focus on applied electronics, information engineering, communication technologies, cybersecurity, intelligent systems, and emerging engineering applications. Through conference publications, collaborative research, and technical investigations, she has contributed to contemporary engineering topics including radio frequency communications, power electronics, remote-access security, and computer vision systems.[1]

Abstract

This article presents an overview of the academic profile and engineering research activities of Rodica-Claudia Constantinescu. Her work encompasses applied electronics, wireless communication systems, cybersecurity methodologies, artificial intelligence applications, and advanced power devices. The combination of practical engineering solutions and analytical research demonstrates engagement with technological challenges relevant to modern digital infrastructure and industrial innovation.[2]

Keywords

Engineering, Applied Electronics, Information Engineering, Cybersecurity, Radio Frequency Communication, Computer Vision, YOLO Algorithms, Electric Vehicles, Gallium Nitride Devices, Research Excellence.

Introduction

As a faculty member in Applied Electronics and Information Engineering, Constantinescu has participated in research addressing both theoretical and implementation-oriented engineering problems. Her publications indicate a multidisciplinary approach integrating communication systems, electronic hardware, machine learning applications, and secure digital infrastructures.[3]

Research Profile

The research profile of Constantinescu is characterized by contributions to engineering and technology-oriented investigations. According to available scholarly records, she maintains a Scopus author profile associated with publications, citations, and measurable research impact indicators. Her academic activities reflect ongoing participation in international conference proceedings and engineering research dissemination.[1]

Research Contributions

  • Evaluation and comparison of radio frequency communication modules for engineering applications.[3]
  • Investigation of gallium nitride transistor technologies for electric vehicle power devices.[4]
  • Performance assessment of YOLOv4-based target tracking algorithms in computer vision systems.[5]
  • Research on zero-trust security concepts and SSH authentication using signed certificates.[6]

Publications

Representative publications include studies published in Proceedings of SPIE addressing communication technologies, power electronics, machine vision, and cybersecurity. These works contribute to engineering discussions concerning reliability, efficiency, security, and technological optimization in contemporary systems.[3][4]

Research Impact

With documented publications, citations, and an established Scopus profile, Constantinescu’s research has contributed to scholarly communication within engineering disciplines. Her work supports knowledge exchange in applied electronics and information engineering while promoting technological advancement through evidence-based investigation and academic collaboration.[1]

Award Suitability

The professional record of Rodica-Claudia Constantinescu demonstrates attributes commonly associated with recognition in research excellence programs. Her engagement in engineering innovation, publication activity, interdisciplinary investigations, and dissemination of technical findings aligns with the objectives of the International Forensic Scientist Awards and similar academic recognition initiatives.[1]

Conclusion

Rodica-Claudia Constantinescu represents an active contributor to engineering research through investigations spanning communications, electronics, cybersecurity, and intelligent technologies. Her publication record and academic engagement illustrate a sustained commitment to advancing technical knowledge and supporting innovation within engineering and information systems research.

References

  1. Elsevier. (n.d.). Scopus author details: Constantinescu Rodica Claudia, Author ID 7004524928. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=7004524928
  2. ORCID. (n.d.). Rodica-Claudia Constantinescu Research Profile.
    https://orcid.org/0000-0001-7744-2518
  3. Constantinescu, R.-C. (2023). Advantages of comparing radio frequency communication modules. Proceedings of SPIE.
    DOI: https://doi.org/10.1117/12.2643006
  4. Constantinescu, R.-C. (2023). Advantages of replacing conventional transistors with gallium nitride transistors in power devices of electric vehicle.
    DOI: https://doi.org/10.1117/12.2643007
  5. Constantinescu, R.-C. (2023). Comparative studies for YOLOv4 target tracking algorithm performance.
    DOI: https://doi.org/10.1117/12.2642502
  6. Constantinescu, R.-C. (2023). Security in remote access, based on zero trust model concepts and SSH authentication with signed certificates.
    DOI: https://doi.org/10.1117/12.2643058

Andrii Hovorukha | Engineering | Best Researcher Award

Mr. Andrii Hovorukha | Engineering | Best Researcher Award

M.S. Poliakov Institute of Geotechnical Mechanics of the National Academy of Sciences | Ukraine

Mr. Andrii Hovorukha is a researcher specializing in the mechanics, dynamics, and tribology of railway and industrial transport systems. His work focuses on the mathematical modeling of dynamic interactions, wear, and operational safety of track structures, rolling stock, and heavily loaded mining equipment. He has authored 36 scientific publications with 15 citations and a Google Scholar h-index of 3, contributing to international journals and conference proceedings. His research includes the development of innovative friction modifier technologies, particularly the “Ideal” repair and restoration mixture, which forms wear-resistant nanostructured layers, significantly extending equipment service life. Mr. Andrii Hovorukha’s contributions advance the reliability, safety, and efficiency of industrial and railway transport systems, bridging theoretical modeling with practical industrial applications.

                        Citation Metrics (Google Scholar)

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View Google Scholar Profile  View ORCID Profile

Featured Publications


Improvement of the service life of mining and industrial equipment by using friction modifiers

– V.V. Hovorukha, A.V. Hovorukha · Scientific Bulletin of National Mining University, 2023 · Cited by 3


Исследование динамики приводов стрелочных переводов горного транспорта

– A.V. Hovorukha, S.L. Ladik · Геотехнічна механіка, 2015 · Cited by 3


Method for studying spatial vibrations of a vehicle during its movement along the rail track on separate supports with elastic-dissipative and inertial properties

– L.P. Semyditna, V.V. Hovorukha, A.V. Hovorukha, T.P. Sobko · Геотехнічна механіка, 2022 · Cited by 2


Research of deformed state of railway track joint zones in complex operating conditions of rail transport

– V.V. Hovorukha, A.V. Hovorukha, Y.O. Makarov, T.P. Sobko, L.P. Semyditna · Геотехнічна механіка, 2023 · Cited by 1

Sinan Eğri | Engineering | Research Excellence Award

Prof. Dr. Sinan Eğri | Engineering | Research Excellence Award

Tokat Gaziosmanpaşa University | Turkey

Prof. Dr. Sinan Eğri is a distinguished researcher in polymer science, biomaterials engineering, and sustainable biobased polymer technologies, recognized for his impactful contributions to advanced material design for biomedical and industrial applications. His research integrates polymer synthesis, reactive extrusion, biodegradable scaffold engineering, nanocomposite development, and green nanotechnology, with a particular emphasis on creating innovative materials that address critical challenges in tissue engineering and regenerative medicine. His scientific portfolio includes the development of PLA-PEG-PLA systems, electrospun vascular scaffolds, cryogel-based biomaterials, biobased polymer nanocomposites, and environmentally friendly nanoparticle systems, all of which demonstrate his multidisciplinary approach to material innovation. Prof. Dr. Sinan Eğri has produced a strong body of work with 17 Scopus-indexed documents, cited by 355 publications, accumulating 363 Scopus citations and an h-index of 8, underscoring his research influence in polymer chemistry and biomaterials research. His widely cited studies on maleic anhydride grafting, VEGF/BMP-2 releasing scaffolds, nanomechanical characterization of biodegradable materials, and phage-encapsulated biomaterials have advanced understanding in both fundamental polymer science and applied biomedical engineering. He has successfully completed 21 research projects, spanning supercritical CO₂ polymerization, biopolymer processing, bone tissue engineering materials, green nanoparticle biosynthesis, and biodegradable composite design, along with multiple consultancy-based R&D collaborations. In addition to his publications, Prof. Dr. Sinan Eğri contributes to the scientific community through editorial service, peer-reviewing, and international research collaborations, continuously driving innovations that support progress in polymer engineering, sustainable materials, and medical biomaterials.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate

Featured Publications

1. Taşdelen, T. B., Eğri, Ö., & Eğri, S. (2025). Enhancing the electrical conductivity of electrospun PCL fibers by coating with polydopamine and in situ gold nanoparticles doped on the polydopamine coating. Polymers, 17(23), 3192.

2. Eğri, Ö., Güneş, F., & Eğri, S. (2025). Production and characterization of H. perforatum oil-loaded, semi-resorbable, tri-layered hernia mesh. Polymers, 17(2), 240.

3. Demirci, S., Oncer, N., Mazlumoglu, H., Yilmaz, A., Egri, S., Egri, O., & Yilmaz, M. (2024). Polydopamine-mediated gold nanostructure-decorated electrospun polycaprolactone fibers for photocatalytic dye degradation. ChemistrySelect, 9, Article e202304494.

4. Yerliyurt, K., & Eğri, S. (2023). Effect of knitting pattern of PP mesh on the flexural properties of heat-cured PMMA denture base resin. Cumhuriyet Science Journal, 44(3), Article 1184249.

5. Yerliyurt, K., Taşdelen, T. B., Eğri, Ö., & Eğri, S. (2023). Flexural properties of heat-polymerized PMMA denture base resins reinforced with fibers with different characteristics. Polymers, 15(15), 3211.

Surakasi Raviteja | Engineering | Excellence in Research Award

Assist. Prof. Dr. Surakasi Raviteja | Engineering | Excellence in Research Award

Lendi Institute of Engineering and Technology | India

Dr. Surakasi Ravi Teja is a dedicated researcher whose work spans thermal engineering, nanofluids, biofuels, heat transfer augmentation, sustainable energy systems, and advanced materials science. His research expertise includes the experimental evaluation of thermophysical properties, development of nanomaterial-enhanced solar thermal fluids, ANN-based predictive modeling, biodiesel and pyrolysis-fuel combustion analysis, and CFD-driven optimization of thermal devices. With 77 Scopus-indexed publications, 960 citations, and an h-index of 17, he has established a strong scientific presence, contributing extensively to high-impact Scopus-, SCI-, and SCIE-indexed journals such as Frontiers in Heat and Mass Transfer, Journal of Nanomaterials, Materials Today: Proceedings, International Journal of Chemical Engineering, and Adsorption Science & Technology. His Q1–Q2 publications reflect significant advancements in areas including nanofluid stability, enhanced heat transfer, eco-friendly fuel blends with  , and nano-reinforced composite materials. His interdisciplinary works extend to solar water heating systems, cryogenic vessel design, adsorption-based separation technologies, and nanoparticle-assisted wastewater treatment. Several of his highly cited studies focus on waste-to-energy conversion, algae-oil biodiesel applications, and green-synthesized nanoparticles for environmental remediation, highlighting his contribution to sustainable and cleaner energy technologies. In addition to his research output, Dr. Teja serves as a reviewer for numerous national and international journals and holds editorial memberships, contributing to global scholarly communication and knowledge dissemination. His consistent research engagement, innovation-driven approach, and interdisciplinary collaborations underscore his impactful role in advancing thermal sciences, materials engineering, and renewable energy research.

Profiles: Scopus | Google Scholar | ORCID | Staff Profile

Featured Publications

  1. Sathish, T., Vijayalakshmi, A., Surakasi, R., Ahalya, N., Rajkumar, M., … (2024). DeepNNet 15 for the prediction of biological waste to energy conversion and nutrient level detection in treated sewage water. Process Safety and Environmental Protection, 189, 636–647.

  2. Senthil, T. S., Puviyarasan, M., Babu, S. R., Surakasi, R., & Sampath, B. (2023). Industrial robot-integrated fused deposition modelling for the 3D printing process. In Development, Properties, and Industrial Applications of 3D Printed Polymer Materials

  3. Lakshmaiya, N., Surakasi, R., Nadh, V. S., Srinivas, C., Kaliappan, S., … (2023). Tanning wastewater sterilization in the dark and sunlight using Psidium guajava leaf-derived copper oxide nanoparticles and their characteristics. ACS Omega, 8(42), 39680–39689.

  4. Nirmal Kumar, K., Dinesh Babu, P., Surakasi, R., Kumar, P. M., & Ashokkumar, P. (2022). Mechanical and thermal properties of bamboo fiber–reinforced PLA polymer composites: A critical study. International Journal of Polymer Science, 2022(1), 1332157.

  5. Vennila, T., Karuna, M. S., Srivastava, B. K., Venugopal, J., & Surakasi, R. (2023). New strategies in treatment and enzymatic processes: Ethanol production from sugarcane bagasse. In Human Agro-Energy Optimization for Business and Industry (pp. 219–240).

Danladi Abdu | Engineering | Best Researcher Award

Mr. Danladi Abdu | Engineering | Best Researcher Award

Federal University of Transportation | Nigeria

Mr. Danladi Abdu is a distinguished civil engineering researcher whose work integrates artificial intelligence, data science, and structural engineering to advance the safety and performance of transportation infrastructures. His research focuses on the intelligent assessment and predictive modeling of structural behavior in railway and bridge systems using machine learning algorithms. Through his influential publications in reputable journals such as Structures and the Journal of Railway Science and Technology, Mr. Danladi Abdu has contributed significantly to the development of AI-based approaches for monitoring bridge pier settlements and predicting fire-induced steel beam deformations. His scholarly work bridges the gap between traditional structural analysis and modern computational intelligence, offering innovative methodologies for structural health monitoring and predictive maintenance. Mr. Danladi Abdu’s research interests encompass smart infrastructure systems, railway bridge engineering, machine learning applications in civil engineering, and sustainable design innovations. Recognized for his academic excellence and innovative mindset, he has received multiple awards, including the Class of 2023 Outstanding International Graduate Student Award from Central South University and the Aier Cup Innovation and Entrepreneurship Competition Award. His contributions highlight a strong commitment to applying advanced technologies for solving complex engineering challenges, fostering safer, more efficient, and sustainable infrastructure systems. With an expanding research portfolio and a growing impact in structural and transportation engineering, Mr. Danladi Abdu continues to drive forward-thinking solutions that merge artificial intelligence with civil engineering principles to enhance infrastructure reliability and sustainability in a rapidly evolving technological landscape.

Profile: ORCID

Featured Publications

  • Abdu, D. M., Shedamang, S., Jimoh, J., & Idris, A. (2025). Prediction of fire-induced steel beam deformation using machine learning algorithms. Journal of Railway Science and Technology. https://doi.org/10.1016/j.jrst.2025.10.001

  • Abdu, D. M., Guo, W., & Wang, Y. (2023). Assessment of railway bridge pier settlement based on train acceleration response using machine learning algorithms. Structures. https://doi.org/10.1016/j.istruc.2023.03.167

Bojiang Yin | Engineering | Best Researcher Award

Mr. Bojiang Yin | Engineering | Best Researcher Award

School of Petrochemical Engineering, Lanzhou University of Technology | China

Mr. Bojiang Yin’s research primarily focuses on the fundamental and applied aspects of special valve design and process systems, with an emphasis on structural parameter optimization, reliability engineering, and multi-physics coupling dynamics. His work addresses critical challenges in extreme operating environments, such as ultra-low temperature liquid hydrogen systems, by developing innovative sealing structures and evaluating their performance using advanced computational approaches. He has employed techniques including thermo-mechanical coupling, sensitivity analysis, high-precision RBF surrogate modeling, and NSGA-II optimization to achieve reliable bidirectional sealing under cryogenic conditions. Bojiang has published in high-impact journals like Scientific Reports, contributing to the scientific understanding of valve mechanics and optimization methodologies. He has collaborated with the National Natural Science Foundation of China, the Double First-Class Key Program of Gansu Province, and other regional technology programs, bridging academic research with practical industry applications. His contributions extend to consultancy projects, product development, and providing references for the design of advanced butterfly valves, positioning him as an emerging researcher in valve innovation and cryogenic system reliability.

Profile: ORCID

Featured Publications

Li, S., Yin, B., Wei, C., Li, W., & Yang, L. (2025). Structural analysis and multi-objective optimization of sealing structure for cryogenic liquid hydrogen triple-offset butterfly valve. Scientific Reports, 15, Article 20095. https://doi.org/10.1038/s41598-025-20095-6

Sarat Mohapatra | Engineering | Innovative Research Award

Dr. Sarat Mohapatra | Engineering | Innovative Research Award

Centre for Marine Technology and Ocean Engineering (CENTEC), Instituto Superior Técnico, University of Lisbon | Portugal

Dr. Sarat Mohapatra is an accomplished marine researcher whose work bridges theoretical modeling, computational simulation, and experimental validation in the fields of hydroelasticity, ocean hydrodynamics, offshore aquaculture systems, and floating platform dynamics. His research primarily addresses complex fluid–structure interactions and the development of hydroelastic models for flexible and porous marine structures under combined wave and current conditions. With over 70 international publications in leading journals such as Ocean Engineering, Applied Ocean Research, Journal of Fluids and Structures, Physics of Fluids, and Journal of Marine Science and Engineering, his work has received significant global recognition, reflected in an h-index of 21 and more than 1,160 citations. Dr. Sarat Mohapatra has been a key contributor to several European and Portuguese Foundation for Science and Technology (FCT)-funded projects, focusing on hydrodynamic and hydroelastic analysis of large floating structures and wave energy systems. His recent studies include the development of analytical, numerical, and CFD-based models to predict wave-current interactions and improve the design of sustainable marine systems. In addition to his strong publication record, he has served as a journal reviewer, editorial contributor, and co-supervisor for doctoral and postgraduate research, promoting innovation and collaboration within marine technology. Through his pioneering contributions, Dr. Sarat Mohapatra continues to advance the understanding of ocean engineering phenomena, supporting innovations in marine renewable energy, offshore structure design, and environmentally resilient aquaculture technologies that contribute to the sustainable utilization of ocean resources.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate | Cienciavitae

Featured Publications

  • Mohapatra, S. C., Amouzadrad, P., & Guedes Soares, C. (2025). Recent developments in the nonlinear hydroelastic modeling of sea ice interaction with marine structures. Journal of Marine Science and Engineering, 13(8), Article 1410. https://doi.org/10.3390/jmse13081410

  • Mohapatra, S. C., & Guedes Soares, C. (2025). Oblique wave analysis under current conditions on a floating flexible membrane. Physics of Fluids, 37(7), Article 072101. https://doi.org/10.1063/5.0278003

  • Mohapatra, S. C., Guedes Soares, C., & Meylan, M. H. (2025). Three-dimensional and oblique wave-current interaction with a floating elastic plate based on an analytical approach. Symmetry, 17(6), Article 831. https://doi.org/10.3390/sym17060831

  • Amouzadrad, P., Mohapatra, S. C., & Guedes Soares, C. (2025). Review on sensitivity and uncertainty analysis of hydrodynamic and hydroelastic responses of floating offshore structures. Journal of Marine Science and Engineering, 13(6), Article 1015. https://doi.org/10.3390/jmse13061015

  • Mohapatra, S. C., & Guedes Soares, C. (2025). Wave–current interaction with a deformable bottom in a three-dimensional channel. Physics of Fluids, 37(5), Article 052104. https://doi.org/10.1063/5.0267255

Nadiia Kopiika | Engineering | Best Paper Award

Dr. Nadiia Kopiika | Engineering | Best Paper Award

University College London | United Kingdom

Dr. Nadiia Kopiika is a distinguished civil and structural engineering researcher whose work unites innovation, sustainability, and resilience in the reconstruction of critical infrastructure. She is affiliated with University College London, London, United Kingdom, and serves as a BA/CARA Research Fellow at the University of Birmingham (UK) and Teaching Assistant at Lviv Polytechnic National University (Ukraine). Dr. Nadiia Kopiika has made exceptional contributions to developing advanced methodologies for damage assessment, probabilistic modelling, and structural rehabilitation of reinforced concrete structures. Her publication, “Probabilistic Assessment of RC Beams with Corroded Thermally Strengthened Reinforcement” (Structures, 2025), presents a comprehensive probabilistic framework for evaluating the reliability and residual capacity of corroded reinforcement systems, providing crucial insights for sustainable and data-driven restoration. According to Scopus, she has authored 34 indexed publications, accumulated 416 citations across 219 citing documents, and holds an h-index of 15, reflecting her growing impact in the global engineering community. Her work seamlessly combines analytical precision with practical applications in infrastructure resilience and recovery. Dr. Kopiika is also actively engaged in collaborative initiatives such as bridgeUkraine.org and MetaInfrastructure.org, advancing digital diagnostics, AI integration, and circular design for post-disaster reconstruction. Her achievements have been recognised through prestigious honours, including the Award of the Verkhovna Rada of Ukraine for Young Scientists (2024) and the BA/CARA Research Fellowship (2023–2026). Through her interdisciplinary research and commitment to sustainable engineering, Dr. Nadiia Kopiika continues to advance innovative frameworks for resilient, future-ready infrastructure systems worldwide.

Profile: Scopus | Google Scholar | ORCID | ResearchGate | LinkedIn

Featured Publications

  • Blikharskyy, Y., Kopiika, N., Khmil, R., Selejdak, J., & Blikharskyy, Z. (2022). Review of development and application of digital image correlation method for study of stress–strain state of RC structures. Applied Sciences, 12(19), 10157. [Cited by 56]
    https://doi.org/10.3390/app121910157

  • Kopiika, N., Karavias, A., Krassakis, P., Ye, Z., Ninic, J., Shakhovska, N., … (2025). Rapid post-disaster infrastructure damage characterisation using remote sensing and deep learning technologies: A tiered approach. Automation in Construction, 170, 105955. [Cited by 27]
    https://doi.org/10.1016/j.autcon.2025.105955

  • Blikharskyy, Y., Vashkevych, R., Kopiika, N., Bobalo, T., & Blikharskyy, Z. (2021). Calculation residual strength of reinforced concrete beams with damages, which occurred during loading. IOP Conference Series: Materials Science and Engineering, 1021(1), 012012. [Cited by 32]
    https://doi.org/10.1088/1757-899X/1021/1/012012

  • Blikharskyy, Y., Selejdak, J., & Kopiika, N. (2021). Corrosion fatigue damages of rebars under loading in time. Materials, 14(12), 3416. [Cited by 31]
    https://doi.org/10.3390/ma14123416

  • Blikharskyy, Y., Selejdak, J., Kopiika, N., & Vashkevych, R. (2021). Study of concrete under combined action of aggressive environment and long-term loading. Materials, 14(21), 6612. [Cited by 30]
    https://doi.org/10.3390/ma14216612

Amin Reza Kalantari Khalil Abad | Engineering | Best Researcher Award

Dr. Amin Reza Kalantari Khalil Abad | Engineering | Best Researcher Award

Iran University of Science and Technology | Iran

Dr. Amin Reza Kalantari Khalil Abad is a distinguished researcher and Lecturer in Industrial Engineering at Iran University of Science and Technology, Tehran, specializing in system optimization and sustainable supply chain design. He earned his Ph.D. in Industrial Engineering from Iran University of Science and Technology (2024), focusing on designing resilient horticultural supply chains under pest disruption, and holds an M.Sc. in Industrial Engineering (System Optimization) from Kharazmi University and a B.Sc. from Meybod University, Iran. His research expertise spans decision-making, operations research, mathematical modeling, and optimization, with emphasis on sustainable, resilient, and circular supply chain networks under uncertainty. Dr. Amin Reza Kalantari Khalil Abad has extensive teaching experience as a lecturer and teaching assistant in logistics, supply chain management, operations research, and software applications including GAMS and MiniTab. He has published six high-impact journal articles, including in the Journal of Environmental Management (2025), Journal of Industrial Information Integration (2025), Computers & Chemical Engineering (2024, 2023), Journal of Cleaner Production (2024), and Applied Soft Computing (2023). His work has been cited 57 times by 51 documents, achieving an h-index of 5 according to Scopus. Recognized as Top Ph.D. Student in Education (2021–2022) and Research (2023–2024), he also serves as a reviewer for leading journals and international conferences. Through his innovative research integrating optimization techniques, sustainable development, and supply chain resiliency, Dr. Amin Reza Kalantari Khalil Abad has significantly contributed to advancing both academic knowledge and practical applications, making him a highly deserving candidate for the Best Researcher Award.

Profile: Scopus | Google Scholar | ORCID | ResearchGate | LinkedIn

Featured Publications

  • Alizadeh, M., Kalantari Khalil Abad, A. R., Jahani, H., & Makui, A. (2023). Prevention of post-pandemic crises: A green sustainable and reliable healthcare supply chain network design for emergency medical products. Journal of Cleaner Production, 139702. https://doi.org/10.1016/j.jclepro.2023.139702

  • Kalantari Khalil Abad, A. R., Barzinpour, F., & Pishvaee, M. S. (2023). Toward circular economy for pomegranate fruit supply chain under dynamic uncertainty: A case study. Computers & Chemical Engineering, 178, 108362. https://doi.org/10.1016/j.compchemeng.2023.108362

  • Kalantari Khalil Abad, A. R., & Pasandideh, S. H. R. (2022). Green closed-loop supply chain network design with stochastic demand: A novel accelerated Benders decomposition method. Scientia Iranica, 29(5), 2578–2592. https://doi.org/10.24200/sci.2022.55657

  • Kalantari Khalil Abad, A. R., Barzinpour, F., & Pishvaee, M. S. (2023). Green and reliable medical device supply chain network design under deep dynamic uncertainty: A novel approach in the context of COVID-19 outbreak. Applied Soft Computing, 110964. https://doi.org/10.1016/j.asoc.2023.110964

  • Kalantari Khalil Abad, A. R., & Pasandideh, S. H. R. (2021). Green closed-loop supply chain network design: A novel bi-objective chance-constraint approach. RAIRO-Operations Research, 55(2), 811–840. https://doi.org/10.1051/ro/2021035