Assist. Prof. Dr. HalitErdem Çolakoğlu | Computer Science | Research Excellence Award

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Assist. Prof. Dr. HalitErdem Çolakoğlu | Computer Science | Research Excellence Award

Giresun University | Turkey

Assist. Prof. Dr. Halit Erdem Çolakoğlu is a civil engineering researcher specializing in structural behavior of reinforced concrete systems, with emphasis on high-temperature effects, cyclic loading, seismic performance, and finite element modeling. His work contributes to understanding durability, safety, and performance of structural elements under extreme conditions, including corrosion and material degradation. He has published in recognized engineering journals and conferences, focusing on advanced numerical analysis and experimental validation. According to available metrics, his research impact includes approximately 10 Scopus-indexed citations across 4 documents with an h-index of 2, and 24 Google Scholar citations with an h-index of 4, reflecting growing academic influence and research consistency.

Citation Metrics (Scopus)

10

8

6

4

2

0

Citations
10

Documents
4

h-index
2

                    🟦 Citations    🟥 Documents    🟩 h-index


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Featured Publications

Investigation of the Change in Mechanical Properties of Concrete Subjected After High-Temperature Effect to Cyclic Lateral Load – Arabian Journal for Science and Engineering, 2025

The behavior of reinforced concrete frames exposed to high temperature under cyclic load effect
– Structures, 2024

Investigation of cyclic load behavior of reinforced concrete frames exposed to high temperatures using FEM
– Engineering Journal, 2025

Research focus: Reinforced Concrete, Earthquake Engineering, High Temperature Effects, Structural Analysis

Prof. Liying Sun | Control Theory Application | Best Researcher Award

Published on by Computer Scientists Awards

Prof. Liying Sun | Control Theory Application | Best Researcher Award

Prof. Liying Sun | Professor | Shanghai Dianji University | China

Dr. Liying Sun is a distinguished professor at Shanghai Dianji University with extensive expertise in control theory, particularly in nonlinear descriptor systems and Hamiltonian systems. Her research explores advanced mathematical and engineering control methodologies, including finite-time control, adaptive control, and stability analysis of nonlinear and singular Hamiltonian systems. She has made significant contributions to the theoretical development and practical implementation of robust control mechanisms that enhance system performance under uncertainty and external disturbances. Dr. Sun’s work is characterized by the integration of mathematical rigor with engineering applications, contributing to both theoretical advancements and real-world system optimization. Her research has been widely recognized and published in reputable international journals, reflecting her strong academic influence in the fields of automation, control science, and applied mathematics. According to Scopus, she has authored 66 documents, received 578 citations from 432 documents, and holds an h-index of 15, underscoring her impactful contributions to scientific research. Her publications are also well-cited on Google Scholar, confirming her broad recognition in the global academic community.

Publication Profile

Scopus

Featured Publications

  • He, S., Sun, L., & Yang, R. (2025). Finite-time H∞ control of doubly fed induction generator. Asian Journal of Control.

  • He, S., Sun, L., & Yang, R. (2025). Passive control of a set of nonlinear singular Hamiltonian systems. Journal of the Franklin Institute.

  • He, S., Sun, L., & Yang, R. (2025). Adaptive H∞ finite-time boundedness control for a set of nonlinear singular Hamiltonian systems. Control Theory and Technology.

  • Zhang, Z., Sun, L., & Yang, R. (2025). Input-output finite-time stabilization for a class of nonlinear descriptor Hamiltonian systems with actuator saturation. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering.

  • Zhang, Z., & Sun, L. (2025). Input-output finite-time adaptive control of nonlinear descriptor Hamiltonian systems. Fourth International Conference on Advanced Manufacturing.

 

Pericles Papadopoulos | Dynamical Systems | Best Researcher Award

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Prof. Pericles Papadopoulos | Dynamical Systems | Best Researcher Award

University of West Attica, Greece

📘 Dr. Pericles Papadopoulos is a distinguished Professor in the Department of Electrical and Electronics Engineering at the University of West Attica, Greece. With over two decades of experience in academia, he has established himself as an authority in Applied Mathematics and Nonlinear Dynamics. His scholarly contributions include over 70 publications in high-impact international journals and numerous conference presentations. Dr. Papadopoulos is also actively involved in editorial roles for esteemed journals and collaborates with leading universities in Greece and beyond.

Publication Profile

ORCID

Education

🎓 Dr. Papadopoulos earned his Diploma in Mathematics from the University of Athens in 1995. He later pursued advanced studies at the National Technical University of Athens (NTUA), achieving a Master’s in Applied Mathematics in 2002, focusing on invariant sets and attractors. His academic journey culminated in a PhD in Applied Mathematics in 2003, with groundbreaking research on quasilinear wave equations of Kirchhoff’s type.

Experience

🧑‍🏫 Dr. Papadopoulos began his academic career in 1999, teaching at various Greek universities and technical institutes. He served as an Assistant Professor at Piraeus University of Applied Sciences from 2010 to 2014 and later as an Associate Professor at the University of West Attica from 2015 to 2019. Since 2019, he has held the position of Professor, contributing significantly to research, teaching, and academic governance.

Research Interests

🔬 Dr. Papadopoulos specializes in Applied Mathematics, focusing on Partial (Nonlinear) Differential Equations with applications in physics, Nonlinear Dynamic Systems, Elliptic and Parabolic Problems, and Simulations and Systems Modeling. His research has profound implications for theoretical physics and mathematical modeling, particularly in studying complex dynamic systems.

Awards

🏆 Dr. Papadopoulos has received recognition for his outstanding contributions to mathematics and engineering. He has been instrumental in advancing research projects such as PYTHAGORAS I and PENED and has been acknowledged for his impactful role as a researcher, author, and academic mentor.

Publications

Strong Stability for a Viscoelastic Transmission Problem Under a Nonlocal Boundary Control

Blockchain-Powered Gaming: Bridging Entertainment with Serious Game Objectives

Spontaneous Symmetry Breaking in Systems Obeying the Dynamics of On–Off Intermittency and Presenting Bimodal Amplitude Distributions

A New Symbolic Time Series Analysis Method Based on Time-to-Space Mapping, through a Symmetric Magnetic Field, Quantized by Prime Numbers