Murat Emec | Ecology Informatics | Editorial Board Member

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Dr. Murat Emec | Ecology Informatics | Editorial Board Member

Istanbul University | Turkey

Dr. Murat Emec is an accomplished researcher whose work sits at the intersection of artificial intelligence, data science, health informatics, sustainability, and the Internet of Things, with a strong emphasis on applying machine learning to real-world societal challenges. His research portfolio spans advanced deep learning models for intrusion detection in IoT networks, ensemble machine learning approaches for air quality prediction, potable water quality forecasting for sustainable resource management, and the development of specialized IoT datasets aimed at improving cybersecurity analysis. He has contributed to innovative methods in hyperparameter optimization, feature engineering, and data preprocessing, supporting the development of robust predictive systems across multiple domains. Dr. EMEÇ’s work extends into medical and biochemical applications, including machine learning-based LDL prediction, radiomics-driven diagnostic modelling in oncology and neurology, and prognostic modelling using MRI data. His research also covers complex environmental and agricultural modelling, such as global wheat water footprint estimation using ensemble learning. Beyond technical fields, he has explored the societal impact of generative AI, healthcare insurance cost prediction models, and behavioural and gait analysis using sensor-based systems. He has co-developed machine learning solutions for transportation analytics, including large-scale airline ticket price prediction, and contributed to studies on pandemic data modelling. His scholarship reflects a consistent focus on designing data-driven, adaptive, and intelligent systems that enhance sustainability, healthcare decision-making, cybersecurity resilience, and smart environments. Overall, his research demonstrates a multidisciplinary orientation, integrating computational innovation with practical applications in health, environment, and digital transformation.

Profile: Google Scholar

Featured Publications

Emeç, M., & Özcanhan, M. H. (2022). A hybrid deep learning approach for intrusion detection in IoT networks. Advances in Electrical and Computer Engineering, 22(1), 3–12.

Emeç, M., & Yurtsever, M. (2024). A novel ensemble machine learning method for accurate air quality prediction. International Journal of Environmental Science and Technology.

Yurtsever, M., & Emeç, M. (2023). Potable water quality prediction using artificial intelligence and machine learning algorithms for better sustainability. Ege Academic Review, 23(2), 265–278.

Emeç, M., & Özcanhan, M. H. (2023). ROUT-4-2023: RPL based routing attack dataset for IoT.

Emeç, M., & Tecim, V. (2016). RFID teknolojisi kullanarak kampüs harcama sistemlerinin tasarlanması ve uygulanması: Üniversite örneği. Yönetim Bilişim Sistemleri Dergisi, 2(1), 77–90.

Abdol Mohammad Ghaedi | environmental science | Best Researcher Award

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Assoc. Prof. Dr. Abdol Mohammad Ghaedi | environmental science | Best Researcher Award

Supervisor | Islamic Azad University | Iran

Abdol Mohammad Ghaedi is a lecturer in the Department of Chemistry at the Islamic Azad University, Gachsaran Branch, where he has developed extensive expertise in applied chemistry, particularly in the areas of membrane technology, adsorption processes, nanofiltration, ultrafiltration, reverse osmosis, and chemical cleaning of membranes. His academic background includes advanced studies in pure and applied chemistry, with research focusing on the preparation and application of membranes for separation and concentration processes, as well as the utilization of chemometric and artificial intelligence methods for modeling and optimization of chemical systems. He has contributed significantly to the fields of industrial chemistry and separation science through teaching courses such as Industrial Chemistry, Corrosion, and Physical and Chemical Methods of Separation, alongside supervising laboratory work in general and industrial chemistry. His research output is reflected in numerous publications in high-impact international journals, addressing topics such as adsorption of dyes and heavy metals, development of nanocomposites and nanoparticles, and predictive modeling using artificial neural networks, random forest methods, and support vector machines. His collaborative work with international scholars demonstrates a multidisciplinary approach bridging chemistry, nanotechnology, and environmental engineering. In addition, he has presented research at national and international conferences, showcasing his work on ultrafiltration membranes, adsorption systems, and predictive modeling for thermodynamic and transport properties of chemical solutions. His sustained research productivity and contributions highlight his role in advancing innovative methods for environmental remediation, water treatment, and industrial applications of chemical and nanomaterials. His research profile includes 4,161 citations by 3,061 documents, with 76 published documents indexed internationally.

Profile : Scopus | Orcid | Google Scholar

Featured Publications

  • Ebrahimpoor, S., Kiarostami, V., Khosravi, M., Davallo, M., & Ghaedi, A. (2021). Optimization of tartrazine adsorption onto polypyrrole/SrFe₁₂O₁₉/graphene oxide nanocomposite using central composite design and bat inspired algorithm with the aid of artificial neural networks. Fibers and Polymers, 22(6), 1569–1583.

  • Vafaei, A., Ghaedi, A. M., Avazzadeh, Z., Kiarostami, V., Agarwal, S., & Gupta, V. K. (2021). Removal of hydrochlorothiazide from molecular liquids using carbon nanotubes: Radial basis function neural network modeling and culture algorithm optimization. Journal of Molecular Liquids, 323, 114766.

  • Baneshi, M. M., Ghaedi, A. M., Vafaei, A., Emadzadeh, D., Lau, W. J., Marioryad, H., & Jamshidi, A. (2020). A high-flux P84 polyimide mixed matrix membranes incorporated with cadmium-based metal organic frameworks for enhanced simultaneous dyes removal: Response surface methodology. Environmental Research, 185, 109278.

  • Dehghani, M. H., Karri, R. R., Lima, E. C., Mahvi, A. H., Nazmara, S., Ghaedi, A. M., Fazlzadeh, M., & Gholami, S. (2020). Regression and mathematical modeling of fluoride ion adsorption from contaminated water using a magnetic versatile biomaterial & chelating agent: Insight on production & experimental approaches, mechanism and effects of potential interferers. Journal of Molecular Liquids, 309, 113653.

  • Agarwal, S., Tyagi, I., Gupta, V. K., Ghaedi, M., Masoomzade, M., Ghaedi, A. M., & Mirtamizdoust, B. (2020). Retraction notice to “Kinetics and thermodynamics of methyl orange adsorption from aqueous solutions—artificial neural network-particle swarm optimization modeling” [Journal of Molecular Liquids, 218, 354–362]. Journal of Molecular Liquids, 306, 112621.