Mohammad Reza Mehdizadeh | Physics and Astronomy | Best Researcher Award

Best Researcher Award

Mohammad Reza Mehdizadeh
Shahid Bahonar University of Kerman

Mohammad Reza Mehdizadeh
Affiliation Shahid Bahonar University of Kerman
Country Iran
Scopus ID 54403329400
Documents 20
Citations 789
h-index 13
Subject Area Physics and Astronomy
Event International Research Excellence and Best Paper Awards
Google Scholar dEbvb6cAAAAJ

Mohammad Reza Mehdizadeh is an academic researcher affiliated with Shahid Bahonar University of Kerman, Iran, whose scholarly work has contributed to the advancement of Physics and Astronomy through theoretical and applied investigations. His publication record, citation performance, and sustained research activity demonstrate a notable engagement with scientific inquiry and knowledge dissemination. Within the context of the International Research Excellence and Best Paper Awards, his academic profile reflects qualities commonly associated with research distinction, including productivity, impact, and interdisciplinary relevance.[1]

Abstract

This article presents an academic overview of Mohammad Reza Mehdizadeh and evaluates his suitability for recognition through the Best Researcher Award at the International Research Excellence and Best Paper Awards. His scholarly activities within Physics and Astronomy demonstrate sustained engagement in scientific research, publication, and knowledge development. With a measurable citation record, a documented portfolio of peer-reviewed publications, and an established h-index, his work reflects scholarly influence and research visibility. The article reviews his research profile, contributions, publication activity, and broader academic impact while considering criteria commonly associated with excellence in contemporary scientific research and professional achievement.[1]

Keywords

Best Researcher Award, Mohammad Reza Mehdizadeh, Physics and Astronomy, Scientific Research, Citation Impact, Scholarly Publications, Research Excellence, Academic Recognition, Scopus Author Profile, International Research Excellence and Best Paper Awards.

Introduction

Recognition through research awards serves as an important mechanism for highlighting academic achievement and encouraging continued innovation. Researchers who demonstrate consistent publication activity, scholarly influence, and meaningful contributions to their disciplines are frequently considered for such distinctions. Mohammad Reza Mehdizadeh represents an example of an active scholar whose academic record reflects engagement with scientific challenges and participation in the broader advancement of Physics and Astronomy through research dissemination and collaboration.[1]

Research Profile

As a researcher affiliated with Shahid Bahonar University of Kerman, Mohammad Reza Mehdizadeh has developed a scholarly profile characterized by peer-reviewed publications and measurable citation performance. His documented research output includes twenty indexed publications and a substantial citation count that indicates ongoing academic engagement with his work. The h-index associated with his publication record further reflects the visibility and influence of his contributions within relevant scientific communities and research networks.[1]

Research Contributions

The research contributions of Mohammad Reza Mehdizadeh are situated within the broader field of Physics and Astronomy, where scientific progress relies upon rigorous theoretical development, experimental validation, and analytical interpretation. His scholarly efforts have contributed to ongoing discussions in specialized areas of research and have supported the expansion of knowledge through publication in recognized academic venues. Citation activity associated with his work suggests that fellow researchers have found value in his findings and methodologies, reinforcing the relevance of his contributions within the scientific literature.[2]

Publications

Publication activity remains a central indicator of academic productivity, and Mohammad Reza Mehdizadeh has established a record of scholarly dissemination through peer-reviewed research outputs. His publications contribute to the body of scientific literature available to researchers, educators, and practitioners. The visibility of these works within citation databases reflects successful engagement with international research audiences and demonstrates participation in the global exchange of scientific knowledge and evidence-based inquiry.[3]

Research Impact

Research impact can be evaluated through indicators such as citation performance, scholarly visibility, and the extent to which published findings influence subsequent investigations. The citation record associated with Mohammad Reza Mehdizadeh demonstrates that his work has been referenced by other scholars, suggesting meaningful engagement within the academic community. Such indicators provide evidence of research dissemination and support assessments of scientific influence, particularly when considered alongside publication quality, consistency, and disciplinary relevance.[1][4]

Award Suitability

Assessment for a Best Researcher Award generally considers factors such as research productivity, scholarly impact, citation performance, academic leadership, and contributions to scientific advancement. Based on available indicators, Mohammad Reza Mehdizadeh demonstrates several characteristics aligned with these evaluation dimensions. His established publication record, measurable citation influence, and continued involvement in scientific research support consideration for recognition within programs designed to celebrate excellence and sustained achievement in academic scholarship.[1][5]

Conclusion

Mohammad Reza Mehdizadeh has established a recognizable academic presence through research activity, publication output, and citation impact within Physics and Astronomy. His scholarly profile reflects sustained participation in scientific inquiry and contribution to disciplinary knowledge. Considering commonly applied standards for research excellence, including publication productivity, visibility, and influence, his academic achievements provide a reasonable basis for recognition through the Best Researcher Award associated with the International Research Excellence and Best Paper Awards program.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Mohammad Reza Mehdizadeh, Author ID 54403329400. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=54403329400
  2. The European Physical Journal Plus 139 (11), 1001. (2024). Novel Casimir wormholes in Einstein gravity.
    https://doi.org/10.1140/epjp/s13360-024-05801-z
  3. Google Scholar. (n.d.). Scholar profile of Mohammad Reza Mehdizadeh.
    https://scholar.google.com/citations?user=dEbvb6cAAAAJ
  4. AS Nezhad, MR Mehdizadeh, H Golchin. (2024). The effect of redshift function on the weak energy conditions in f(R) wormholes.
    https://doi.org/10.1140/epjp/s13360-024-04895-9
  5. International Research Excellence and Best Paper Awards. (2026). Award program information and evaluation framework.
    https://bestpaperawards.com/

John Byrnes | Biochemistry, Genetics and Molecular Biology | Best Paper Award

Best Paper Award

Selective Inhibition of Proofreading Exonucleases The Central Role in Obesity Assoviated Carciniogenesis
John Byrnes
Affiliation University of Miami
Country United States
Article Title Selective Inhibition of Proofreading Exonucleases The Central Role in Obesity Assoviated Carciniogenesis
Google Scholar ID 1kizaHgAAAAJ&hl
Article Type Research Article
Article Views 870
Reference Count 88
Award Category Best Paper Award
Event International Research Excellence and Best Paper Awards
ORCID 0000-0003-0940-9710

The Best Paper Award recognizes the scholarly contribution of John Byrnes of the University of Miami for research examining the relationship between proofreading exonucleases and obesity-associated carcinogenesis. Published in MDPI during 2026, the study contributes to ongoing discussions in biochemistry, genetics, and molecular biology regarding genomic integrity, cancer development, and molecular mechanisms associated with metabolic disorders. The award acknowledges the scientific significance, methodological rigor, and interdisciplinary relevance of the publication within contemporary biomedical research.[1]

Abstract

This award-recognized research investigates the potential role of proofreading exonucleases in mechanisms associated with obesity-related carcinogenesis. The study explores how alterations in DNA replication fidelity, repair pathways, and genomic maintenance may contribute to cellular transformation under metabolic stress conditions. Through molecular and biochemical analyses, the research evaluates the consequences of selective exonuclease inhibition and its implications for tumor development. Findings provide insights into interactions between obesity-associated biological environments and genomic instability. The work advances understanding of cancer biology while identifying potential molecular targets for future therapeutic development and translational biomedical investigations.[2]

Keywords

AMP; AMPK; carcinogenesis; DNA polymerase; fidelity; energy regulation; metabolism; mutation; obesity; proofreading exonuclease.

Introduction

The increasing prevalence of obesity has intensified scientific interest in understanding its relationship with cancer risk and progression. Researchers have identified multiple biological pathways linking metabolic dysregulation to genomic instability. This study focuses on proofreading exonucleases, enzymes responsible for maintaining DNA replication accuracy, and evaluates their relevance within obesity-associated carcinogenic processes that may influence disease initiation and progression.[2]

Research Profile

John Byrnes is affiliated with the University of Miami and has established a research portfolio within biochemistry, genetics, and molecular biology. With 138 indexed scholarly documents, 8,573 citations, and an h-index of 39, his academic contributions demonstrate sustained engagement in molecular mechanisms underlying human disease, cancer development, and genomic maintenance processes across diverse biomedical research domains.[3]

Scientific Background

Proofreading exonucleases play a critical role in correcting replication errors and preserving genome integrity. Deficiencies in these enzymatic systems can result in elevated mutation rates and increased susceptibility to malignant transformation. Previous investigations have linked obesity-related inflammation, oxidative stress, and metabolic disturbances with DNA damage, creating a scientific basis for examining interactions between exonuclease activity and carcinogenic pathways.[4]

Methodology

The research applies molecular biology and biochemical methodologies to investigate the consequences of selective proofreading exonuclease inhibition. Experimental analyses assess cellular responses, genomic integrity markers, and mechanisms associated with DNA repair regulation. By integrating laboratory observations with established cancer biology frameworks, the study evaluates how altered proofreading functions may contribute to carcinogenic processes under obesity-associated physiological conditions.[2]

Key Findings

The study identifies significant relationships between proofreading exonuclease activity and mechanisms that influence genomic stability. Results indicate that disruptions in proofreading functions may enhance mutation accumulation and contribute to cellular environments favorable to carcinogenesis. The findings support the hypothesis that obesity-associated biological stressors can interact with genomic maintenance pathways, potentially increasing cancer susceptibility through complex molecular mechanisms.[2]

Scientific Contributions

This research contributes to the growing body of knowledge connecting metabolic disease and cancer biology. By highlighting proofreading exonucleases as important molecular components within obesity-associated carcinogenesis, the study offers a framework for future investigations into diagnostic biomarkers and therapeutic interventions. The work also strengthens interdisciplinary connections between molecular genetics, oncology, and translational biomedical science.[4]

Conclusion

The Best Paper Award recognizes a publication that advances understanding of molecular mechanisms underlying obesity-associated cancer development. Through examination of proofreading exonucleases and genomic stability pathways, the research provides valuable scientific insights with potential relevance to future therapeutic strategies. Its contribution to contemporary biomedical literature reflects both methodological rigor and significance within the broader field of molecular oncology.[5]

References

  1. MDPI. (2026). Selective Inhibition of Proofreading Exonucleases The Central Role in Obesity Assoviated Carciniogenesis.
    https://www.mdpi.com/1467-3045/48/4/346
  2. DOI Reference. Cell Biochemistry and Function, Volume 48, Issue 4.
    https://doi.org/10.3390/cimb48040346
  3. Google Scholar. (n.d.). John Byrnes Author Profile.
    https://scholar.google.com/citations?user=1kizaHgAAAAJ&hl=en&oi=sra
  4. MDPI. (2026). Journal Information and Publication Metadata.
    https://www.mdpi.com/
  5. International Research Excellence and Best Paper Awards. (2026). Best Paper Award Recognition Program.
    https://bestpaperawards.com/

Jian Zhao (Jet) Yin | Earth and Planetary Sciences | Best Paper Award

Best Paper Award

Jian Zhao (Jet Yin), College of Earth Sciences, Jilin University, China; Orient Resources Ltd., Canada

Jian Zhao (Jet Yin)
Affiliation College of Earth Sciences, Jilin University, China; Orient Resources Ltd., Canada
Country Canada
Scopus ID 7401693574
Documents 8
Citations 81
h-index 4
ORCID 0000-0003-3025-7299
Award Best Paper Award

The Best Paper Award recognizes outstanding scholarly contributions that advance scientific understanding and practical innovation. Jian Zhao (Jet Yin) has established himself as a dedicated researcher in Earth Sciences, specializing in mineral exploration, economic geology, and resource evaluation. His research contributes to advancing geological investigations and sustainable resource development practices while strengthening scientific understanding of mineral systems and exploration methodologies. [1][2]

Abstract

Jian Zhao (Jet Yin) is a researcher specializing in Earth Sciences, mineral exploration, economic geology, and resource evaluation. Through his academic affiliation with the College of Earth Sciences at Jilin University and professional involvement with Orient Resources Ltd., Canada, he has contributed to advancing geological investigations and sustainable resource development. His research focuses on understanding mineral systems, improving exploration methodologies, and supporting efficient resource assessment practices. With a growing publication record, recognized citations, and measurable scholarly impact, Jian Zhao continues to provide valuable scientific knowledge that benefits both academic research and industry applications while promoting innovation in geological sciences worldwide. [1][2]

Keywords

Earth Sciences, Economic Geology, Mineral Exploration, Resource Evaluation, Mining Geology, Geological Research, Sustainable Resource Development, Ore Deposits, Resource Assessment, Geological Innovation

Introduction

Earth Sciences research is essential for understanding geological processes and supporting sustainable resource utilization. Jian Zhao has contributed to this field through studies focused on mineral exploration, geological investigations, and resource assessment. His work bridges scientific research and practical applications, enhancing knowledge and supporting responsible resource development. [1]

Research Profile

Jian Zhao (Jet Yin) is affiliated with Jilin University, China, and Orient Resources Ltd., Canada. His research interests include economic geology, mineral exploration, and resource evaluation. With 8 Scopus-indexed publications, 81 citations, and an h-index of 4, he maintains an active role within Earth Sciences research. [1][3]

Scientific Background

Modern mineral exploration integrates geological mapping, geochemistry, geophysics, and resource modeling. Jian Zhao’s research contributes to understanding mineral systems and exploration strategies. His scientific activities support improved resource discovery, evaluation methodologies, and geological interpretation while addressing challenges associated with sustainable mineral resource development worldwide.

Research Contributions

Jian Zhao has contributed to advancing geological research through studies focused on mineral resources and exploration methodologies. His work strengthens scientific understanding of geological systems, improves resource assessment practices, and enhances the practical application of research findings within industry settings, promoting innovation and sustainable development.

Publications

His publication record reflects active engagement in Earth Sciences research. Through peer-reviewed studies and scholarly contributions, Jian Zhao has investigated topics related to geology, mineral exploration, and resource evaluation. His publications have received citations from the scientific community and continue supporting ongoing geological research activities. [1]

Research Impact

The impact of Jian Zhao’s research extends beyond academia by supporting practical applications in exploration and resource evaluation. His findings contribute to improved geological decision-making, resource management strategies, and exploration planning. These contributions promote responsible resource utilization while advancing scientific understanding within the Earth Sciences field.

Award Suitability

Jian Zhao’s research demonstrates scientific quality, originality, and practical relevance. His contributions to Earth Sciences, mineral exploration, and resource evaluation align closely with the objectives of the Best Paper Award. His scholarly achievements, professional dedication, and growing research influence make him deserving of this recognition.

Conclusion

Through his dedication to Earth Sciences research, Jian Zhao continues advancing geological knowledge and resource exploration practices. His scholarly accomplishments, publication record, and research impact highlight a commitment to scientific excellence. These achievements reflect the qualities recognized by the Best Paper Award and the broader scientific community.

References

  1. Scopus Author Profile. Jian Zhao (Jet Yin). Author ID: 7401693574.
    https://www.scopus.com/authid/detail.uri?authorId=7401693574
  2. ORCID. Jian Zhao (Jet Yin). ORCID iD: 0000-0003-3025-7299.
    https://orcid.org/0000-0003-3025-7299
  3. Jilin University. College of Earth Sciences.
    https://www.jlu.edu.cn/
  4. Best Paper Awards. Official Website
    bestpaperawards.com/

Tetiana Tatarchuk | Materials Science | Editorial Board Member

Dr. Tetiana Tatarchuk | Materials Science | Editorial Board Member 

Assistant Professor | Vasyl Stefanyk Precarpathian National University | Ukraine

Tetiana Tatarchuk is an accomplished Ukrainian chemist and Associate Professor at the Department of Chemistry, Vasyl Stefanyk Carpathian National University, Ivano-Frankivsk, where she has been serving since 2005. Her research primarily focuses on the synthesis, characterization, and application of metal oxide and ferrite nanomaterials for environmental remediation, catalytic processes, and water treatment. She has extensively explored the development of cobalt, nickel-cobalt, zinc-cobalt, and gadolinium-substituted ferrites, emphasizing their structural, morphological, magnetic, optical, and catalytic properties. Her work includes green and eco-friendly synthesis approaches using plant extracts, demonstrating significant advancements in adsorption, photocatalysis, and Fenton-like oxidation for the degradation of organic pollutants such as dyes, pharmaceuticals, and toxic chemicals. Tatarchuk has also contributed to studies on TiO₂-based photocatalysts, halloysite nanotubes, and magnetite nanoparticles, highlighting their potential in environmental purification, hyperthermia applications, and advanced oxidation processes. Her publications in high-impact journals reveal a consistent focus on sustainable and practical solutions for environmental challenges, including water disinfection, pollutant degradation, and heavy metal removal. In addition to experimental research, she has investigated fundamental aspects of spinel ferrite defects, cation distribution, inversion degree, and their influence on catalytic performance, combining theoretical modeling with practical applications. Tatarchuk has collaborated extensively with international researchers, contributing to multidisciplinary projects that integrate chemistry, materials science, and environmental engineering. She has also reviewed topics such as virus elimination, microplastics removal, and green synthesis principles, reflecting her commitment to addressing global environmental and health issues. With over 80 publications, numerous citations, and active engagement in peer review, her career demonstrates a blend of innovative research, teaching excellence, and scientific leadership, establishing her as a prominent figure in nanomaterials and environmental chemistry. Her work continues to impact sustainable technology development and water treatment methodologies, emphasizing the translation of laboratory research into real-world solutions for pollution control and resource management.

Profiles: Google Scholar | ORCID | Scopus

Featured Publications

  1. Tatarchuk, T., Kotsyubynsky, V. (2025). CeO2-Cobalt Ferrite Composite as a Dual-Function Catalyst for Hydrogen Peroxide Decomposition and Organic Pollutants Degradation. Metals, 15(9), 985.

  2. Tatarchuk, T., Bilovol, V., Shyichuk, A., Danyliuk, I., Sokołowski, K., Gajewska, M. (2025). Mesoporous Co-Mn ferrites as highly radical-forming catalysts for wet peroxide oxidation of 4-nitrophenol. Applied Surface Science, 2025, 162610.

  3. Starko, I., Tatarchuk, T., Sokolowski, K., Naushad, M. (2025). Engineering of Mesoporous Gd-substituted Ni-Co Ferrites as Adsorbents for Efficient Elimination of Congo Red Dye and Oxytetracycline. Water, Air, & Soil Pollution, 236, 78.

  4. Tatarchuk, T., Shyichuk, A., Kotsyubynsky, V., Danyliuk, N. (2025). Catalytically active cobalt ferrites synthesized using plant extracts: Insights into structural, optical, and catalytic properties. Ceramics International, 51, 470.

  5. Liaskovska, M., Tatarchuk, T., Kotsyubynsky, V. (2025). Green Synthesis of Cobalt–Zinc Ferrites and Their Activity in Dye Elimination via Adsorption and Catalytic Wet Peroxide Oxidation. Metals, 15(1), 44.

Tetiana Tatarchuk’s work advances sustainable environmental chemistry by developing innovative nanomaterials and green catalytic processes for water purification and pollutant removal. Her research bridges fundamental science and practical applications, offering solutions that benefit society, industry, and global environmental sustainability.

Abdul Jalil | Materials Science | Editorial Board Member

Assist Prof. Dr. Abdul Jalil | Materials Science | Editorial Board Member

Assistant Professor | Allama Iqbal Open University | Pakistan

Abdul Jalil is an accomplished researcher and Assistant Professor at Allama Iqbal Open University (AIOU), specializing in condensed matter physics and materials science, with a strong focus on nanostructures, photocatalysis, optoelectronics, and energy-related applications. With over 2,200 citations, an h-index of 19, and more than 30 influential publications, his work demonstrates significant impact in both fundamental science and applied research. Jalil has collaborated extensively with international scholars, including researchers from the University of Science and Technology of China, Hainan University, Auburn University, and the University of Ioannina, reflecting his active engagement in global scientific networks. His notable contributions include advancing solar-driven nitrogen fixation through defect engineering in W18O49, developing novel luminescent phosphors such as YPO4:Dy3+/Eu3+/Tb3+ and Ca2YTaO6:Bi3+/Eu3+ double perovskites, and exploring the optoelectronic and solar energy applications of ZnO nanostructures. He has also made strides in the development of high-performance electromagnetic wave-absorbing aerogels, halide perovskite nanocrystals, and two-dimensional materials like phosphorene-like InP3 and B4C3 monolayers for catalysis and sensing applications. His research integrates experimental synthesis, structural characterization, optical and electronic property tuning, and environmental applications, including photocatalytic degradation of pollutants and assessment of fossil fuel impacts. Through these multidisciplinary studies, Jalil has contributed to both sustainable technologies and advanced materials science, demonstrating innovation in defect tuning, material design, and functional performance optimization. His work has garnered recognition in top journals such as the Journal of the American Chemical Society, Chemical Engineering Journal, Journal of Materials Chemistry, and Journal of Alloys and Compounds, highlighting his role as a leading contributor to the fields of materials science, condensed matter physics, and nanotechnology, with a lasting impact on both academic research and practical applications in energy, environment, and optoelectronic technologies.

Profile: Google Scholar

Featured Publications

  1. Zhang, N., Jalil, A., Wu, D., Chen, S., Liu, Y., Gao, C., Ye, W., Qi, Z., Ju, H., Wang, C., … et al. (2018). Refining defect states in W18O49 by Mo doping: A strategy for tuning N2 activation towards solar-driven nitrogen fixation. Journal of the American Chemical Society, 140(30), 9434–9443.

  2. Hassan, A., Ilyas, S. Z., Jalil, A., & Ullah, Z. (2021). Monetization of the environmental damage caused by fossil fuels. Environmental Science and Pollution Research, 28(17), 21204–21211.

  3. Khan, S. A., Jalil, A., Khan, Q. U., Irfan, R. M., Mehmood, I., Khan, K., Kiani, M., … et al. (2020). New physical insight into crystal structure, luminescence and optical properties of YPO4: Dy3+/Eu3+/Tb3+ single-phase white-light-emitting phosphors. Journal of Alloys and Compounds, 817, 152687.

  4. Zahoor, R., Jalil, A., Ilyas, S. Z., Ahmed, S., Hassan, A., & … et al. (2021). Optoelectronic and solar cell applications of ZnO nanostructures. Results in Surfaces and Interfaces, 2, 100003.

  5. Sial, M. A. Z. G., Baskaran, S., Jalil, A., Talib, S. H., Lin, H., Yao, Y., Zhang, Q., Qian, H., … et al. (2019). NiCoFe oxide amorphous nanoheterostructures for oxygen evolution reaction. International Journal of Hydrogen Energy, 44(41), 22991–23001.

Abdul Jalil’s research advances the frontiers of materials science and condensed matter physics by developing innovative nanostructures, photocatalysts, and optoelectronic materials. His work contributes to sustainable energy solutions, environmental remediation, and advanced technological applications, driving global scientific innovation and practical societal benefits.

Mr. MD Shadman Soumik | Computer Science | Best Researcher Award

Mr. MD Shadman Soumik | Computer Science | Best Researcher Award

Graduate Student | Washington University of Science & Technology | United States

MD Shadman Soumik is a dedicated IT Support and Data Security professional and researcher with extensive expertise in cybersecurity, data analytics, cloud computing, and enterprise IT systems, combining practical experience with innovative research contributions. He earned his Master of Science in Information Technology from Washington University of Science and Technology, Virginia (2025) and a Bachelor of Science in Electrical and Electronic Engineering from North South University, Bangladesh (2017), establishing a strong academic foundation for both technical and analytical proficiency. Over his career, he has worked with organizations including Reliable Home Care Services Corp, Frontier Semiconductor Bangladesh Ltd, and Poran Agro Products Ltd, where he provided comprehensive IT support, implemented cybersecurity protocols, conducted security audits, managed secure data integration, and optimized IT operations to ensure operational efficiency and data protection. His research interests encompass artificial intelligence applications in cybersecurity, network intrusion detection, secure and usable system design, early disease diagnosis using healthcare data, and AI-based financial market prediction. Soumik’s research skills include machine learning, neural networks, cybersecurity operations, database management, cloud computing, data analysis, technical writing, and project management, allowing him to bridge applied IT work and academic research effectively. He has contributed to high-impact publications in journals and conferences such as IEEE ICDSIS, International Journal of Computer Applications (IJCA), International Journal of Scientific Research and Applications (IJSRA), and International Journal of Advanced Research in Science, Communication and Technology (IJARSCT), and he actively participates in professional organizations including the International Society for Data Science and Analytics (USA) and the Institute of Engineers, Bangladesh. His achievements have been recognized through research awards and professional honors that highlight his contributions to cybersecurity, IT management, and applied analytics. In conclusion, MD Shadman Soumik exemplifies a researcher and professional whose combined expertise, leadership, publications, and dedication to innovation make him highly deserving of recognition, with significant potential to advance IT security, artificial intelligence applications, and data analytics on a global scale.

Profile: LinkedIn

Featured Publications

  1. Soumik, M. S., Mahmud, M. R., Sami, S. I., & Tanim, M. K. B. S. (2025). Designing secure and usable systems: The intersection of human-computer interaction, cybersecurity, and machine learning. International Journal of Computer Applications (IJCA).

  2. Tarafdar, R., Soumik, M. S., & Venkateswaranaidu, K. (2025). Applying artificial intelligence for enhanced precision in early disease diagnosis from healthcare dataset analytics. IEEE International Conference on Data Science and Information Systems (ICDSIS).

  3. Soumik, M. S. (2024). A comparative analysis of network intrusion detection (NID) using artificial intelligence techniques for increased network security. International Journal of Scientific Research and Applications (IJSRA).

  4. Tanim, M. K. B. S., Parash, M. H., Soumik, M. S., & Shakib, M. (2024). Enhanced network anomaly detection using convolutional neural networks in cybersecurity operations. International Journal of Computer Applications (IJCA).

  5. Soumik, M. S. (2024). Prediction of the financial stock market: A comprehensive analysis of artificial intelligence. International Journal of Advanced Research in Science, Communication and Technology (IJARSCT), 4(2).