Jesus Gamez | Artificial Intelligence | Best Academic Researcher Award

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Mr. Jesus Gamez | Artificial Intelligence | Best Academic Researcher Award

PhD student at National Institute of Astrophysics, Optics and Electronics, Mexico

Jesús Alberto Gamez Guevara is a dedicated researcher and academic currently pursuing a Ph.D. in Science with a Specialization in Electronics at the Instituto Nacional de Astrofísica, Óptica y Electrónica (INAOE) in Mexico. His academic journey and professional path reflect a strong foundation in electronics and a commitment to educational excellence and innovation. With a diverse career spanning roles in both academia and industry, Jesús has contributed to the fields of electronic engineering, digital learning, and neuromorphic computing. His work exemplifies a blend of practical teaching, research-based innovation, and interdisciplinary exploration in electronics and microelectronics reliability.

Profile

Scopus

Education

Jesús began his academic career with a Bachelor’s degree in Electronic Engineering from the Instituto Tecnológico de Puebla, where he studied from 2000 to 2006. After gaining significant professional experience, he returned to academia and pursued a Master’s degree in Electronics Science at INAOE from 2020 to 2023. His decision to further his academic credentials with a Ph.D. demonstrates his passion for advanced research and his dedication to contributing cutting-edge developments to the field of electronics. This solid educational foundation has allowed him to bridge theoretical knowledge and practical applications in microelectronics and related areas.

Experience

Jesús’s professional experience spans both teaching and engineering, reflecting a career shaped by versatility and a deep understanding of applied electronics. He began his career as a Content Programmer in Digital Learning Models from 2007 to 2011, focusing on educational technologies and content development. His teaching career commenced as an Adjunct Professor “B” at the Instituto Tecnológico Superior de Teziutlán (2011–2012), followed by a Full-Time Associate Professor role at the same institution from 2012 to 2015. Simultaneously, he served as a Full-Time Professor at CBTIS No. 153, a high school institution, during the same period. His work extended into industrial applications when he took on a role in Engineering Projects focusing on Innovation, Development, and Control between 2016 and 2018. Most recently, he held another academic position as an Adjunct Professor “B” at Universidad Politécnica de Puebla from 2018 to 2019. These cumulative experiences reflect his dual expertise in academic instruction and engineering innovation.

Research Interest

Jesús Alberto Gamez Guevara’s primary research interests revolve around electronics, neuromorphic computing, spintronic devices, and microelectronics reliability. His current doctoral research is centered on analyzing magnetoresistive tunnel junction (MTJ)-based spiking neural networks (SNN), specifically examining the impact of resistive open and short defects on their performance. His academic curiosity lies in integrating emerging device technologies with neuromorphic architectures to enhance the performance and reliability of artificial neural systems. His interdisciplinary approach merges insights from materials science, microelectronics, and computational modeling to address challenges in defect tolerance, energy efficiency, and system scalability in next-generation computing systems.

Award

Although there are no specific individual awards listed in his current profile, Jesús’s acceptance into a highly regarded Ph.D. program and his collaborative publication in a leading journal highlight his growing recognition in the research community. His academic achievements, coupled with his ongoing contributions to microelectronics reliability, position him as a promising researcher in the field of electronics.

Publication

Jesús has contributed to the field through scholarly publications, with two articles currently indexed on Scopus. A notable recent publication is titled “Performance analysis of MTJ-based SNN under resistive open and short defects,” co-authored with Leonardo Miceli, Elena Ioana Vǎtǎjelu, and Víctor H. Champac. This article, published in Microelectronics Reliability in 2025, provides critical insights into the behavior of spintronic neural networks in the presence of defects, contributing to the design of more robust neuromorphic systems. Although the paper has yet to be cited at the time of reporting, its relevance in a niche yet rapidly developing domain indicates its potential impact in the near future.

Conclusion

Jesús Alberto Gamez Guevara stands at the intersection of academic excellence and technological innovation. His journey from a student of electronics to a doctoral researcher reflects his unwavering dedication to learning and knowledge dissemination. With a strong educational background, comprehensive teaching experience, and a growing research portfolio, he continues to contribute meaningfully to the fields of electronics and neuromorphic computing. As he progresses in his doctoral studies, his work is poised to influence future developments in spintronic-based architectures and the broader field of energy-efficient, reliable microelectronic systems. His profile embodies the spirit of scientific inquiry and educational commitment, making him a valuable member of the academic and research community.

Fatih Kalemkuş | Artificial Intelligence | Best Researcher Award

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Assist. Prof. Dr. Fatih Kalemkuş | Artificial Intelligence | Best Researcher Award

Assistant Professor at Kafkas University, Turkey

Dr. Fatih Kalemkuş is an Assistant Professor at Kafkas University, where he specializes in Electronic Commerce and Technology Management. With a rich academic and professional background, Dr. Kalemkuş embarked on his career in education after completing his undergraduate degree in Computer Education & Instructional Technologies at Atatürk University. He has taught various subjects related to information technology, first as an Informatics Technologies Teacher at the Turkish Ministry of National Education and later as a lecturer at Kafkas University’s Distance Education Application and Research Center. His journey culminated in earning a doctoral degree from Fırat University in Computer Education & Instructional Technologies, where he was honored with the “Most Successful Doctoral Thesis” award in 2024.

Profile

Orcid

Education

Dr. Kalemkuş’s educational journey began at Erzincan Fatih Industrial Vocational High School, where he pursued studies in the Computer Department. He continued to develop his academic career by earning his bachelor’s degree in 2006 from Atatürk University in the field of Computer Education & Instructional Technologies. He then completed a Master’s degree in Internet and Informatics Technologies Management from Afyon Kocatepe University between 2014 and 2016. His dedication to advancing his knowledge in the field led him to pursue a Ph.D. at Fırat University, graduating in 2023 with a focus on Computer Education & Instructional Technologies. His research has been instrumental in advancing educational practices in the digital age, with a specific focus on artificial intelligence and emerging technologies.

Experience

Dr. Kalemkuş has had diverse professional experiences. From 2007 to 2021, he served as an Informatics Technologies Teacher under the Turkish Ministry of National Education, shaping the next generation’s skills in information technology. In 2021, he joined Kafkas University as a lecturer at the Distance Education Application and Research Center, where he taught courses related to digital learning tools. His commitment to academic excellence and innovation in education led to his promotion to Assistant Professor in 2024 at Kafkas University’s Electronic Commerce and Technology Management Department, where he continues to make impactful contributions to research and education.

Research Interests

Dr. Kalemkuş’s research focuses on key areas of educational technology and digital transformation. He is particularly interested in 21st-century skills, metacognitive awareness, online project-based learning, digital technologies, artificial intelligence (AI), augmented reality, and cloud computing. He also explores the intersection of education and emerging technologies, such as natural language processing (NLP) and the integration of AI in educational contexts. His work aims to improve learning outcomes and foster innovation in teaching methodologies. His ongoing research projects delve into the development of AI-driven educational materials and interactive learning environments that enhance students’ academic engagement.

Awards

Dr. Kalemkuş has received recognition for his outstanding academic contributions. In 2024, he was honored with the prestigious “Most Successful Doctoral Thesis” award from Fırat University for his exceptional research and academic achievements. This award highlights his dedication to advancing the field of educational technologies and his commitment to excellence in research. His work, particularly on the use of AI in education, has positioned him as a leading researcher in his field.

Publications

Dr. Kalemkuş has authored several influential publications in well-regarded journals and books. His research has been featured in leading SSCI and ESCI journals, including the European Journal of Education, Interactive Learning Environments, Science & Education, and Journal of Research in Special Educational Needs. His recent publications include:

Kalemkuş, F., & Kalemkuş, J. (2025). “Primary School Students’ Perceptions of Artificial Intelligence: Metaphor and Drawing Analysis”, European Journal of Education, 60(1), 1-23.

Kalemkuş, F., & Bulut-Özek, M. (2024). “The Effect of Online Project-based Learning on Metacognitive Awareness of Middle School Students”, Interactive Learning Environments, 32(4), 1533-1551.

Kalemkuş, F., & Kalemkuş, J. (2024). “The Effect of Designing Scientific Experiments with Visual Programming on Learning Outcomes”, Science & Education, 1-23.

Kalemkuş, F., & Bulut-Özek, M. (2023). “Effect of the Use of Augmented Reality Applications on Academic Achievement in Science Education: Meta Analysis”, Interactive Learning Environments, 31(9), 6017-6034.

Kalemkuş, F. (2024). “Trends in Instructional Technologies Used in Education for People with Special Needs Due to Intellectual Disabilities and Autism”, Journal of Research in Special Educational Needs, 1-25.

Kalemkuş, F., & Çelik, L. (2023). “Investigation of Secondary Education Students’ Views and Purposes of Use of EBA”, Malaysian Online Journal of Educational Technology, 11(3), 184-198.

Kalemkuş, F., & Bulut-Özek, M. (2021). “Research Trends in 21st Century Skills: 2000-2020”, MANAS Sosyal Araştırmalar Dergisi, 10(2), 878-900.

Conclusion

Dr. Fatih Kalemkuş’s career has been marked by a profound commitment to advancing educational technology and promoting the use of emerging technologies in learning environments. With numerous publications in prestigious journals and books, he has made a significant impact on the fields of AI, digital learning, and 21st-century skills development. His work continues to shape the educational landscape, particularly in the integration of innovative digital tools to enhance teaching and learning outcomes. Dr. Kalemkuş’s recognition with awards, such as the “Most Successful Doctoral Thesis” award, reflects his outstanding contributions to both research and education. His interdisciplinary approach ensures that his work will remain at the forefront of educational innovations for years to come.

Penghao Wu | Artificial Intelligence | Best Researcher Award

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Mr. Penghao Wu | Artificial Intelligence | Best Researcher Award

postgraduate | Soochow University | China

Penghao Wu is a dedicated postgraduate student specializing in Control Science and Engineering at Suzhou University, where he is transitioning from the first to the second year of his master’s program. His research centers on explainable neural networks, fault diagnosis in large-scale systems, and multidimensional data analysis, leveraging advanced AI and machine learning methodologies. He has a strong foundation in academic research, evidenced by three high-quality publications and extensive experience with state-of-the-art algorithms. His career goal is to contribute to AI-driven solutions in fields such as large model algorithms, autonomous driving, and data analysis, aligning closely with his expertise.

Profile

Scopus

Education

Penghao Wu began his academic journey with a Bachelor’s degree in Automation from Inner Mongolia University of Technology, graduating in 2023. Excelling academically, he ranked 3rd in his major (top 3%), achieved a GPA of 4.2/5.0, and earned an average credit score of 98.94. Continuing his pursuit of excellence, he joined Suzhou University in 2023 to pursue a master’s degree in Control Science and Engineering. Currently maintaining a GPA of 3.5/4.0 and an average credit score of 87, he has undertaken courses like Advanced Mathematics, Matrix Theory, Modern Control Theory, and Mobile Robot Autonomous Navigation, building a robust technical foundation.

Experience

Penghao Wu has been actively involved in research and development throughout his academic career. His undergraduate graduation project on deep learning-based building change detection algorithms using remote sensing imagery was recognized as one of only three “Outstanding Graduation Designs” in his college. He has also participated in several impactful projects, including vehicle battery fault diagnosis using Variational Mode Decomposition and spiking neural networks for lithium-ion battery fault detection. His practical expertise extends to software systems, having developed a multifunctional intelligent control device awarded a computer software copyright.

Research Interests

Penghao’s research interests revolve around explainable artificial intelligence (XAI), deep learning, and large-scale system fault diagnosis. He focuses on designing interpretable neural network algorithms for critical applications such as autonomous vehicles and aerospace systems. By integrating data-driven approaches with domain knowledge, he aims to enhance the transparency and reliability of AI systems. His work also extends to multidimensional data analysis, with applications in remote sensing and industrial fault detection, underlining his commitment to addressing real-world challenges through cutting-edge technologies.

Awards

Penghao Wu has received multiple accolades for his academic and extracurricular achievements. Notable awards include the Graduate First-Class Scholarship (2023), recognition as an “Outstanding Student” for three consecutive years during his undergraduate studies, and a top-four finish in the CIMC China Intelligent Manufacturing Challenge (university level). His graduation project on remote sensing image analysis earned distinction as one of only three outstanding projects in his college. Additionally, he won third place in the North China University Computer Application Competition.

Publications

Exponential Weighted Moving Average-Based Variational Mode Decomposition Method for Fault Diagnosis of Vehicle Batteries
Published in Data-driven Control and Learning Systems Conference (EI Indexed, 2024).
Cited by: 15 articles.

Data-Driven Spiking Neural Networks for Explainable Fault Detection in Vehicle Lithium-Ion Battery Systems
Under major revision in a Tier-2 SCI journal (2024).
Cited by: 10 articles.

Multi-modal Intelligent Fault Diagnosis for Large Aviation Aircraft Based on Mamba-2
Submitted as an invited article to a Tier-1 SCI journal (2024).
Cited by: 8 articles.

Conclusion

Penghao Wu is a driven researcher and engineer, blending academic excellence with practical expertise in artificial intelligence and control systems. His strong background in fault diagnosis, deep learning, and explainability positions him as an ideal candidate for AI algorithm roles. With a proven track record of research, publications, and accolades, he is poised to make significant contributions to advancing technology in areas such as autonomous systems and intelligent data analysis.

Jalel Euchi | AI in Healthcare | Best Researcher Award

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Assist. Prof. Dr. Jalel Euchi | AI in Healthcare | Best Researcher Award

Assistant professor | University of Sfax | Tunisia

Dr. Jalel Euchi is an accomplished academic and researcher specializing in operations research, optimization, and transportation systems. He currently serves as a faculty member at ISGI, Sfax University’s Department of Operations Management, and ISAE, Gafsa University’s Department of Economic Quantitative Methods and Informatics in Tunisia. With a Ph.D. in quantitative methods jointly awarded by Sfax University in Tunisia and Le Havre University in France in 2011, Dr. Euchi has built an illustrious career in academia and research. His work addresses critical challenges in transportation, logistics, and operational efficiency, contributing significantly to the scientific community through publications in high-impact journals and active involvement as a referee and editorial board member.

Profile

Scopus

Education

Dr. Euchi’s academic journey showcases his strong foundation in quantitative methods and operations research. He completed his Ph.D. in 2011, focusing on optimization and transportation problems. He earned his Master’s degree in Production Management and Operational Research in 2007 and a Bachelor’s degree in Operational Research in 2005, both from Sfax University. In 2017, he received an HDR (Habilitation) degree, qualifying him as an associate research professor, further underscoring his expertise in his field.

Experience

Dr. Euchi’s professional experience spans over 15 years in academia and research. He has held teaching positions at various prestigious institutions, including ISGI, Sfax University, and Qassim University in Saudi Arabia. His courses have covered diverse subjects such as optimization, data analysis, operations management, and statistics. In addition to his teaching responsibilities, he has been deeply involved in research, mentoring, and administrative roles, making significant contributions to his departments and institutions.

Research Interests

Dr. Euchi’s research focuses on operations research, optimization, logistics, and transportation. His studies delve into stochastic and distributed optimization, the environmental impacts of transport, and advanced logistics solutions such as routing and scheduling. Recently, he has expanded his research interests to include machine learning and its applications in transportation, exploring innovative solutions for challenges like electric vehicle routing and drone logistics.

Awards

Dr. Euchi has been recognized for his contributions to the field through several awards and nominations. His innovative research and dedication to academic excellence have earned him invitations to international conferences, editorial roles in reputed journals, and accolades for his impactful publications.

Publications

Dr. Euchi has authored numerous high-impact articles in journals and conferences. Here are seven selected works:

Belkhamsa, M., Euchi, J., Siarry, P. (2024). Optimizing Elective Surgery Scheduling Amidst the COVID-19 Pandemic Using Artificial Intelligence Strategies. Swarm and Evolutionary Computation, 90, 101690.

Masmoudi, M., Euchi, J., Siarry, P. (2024). Home healthcare routing and scheduling: Operations research approaches and contemporary challenges. Annals of Operations Research, 1-51.

Sadok, A., Euchi, J., Siarry, P. (2024). Vehicle routing with multiple UAVs for last-mile logistics distribution problem: Hybrid distributed optimization. Annals of Operations Research.

Euchi, J., Sadok, A. (2023). Optimising the travel of home health carers using a hybrid ant colony algorithm. Proceedings of the Institution of Civil Engineers-Transport, 176(6), 325-336.

Hamdi, F., Euchi, J., Messaoudi, L. (2023). A fuzzy stochastic goal programming for selecting suppliers in case of potential disruption. Journal of Industrial and Production Engineering, 40(8), 677-691.

Euchi, J., Zidi, S., Laouamer, L. (2021). A new distributed optimization approach for home healthcare routing and scheduling problem. Decision Science Letters, 10(3), 217-230.

Euchi, J., Sadok, A. (2020). Hybrid genetic-sweep algorithm to solve the vehicle routing problem with drones. Physical Communication, 44, 101236.

Conclusion

Dr. Jalel Euchi exemplifies excellence in academia and research, combining extensive experience, a robust educational background, and pioneering research interests. His contributions to optimization and logistics have practical applications in addressing modern transportation and environmental challenges. Through his publications and professional activities, Dr. Euchi continues to inspire and influence the field of operations research globally.

Tmader Alballa | Artificial Intelligence | Best Researcher Award

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Dr. Tmader Alballa | Artificial Intelligence | Best Researcher Award

Assistant Professor | Princess Nourah Bint A bdulrahman University | Saudi Arabia

Dr. Tmader Alballa is an esteemed academic and researcher in applied statistics and system modeling. She currently serves as an Assistant Professor at Princess Nourah Bint Abdulrahman University in Riyadh, Saudi Arabia, contributing to the advancement of statistical methods and their applications. With a strong foundation in mathematics and applied statistics, Dr. Alballa’s expertise spans Bayesian analysis, genetic polymorphism studies, and spatial statistics. Her interdisciplinary research combines theoretical approaches with practical insights, addressing critical challenges in various fields.

Profile

Google Scholar

Education

Dr. Alballa’s academic journey reflects her commitment to academic excellence. She earned her Ph.D. in System Modeling and Analysis from Virginia Commonwealth University in December 2021, where she specialized in innovative statistical techniques. Her master’s degree in Applied Statistics, completed in May 2016 at the University of the District of Columbia, provided her with advanced skills in statistical applications. She began her academic journey with a bachelor’s degree in Mathematics from King Saud University in Riyadh in 2007, laying a solid foundation for her future contributions to the field of statistics.

Experience

Dr. Alballa brings over a decade of professional and academic experience to her current role. She has been an Assistant Professor at Princess Nourah Bint Abdulrahman University since February 2022. Before this, she served as a Teaching Assistant at the same institution from September 2011 to December 2012. Her early career includes significant roles in the financial sector at Samba Financial Group, where she held positions such as Teller, Head Teller, Customer Service Representative, Relationship Manager, and Supervisor of Customer Service. These roles helped her develop practical insights into organizational and analytical challenges, which later enriched her academic work.

Research Interests

Dr. Alballa’s research interests lie at the intersection of applied statistics, system modeling, and data analytics. She is particularly passionate about Bayesian techniques for genetic studies, spatial statistics, and meta-analytical methods. Her recent work focuses on leveraging advanced statistical tools to analyze complex data, including imaging data related to substance use disorders. Her interdisciplinary research seeks to address real-world challenges, such as enhancing healthcare outcomes and developing robust data-driven models.

Awards

Dr. Alballa has received recognition for her academic and professional contributions, including her role in establishing an applied statistics program at Princess Nourah Bint Abdulrahman University. While her accolades reflect her dedication to academia, her leadership in committee roles and innovative research endeavors highlight her commitment to fostering academic excellence.

Publications

Dr. Alballa’s scholarly output includes impactful contributions in prestigious journals. Some of her notable publications include:

“Bayesian Techniques for Relating Genetic Polymorphisms to Diffusion Tensor Images of Cocaine Users” – Published in Journal of Applied Statistics (2021), this paper explores the application of Bayesian methods to genetic and imaging data, cited 25 times.

“Spatial Analysis in Urban Healthcare Accessibility” – Published in Spatial Statistics Journal (2019), cited 18 times, it addresses spatial disparities in healthcare.

“Meta-Analysis of Statistical Methodologies in Substance Abuse Research” – Published in Statistics in Medicine (2020), cited 15 times, the study evaluates statistical approaches across substance abuse studies.

“Innovative Uses of Bayesian Modeling in Behavioral Health Research” – Published in Behavioral Data Science (2021), cited 12 times.

“Applied Statistics in Higher Education: A Saudi Perspective” – Published in International Journal of Educational Statistics (2022), cited 8 times.

Conclusion

Dr. Tmader Alballa exemplifies excellence in academia through her dedication to teaching, research, and service. Her multidisciplinary expertise and leadership in statistical modeling continue to influence both her students and the academic community. With a commitment to advancing statistical methodologies and fostering their practical applications, Dr. Alballa remains a vital contributor to the field of applied statistics.

Balaji Dhamodharan | AI Expert | Lifetime achievement Award

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Mr Balaji Dhamodharan | AI Expert | Lifetime achievement Award

Global Data Science Leader at  NXP Semiconductors,  United States

Balaji Dhamodharan is an award-winning AI and data science visionary with over 15 years of experience driving innovation, building high-performing teams, and delivering transformative AI/ML solutions across industries such as Oil & Gas, Manufacturing, and Retail. Recognized among the Top 40 Under 40 Data Scientists and a recipient of the AI 100 Award, he excels at integrating cutting-edge technologies to optimize processes, foster business growth, and address complex challenges.

Profile:

Leadership & Impact:

  • Global Data Science Leader, NXP Semiconductors
    • Established a Center of Excellence (CoE) for Data Intelligence, delivering advanced AI solutions that saved $10M annually.
    • Led cross-functional teams to implement generative AI and machine learning strategies, achieving 30% efficiency improvements.
    • Designed and executed the Data Science Roadmap, a visionary framework for governance and innovation.
  • Technology Advisor: Consistently integrates emerging AI/ML technologies, enabling data-driven decision-making for enterprises.
  • Scaling Expertise: Built and nurtured high-performing data science teams, fostering a culture of innovation and collaboration.

Key Technical Skills:

  • AI & ML Expertise: Generative AI, LLMs, Deep Learning, MLOps, and Natural Language Processing (NLP).
  • Data Solutions: Proficient in Python, PySpark, SQL, Snowflake, and DataRobot.
  • Visualization & Cloud: Tableau, Power BI, AWS, Azure, and Databricks.

Professional Timeline:

  • NXP Semiconductors (2022 – Present): Global Data Science Leader
  • DataRobot (2021 – 2022): Lead Data Scientist
  • Yum Brands (2021): Sr. Manager, Data Science
  • Dell Technologies (2019 – 2021): Consultant, Data Science
  • Honeywell Process Solutions (2012 – 2019): Sr. Data Scientist

Accomplishments:

  • Co-inventor of a patent-pending NLP-based contract analysis algorithm.
  • Published author of the technical book “Applied Data Science using PySpark” (Apress).
  • Editorial Board Member for leading AI journals.
  • Recognized as a Global Thought Leader in Manufacturing (2024) and Generative AI Leader of the Year.
  • Forbes Technology Council Member and speaker on AI’s transformative role in digital economies.

Thought Leadership & Advocacy

  • Active contributor to advancing responsible AI practices aligned with the United Nations Sustainable Development Goals (SDGs).
  • Advisory roles at Harvard, Oklahoma State University, and Gartner’s Evanta CDAO community.
  • Advocate for ethical AI through memberships in AI 2030 Responsible AI and 3AI Leadership Council.

Publication Top Notes:

  1. Optimizing Industrial Operations: A Data-Driven Approach to Predictive Maintenance through Machine Learning
    B. Dhamodharan
    International Journal of Machine Learning for Sustainable Development, 3(1), 2021.
  2. Beyond Traditional Methods: A Novel Approach to Anomaly Detection and Classification Using AI Techniques
    B. Dhamodharan
    Transactions on Latest Trends in Artificial Intelligence, 3(3), 2022.
  3. AI-Infused Quantum Machine Learning for Enhanced Supply Chain Forecasting
    L.M. Gutta, B. Dhamodharan, P.K. Dutta, P. Whig
    Quantum Computing and Supply Chain Management: A New Era of Optimization, 48–63, 2024.
  4. Empowering Enterprise Intelligence: The Transformative Influence of AutoML and Feature Engineering
    B. Dhamodharan
    International Journal of Creative Research in Computer Technology and Design, 2023.
  5. Driving Business Value with AI: A Framework for MLOps-Driven Enterprise Adoption
    B. Dhamodharan
    International Journal of Sustainable Development in Computing Science, 5(4), 2023.
  6. Harnessing Disaster Tweets: A Deep Dive into Disaster Tweets with EDA, Cleaning, and BERT-Based NLP
    B. Dhamodharan
    International Transactions in Artificial Intelligence, 6(6), 1–14, 2022.
  7. Applied Data Science Using PySpark: Learn the End-to-End Predictive Model-Building Cycle
    R. Kakarla, S. Krishnan, V. Gunnu, B. Dhamodharan
    Apress, 2024.
  8. Quantum Computing Applications in Real-Time Route Optimization for Supply Chains
    R.K. Vaddy, B. Dhamodharan, A. Jain
    Quantum Computing and Supply Chain Management: A New Era of Optimization, 2024.
  9. Multilingual Tokenization Efficiency in Large Language Models: A Study on Indian Languages
    B.D. Mohamed Azharudeen M
    Lattice – The Machine Learning Journal, 5(2), 2024.