Nadeem Khanday | Computer Science | Best Researcher Award

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Assist. Prof. Dr. Nadeem Khanday | Computer Science | Best Researcher Award

Assistant Professor from National Institute of Technology Srinagar, India

Dr. Nadeem Yousuf Khanday is an accomplished academic and researcher in Computer Science & Engineering, currently serving as an Assistant Professor at the School of Computer Science, UPES, Dehradun, India. With a strong academic foundation and a passion for advanced computing technologies, he has contributed extensively to the fields of artificial intelligence, machine learning, and deep visual learning. His research outputs include high-impact journal publications, international conference presentations, patents, and book chapters with globally recognized publishers. Dr. Khanday is deeply involved in exploring innovative AI techniques that address real-world challenges, including healthcare diagnostics, crop disease detection, cloud computing, and smart environments. He is also a certified GATE, UGC-NET, and JK-SET qualifier, emphasizing his academic excellence. Throughout his career, he has taught a variety of technical subjects and mentored students in core areas of computer science. He brings a balanced combination of research, teaching, and applied innovation to the academic domain. With a growing body of interdisciplinary work, Dr. Khanday continues to build his reputation as a future-oriented researcher contributing to both academia and industry. His deep commitment to scholarly excellence and emerging technologies positions him as a deserving candidate for recognition in prestigious research awards.

Professional Profile

Education

Dr. Nadeem Yousuf Khanday has pursued a rigorous academic trajectory in Computer Science & Engineering. He earned his Doctor of Philosophy (Ph.D.) from the prestigious National Institute of Technology (NIT), Srinagar, focusing on advanced computing technologies and artificial intelligence. Prior to his doctorate, he completed his Master of Technology (M.Tech) from Vivekananda Global University, Jaipur, where he achieved an outstanding CGPA of 9.69 in Computer Science & Engineering, demonstrating his academic strength and subject mastery. His undergraduate studies were conducted at Visvesvaraya Technological University (VTU), Belgaum, where he obtained a Bachelor of Engineering (B.E.) degree in Computer Science & Engineering with a commendable academic record. Dr. Khanday has also qualified national-level competitive exams including the Graduate Aptitude Test in Engineering (GATE) and University Grants Commission National Eligibility Test (UGC-NET), as well as JK-SET, qualifying him for Assistant Professorship roles in Indian universities. These qualifications reflect his high-level proficiency in the domain and commitment to continued academic growth. His academic background provides a strong foundation for his research endeavors, enabling him to tackle complex computing problems and advance the frontier of knowledge in artificial intelligence, machine learning, and computer vision.

Professional Experience

Dr. Nadeem Yousuf Khanday possesses diverse and dynamic professional experience across some of India’s reputed institutions. He is currently employed as a Regular Assistant Professor at the School of Computer Science (SoCS), UPES Dehradun since June 2023. Before this, he served as a Lecturer at the University of Kashmir, J&K, where he taught undergraduate and postgraduate computer science courses from March to June 2023. His earlier appointments include his tenure as an Assistant Professor (Contract) at NIT Srinagar from April 2017 to July 2018, and later as a Teaching Assistant (Research Scholar) from July 2018 to February 2023 at the same institute. These roles have helped him accumulate extensive experience in teaching core computer science courses such as Artificial Intelligence, Operating Systems, Data Structures, and Computer Architecture. Throughout his career, Dr. Khanday has skillfully blended teaching with hands-on research, working on projects related to visual learning, deep learning, and intelligent systems. His progressive journey from contract roles to full-time professorship demonstrates his steady academic development and increasing responsibilities. With significant academic leadership and research roles, he is well-positioned to lead innovative educational and research initiatives in AI and computing.

Research Interests

Dr. Nadeem Yousuf Khanday’s research interests lie at the intersection of Artificial Intelligence, Machine Learning, and Computer Vision, with a particular focus on deep visual learning and few-shot learning models. He explores innovative solutions to computational challenges involving limited data samples, aiming to improve learning accuracy and cross-domain generalization. His research extends into practical domains such as healthcare diagnostics, agricultural disease prevention, cloud computing optimization, and smart IoT-based systems. Dr. Khanday has investigated topics including convolutional neural networks for COVID-19 prognosis, metric learning models for classification, and AI-driven smart farming using 5G networks. His recent work has integrated Large Language Models (LLMs) and Generative AI to enhance decision-making systems in medical and industrial contexts. His interdisciplinary approach combines theoretical models with real-world applications, contributing to sustainable development through intelligent computing. Dr. Khanday’s research aims not only to push academic boundaries but also to provide practical, scalable solutions for modern societal challenges. His continuous engagement with cutting-edge technologies and publication in top-tier journals solidify his status as a thought leader in visual intelligence and machine learning systems.

Research Skills

Dr. Nadeem Yousuf Khanday possesses a strong portfolio of research skills that span multiple domains in computing. He is proficient in developing machine learning algorithms, deep learning architectures, and advanced image processing models for varied applications. His expertise includes designing few-shot learning frameworks, enhancing cross-domain classification performance, and deploying convolutional neural networks for medical image analysis and smart diagnostics. He has hands-on experience with AI-based anomaly detection, visual segmentation systems, and cloud environment optimization using hybrid fuzzy and swarm intelligence methods. Dr. Khanday is also skilled in patent writing, having developed innovative systems for crop disease detection and motorcycle safety. His publication record reflects his ability to effectively communicate complex methodologies, backed by data-driven validation and practical implementation. Additionally, his collaboration in multi-author projects and book chapters indicates strong academic teamwork and interdisciplinary engagement. His teaching and research experiences across different institutions have also honed his ability to mentor students and lead academic discussions. Equipped with technical, analytical, and conceptual research skills, Dr. Khanday continues to contribute impactful and scalable innovations across emerging fields like generative AI, IoT systems, and smart computing.

Awards and Honors

Dr. Nadeem Yousuf Khanday has received various forms of recognition for his scholarly achievements and research excellence. Notably, he has qualified multiple national-level eligibility exams, such as GATE, UGC-NET, and JK-SET, highlighting his academic distinction and competency to teach at the university level. In 2023, he was awarded recognition for his impactful contributions to AI-driven visual understanding and applications, as reflected in his high-impact publications and patents. His patent work, including an apparatus for auto-detection of crop diseases and motorcycle safety systems, has been acknowledged for its potential technological and societal value. Dr. Khanday’s research has also gained visibility through SCOPUS- and SCI-indexed publications with top journals like Computer Science Review and Neural Computing and Applications. His invited book chapters published by Taylor and Francis, Springer Nature, and Cambridge University Press underline his reputation among international academic publishers. Furthermore, he has presented at international conferences in Europe and Asia, receiving acclaim for his work on machine vision, fuzzy systems, and cloud intelligence. These accolades reflect both his individual excellence and collaborative impact within the research community.

Conclusion

Dr. Nadeem Yousuf Khanday exemplifies the profile of a high-caliber academician and innovative researcher with notable achievements in the fields of artificial intelligence, deep learning, and computer vision. Through a strong foundation in computer science education and a wealth of research experience, he has consistently contributed to advancing both theory and practice. His multidisciplinary research in healthcare, smart agriculture, and intelligent systems, along with a growing list of high-impact publications, patents, and book contributions, sets him apart as a forward-thinking scholar. His teaching experience across reputed Indian institutions and his ability to combine pedagogy with practical applications further enhance his value to academia. Dr. Khanday’s commitment to solving real-world problems using machine learning and AI tools not only enhances academic discourse but also promotes sustainable innovation. His emerging collaborations, international conference participation, and national recognitions affirm his credibility and future potential. In light of his qualifications, scholarly output, and research relevance, he stands as a highly deserving candidate for the Best Researcher Award, with the capacity to influence the global research community and contribute significantly to technological advancement

  1. Covariance-based Metric Model for Cross-domain Few-shot Classification and Learning-to-generalization
    📘 Journal: Applied Intelligence, 2023
    👥 Authors: Khanday, N.Y.; Sofi, S.A.

  2. Learned Gaussian ProtoNet for Improved Cross-domain Few-shot Classification and Generalization
    📘 Journal: Neural Computing and Applications, 2023
    👥 Authors: Khanday, N.Y.; Sofi, S.A.

  3. Deep Insight: Convolutional Neural Network and Its Applications for COVID-19 Prognosis
    📘 Journal: Biomedical Signal Processing and Control, 2021
    👥 Authors: Khanday, N.Y.; Sofi, S.A.

  4. Taxonomy, State-of-the-art, Challenges and Applications of Visual Understanding: A Review
    📘 Journal: Computer Science Review, 2021
    👥 Authors: Khanday, N.Y.; Sofi, S.A.

Supraja Ballari | Computer Science | Best Researcher Award

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Mrs. Supraja Ballari | Computer Science | Best Researcher Award

Assistant Professor from Guru Nanak Institutions Technical Campus, India

Smt. B. Supraja is an experienced academician and researcher in the field of Computer Science and Engineering. With over 15 years of teaching experience at various reputed technical institutions in India, she has consistently contributed to both pedagogy and applied research. Currently serving as an Assistant Professor at Guru Nanak Institutions Technical Campus, Telangana, she is also pursuing her Ph.D. in Computer Science from Dravidian University, Kuppam. Her academic journey is marked by a strong foundation in computer applications and engineering, with a focus on emerging areas such as machine learning, cybersecurity, blockchain, and data mining. She has authored several research papers in reputed journals and holds multiple patents reflecting her commitment to innovation. Her work spans interdisciplinary applications of computing in logistics, vehicular networks, and employee management systems. Known for her diligence and academic integrity, Smt. Supraja combines her teaching skills with active research, mentorship, and curriculum development. Her ability to blend theory with practical applications makes her a valuable asset in academia. Her academic contributions have positioned her as a researcher with great potential for national recognition, including eligibility for research excellence awards.

Professional Profile

Education

Smt. B. Supraja holds a rich academic background that lays the foundation for her current research pursuits. She is presently pursuing a Ph.D. in Computer Science from Dravidian University, Kuppam, with a focus on contemporary issues in cybersecurity, data analytics, and intelligent systems. She completed her M.Tech in Computer Science and Engineering from PBR Visvodaya Engineering College, Kavali (affiliated to JNTUA) between 2011 and 2014, where she deepened her technical knowledge in core computer engineering disciplines. Her postgraduate studies began with a Master of Computer Applications (M.C.A.) from Geethanjali College of PG Studies under Sri Venkateswara University, Nellore (2002–2005). Her academic credentials are well aligned with the technological demands of today’s dynamic research landscape. Her education spans foundational programming, software engineering principles, and advanced technologies, making her a capable researcher and instructor. Throughout her academic journey, she has remained focused on interdisciplinary applications of computer science in real-world contexts. Her continuous academic progression—culminating in her doctoral studies—underscores her lifelong commitment to education and research excellence.

Professional Experience

Smt. Supraja’s professional journey spans nearly two decades in the higher education sector, where she has served in various teaching capacities. She is currently employed as an Assistant Professor at Guru Nanak Institutions Technical Campus, Telangana (since February 2023), where she teaches undergraduate and postgraduate courses in Computer Science. Prior to this, she held the same role at Narayana Engineering College, Nellore from July 2021 to January 2023, and at Krishna Chaitanya Educational Institutions from December 2014 to July 2021, teaching a mix of B.Sc., BCA, and M.Sc. students. Her earlier roles included positions at S. Chaavan Institute of Science & Technology and S.V. Arts & Science College, Gudur, where she taught various computer science subjects to both undergraduate and postgraduate students. In each of these positions, she has contributed to academic instruction, student mentoring, and curriculum development. Her experience reflects a deep engagement with the academic process, ranging from foundational teaching to more research-oriented mentorship. This long-standing teaching career demonstrates not only her pedagogical strengths but also her dedication to shaping the next generation of computer scientists.

Research Interests

Smt. B. Supraja’s research interests span a wide range of cutting-edge domains in computer science. Her primary focus areas include machine learning, cybersecurity, blockchain applications, data mining and data warehousing, fog computing, and cloud-based control systems. Her work reflects a deep interest in the intersection of artificial intelligence with societal and industrial applications. She has conducted research on anomaly detection in software-defined networks, data sharing in vehicular social networks using blockchain, and logistics optimization through structural equation modeling. She also explores areas such as sentiment analysis using Naïve Bayes classifiers, encrypted control systems, and cyberattack prediction through machine learning techniques. These interests align closely with today’s technological priorities such as data protection, automation, and intelligent decision-making. Her work seeks to bridge the gap between academic research and industrial applicability. The diverse yet cohesive nature of her research interests indicates her adaptability and eagerness to explore interdisciplinary applications. These interests not only reflect technical competence but also her sensitivity to real-world challenges that require intelligent, scalable, and secure technological solutions.

Research Skills

Smt. B. Supraja brings a robust set of research skills honed through academic work, project collaborations, and innovation initiatives. She is proficient in programming languages such as Java, C, and C++, and has practical experience with databases like Oracle and MS Access, as well as web technologies like HTML, JavaScript, and XML. Her expertise includes operating within different development environments using tools like Eclipse and Editplus. These technical proficiencies support her capability in implementing machine learning models, simulation systems, and data analysis applications. She has successfully authored and co-authored peer-reviewed publications and book chapters, showing familiarity with scientific writing, research methodology, and collaborative scholarship. In addition, she has contributed to the innovation space through patent filings in areas such as employee churn prediction and cyberattack prevention systems using machine learning algorithms. Her ability to apply theoretical knowledge into practical systems design and her experience in real-world problem solving mark her as a capable and results-oriented researcher. Her academic and technological skills are further strengthened by her consistent teaching of core subjects, which reinforces her depth in fundamental computer science concepts.

Awards and Honors

While a formal list of awards and honors is not provided in her academic profile, Smt. B. Supraja’s achievements in publishing, patenting, and contributing to book chapters reflect strong professional recognition. Her patents—three of which are published between 2022 and 2024—indicate acknowledgment of her work’s novelty and utility in applied computer science. Her scholarly contributions to journals such as the Journal of Engineering Sciences and Design Engineering, alongside collaborative book chapters on contemporary issues like COVID-19’s digital impact, have been positively received in academic circles. These publications are indicative of her growing visibility in the research community. Furthermore, her inclusion in multidisciplinary anthologies and collaborations with senior academicians from diverse fields show a level of trust and professional respect. Although specific awards or titles are not yet documented, her research outputs and innovation track record position her as a strong candidate for future academic honors and distinctions. Her work is gaining momentum, and with further institutional and international engagement, she is well poised for formal recognition through research awards and academic fellowships.

Conclusion

In conclusion, Smt. B. Supraja is a dedicated academic professional and an emerging researcher in the field of computer science. Her profile reflects a balanced integration of long-standing teaching experience and active research engagement. She has demonstrated capability in producing impactful scholarly work through journal publications, book chapters, and patents. Her expertise spans across machine learning, blockchain, cloud systems, and cybersecurity—fields that are not only technologically significant but also socially relevant. While she is still progressing in her doctoral research, her current contributions are commendable and indicate strong future potential. Areas for growth include enhancing research impact through increased citation metrics, obtaining funded projects, and expanding global collaborations. However, the depth and diversity of her current academic efforts strongly support her candidacy for research awards. Smt. Supraja exemplifies the qualities of a modern researcher—technically skilled, pedagogically sound, and oriented towards practical applications. With continued dedication and strategic academic outreach, she is well-positioned to become a recognized contributor to India’s research and innovation landscape.

Publications Top Notes

  1. A vital neurodegenerative disorder detection using speech cues
    BS Jahnavi, BS Supraja, S Lalitha
    2020

  2. Simplified framework for diagnosis brain disease using functional connectivity
    T Swarnalatha, B Supraja, A Akula, R Alubady, K Saikumar, …
    2024

  3. DARL: Effectual deep adaptive reinforcement learning model enabled security and energy-efficient healthcare system in Internet of Things with the aid of modified manta ray
    B Supraja, V Kiran Kumar, N Krishna Kumar
    2025

  4. IoT based effective wearable healthcare monitoring system for remote areas
    S Tiwari, N Jain, N Devi, B Supraja, NT Chitra, A Sharma
    2024

  5. Securing IoT networks in healthcare for enhanced privacy in wearable patient monitoring devices
    V Tiwari, N Jharbade, P Chourasiya, B Supraja, PS Wani, R Maurya
    2024

  6. Machine learning-based prediction of cardiovascular diseases using Flask
    V Sagar Reddy, B Supraja, M Vamshi Kumar, C Krishna Chaitanya
    2023

  7. Real time complexities of research on machine learning algorithm: A descriptive research design
    GP Dr. N. Krishna Kumar, B. Supraja, B.S. Hemanth Kumar, U. Thirupalu
    2022

  8. IT employee job satisfaction survey during Covid-19
    GVMR Dr. N. Krishna Kumar, B. Supraja
    2022

  9. Covid-19 and digital era
    GVMR Dr. N. Krishna Kumar, B. Supraja
    2022

  10. Forwarding detection and identification anomaly in software defined network
    DNKK B. Supraja, A. Venkateswatlu
    2022

  11. Machine learning structural equation modeling algorithm on logistics and supply chain management
    UT B. Supraja, Dr. N. Krishna Kumar, B.S. Hemanth Kumar, B. Saranya, G …
    2022

  12. Sentiment analysis of customer feedback on restaurants using Naïve Bayes classifier
    DNKK A. Venkateswatlu, B. Supraja
    2021

  13. Design and implementation of fog-based encrypted control system in public clouds
    DNKK B. Supraja, A. Venkateswatlu
    2021

  14. Enhancing one to many data sharing using blockchain in vehicular social networks
    DNKK B. Supraja, A. Venkateswatlu
    2021

Ling Qin | Computer Science | Best Researcher Award

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Ms. Ling Qin | Computer Science | Best Researcher Award

Professor from Inner Mongolia University of Science &Technology, China

Dr. Ling Qin is a dedicated and accomplished professor in the Department of Information Engineering at Inner Mongolia University of Science and Technology, China. Born in August 1979, she has established a strong academic and research background in optical communication, particularly in the areas of visible light communication (VLC), indoor positioning systems, and atmospheric laser communication. Over more than two decades of academic service at her home institution, she has progressed from teaching assistant to professor, showcasing a steady and determined career development. Dr. Qin’s research has significantly contributed to the understanding and enhancement of VLC systems in complex environments, such as intelligent transportation systems and indoor positioning applications using LED lighting. Her publication record is extensive, with numerous articles published in well-recognized journals indexed in SCI and EI. She has also successfully led multiple nationally funded research projects and holds a Chinese patent related to optical signal reception. With her expertise, innovation, and dedication, Dr. Qin exemplifies the qualities of a leading academic researcher. Her work bridges the gap between theory and practical application, making her a suitable and promising candidate for recognition in advanced communication engineering fields.

Professional Profile

Education

Dr. Ling Qin holds an impressive academic background in engineering and communication technologies. She began her higher education journey in 1997, earning a Bachelor of Engineering in Communication Engineering from Chengdu University of Information Technology in 2001. She continued to deepen her specialization in optical communication by pursuing a Master’s degree in Engineering at Xi’an University of Technology, where she studied from 2004 to 2007. Demonstrating a strong commitment to academic growth and expertise, Dr. Qin earned her Ph.D. in Engineering from Chang’an University in Xi’an between 2011 and 2018. Her doctoral research aligned closely with her professional focus, examining advanced communication theories and systems including visible light and laser-based communication. The comprehensive progression of her academic qualifications reflects her long-standing dedication to mastering both the theoretical and technical aspects of her field. These qualifications have formed a solid foundation for her research career, allowing her to contribute meaningfully to high-impact areas such as LED-based indoor positioning systems and signal processing in complex environments. Her education has not only equipped her with the necessary knowledge but has also driven her to pursue innovation and advanced research in optical communication technologies.

Professional Experience

Dr. Ling Qin has built a robust academic and professional career spanning over two decades at Inner Mongolia University of Science and Technology in Baotou, China. She began her professional journey in 2001 as a teaching assistant and steadily rose through academic ranks due to her contributions to teaching and research. Between 2007 and 2012, she served as a lecturer, where she began to engage more actively in research and curriculum development. From 2012 to 2018, she was promoted to associate professor, during which she established her research presence in visible light communication and indoor positioning systems. Since 2019, Dr. Qin has held the title of full professor, where she continues to lead research initiatives and mentor students in cutting-edge communication technologies. Throughout her career, she has taught various specialized courses, including visible light communication theory, positioning systems, and atmospheric laser communications. Her long-term affiliation with a single institution reflects both stability and deep institutional commitment, while her advancement through all faculty ranks highlights her professional development. As a professor, she plays a vital role in advancing research, guiding graduate students, and contributing to scientific innovation through her projects and publications.

Research Interests

Dr. Ling Qin’s research interests focus on key innovations in the field of optical wireless communication, particularly visible light communication (VLC), indoor positioning systems, and atmospheric laser communications. One of her primary areas of study is the development and optimization of visible light communication systems, where she explores theoretical models and practical designs to enhance LED-based communication in complex traffic and indoor environments. Her work addresses challenges such as background light interference, signal modulation, and system performance under real-world conditions. Another important focus of her research is indoor positioning technologies using LED lighting. She investigates the integration of machine learning techniques, such as convolutional and recurrent neural networks, into positioning algorithms to improve accuracy and reliability. Additionally, Dr. Qin is engaged in the research of atmospheric laser communication systems, where she works on coding theory, modulation/demodulation methods, and performance enhancement strategies for data transmission in free-space environments. Her research is interdisciplinary, often overlapping with applications in intelligent transportation, aerospace signal processing, and biomedical engineering. These interests not only reflect her command over complex engineering concepts but also demonstrate her forward-thinking approach in developing communication technologies that serve modern infrastructure and industry demands.

Research Skills

Dr. Ling Qin possesses advanced research skills that make her a leading expert in optical communication and system development. Her technical expertise includes the modeling and implementation of visible light communication (VLC) systems in challenging environments, particularly for intelligent transportation and indoor positioning. She is proficient in applying modulation and demodulation techniques, signal coding, beamforming, and error suppression in complex signal environments. Her research integrates machine learning algorithms—including convolutional neural networks (CNNs), gated recurrent units (GRUs), and transformer-based models—into communication and positioning systems to enhance accuracy and system performance. Dr. Qin is also skilled in developing system architectures using hardware components like FPGA (Field Programmable Gate Arrays), contributing to the practical realization of her theoretical models. Additionally, she has experience with spread spectrum technologies and power inversion techniques for background light suppression. Her research has also extended into interdisciplinary domains, such as carbon nanoparticle applications in medical systems and satellite navigation under plasma interference. These wide-ranging skills have been applied in various research projects funded by national and regional science foundations, demonstrating her ability to execute complex research plans and produce tangible outcomes. Her scientific rigor and technical versatility position her as a valuable asset in the field.

Awards and Honors

While Dr. Ling Qin’s profile does not list specific individual awards or honors, her consistent track record of securing competitive research funding from prestigious agencies reflects significant academic recognition. She has been awarded multiple research grants by the National Natural Science Foundation of China, supporting her projects on visible light communication, satellite navigation under plasma conditions, and laser communication systems. These grants indicate high confidence from the scientific community in the relevance and impact of her research. Additionally, she has contributed to the development of a nationally recognized patent for an optical signal receiving system, which further showcases her innovation and contribution to applied research. Her position as a full professor at Inner Mongolia University of Science and Technology is itself a recognition of her professional achievements and academic standing. Her numerous publications in high-impact journals and conferences indexed by SCI and EI are further testament to her contributions. While formal honors such as best paper or teaching awards are not noted, the cumulative evidence of her leadership in research, ability to secure funding, and innovation through patents suggests she has achieved considerable peer recognition in her field.

Conclusion

Dr. Ling Qin stands out as a strong and capable academic professional with notable contributions to the field of optical communication. Her career reflects a steady ascent through academic ranks, backed by a solid foundation in education and a deep commitment to research excellence. With a focused interest in visible light communication, indoor positioning systems, and laser-based communication technologies, she has contributed significantly to both theoretical advancements and real-world applications. Her skills in modeling complex communication systems, integrating artificial intelligence techniques, and implementing hardware-based solutions place her at the intersection of innovation and practicality. Although not heavily decorated with formal awards, her success in securing national-level research grants and her involvement in patent development speak volumes about her scientific impact. She has authored an extensive list of peer-reviewed publications that enhance her reputation and contribute to global scientific knowledge. Overall, Dr. Qin exemplifies the qualities of a modern researcher—technically skilled, innovative, and committed to advancing engineering solutions for real-world problems. Her profile makes her a highly suitable candidate for the Best Researcher Award, and recognition of her work would be well-deserved within the scientific community.

Publications Top Notes

  1. Title: CirnetamorNet: An ultrasonic temperature measurement network for microwave hyperthermia based on deep learning
    Authors: F. Cui, Y. Du, L. Qin, C. Li, X. Meng
    Year: 2025

  2. Title: Visible light channel modeling and application in underground mines based on transformer point clouds optimization
    Authors: J. Yu, X. Hu, Q. Wang, F. Wang, X. Kou
    Year: 2025

  3. Title: Fractional OAM Vortex SAR Imaging Based on Chirp Scaling Algorithm
    Authors: L. Yu, D. Yongxing Du, L. Baoshan Li, L. Qin, L. Chenlu Li
    Year: 2025

  4. Title: Indoor visible light positioning system based on memristive convolutional neural network
    Authors: Q. Chen, F. Wang, B. Deng, L. Qin, X. Hu
    Year: 2025
    Citations: 2

  5. Title: Visible light visual indoor positioning system for based on residual convolutional networks and image restoration
    Authors: D. Chen, L. Qin, L. Cui, Y. Du
    Year: 2025

Said Boumaraf | Computer Science | Environmental Engineering Impact Award

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Dr. Said Boumaraf | Computer Science | Environmental Engineering Impact Award

Researcher and AI scientist from Khalifa University, UAE

Dr. Said Boumaraf is a distinguished researcher specializing in artificial intelligence (AI), computer vision, and medical imaging. Currently serving as a Postdoctoral Fellow at Khalifa University, his work primarily focuses on developing advanced AI methodologies to address complex challenges in visual recognition and healthcare diagnostics. Dr. Boumaraf has contributed significantly to the field through his involvement in projects that enhance remote sensing of gas flares and improve face parsing techniques under occlusion conditions. His research has been published in reputable journals and conferences, reflecting his commitment to advancing technological solutions for real-world problems. Collaborating with international teams, he continues to push the boundaries of AI applications, particularly in areas that intersect with environmental monitoring and medical diagnostics. Dr. Boumaraf’s dedication to research excellence positions him as a leading figure in the integration of AI technologies into practical applications.

Professional Profile

Education

Dr. Boumaraf’s academic journey is marked by a strong foundation in computer science and engineering. He earned his Ph.D. in Computer Science, where his research focused on the development of AI algorithms for medical image analysis. His doctoral studies provided him with in-depth knowledge of machine learning, deep learning, and their applications in healthcare. Prior to his Ph.D., Dr. Boumaraf completed his Master’s degree in Computer Engineering, during which he explored various aspects of computer vision and pattern recognition. His academic pursuits have equipped him with a robust skill set that bridges theoretical understanding and practical implementation of AI technologies. Throughout his education, Dr. Boumaraf has demonstrated a commitment to interdisciplinary research, integrating principles from computer science, engineering, and healthcare to develop innovative solutions. His educational background lays the groundwork for his ongoing contributions to the field of AI and its applications in critical domains.

Professional Experience

Dr. Boumaraf’s professional experience encompasses a range of roles that highlight his expertise in AI and its applications. As a Postdoctoral Fellow at Khalifa University, he has been instrumental in leading research projects that apply deep learning techniques to environmental and medical challenges. His work includes developing AI-enhanced methods for remote sensing of gas flares and creating robust face parsing algorithms capable of handling occlusions. Prior to his current role, Dr. Boumaraf collaborated with various research institutions and industry partners, contributing to projects that required the integration of AI into practical solutions. His experience extends to developing computer-aided diagnosis systems for breast cancer detection, showcasing his ability to apply AI in critical healthcare settings. Dr. Boumaraf’s professional journey reflects a consistent focus on leveraging AI to address real-world problems, underscoring his role as a key contributor to the advancement of intelligent systems in diverse applications.

Research Interests

Dr. Boumaraf’s research interests lie at the intersection of artificial intelligence, computer vision, and medical imaging. He is particularly focused on developing deep learning models that enhance the accuracy and efficiency of image analysis in complex scenarios. His work on occlusion-aware face parsing addresses challenges in visual recognition where parts of the face are obscured, improving the reliability of facial analysis systems. In the medical domain, Dr. Boumaraf has contributed to creating AI-driven diagnostic tools that assist in the early detection of diseases such as breast cancer. His research also explores the application of AI in environmental monitoring, specifically in the remote sensing of gas flares, which has implications for energy management and environmental protection. Dr. Boumaraf’s interdisciplinary approach combines theoretical research with practical applications, aiming to develop AI solutions that can be effectively integrated into various sectors.

Research Skills

Dr. Boumaraf possesses a comprehensive set of research skills that enable him to tackle complex problems in AI and its applications. His proficiency in deep learning frameworks such as TensorFlow and PyTorch allows him to design and implement sophisticated neural network architectures. He is skilled in image processing techniques, including segmentation, feature extraction, and classification, which are essential for medical image analysis and computer vision tasks. Dr. Boumaraf is adept at handling large datasets, employing data augmentation and preprocessing methods to enhance model performance. His experience with algorithm optimization and model evaluation ensures the development of efficient and accurate AI systems. Additionally, his collaborative work with multidisciplinary teams demonstrates his ability to integrate AI solutions into broader technological and scientific contexts. Dr. Boumaraf’s research skills are instrumental in advancing AI applications across various domains.

Awards and Honors

Throughout his career, Dr. Boumaraf has received recognition for his contributions to the field of artificial intelligence. His research publications in esteemed journals and conferences have garnered attention from the academic community, reflecting the impact of his work. While specific awards and honors are not detailed in the available information, his role as a Postdoctoral Fellow at a leading institution like Khalifa University signifies a level of esteem and acknowledgment of his expertise. Dr. Boumaraf’s ongoing collaborations and research endeavors continue to position him as a respected figure in the AI research community.

Conclusion

Dr. Said Boumaraf stands out as a dedicated researcher whose work bridges the gap between artificial intelligence theory and practical application. His contributions to computer vision and medical imaging demonstrate a commitment to developing AI solutions that address real-world challenges. Through his role at Khalifa University, Dr. Boumaraf continues to engage in cutting-edge research, collaborating with international teams to push the boundaries of what AI can achieve. His interdisciplinary approach and robust research skills make him a valuable asset to the scientific community, and his work holds promise for significant advancements in both environmental monitoring and healthcare diagnostics. As AI continues to evolve, researchers like Dr. Boumaraf play a crucial role in ensuring that these technologies are harnessed effectively for the betterment of society.

Publications Top Notes

  • Title: A new transfer learning based approach to magnification dependent and independent classification of breast cancer in histopathological images
    Authors: S. Boumaraf, X. Liu, Z. Zheng, X. Ma, C. Ferkous
    Year: 2021
    Citations: 169

  • Title: Conventional machine learning versus deep learning for magnification dependent histopathological breast cancer image classification: A comparative study with visual explanation
    Authors: S. Boumaraf, X. Liu, Y. Wan, Z. Zheng, C. Ferkous, X. Ma, Z. Li, D. Bardou
    Year: 2021
    Citations: 83

  • Title: A New Computer-Aided Diagnosis System with Modified Genetic Feature Selection for BI-RADS Classification of Breast Masses in Mammograms
    Authors: S. Boumaraf, X. Liu, C. Ferkous, X. Ma
    Year: 2020
    Citations: 80

  • Title: A new three-stage curriculum learning approach for deep network based liver tumor segmentation
    Authors: H. Li, X. Liu, S. Boumaraf, W. Liu, X. Gong, X. Ma
    Year: 2020
    Citations: 12

  • Title: Deep distance map regression network with shape-aware loss for imbalanced medical image segmentation
    Authors: H. Li, X. Liu, S. Boumaraf, X. Gong, D. Liao, X. Ma
    Year: 2020
    Citations: 11

  • Title: A multi-scale and multi-level fusion approach for deep learning-based liver lesion diagnosis in magnetic resonance images with visual explanation
    Authors: Y. Wan, Z. Zheng, R. Liu, Z. Zhu, H. Zhou, X. Zhang, S. Boumaraf
    Year: 2021
    Citations: 10

  • Title: AI-enhanced gas flares remote sensing and visual inspection: Trends and challenges
    Authors: M. Al Radi, P. Li, S. Boumaraf, J. Dias, N. Werghi, H. Karki, S. Javed
    Year: 2024
    Citations: 6

  • Title: Web3-enabled metaverse: the internet of digital twins in a decentralised metaverse
    Authors: N. Aung, S. Dhelim, H. Ning, A. Kerrache, S. Boumaraf, L. Chen, M.T. Kechadi
    Year: 2024
    Citations: 6

  • Title: U-SDRC: a novel deep learning-based method for lesion enhancement in liver CT images
    Authors: Z. Zheng, L. Ma, S. Yang, S. Boumaraf, X. Liu, X. Ma
    Year: 2021
    Citations: 5

  • Title: Bi-Directional LSTM Model For Classification Of Vegetation From Satellite Time Series
    Authors: K. Bakhti, M.E.A. Arabi, S. Chaib, K. Djerriri, M.S. Karoui, S. Boumaraf
    Year: 2020
    Citations: 5

Eric Nizeyimana | Computer Science | Best Researcher Award

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Dr. Eric Nizeyimana | Computer Science | Best Researcher Award

Lecturer from University of Rwanda, Rwanda

Dr. Eric Nizeyimana is a Rwandan researcher and academic specializing in Internet of Things (IoT) and embedded systems. He has built a career grounded in advanced technological solutions for environmental and infrastructural challenges, particularly in air pollution monitoring and data-driven IoT applications. His recent work includes developing decentralized, predictive frameworks using blockchain, machine learning, and IoT technologies to track pollution spikes in real time. With extensive research and teaching experience across African and Asian academic institutions, including the University of Rwanda and Seoul National University, he brings a global perspective to technological development. Dr. Nizeyimana is known for integrating practical and scalable systems with academic rigor, earning recognition for his innovative and impactful work. His contributions have been published in several reputable journals, and he continues to influence the next generation of engineers and scientists through both classroom teaching and research mentorship. Fluent in English, French, Kinyarwanda, and Swahili, and having held leadership roles in academic committees and church communities, he blends technical excellence with interpersonal and organizational strengths. As a proactive researcher and educator, Dr. Nizeyimana continues to push the boundaries of IoT systems in addressing societal issues, especially in transportation, environmental sustainability, and smart infrastructure.

Professional Profile

Education

Dr. Eric Nizeyimana has pursued a progressive academic path centered on engineering, mathematical sciences, and emerging technologies. He earned his Ph.D. in Internet of Things (IoT) with a specialization in Embedded Systems from the University of Rwanda – College of Science and Technology (UR-CST), under the African Center of Excellence in Internet of Things (ACEIoT), in collaboration with Seoul National University (SNU), South Korea, from 2020 to 2024. His doctoral research focused on environmental monitoring systems using IoT and edge computing technologies, particularly addressing air pollution monitoring and predictive analytics. Prior to this, he completed a master’s program in Mathematical Sciences at the African Institute for Mathematical Sciences (AIMS-Cameroon) in 2015. His academic foundation was laid through a bachelor’s degree in Computer Engineering from the Kigali Institute of Science and Technology (KIST), which he completed in 2012. This strong foundation in both engineering and mathematics positioned him well for his advanced research in smart systems and applied technologies. His educational journey reflects a consistent focus on interdisciplinary innovation, bridging computational science, real-world data systems, and environmental sustainability. Through scholarships and competitive academic grants, Dr. Nizeyimana has demonstrated academic excellence and international competitiveness.

Professional Experience

Dr. Eric Nizeyimana has accumulated rich professional experience in academia and research-focused technical roles. As of October 2024, he serves as a Lecturer at the University of Rwanda – College of Science and Technology, where he also previously held the role of Assistant Lecturer between August 2015 and May 2017. In this capacity, he has taught diverse subjects, including Embedded Computer Systems, Artificial Intelligence, Java Programming, and Computer Programming. He has also supervised undergraduate and graduate research projects and contributed to proposal writing and curriculum development. From April to October 2023, Dr. Nizeyimana was a researcher at Seoul National University, where he developed IoT-based systems for environmental monitoring, optimized embedded systems, and analyzed complex data. Between 2019 and 2023, he worked as an IT Analyst and Training Officer at the African Institute for Mathematical Science (AIMS), coordinating IT infrastructure, providing technical training, and managing secure digital environments. Earlier, from 2017 to 2018, he held the role of IT Officer and System Administrator at AIMS in both Rwanda and Cameroon. These roles highlight his hybrid expertise in teaching, systems design, network security, and capacity building, establishing him as a technically proficient and educationally driven professional.

Research Interests

Dr. Eric Nizeyimana’s research interests lie at the intersection of the Internet of Things (IoT), embedded systems, edge computing, and environmental monitoring. He focuses on developing intelligent, decentralized systems to address real-world challenges such as air pollution, particularly in urban transportation networks. His work explores the integration of edge devices, machine learning algorithms, and blockchain technologies to design predictive and real-time monitoring solutions. Another key interest involves leveraging IoT infrastructures for smart city applications, including traffic management, public health monitoring, and resource optimization. Dr. Nizeyimana is particularly interested in how embedded systems can be adapted to constrained environments to achieve high accuracy with low power consumption and minimal latency. In addition to technical development, he investigates the ethical and infrastructural implications of deploying such technologies in developing countries. His research also includes data analytics for IoT devices, remote sensing systems, and system interoperability within distributed computing frameworks. Through his multidisciplinary approach, he seeks to expand the boundaries of scalable, secure, and sustainable technology for societal benefit. These interests reflect his commitment to using engineering innovation to improve public services, infrastructure management, and environmental stewardship in both local and global contexts.

Research Skills

Dr. Eric Nizeyimana possesses advanced research skills in embedded systems design, IoT application development, and edge computing architecture. He is proficient in integrating IoT sensors and communication protocols with real-time data processing systems to monitor and analyze environmental data, especially for detecting air pollution peaks. His work involves embedded system programming, circuit design, microcontroller deployment, and the use of platforms such as Arduino and Raspberry Pi. He also has experience in machine learning model development for predictive analytics, including supervised learning techniques applied to transportation and pollution datasets. Dr. Nizeyimana demonstrates expertise in decentralized systems using blockchain for data immutability and enhanced security. Additionally, he has strong skills in scientific writing, proposal development, and collaborative project implementation. His ability to design end-to-end solutions—from hardware development to software implementation and data interpretation—sets him apart in the IoT research space. Furthermore, he is skilled in academic dissemination, having presented at multiple international seminars and conferences. His competence in working across multicultural teams, both locally and internationally, further enhances his collaborative research capabilities. These skills are underpinned by a solid background in programming languages such as Python, Java, and C++, along with system administration and IT infrastructure management.

Awards and Honors

Dr. Eric Nizeyimana has been recognized for his academic excellence and research contributions through various prestigious awards. In 2023, he received the Mobility Research Grant from Rwanda’s National Council of Science and Technology (NCST), which enabled him to conduct critical experimental work at an international research institution. This grant, valued at approximately 8 million Rwandan francs, supported his living and research expenses during a two-month exchange, reflecting the national confidence in his research potential. In 2020, he was awarded a full four-year Ph.D. scholarship through the Partnership for skills in Applied Sciences, Engineering and Technology (PASET), a competitive regional initiative aimed at promoting advanced STEM education in Africa. His leadership and service have also been acknowledged through appointments such as PhD student representative and Master’s student representative, demonstrating trust in his leadership within academic communities. In addition, his consistent presence at international conferences and seminars, along with publications in respected peer-reviewed journals, underscores his active engagement in the global research community. These honors not only validate his academic achievements but also highlight his capability to drive impactful, solution-oriented research with both national and international relevance.

Conclusion

Dr. Eric Nizeyimana embodies the qualities of an outstanding researcher through his technical innovation, academic leadership, and commitment to solving real-world problems using emerging technologies. His focused research in IoT, embedded systems, and air pollution monitoring has generated valuable insights into how smart systems can be leveraged for environmental and urban challenges. His publication record in high-quality journals and active participation in global research exchanges reflect a strong orientation toward scholarly excellence and international collaboration. With a foundation in mathematics and engineering, his interdisciplinary approach allows him to bridge theory and application effectively. His work with institutions like Seoul National University and AIMS demonstrates adaptability, technical depth, and professional maturity. As an educator, he contributes to capacity building through teaching, mentorship, and curriculum development. Recognized with competitive grants and scholarships, he has proven his potential to lead transformative research in both academic and industrial contexts. While there remains room for broader global engagement and interdisciplinary outreach, Dr. Nizeyimana has established himself as a valuable contributor to the research community. His profile makes him a highly suitable candidate for recognition under a Best Researcher Award, affirming both his achievements and future promise.

Publications Top Notes

  1. Prototype of monitoring transportation pollution spikes through the internet of things edge networks

    • Authors: E. Nizeyimana, D. Hanyurwimfura, J. Hwang, J. Nsenga, D. Regassa

    • Year: 2023

    • Citations: 7

    • Journal: Sensors, 23(21), 8941

  1. Integration of Vision IoT, AI-based OCR and Blockchain Ledger for Immutable Tracking of Vehicle’s Departure and Arrival Times

    • Authors: M. Sichinga, J. Nsenga, E. Nizeyimana

    • Year: 2023

    • Citations: Not listed

    • Conference: 2023 8th Int. Conf. on Machine Learning Technologies

  1. Miniaturized Ultrawideband Microstrip Antenna for IoT‐Based Wireless Body Area Network Applications

    • Authors: U. Pandey, P. Singh, R. Singh, N.P. Gupta, S.K. Arora, E. Nizeyimana

    • Year: 2023

    • Citations: 15

    • Journal: Wireless Communications and Mobile Computing, 2023(1), 3950769

  1. IOT‐Based Medical Informatics Farming System with Predictive Data Analytics Using Supervised Machine Learning Algorithms

    • Authors: A. Rokade, M. Singh, S.K. Arora, E. Nizeyimana

    • Year: 2022

    • Citations: 20

    • Journal: Computational and Mathematical Methods in Medicine, 2022(1), 8434966

  1. Design of smart IoT device for monitoring short-term exposure to air pollution peaks

    • Authors: E. Nizeyimana, J. Nsenga, R. Shibasaki, D. Hanyurwimfura, J.S. Hwang

    • Year: 2022

    • Citations: 7

    • Journal: International Journal of Advanced Computer Science and Applications (IJACSA)

  1. Design of a decentralized and predictive real-time framework for air pollution spikes monitoring

    • Authors: E. Nizeyimana, D. Hanyurwimfura, R. Shibasaki, J. Nsenga

    • Year: 2021

    • Citations: 9

    • Conference: 2021 IEEE 6th Int. Conf. on Cloud Computing and Big Data Analysis

  1. Effect of Window Size on PAPR Reduction in 4G LTE Network Using Peak Windowing Algorithm in Presence of Non-linear HPA

    • Authors: M. Fidele, H. Damien, N. Eric

    • Year: 2020

    • Citations: 10

    • Conference: 2020 IEEE 5th Int. Conf. on Signal and Image Processing (ICSIP)

  1. Monitoring system to strive against fall armyworm in crops: case study on maize in Rwanda

    • Authors: D. Hanyurwimfura, E. Nizeyimana, F. Ndikumana, D. Mukanyiligira, …

    • Year: 2018

    • Citations: 7

    • Conference: 2018 IEEE SmartWorld/Ubiquitous Intelligence & Computing

  1. Comparative study on performance of High Performance Computing under OpenMP and MPI on Image Segmentation

    • Authors: E. Hitimana, E. Nizeyimana, G. Bajpai

    • Year: 2016

    • Citations: 1

    • Conference: Third International Conference on Advances in Computing, Communication and Informatics

  1. Development of an encrypted patient database including a doctor user interface

  • Author: E. Nizeyimana

  • Year: 2015

  • Citations: Not listed

  • Institution: African Institute for Mathematical Sciences Tanzania

Chongan Zhang | Computer Science | Best Researcher Award

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Mr. Chongan Zhang | Computer Science | Best Researcher Award

Researcher from Zhejiang University, China

Chongan Zhang is an accomplished researcher in the field of Biomedical Engineering with nearly a decade of hands-on experience in the research and development of advanced medical devices. Based at Zhejiang University, he has served as a core team member on numerous high-impact projects at national, provincial, and enterprise levels. His research has focused on the development and translational application of high-end medical endoscopes, surgical navigation systems, and digital processing systems used in endoscopic surgical robots. Chongan’s innovative contributions have led to the publication of 10 academic papers indexed in SCI and EI, covering significant topics such as endoscopy and surgical navigation. He holds one national invention patent, which reflects his ability to bridge the gap between academic research and real-world clinical applications. His interdisciplinary approach combines engineering, computer science, and medicine to address key challenges in minimally invasive surgery. Committed to improving surgical precision and patient outcomes, his work in the development of high-speed digital processing and core navigation components has gained recognition in both academic and industrial domains. With a clear focus on translational research, Chongan continues to strive toward excellence in biomedical device innovation, aligning scientific progress with societal healthcare needs.

Professional Profile

Education

Chongan Zhang pursued his academic journey in the field of Biomedical Engineering at Zhejiang University, one of China’s most prestigious institutions for engineering and medical sciences. His formal education provided him with a strong foundation in engineering principles, biological sciences, and clinical applications relevant to medical device development. During his academic tenure, he focused on courses related to medical instrumentation, imaging systems, embedded systems, and biomechanics, all of which shaped his research direction toward minimally invasive technologies and robotic systems. His graduate research work revolved around designing and optimizing surgical navigation systems and high-resolution endoscopic imaging techniques. This training equipped him with both theoretical knowledge and practical skills in device prototyping, data acquisition, digital signal processing, and interdisciplinary integration. The academic environment at Zhejiang University encouraged collaborative and innovation-driven learning, enabling Chongan to take part in cutting-edge projects and cross-disciplinary research. His thesis and project work often involved real-time system simulation, system control algorithms, and micro-electromechanical system (MEMS)-based designs for surgical applications. Overall, his education has been pivotal in preparing him for a research career at the intersection of biomedical engineering, computer science, and clinical technology, shaping his capacity for innovation and translational application in the healthcare sector.

Professional Experience

Chongan Zhang’s professional experience spans close to ten years in biomedical engineering, with a focus on the research, development, and translation of innovative medical devices. During his career, he has played a key role in multiple scientific and technological projects funded by national, provincial, ministerial, and enterprise-level agencies. At Zhejiang University, he has functioned as a central figure in research groups working on endoscopic surgical robots, minimally invasive surgical instrumentation, and high-speed digital processing systems. His primary responsibilities include system architecture design, component integration, algorithm development, and prototype validation. He has collaborated closely with clinicians, engineers, and industrial partners to ensure that the technologies under development meet real-world clinical needs. Notably, he has contributed significantly to the creation of next-generation medical endoscopes and surgical navigation platforms, ensuring they are both functionally advanced and ergonomically designed for clinical use. His experience also includes preparing documentation for regulatory approvals and technology transfer initiatives. By bridging research with industry, he has helped translate laboratory innovations into deployable healthcare solutions. His practical experience across diverse project scales and domains positions him as a well-rounded biomedical engineer with strong problem-solving skills and a commitment to healthcare advancement through engineering innovation.

Research Interests

Chongan Zhang’s research interests lie primarily in the design, development, and optimization of biomedical devices with a focus on endoscopic technologies and surgical navigation systems. He is particularly interested in the intersection of medical imaging, embedded systems, digital signal processing, and robotics, which collectively drive the innovation of next-generation surgical tools. His current research focuses on developing high-speed digital processing systems that enable real-time data handling during endoscopic procedures. Another key area of his interest is the advancement of surgical navigation systems to enhance accuracy and safety in minimally invasive surgeries. This involves both hardware design and the development of real-time localization and tracking algorithms. Chongan is also keen on translating academic research into clinically deployable technologies and is involved in designing core navigation components for robotic-assisted surgical systems. Furthermore, he is exploring the integration of AI-assisted guidance in endoscopic navigation, aiming to improve decision-making during surgeries. His long-term interest includes the development of patient-specific devices and systems that can adapt to diverse surgical environments. By bridging engineering and medicine, he seeks to contribute to the evolution of smart surgical environments and better patient outcomes through technical excellence and user-centered design.

Research Skills

Chongan Zhang possesses a comprehensive skill set that supports his research in biomedical device development and surgical system innovation. He is proficient in the design and fabrication of medical devices, particularly high-performance endoscopes and surgical navigation platforms. His technical capabilities include embedded system programming, high-speed digital signal processing, sensor integration, and real-time data acquisition, all of which are critical for surgical applications. He is also skilled in system modeling, simulation, and validation, enabling him to iterate quickly and efficiently through the research and development cycle. His experience with CAD tools, hardware prototyping, and microcontroller-based system design strengthens his ability to create customized solutions for complex clinical challenges. Chongan is adept in image processing techniques used in endoscopy and navigation, and he frequently applies machine learning methods for optimizing navigation accuracy. Additionally, he has strong competencies in managing interdisciplinary research projects and collaborating with cross-functional teams, including surgeons, regulatory specialists, and industrial engineers. His skill in writing academic papers and securing intellectual property rights through patent applications also reflects his well-rounded research acumen. With a firm grasp of both software and hardware aspects, Chongan is well-equipped to innovate in the highly demanding field of medical device engineering.

Awards and Honors

Throughout his career, Chongan Zhang has earned recognition for his contributions to the biomedical engineering field, particularly in surgical technology innovation. While early in his career relative to more senior researchers, he has already secured a national invention patent, which highlights the originality and practical impact of his research. His participation in multiple government-funded and enterprise-sponsored research projects reflects institutional trust and professional esteem in his capabilities. Furthermore, his ten SCI and EI-indexed academic publications demonstrate that his work meets rigorous scientific standards and contributes to global knowledge in endoscopy and surgical navigation. Though not yet decorated with widely known individual research awards, his track record of successful project execution, research output, and innovation places him on a trajectory for future recognition at national and international levels. His involvement in interdisciplinary teams and industry partnerships has also brought praise for his ability to effectively bridge academic research with real-world application. As his portfolio continues to grow, he is likely to be a strong candidate for awards recognizing innovation, translational research, and medical technology advancement. His achievements to date serve as a foundation for even greater impact and recognition in the biomedical and engineering communities.

Conclusion

Chongan Zhang is a highly competent and innovative researcher whose work in biomedical engineering—especially in the development of surgical navigation systems and endoscopic technologies—demonstrates both depth and practical relevance. With nearly a decade of experience and active involvement in multi-tiered research projects, he exemplifies the qualities of a forward-thinking biomedical engineer. His research is driven by the need for high-precision, minimally invasive surgical tools that can transform clinical practice and improve patient outcomes. He combines strong technical skills with a clear vision for translational research, evidenced by his publications, patent, and collaborative project roles. While still building an international reputation, his consistent academic contributions and technical innovations already place him among the promising researchers in his field. His ability to work across disciplines and his focus on both hardware and software elements of surgical systems make him uniquely equipped to contribute to the future of intelligent surgical environments. With continued support and expanded visibility, he has the potential to become a leading figure in biomedical device innovation. Based on his experience, output, and innovation potential, he is a worthy nominee for the Best Researcher Award and an asset to the global biomedical research community.

Publications Top Notes

📘 Registration, Path Planning and Shape Reconstruction for Soft Tools in Robot-Assisted Intraluminal Procedures: A Review

  • Authors: Chongan Zhang, Xiaoyue Liu, Zuoming Fu, Guoqing Ding, Liping Qin, Peng Wang, Hong Zhang, Xuesong Ye

  • Publication Year: 2025

Zhengming Jiang | Computer Science | Best Academic Researcher Award

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Dr. Zhengming Jiang | Computer Science | Best Academic Researcher Award

Teacher from Guangdong Polytechnic Normal University, China

Dr. Zhengming Jiang is a dedicated academic and researcher in the field of information and communication engineering, currently serving as a lecturer at the Industrial Training Center, Guangdong Polytechnic Normal University. With over a decade of experience in academia and research, he has established himself as a promising expert in dual-function radar-communication systems, intelligent reflecting surfaces, and physical layer security. Dr. Jiang obtained his Ph.D. and Master’s degrees from Shenzhen University, which shaped his foundational expertise in advanced communication technologies. In recent years, he has gained further prominence through his postdoctoral work at the Shenzhen International Graduate School of Tsinghua University, in collaboration with Guangdong Kekaida Intelligent Robotics Co., Ltd. His scholarly output includes several first-author papers in top-tier journals such as the IEEE Internet of Things Journal and Digital Signal Processing. He has also been awarded and has led numerous national and provincial research grants, showcasing his capacity for high-impact research. Furthermore, Dr. Jiang has made significant contributions to the applied technology sector, as evidenced by his patented innovations in signal processing and communication security. His academic rigor, project leadership, and technical acumen place him among the leading emerging scholars in the field.

Professional Profile

Education

Dr. Zhengming Jiang has pursued a comprehensive academic path in communication engineering, demonstrating consistent dedication to excellence throughout his educational journey. He began his undergraduate studies in 2007 at Shaoyang University, where he obtained a Bachelor’s degree in Communication Engineering in 2011. His strong academic performance and interest in signal systems led him to Shenzhen University, where he pursued a Master’s degree in Communication and Information Systems, graduating in 2014. Motivated by a desire to delve deeper into advanced research, he continued at Shenzhen University to earn his Ph.D. in Information and Communication Engineering from 2017 to 2020. His doctoral research was instrumental in shaping his specialization in dual-function radar-communication systems and signal processing techniques. His academic foundation not only reflects deep theoretical knowledge but also practical application, which he further developed during his postdoctoral fellowship beginning in 2023 at the Tsinghua Shenzhen International Graduate School and Guangdong Kekaida Intelligent Robotics Co., Ltd. This postdoctoral phase has allowed him to engage in high-level collaborative research and contribute to national-level innovations. Dr. Jiang’s educational background showcases a well-rounded and in-depth mastery of his field, equipping him with the skills necessary for high-impact research and academic leadership.

Professional Experience

Dr. Zhengming Jiang has a diverse portfolio of academic and research experience, reflecting his progression from foundational teaching roles to high-level research leadership. His professional journey began in 2014 when he served as a teaching assistant in the Computer Science Department at Guangdong University of Science and Technology. Over the course of three years, he contributed to curriculum delivery and engaged students in the fundamentals of communication systems. In January 2021, he advanced to a lecturer position at the Industrial Training Center of Guangdong Polytechnic Normal University, where he continues to teach and mentor students while spearheading innovative research projects. His academic expertise is matched by his research initiative; he has successfully secured and managed several university- and province-level research grants as principal investigator. Most recently, in November 2023, Dr. Jiang began a prestigious postdoctoral appointment at the Shenzhen International Graduate School of Tsinghua University in conjunction with Guangdong Kekaida Intelligent Robotics Co., Ltd. This dual-institution position has enabled him to engage in interdisciplinary collaboration and contribute to cutting-edge research in intelligent communication technologies. His professional trajectory reflects a balance between teaching, project leadership, and research excellence, positioning him as a versatile academic and technical expert.

Research Interests

Dr. Zhengming Jiang’s research interests are deeply rooted in the development and integration of communication and radar technologies. He focuses on dual-function radar-communication systems, an emerging field that enhances spectrum efficiency by combining communication and sensing capabilities. His work explores the use of intelligent reflecting surfaces (IRS) to optimize signal propagation, minimize interference, and improve system robustness in dynamic environments. Dr. Jiang is particularly interested in the physical layer security of vehicular and automotive systems, addressing the growing need for secure communication in intelligent transportation infrastructure. Additionally, his research covers robust beamforming design, especially in complex or error-prone environments, which is vital for ensuring reliable wireless performance. Another important theme in his work is the integration of communication and sensing in millimeter-wave systems, contributing to the advancement of next-generation wireless networks. His interests align with current global trends in smart mobility, 6G technologies, and secure wireless communication. Dr. Jiang’s research not only addresses theoretical challenges but also emphasizes practical implementation and innovation, which is evident in his industry collaboration and patent filings. His ability to identify emerging needs and apply theoretical insights to real-world applications makes his research highly impactful and forward-thinking.

Research Skills

Dr. Zhengming Jiang possesses a comprehensive and advanced skill set in information and communication engineering, with specialized expertise in dual-function radar-communication systems and intelligent signal processing. He has demonstrated exceptional capability in the design and optimization of intelligent reflecting surfaces (IRS), focusing on enhancing wireless signal strength and quality in complex environments. His proficiency in robust beamforming techniques enables him to manage signal integrity in the presence of interference and modeling errors, a critical skill in modern communication systems. Dr. Jiang is also well-versed in millimeter-wave communications, particularly in scenarios requiring high-frequency data transmission and sensing integration. His ability to simulate and model physical layer systems is complemented by strong coding and algorithm development skills, particularly using MATLAB and Python. Furthermore, he is adept at experimental validation and hardware-software interfacing, which are essential for real-world implementation. His capacity to lead multidisciplinary research projects and collaborate with engineering teams has been proven through his work at Guangdong Kekaida and Tsinghua Shenzhen. Whether it is theoretical modeling, algorithm design, or system prototyping, Dr. Jiang exhibits a rare blend of analytical precision and engineering pragmatism, making him a valuable asset in both academic and applied research environments.

Awards and Honors

Dr. Zhengming Jiang has received recognition for his outstanding contributions to the field of communication systems through both academic and innovation-related achievements. Among his notable accomplishments is his role as the principal investigator and key contributor in several research projects funded by prestigious institutions such as the National Natural Science Foundation of China (NSFC). One of his ongoing research contributions includes participation in a significant NSFC general project valued at 550,000 RMB, focused on the modulation mechanisms of AlGaN-based ultraviolet communication devices. He has also led and completed provincial and university-level research grants totaling over 400,000 RMB, demonstrating his ability to conceptualize and execute high-impact studies. His publication record includes multiple first-author papers in high-impact journals such as IEEE Internet of Things Journal and IEEE Systems Journal, underscoring his leadership in scholarly dissemination. In addition, Dr. Jiang is a named inventor in a Chinese patent related to robust anti-interference navigation technologies, further showcasing his innovative contributions. These accomplishments reflect a strong recognition from both academic peers and industry stakeholders. While formal academic honors or teaching awards were not listed, his record of funded research, scholarly output, and intellectual property firmly positions him as a decorated and respected figure in his field.

Conclusion

In conclusion, Dr. Zhengming Jiang stands out as an accomplished early-career researcher with a clear trajectory toward long-term excellence in the fields of communication and radar systems. His educational and professional journey reflects a strong foundation, advanced specialization, and continuous development through prestigious appointments and collaborations. He has consistently demonstrated leadership in research, as evidenced by his role in major grant-funded projects, first-author publications in internationally reputed journals, and innovation in practical technologies such as anti-interference navigation systems. Dr. Jiang’s work directly aligns with pressing global needs, including secure and intelligent vehicular communications, spectrum efficiency, and next-generation wireless networks. His research is not only theoretically robust but also geared toward real-world applications, making a meaningful contribution to both academia and industry. With further expansion into global collaborations, mentorship roles, and interdisciplinary projects, Dr. Jiang is well-poised to reach even higher levels of academic recognition. Based on his current record, he is a strong candidate for awards recognizing research excellence and innovation. His blend of technical expertise, academic productivity, and real-world impact positions him as a leading researcher worthy of distinction.

Publications Top Notes

1. On the Physical Layer Security of Automotive Dual-Function Radar-Communication Systems

Authors: Zheng-Ming Jiang, Mohamed Rihan, Qijun Deng, Ehab Mahmoud Mohamed, Haitham S. Khallaf, Xiaojun Wang, Rasha Omar
Journal: IEEE Internet of Things Journal
Year: 2024
Volume/Issue: 11(3), Pages 5090–5104

2. Intelligent Reflecting Surface Aided Dual-Function Radar and Communication System

Authors: Zheng-Ming Jiang, Mohamed Rihan, Qiang Li, Lei Huang, Qijun Deng, Jihong Zhang, Ehab Mahmoud Mohamed
Journal: IEEE Systems Journal
Year: 2021
Volume/Issue: 16(1), Pages 475–486
Citations: 113 citations

3. Intelligent Reflecting Surface Aided Co-existing Radar and Communication System

Authors: Zheng-Ming Jiang, Qijun Deng, Min Huang, Zhenxing Zheng, Xiaojun Wang, Mohamed Rihan
Journal: Digital Signal Processing
Year: 2023
Volume: 141

4. Robust Beamforming Design for Co-existing Radar and Communication System with Bounded Error Model

Authors: Qijun Deng, Zhengming Jiang, Senming Zhong, Min Huang, Qiang Li, Mohamed Rihan
Journal: IEICE Transactions on Communications
Year: 2024
Volume/Issue: 12(3)

5. Maximum Likelihood Approach to DoA Estimation Using Lens Antenna Array

Authors: Zheng-Ming Jiang, Peichang Zhang, Mohamed Rihan, Lei Huang, Jihong Zhang
Journal: EURASIP Journal on Wireless Communications and Networking
Year: 2019
Volume: 2019: Article 1

Thatikonda Ragini | Embedded Vision | Best Researcher Award

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Mrs. Thatikonda Ragini | Embedded Vision | Best Researcher Award

PhD Researcher at National Institute of Technology Warangal, India

Thatikonda Ragini is a dedicated doctoral researcher at the National Institute of Technology (NIT), Warangal, specializing in artificial intelligence and embedded systems. Under the supervision of Dr. Kodali Prakash, her research aims to develop fast, lightweight, and power-efficient neural architectures suitable for real-world applications, particularly on low-end edge devices. Her interest extends across various domains such as pathology and accessibility, showcasing her drive to make impactful contributions. With six years of teaching experience and three years in R&D, Ragini has a well-rounded academic and professional background. She has published several influential papers in SCIE-indexed journals, demonstrating her expertise in deep learning, machine learning, and computer vision. Her technical acumen and dedication to innovative research make her a promising figure in her field, positioning her as a strong contender for future advancements in AI-driven embedded systems.

Professional Profile

Education

Thatikonda Ragini has a strong academic foundation, starting with her Bachelor of Technology (B.Tech.) in Electronics and Communication Engineering from JNTU Hyderabad in 2010, where she graduated with distinction. She then pursued a Master of Technology (M.Tech.) in VLSI Design, also from JNTU Hyderabad, completing it in 2015 with an impressive distinction score of 82%. Building on her technical expertise, she is currently working toward her Doctor of Philosophy (Ph.D.) at NIT Warangal, focusing on Artificial Intelligence and Embedded Systems. Having submitted her thesis, she is set to complete her Ph.D. in 2024. Her strong educational background reflects a clear trajectory of specialization in cutting-edge fields like machine learning, deep learning, and computer vision, which are central to her ongoing research efforts.

Professional Experience

Ragini’s professional journey spans both academia and research. She has six years of teaching experience, having worked as an Assistant Professor at both Trinity Engineering College (2010-2013) and Jyothishmathi Institute of Technology & Science (2015-2018). During her teaching career, she taught key subjects such as Machine Learning, Deep Learning, Computer Vision, and Internet of Things (IoT), significantly contributing to student learning and development. Alongside teaching, Ragini has three years of R&D experience, where she focused on developing embedded systems and AI-driven technologies. She has also gained valuable experience in writing research proposals for R&D funding agencies, showcasing her ability to lead and contribute to high-impact research projects. Her combined academic and R&D experience makes her a versatile professional in her field.

Research Interests:

Ragini’s research interests lie at the intersection of machine learning, deep learning, and computer vision. Specifically, she focuses on designing lightweight and efficient neural architectures that can be deployed on low-end edge devices with limited power and memory capabilities. Her work aims to optimize these architectures for real-world applications, particularly in domains like pathology and accessibility, which have high societal relevance. Ragini is also interested in embedded vision applications, exploring how computer vision systems can be integrated into embedded systems to enhance performance across diverse fields. Her research contributes to the advancement of AI-driven embedded systems, offering solutions that are both resource-efficient and scalable, making them suitable for real-world deployment on constrained devices.

Research Skills:

Ragini possesses a diverse set of research skills that position her as a highly capable researcher. She is proficient in machine learning, deep learning, and computer vision, with specialized knowledge in designing neural architectures optimized for low-power, memory-efficient applications. Her technical expertise spans across VLSI design, making her adept at integrating software and hardware for embedded systems. Ragini has hands-on experience with programming languages like Python and frameworks such as TensorFlow and PyTorch, enabling her to develop and deploy advanced AI models. Additionally, she is skilled in writing research proposals for R&D funding, contributing to her experience in project management and execution. Her ability to handle complex datasets, conduct experiments, and analyze results reflects her strong analytical and problem-solving skills.

Awards and Honors:

Ragini’s academic and research accomplishments have been recognized through several accolades. She achieved distinction in both her Bachelor’s and Master’s degrees, reflecting her consistent academic excellence. She also completed NPTEL courses in Machine Learning and Deep Learning with Silver Elite certification, demonstrating her commitment to continuous learning and mastery of complex subjects. Her published research in high-impact SCIE journals further attests to her scholarly achievements, with her papers gaining recognition in the artificial intelligence and computer vision communities. Although she has not listed specific research awards, her growing body of work, which includes influential journal publications and conference presentations, positions her as a strong candidate for future research awards and honors.

Conclusion

Thatikonda Ragini has a strong research portfolio with an impressive focus on embedded systems, machine learning, and computer vision. Her publication record in SCIE journals and conference presentations underscore her impactful contributions. While enhancing international collaborations and increasing engagement in professional societies would boost her candidacy further, her current achievements make her a suitable candidate for the Best Researcher Award.

Publication Top Note

  1. S2VSNet: Single stage V-shaped network for image deraining & dehazing
    Authors: Ragini, T., Prakash, K., Cheruku, R.S.
    Journal: Digital Signal Processing: A Review Journal
    Year: 2025
  2. DeTformer: A Novel Efficient Transformer Framework for Image Deraining
    Authors: Ragini, T., Prakash, K., Cheruku, R.
    Journal: Circuits, Systems, and Signal Processing
    Year: 2024
  3. Rain Streak Removal via Spatio-Channel Based Spectral Graph CNN for Image Deraining
    Authors: Ragini, T., Prakash, K.
    Conference: Communications in Computer and Information Science
    Year: 2023
  4. Progressive Multi-scale Deraining Network
    Authors: Ragini, T., Prakash, K.
    Conference: 2022 IEEE International Symposium on Smart Electronic Systems (iSES)
    Year: 2022

 

Jeyanthi | Computer Vision | Best Researcher Award

Published on by Shen Awards

Dr. Jeyanthi | Computer Vision | Best Researcher Award

Professor at Sathyabama Institute of Science and Technology, India.

Dr. P. Jeyanthi is a distinguished Professor with a comprehensive educational background, holding a B.E., M.E., and Ph.D. She has received notable honors, including an institutional award for high-impact factor publications and a Star Certification for her contributions to empowering students in Cloud Computing Technology. Dr. Jeyanthi is actively involved in mentoring student projects and organizing faculty development programs, demonstrating her commitment to academic excellence. Her research spans various areas, including sentiment analysis, IoT security, and machine learning, with several publications in respected journals indexed in SCI and Scopus. Additionally, she plays a significant role as a reviewer for esteemed journals. Dr. Jeyanthi continues to engage in professional development activities, including workshops on emerging technologies, which showcases her dedication to staying current in her field and fostering innovation. Her combination of research achievements and service to the academic community positions her as a leading figure in her domain.

Profile:

Education

Dr. P. Jeyanthi holds a comprehensive educational background that forms the foundation of her academic career. She earned her Bachelor’s degree in Engineering (B.E.) followed by a Master’s degree in Engineering (M.E.), both of which equipped her with a strong technical knowledge and practical skills in her field. Dr. Jeyanthi further advanced her expertise by obtaining a Doctorate (Ph.D.), where she conducted in-depth research that contributed to the body of knowledge in her area of specialization. Her educational journey has not only provided her with theoretical understanding but also practical insights, enabling her to mentor students effectively and engage in significant research projects. Throughout her academic pursuits, Dr. Jeyanthi has demonstrated a commitment to lifelong learning, consistently participating in professional development activities and workshops that keep her abreast of the latest advancements in technology and education. This solid educational foundation is instrumental in her current role as a Professor and researcher.

Professional Experiences 

Dr. P. Jeyanthi is a seasoned academic with extensive professional experience in the field of engineering and technology. As a Professor, she has actively contributed to various educational initiatives, mentoring student projects and organizing Faculty Development Programs (FDPs) and Short Development Programs (SDPs) to enhance learning outcomes. Her dedication to student empowerment is evident through her Star Certification award for contributions in Cloud Computing Technology. In addition to her teaching responsibilities, Dr. Jeyanthi serves as a reviewer for respected journals such as Soft Computing, showcasing her engagement with the broader academic community. She has also been instrumental in conducting workshops on emerging technologies, including Blockchain and Big Data Analytics, further solidifying her expertise in contemporary tech domains. Dr. Jeyanthi’s commitment to research and education positions her as a prominent figure in her institution, contributing significantly to the development of future engineers and technologists.

Research Interests

Dr. P. Jeyanthi’s research interests span a diverse array of fields, primarily focusing on cloud computing, sentiment analysis, and Internet of Things (IoT) security. She is particularly engaged in developing advanced machine learning and artificial intelligence algorithms for various applications, including text classification and feature extraction in sentiment analysis. Her work on IoT encompasses securing SCADA networks and integrating lightweight cryptography for real-time monitoring systems, showcasing her commitment to enhancing data security in smart environments. Additionally, Dr. Jeyanthi explores medical applications, such as using multilayered classification models for retinal disease diagnosis and diabetic retinopathy segmentation. Her dedication to empowering students and fostering research in these areas further emphasizes her passion for innovative technological solutions that address real-world challenges. Through her multifaceted research endeavors, Dr. Jeyanthi aims to contribute significantly to both academic knowledge and practical advancements in technology.

Research skills 

Dr. P. Jeyanthi possesses a diverse range of research skills that underpin her significant contributions to the fields of cloud computing, IoT security, and artificial intelligence. Her proficiency in quantitative and qualitative research methodologies enables her to conduct rigorous analyses and develop innovative solutions. Dr. Jeyanthi’s expertise in feature selection and sentiment analysis demonstrates her capability to handle complex data sets, while her work on multilabel classifiers and hybrid models showcases her ability to integrate advanced machine learning techniques into her research. Additionally, her role as a reviewer for reputable journals reflects her critical thinking and evaluative skills in assessing academic work. Dr. Jeyanthi’s commitment to mentoring students and organizing workshops further highlights her strong communication and leadership abilities, fostering a collaborative research environment. Overall, her comprehensive skill set positions her as a valuable contributor to ongoing advancements in her research domains.

Award And Recognition 

Dr. P. Jeyanthi has garnered significant recognition for her contributions to academia and research, highlighted by several prestigious awards. She received an institutional award for publishing in high-impact factor journals over the past three years, showcasing her commitment to advancing knowledge in her field. Additionally, Dr. Jeyanthi was honored with a Star Certification Award for her exceptional efforts in empowering students in Cloud Computing Technology, demonstrating her dedication to education and mentorship. Her active involvement in organizing faculty development programs (FDPs) and student development workshops further reflects her commitment to professional growth within her institution. As a recognized reviewer for esteemed journals like Soft Computing and others indexed in SCI and Scopus, Dr. Jeyanthi has established herself as a respected figure in the academic community. These accolades underscore her impactful contributions to research and education, making her a notable leader in her field.

Conclusion

Dr. P. Jeyanthi is a highly competent researcher with substantial contributions to cloud computing, IoT, and AI, reflected in her high-impact publications and institutional recognition. While she already has an impressive profile, expanding her international influence and assuming larger leadership roles in research initiatives will strengthen her candidacy for a Best Researcher Award.

Publication Top Notes
  • Chronic kidney disease prediction using machine learning models
    Authors: S. Revathy, B. Bharathi, P. Jeyanthi, M. Ramesh
    Journal: International Journal of Engineering and Advanced Technology
    Volume: 9
    Issue: 1
    Pages: 6364-6367
    Year: 2019
    Citations: 73
  • Image classification by K-means clustering
    Authors: P. Jeyanthi, V.J.S. Kumar
    Journal: Advances in Computational Sciences and Technology
    Volume: 3
    Issue: 1
    Pages: 1-8
    Year: 2010
    Citations: 27
  • Digitization of Data from Invoice using OCR
    Authors: V.N.S.R. Kamisetty, B.S. Chidvilas, S. Revathy, P. Jeyanthi, V.M. Anu, …
    Conference: 2022 6th International Conference on Computing Methodologies and …
    Year: 2022
    Citations: 25
  • A review on internet of things protocol and service oriented middleware
    Authors: Y.J. Dhas, P. Jeyanthi
    Conference: 2019 International Conference on Communication and Signal Processing (ICCSP)
    Year: 2019
    Citations: 17
  • Attack detection and prevention in IoT-SCADA networks using NK-classifier
    Authors: Y. Justindhas, P. Jeyanthi
    Journal: Soft Computing
    Volume: 26
    Issue: 14
    Pages: 6811-6823
    Year: 2022
    Citations: 16
  • Environmental pollution monitoring system using internet of things (IoT)
    Authors: Y.J. Dhas, P. Jeyanthi
    Journal: Journal of Chemical and Pharmaceutical Sciences
    Volume: 10
    Issue: 3
    Pages: 1391-1395
    Year: 2017
    Citations: 15
  • Security management in smart home environment
    Authors: M. Gladence, S. Revathy, P. Jeyanthi
    Year: 2021
  • Aspect level sentiment analysis approaches
    Authors: B.R. Bhamare, P. Jeyanthi, R. Subhashini
    Conference: 2019 5th International Conference On Computing, Communication, Control And …
    Year: 2019
    Citations: 8
  • Secured model for internet of things (IoT) to monitor smart field data with integrated real-time cloud using lightweight cryptography
    Authors: Y. Justindhas, P. Jeyanthi
    Journal: IETE Journal of Research
    Volume: 69
    Issue: 8
    Pages: 5134-5147
    Year: 2023
    Citations: 7
  • A hybrid multilayered classification model with VGG-19 net for retinal diseases using optical coherence tomography images
    Authors: P. Udayaraju, P. Jeyanthi, B. Sekhar
    Journal: Soft Computing
    Volume: 27
    Issue: 17
    Pages: 12559-12570
    Year: 2023
    Citations: 6

Navid Ghaffarzadeh | Engineering | Best Researcher Award

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Assoc Prof Dr. Navid Ghaffarzadeh | Engineering | Best Researcher Award

Assoc Prof Dr. Navid Ghaffarzadeh, Imam Khomeini International University, Iran

Assoc Prof Dr. Navid Ghaffarzadeh is an accomplished engineer recognized for his innovative contributions to the field of engineering. With a focus on [specific area of expertise], he has been instrumental in advancing research and development initiatives. His dedication and impactful work earned him the prestigious Best Researcher Award, highlighting his commitment to excellence and collaboration. Navid continues to inspire through his research, aiming to drive advancements that benefit both industry and society.

 

Profile:

Education

Navid Ghaffarzadeh earned his PhD in Electrical Engineering from Iran University of Science and Technology in Tehran, completing his studies from September 2007 to April 2011. Prior to that, he obtained his Master of Science in Electrical Engineering from Amirkabir University of Technology (Tehran Polytechnic) between September 2005 and August 2007. He also holds a Bachelor of Science in Electrical Engineering from Zanjan University, where he studied from September 2001 to June 2005.

Professional Activities

Navid Ghaffarzadeh is actively engaged in the academic community as a reviewer for numerous prestigious journals in the field of electrical engineering. His reviewing contributions span a wide array of publications, including Renewable and Sustainable Energy Reviews, Applied Energy, Journal of Energy Storage, and IEEE Transactions on Power Systems, among others, with impact factors ranging from 1.276 to 16.799. With over 100 reviewed journal papers, Navid plays a vital role in advancing research quality and integrity in the field. His extensive experience demonstrates his commitment to fostering innovation and excellence in engineering research.

Research Interests

Navid Ghaffarzadeh’s research interests encompass a wide range of cutting-edge topics in electrical engineering. He focuses on renewable energy, exploring innovative solutions in battery energy storage systems and electric vehicles. His work in microgrid and smart grid design aims to enhance the efficiency and reliability of power systems. Navid is particularly interested in the application of artificial intelligence in renewable energy systems, as well as power systems protection and transients. Additionally, he investigates intelligent systems and optimization techniques to improve power systems, with a strong emphasis on ensuring power quality.

Honors and Awards: ‌

Navid Ghaffarzadeh has received numerous honors and awards throughout his academic and professional career. In 2012, he was honored with the IET Science, Measurement and Technology Premium Award for his outstanding paper on power quality disturbances, recognized as one of the best published in the journal. He has been named Outstanding Researcher at I.K International University multiple times, in 2013, 2014, 2016, and 2020, and has also received the Outstanding Professor award in 2017, 2019, 2020, 2021, and 2023. Additionally, he was awarded the Best Iranian PhD Dissertation in power system protection, highlighting his significant contributions to the field. Navid achieved top rankings in his studies, finishing first among PhD electrical power engineering students at Iran University of Science and Technology with a GPA of 18.72 out of 20, first among M.Sc. students at Amirkabir University of Technology with a GPA of 19.18 out of 20, and first among B.Sc. students at Zanjan University with a GPA of 18.36 out of 20.

 

Publication Top Note

A. Bamshad, N. Ghaffarzadeh, “A novel smart overcurrent protection scheme for renewables-dominated distribution feeders based on quadratic-level multi-agent system (Q-MAS),” Electrical Engineering, vol. 105, pp. 1497–1539, February 2023.

S. Ansari, N. Ghaffarzadeh, “A Novel Superimposed Component-Based Protection Method for Multi Terminal Transmission Lines Using Phaselet Transform,” IET Generation, Transmission & Distribution, vol. 17, no. 1, pp. 469–485, January 2023.

A. HN. Tajani, A. Bamshad, N. Ghaffarzadeh, “A novel differential protection scheme for AC microgrids based on discrete wavelet transform,” Electric Power Systems Research, vol. 220, pp. 1-12, July 2023.

A. Zarei, N. Ghaffarzadeh, “Optimal Demand Response-based AC OPF Over Smart Grid Platform Considering Solar and Wind Power Plants and ESSs with Short-term Load Forecasts using LSTM,” Journal of Solar Energy Research, vol. 8, no. 2, pp. 1367-1379, April 2023.

M. Dodangeh, N. Ghaffarzadeh, “A New Protection Method for MTDC Solar Microgrids using on-line Phaselet, Mathematical Morphology, and Signal Energy Analysis,” Energy Engineering & Management, vol. 13, no. 1, pp. 40-53, March 2023 (in Persian).

M. Dodangeh, N. Ghaffarzadeh, “An Intelligent Protection Method for Multi-terminal DC Microgrids Using On-line Phaselet, Mathematical Morphology, and Fuzzy Inference Systems,” Energy Engineering & Management, vol. 12, no. 2, pp. 12-25, August 2022 (in Persian).

M. Dodangeh, N. Ghaffarzadeh, “Optimal Location of HTS-FCLs Considering Security, Stability, and Coordination of Overcurrent Relays and Intelligent Selection of Overcurrent Relay Characteristics in DFIG Connected Networks Using Differential Evolution Algorithm,” Energy Engineering & Management, vol. 10, no. 2, pp. 14-25, May 2020 (in Persian).

A. Inanloo Salehi, N. Ghaffarzadeh, “Fault detection and classification of VSC-HVDC transmission lines using a deep intelligent algorithm,” International Journal of Research and Technology in Electricity Industry, vol. 1, no. 2, pp. 161-170, September 2022.

N. Ghaffarzadeh, H. Faramarzi, “Optimal Solar plant placement using holomorphic embedded power flow considering the clustering technique in uncertainty analysis,” Journal of Solar Energy Research, vol. 7, no. 1, pp. 997-1007, Winter 2022.

N. Ghaffarzadeh, A. Bamshad, “A new approach to AC microgrids protection using a bi-level multi-agent system,” International Journal of Research and Technology in Electricity Industry, vol. 1, no. 1, pp. 66-74, March 2022.