PRATHIBA Gurusamy | Engineering | Women Researcher Award

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Dr. PRATHIBA Gurusamy | Engineering | Women Researcher Award

Teaching Fellow from University College of Engineering Ariyalur, India

Dr. G. Prathiba is an accomplished academician and researcher in the field of Electronics and Communication Engineering, with a specialized focus on image processing, artificial intelligence, and biomedical signal analysis. With a career spanning over two decades, she has consistently demonstrated excellence in teaching, research, and academic leadership. Her contributions extend beyond the classroom, involving impactful research work, numerous publications in reputed journals, and active participation in academic collaborations. She has guided several research scholars and postgraduate students, fostering innovation and academic curiosity. Dr. Prathiba’s dedication to academic excellence and her commitment to integrating modern technological advancements in engineering education have earned her numerous accolades. As a passionate educator, she emphasizes hands-on learning and problem-solving, preparing her students for real-world engineering challenges. Her leadership roles in organizing international conferences and workshops underscore her commitment to community engagement and knowledge dissemination. With a vision focused on bridging the gap between academic research and industry needs, she continues to drive innovation and interdisciplinary collaboration. Dr. Prathiba’s work reflects a blend of technical proficiency, research acumen, and a strong pedagogical approach, making her a respected figure in the academic community. Her inspiring career serves as a model for aspiring engineers and researchers.

Professional Profile

Education

Dr. G. Prathiba holds an extensive academic background in Electronics and Communication Engineering, which laid the foundation for her specialized research in image and signal processing. She earned her Bachelor of Engineering (B.E.) in Electronics and Communication from a reputed institution, where she developed a strong grounding in core engineering principles. She then pursued her Master’s degree (M.E.) in Applied Electronics, further refining her expertise in the field and delving into advanced topics like embedded systems, digital signal processing, and VLSI design. Her thirst for knowledge and innovation led her to undertake a Ph.D. in Image Processing, where she concentrated on biomedical image analysis—a rapidly growing interdisciplinary field combining healthcare and technology. Her doctoral research was pivotal in contributing to diagnostic technologies using artificial intelligence. Throughout her educational journey, Dr. Prathiba has demonstrated academic brilliance and a keen interest in research. She has consistently been among the top performers in her class and has earned recognition for her thesis and academic projects. Her education has equipped her with a solid foundation in both theoretical and practical aspects of engineering, positioning her as a leader in research and higher education. Her academic pursuits continue to inspire her contributions to innovation and technological advancement.

Professional Experience

Dr. G. Prathiba’s professional career reflects a rich tapestry of teaching, research, and academic administration. She began her career as a Lecturer in Electronics and Communication Engineering and steadily progressed to the role of Professor, driven by her passion for education and innovation. Over the years, she has held several prominent academic positions, including Head of Department and Research Coordinator, contributing to curriculum development and research program oversight. Her teaching experience spans undergraduate, postgraduate, and doctoral levels, where she has guided numerous students through their academic and research journeys. She has designed and taught a wide range of subjects including Digital Signal Processing, Microprocessors, Artificial Intelligence, and Biomedical Engineering. In addition to teaching, Dr. Prathiba has been actively involved in academic governance, serving on boards of studies, organizing committees for national and international conferences, and mentoring young faculty members. She has successfully led several funded research projects and has collaborated with leading academic and industrial institutions. Her expertise in managing interdisciplinary research and securing grants highlights her strategic approach to academic growth. Dr. Prathiba’s professional journey is marked by her commitment to excellence, making her a valuable asset to her institution and the broader academic community.

Research Interests

Dr. G. Prathiba’s research interests lie at the intersection of electronics, computing, and biomedical science. Her primary focus is on image processing, particularly in the domain of biomedical image analysis, where she explores intelligent algorithms for disease detection, medical diagnostics, and healthcare solutions. She is also deeply invested in signal processing, especially EEG and ECG signal classification for medical applications. Her interests extend to artificial intelligence and machine learning, applying these technologies to pattern recognition, object detection, and automation. Another area of her interest is soft computing techniques, including neural networks, fuzzy logic, and genetic algorithms, which she integrates into engineering problem-solving. Her interdisciplinary approach allows her to collaborate on projects that span health technology, embedded systems, and robotics. Additionally, Dr. Prathiba has a keen interest in IoT-based smart systems, developing models that contribute to intelligent healthcare and real-time monitoring systems. Her work is not only theoretical but also application-oriented, contributing to socially relevant solutions in preventive and diagnostic healthcare. Through her innovative research and publication record, Dr. Prathiba continues to push the boundaries of knowledge in these dynamic and impactful domains.

Research Skills

Dr. G. Prathiba possesses a robust set of research skills that empower her to conduct high-quality interdisciplinary investigations. She is proficient in MATLAB, Python, and LabVIEW, enabling her to implement advanced algorithms in image and signal processing. Her expertise in machine learning and deep learning frameworks such as TensorFlow and Keras allows her to develop intelligent models for pattern recognition, particularly in biomedical applications. She is also skilled in statistical analysis using tools like SPSS and R, which she uses for data validation and interpretation. Dr. Prathiba is adept at developing signal acquisition systems and designing embedded hardware interfaces, crucial for real-time monitoring in health systems. Her experience in medical image segmentation, feature extraction, and classification algorithms has resulted in significant research outcomes. Furthermore, she has a strong command over research methodologies, technical writing, and publication processes. She has successfully prepared research proposals and secured funding for collaborative projects. Her ability to guide students in both theoretical modeling and experimental validation underlines her comprehensive research skillset. Dr. Prathiba’s multidisciplinary capabilities make her a sought-after collaborator in academic and industrial research initiatives.

Awards and Honors

Dr. G. Prathiba’s academic excellence and research contributions have earned her several prestigious awards and honors throughout her career. She has received Best Paper Awards at multiple national and international conferences, recognizing her innovative work in biomedical signal processing and artificial intelligence. Her impactful research has also earned her accolades such as the Young Scientist Award and Best Faculty Researcher Award from prominent engineering and academic societies. Dr. Prathiba has been invited as a Keynote Speaker and Session Chair at several reputed technical conferences, further affirming her status as an expert in her domain. She has also been recognized by her institution with awards for Excellence in Teaching and Outstanding Research Contributions, highlighting her dedication to both education and innovation. Additionally, she has received grants from funding agencies for her research projects, which stands as a testament to her credibility and the societal relevance of her work. Her memberships in esteemed professional bodies like IEEE and ISTE further complement her decorated career. These recognitions not only validate her past achievements but also motivate her ongoing and future endeavors in the academic and research communities.

Conclusion

In summary, Dr. G. Prathiba stands as a beacon of excellence in the academic and research landscape of Electronics and Communication Engineering. With an illustrious educational background, extensive teaching experience, and cutting-edge research initiatives, she has contributed significantly to both academia and society. Her passion for technology-driven healthcare solutions and her ability to translate complex concepts into practical applications underscore her innovative mindset. Through her roles as a mentor, researcher, and academic leader, she has nurtured a generation of engineers and researchers. Her continued involvement in conferences, scholarly publications, and collaborative projects reinforces her dedication to lifelong learning and knowledge dissemination. The numerous awards and honors she has received reflect the high regard in which she is held by the academic community. Dr. Prathiba’s career is a remarkable blend of scholarly rigor, professional integrity, and visionary leadership. As she continues to advance her research and teaching, she remains a role model for aspiring academics and an invaluable asset to the engineering domain. Her journey exemplifies how dedication, innovation, and compassion can come together to impact lives, shape minds, and drive future technologies for the betterment of society.

Publications Top Notes

  1. Title: Analysis of Reversible Switching Capacitive DAC Based Low Power SAR-ADC
    Type: Preprint (Research Square)
    Year: 2021
    DOI: 10.21203/rs.3.rs-164633/v1
    EID: 2-s2.0-85166695178
    Authors: Prathiba, G.; Santhi, M.

  1. Title: A 2.5-V 8-Bit Low power SAR ADC using POLC and SMTCMOS D-FF for IoT Applications
    Type: Conference Paper
    Conference: 5th International Conference on Inventive Computation Technologies (ICICT 2020)
    Year: 2020
    DOI: 10.1109/ICICT48043.2020.9112548
    EID: 2-s2.0-85086993340
    Authors: Prathiba, G.; Santhi, D.M.

  1. Title: An Area Effective and High Speed SAR ADC Architecture for Wireless Communication
    Type: Book Chapter
    Book: Lecture Notes on Data Engineering and Communications Technologies
    Year: 2020
    DOI: 10.1007/978-3-030-37051-0_67
    EID: 2-s2.0-85083453429
    ISSN: 2367-4520 / 2367-4512
    Authors: Prathiba, G.; Santhi, M.

  1. Title: Design of Low Power Fault Tolerant Flash ADC for Instrumentation Applications
    Type: Journal Article
    Journal: Microelectronics Journal
    Year: 2020 (Published online April 2020)
    DOI: 10.1016/j.mejo.2020.104739
    EID: Not provided, but appears in Scopus
    Authors: G. Prathiba; M. Santhi

 

 

Leila Omidi | Engineering | Best Researcher Award

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Dr. Leila Omidi | Engineering | Best Researcher Award

Assistant Professor from Tehran University of Medical Sciences, Iran

Leila Omidi is an accomplished academic and researcher specializing in Occupational Health and Safety Engineering. She currently serves as an Assistant Professor in the Department of Occupational Health Engineering at Tehran University of Medical Sciences. With a focus on process safety, risk analysis, resilience engineering, and human factors affecting safety, Omidi has significantly contributed to research in high-risk industries, particularly in fire safety systems, human error management, and safety performance metrics. Her work addresses both theoretical and practical aspects of safety engineering, offering solutions to enhance safety standards in industries such as oil refining and healthcare. She has authored multiple research papers, secured numerous research grants, and held various academic leadership roles. Omidi’s expertise and influence in her field extend through her editorial work with several prominent safety journals, showcasing her leadership in advancing research and knowledge in her discipline.

Professional Profile

Education

Leila Omidi earned her Ph.D. in Occupational Health and Safety Engineering from Tehran University of Medical Sciences, where her research focused on process safety and resilience engineering. She completed her MSc in Occupational Health and Safety Engineering at Shahid Beheshti University of Medical Sciences. Throughout her academic journey, Omidi has honed her expertise in risk analysis, safety culture, and human reliability. Her educational background forms a solid foundation for her ongoing research and academic contributions. Omidi’s doctoral and master’s thesis work provided innovative insights into optimizing safety systems in high-risk sectors, further enhancing her credentials as a leading scholar in her field.

Professional Experience

Leila Omidi has gained extensive professional experience through both academic and industry roles. She is currently an Assistant Professor at Tehran University of Medical Sciences, where she teaches graduate-level courses in Crisis and Emergency Management, Accident Analysis, Fire Risk Assessment, and Occupational Health. In addition to her academic roles, Omidi has served as a Health Expert at the Iran Ministry of Health and as a Safety Advisor at various industrial companies, including Mizan Binazir Industrial Company and Gam Metal Casting Company. Her experience in industry and academia has allowed her to bridge the gap between research and real-world application, making her research highly relevant and impactful for safety engineering practices.

Research Interests

Leila Omidi’s research interests are centered on process safety, risk analysis, safety culture, and human factors in high-risk industries. She is particularly interested in resilience engineering and safety performance indicators, with a focus on improving safety outcomes through leading and lagging metrics. Omidi’s work also explores human reliability analysis (HRA) and safety performance in industrial settings, as well as human error management. Her research contributes to both theoretical understanding and practical applications, addressing challenges such as fire risk assessment, safety climate factors, and risk-based resilience in industries like oil refining and healthcare. Through her studies, Omidi aims to enhance safety systems and reduce accidents, ultimately improving worker health and safety.

Research Skills

Leila Omidi possesses advanced research skills in risk analysis, resilience engineering, and human reliability analysis. Her expertise includes using simulation-based methods to assess and optimize safety systems, as demonstrated by her work on the risk-based resilience of fire extinguishing systems in the oil refining industry. Omidi is skilled in applying a range of quantitative and qualitative research methods to evaluate safety performance and risk factors. Her proficiency in process safety performance indicators, safety culture assessments, and fire risk analysis showcases her diverse research capabilities. Furthermore, her involvement in human error identification and system safety analysis highlights her ability to address complex challenges in industrial safety.

Awards and Honors

Leila Omidi has received numerous awards and honors for her academic and research achievements. She has been awarded several research grants, including funding for her Ph.D. thesis on risk-based resilience in the fire extinguishing system of the oil refining industry. Additionally, she has received multiple MSc thesis grants for her work on reliability-centered maintenance strategies and human error analysis. Omidi’s accomplishments also include being named a top student in her department at Shahid Beheshti University and recognition as a member of Iran’s National Elites Foundation. Her contributions to safety engineering and occupational health have earned her various distinctions, cementing her reputation as a leading scholar in her field.

Conclusion

Leila Omidi is a highly accomplished researcher and academic in the field of Occupational Health and Safety Engineering. With a strong educational foundation and extensive professional experience, she has contributed significantly to the advancement of process safety, risk analysis, and human reliability. Omidi’s research has practical implications for improving safety systems in industries such as oil refining and healthcare, and her teaching has shaped the next generation of safety engineers. Her numerous research grants and awards, combined with her leadership in academic publishing and her editorial work, demonstrate her impact on the field. While her international collaborations and interdisciplinary research could be expanded, Omidi’s work continues to have a significant influence on improving safety and resilience in high-risk industries.

Publications Top Notes

  1. Title: Resilience assessment in process industries: A review of literature

    • Authors: Ghaljahi Maryam, Omidi Leila, Karimi Ali

    • Year: 2025

  2. Title: Safety leadership and safety citizenship behavior: the mediating roles of safety knowledge, safety motivation, and psychological contract of safety

    • Authors: Omidi Leila, Karimi Hossein, Pilbeam Colin J., Mousavi Saeid, Moradi Gholamreza R.

    • Year: 2025

    • Citations: 3

  3. Title: Evaluation of Domino Effects and Vulnerability Analysis of Oil Product Storage Tanks Using Graph Theory and Bayesian Networks in a Process Industry

    • Authors: Ghaljahi Maryam, Omidi Leila, Karimi Ali

    • Year: 2024

    • Citations: 1

Baoqiang Du | Engineering | Best Researcher Award

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Prof. Baoqiang Du | Engineering | Best Researcher Award

Director from Hunan Normal University, China

Dr. Du Baoqiang is a highly respected academician and researcher specializing in information and communication engineering, satellite navigation, and high-precision measurement technologies. Born in November 1973, he currently serves as a second-level professor and doctoral supervisor at Hunan Normal University. His educational background includes studies at the PLA Information Engineering University, Zhengzhou University, and Xidian University, followed by postdoctoral research in related fields. As a “Furong Scholar” specially appointed professor, he has demonstrated leadership in various major educational and research programs. Dr. Du is known for his pioneering contributions to Beidou satellite signal processing, where he introduced new theories and technical innovations that have had significant industrial and academic impact. His research work has led to the development of instruments reaching international advanced standards, particularly enhancing satellite positioning precision from the centimeter to the millimeter level. In addition to publishing over a hundred academic papers and holding numerous patents, he has actively contributed to national-level projects, academic evaluations, and technical developments. His outstanding achievements and leadership make him a leading figure in his field and a strong candidate for top-tier research awards.

Professional Profile

Education

Dr. Du Baoqiang’s academic journey reflects a solid and progressive formation in engineering and technology. He pursued his undergraduate and graduate studies successively at the PLA Information Engineering University, Zhengzhou University, and Xidian University. Throughout these institutions, he specialized in areas deeply connected to communication engineering, information processing, and computer science. Following the completion of his Doctor of Engineering degree, Dr. Du engaged in postdoctoral research in Information and Communication Engineering and Computer Science and Technology. His academic development not only provided him with a robust technical foundation but also exposed him to interdisciplinary research fields, crucial for his later innovations in satellite navigation and signal processing. The combination of military-grade information systems education and civilian academic excellence equipped him with unique insights that have greatly benefited his professional career. His education path shows a consistent focus on high-tech fields, indicating early strategic planning and dedication to advancing in cutting-edge technological domains. These experiences laid the groundwork for his contributions to the Beidou navigation system and high-precision positioning technologies.

Professional Experience

Dr. Du Baoqiang’s professional career is marked by substantial academic leadership and technological innovation. As a second-level professor at Hunan Normal University, he supervises doctoral candidates and leads multiple strategic programs. He serves as the head of the Department of Communication Engineering and directs several critical programs, including the provincial first-class major in Communication Engineering and the master’s degree programs in Electronic Science and Technology. He is also the director of significant research facilities, such as the Hunan Province Beidou High-Performance Cooperative Positioning Engineering Technology Research Center and the Key Laboratory of Beidou Intelligent Navigation Information Processing. Beyond his academic roles, Dr. Du actively contributes to industry and policy development as the vice president of the Hunan Satellite Application Association and an expert advisor for the China Beidou Tianheng Think Tank. His service as a reviewer for the National Natural Science Foundation of China and national undergraduate and doctoral evaluations underlines his status as a trusted figure in academic quality assurance. Throughout his career, he has successfully led numerous national and provincial research projects, making significant strides in both theoretical research and practical technological applications.

Research Interest

Dr. Du Baoqiang’s primary research interests center around satellite navigation signal processing, high-precision time-frequency information measurement, and cooperative positioning system development. His work particularly focuses on advancing the Beidou navigation system, one of China’s major satellite positioning initiatives. He has delved into the theory and practical applications of ultra-high-resolution heterogeneous frequency group quantization phase processing and adaptive frequency tracking technologies. Additionally, Dr. Du is keenly interested in solving complex challenges in weak signal detection, phase synchronization, and error elimination in circuit systems. His research addresses both theoretical advancements and industrial applications, aiming to bridge the gap between scientific research and technological commercialization. He strives to enhance the precision and reliability of satellite-based positioning services, pushing capabilities from the centimeter level to the millimeter level. Furthermore, his contributions support the national strategic goals in satellite navigation and communication engineering, solidifying China’s competitiveness in this critical high-tech domain. Dr. Du’s research philosophy integrates scientific discovery, engineering innovation, and application-driven development, ensuring that his work remains relevant to academic progress and national technological needs.

Research Skills

Dr. Du Baoqiang demonstrates an exceptional range of research skills, blending theoretical analysis with practical system development. His expertise covers advanced signal processing algorithms, high-precision time-frequency measurement systems, and the technological integration necessary for industrial-scale applications. He has a deep understanding of Beidou satellite systems and has innovated unique methods like ultra-high-resolution group quantization and adaptive differential phase synchronization. His skills include the design and development of high-precision instruments, project leadership in large-scale scientific and technological endeavors, and academic writing, with a record of over 100 peer-reviewed publications. As a project manager, he exhibits strategic planning abilities, team leadership, and cross-disciplinary collaboration. Dr. Du also possesses strong skills in patent development, having successfully registered 28 invention patents. Moreover, his capabilities as a scientific reviewer and advisor for national foundations and educational ministries demonstrate his critical evaluation and research assessment skills. These diverse abilities enable him to contribute comprehensively to his field, from pioneering theoretical insights to delivering real-world technological breakthroughs.

Awards and Honors

Throughout his career, Dr. Du Baoqiang has earned numerous awards and honors that reflect his contributions to science, education, and technology. He holds the prestigious title of “Furong Scholar,” a designation for distinguished professors in Hunan Province. He has been recognized as an outstanding party affairs worker by the Comprehensive Committee of Social Organizations of Hunan Province, illustrating his leadership not only in academics but also in organizational development. His technological achievements have been validated through eight provincial-level scientific and technological appraisals, all reaching the international advanced level. Under his leadership, instruments like the DF427 high-precision Doppler frequency shift measuring system have achieved world-leading performance. Dr. Du has also been appointed as an expert with the China Beidou Tianheng Think Tank and serves as a reviewer for critical national funding programs, confirming his high standing in China’s scientific community. His prolific output of high-impact publications and patents further cements his reputation as an innovator and thought leader in communication engineering and satellite navigation technologies.

Conclusion

Dr. Du Baoqiang represents a model of excellence in engineering research and academic leadership. His combination of deep theoretical knowledge, innovative technical development, and influential leadership roles positions him as a top figure in the fields of satellite navigation and high-precision measurement technologies. His scientific contributions have practical significance, enhancing China’s technological capabilities and supporting national strategic interests in the Beidou navigation system. While his national recognition is substantial, further expanding his international collaborations would elevate his influence to a truly global scale. Nevertheless, the depth, breadth, and impact of Dr. Du’s work make him exceptionally deserving of prestigious honors such as the Best Researcher Award. His career is a testament to sustained dedication, scientific creativity, and the practical application of advanced research to solve critical technological challenges.

Publication Top Notes

  1. Title: High-Stability Adaptive Frequency Comparison Method Based on Fuzzy Area Characteristics

    • Authors: Du Baoqiang, Yang Zerui, Su Yangfan

    • Year: 2025

  2. Title: High-Accuracy Frequency Standard Comparison Technology Combining Adaptive Frequency and Lissajous Figure

    • Authors: Du Baoqiang, Su Yangfan, Yang Zerui

    • Year: 2025

  3. Title: High-Accuracy Phase Frequency Detection Technology Based on BDS Time and Frequency Signals

    • Authors: Du Baoqiang, Tan Lanqin

    • Year: 2024

  4. Title: A High-Precision Frequency Measurement Method Combining π-Type Delay Chain and Different Frequency Phase Coincidence Detection

    • Authors: Du Baoqiang, Li Wenming

    • Year: 2024

    • Citations: 2