Weiyang Chen | image processing | Best Researcher Award

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Dr. Weiyang Chen | image processing | Best Researcher Award

Qufu Normal University | China

Publication Profile

Scopus

🎓 EARLY ACADEMIC PURSUITS

Dr. Weiyang Chen began his academic journey with a strong foundation in science and technology, culminating in a Ph.D. from the Chinese Academy of Sciences in 2015. His early academic work laid the groundwork for his future focus on image processing, data analysis, and bioinformatics.

đź’Ľ PROFESSIONAL ENDEAVORS

Currently an Associate Professor at the School of Cyber Science and Engineering, Qufu Normal University, Dr. Chen has significantly contributed to both teaching and research. He has participated in 5 consultancy or industry-sponsored projects and holds key roles, such as Deputy Secretary General of the Cloud Computing and Big Data Committee and Bentham Ambassador.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Chen’s research spans bioinformatics, video and image processing, and algorithm development. He has authored over 50 publications, holds 12 patents, and developed several software applications. He has completed or is currently conducting 8 research projects, reflecting his leadership and innovation.

🌍 IMPACT AND INFLUENCE

His research has been featured in international media including TIME, The Guardian, NewScientist, Science News, and Daily Mail. With an h-index of 16 on ResearchGate, his work has a strong academic footprint and public engagement.

đź“š ACADEMIC CITES AND RECOGNITION

Dr. Chen has published 38 articles in SCI and Scopus-indexed journals. He has served on 6 academic conference committees and contributes to scientific discourse through his profiles at ResearchGate and his university homepage.

🤝 COLLABORATIONS AND NETWORKS

He collaborates with distinguished scholars like Professor Jingdong Han (Peking University) and Dr. Yi Pan, a Fellow of numerous international academies and engineering institutes. These partnerships enhance the quality and visibility of his research.

🏆 LEGACY AND FUTURE CONTRIBUTIONS

Dr. Chen aims to further explore bioinformatics and artificial intelligence, with a focus on real-world applications. His work in software development, interdisciplinary research, and professional service ensures his lasting academic legacy and continuing innovation.

🥇 AWARD PREFERENCE

For his outstanding achievements and global impact, Dr. Weiyang Chen is a strong nominee for the Best Researcher Award.

đź“š TOP NOTES PUBLICATIONS

đź“„ 1. A high precision method of segmenting complex postures in Caenorhabditis elegans and deep phenotyping to analyze lifespan

  • Authors: Bingyue Dong, Weiyang Chen

  • Journal: Scientific Reports

  • Year: 2025

📄 2. Exploring the relationship among Alzheimer’s disease, aging and cognitive scores through neuroimaging-based approach

  • Authors: Jinhui Sun, Jingdong Jackie Han, Weiyang Chen

  • Journal: Scientific Reports

  • Year: 2024

đź“„ 3. An automatic measurement method for the response of Caenorhabditis elegans to chemicals

  • Authors: Nan Zhang, Yanmin Nie, Bingyue Dong, Weiyang Chen, Shan Gao

  • Journal: Technology and Health Care
    (Official Journal of the European Society for Engineering and Medicine)

  • Year: 2024

đź“„ 4. Automated recognition and analysis of body bending behavior in C. elegans

  • Authors: Hui Zhang, Weiyang Chen

  • Journal: BMC Bioinformatics

  • Year: 2023

Mays S. Tareq | Laser-Tissue interaction | Best Researcher Award

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Dr. Mays S. Tareq | Laser-Tissue interaction | Best Researcher Award

University of Technology | Iraq

PUBLICATION PROFILE

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👨‍🎓 INTRODUCTION

Dr. Mays Sameer Tareq is an accomplished academic and researcher in the field of Laser and Optoelectronics Engineering. Born on October 18, 1987, in Baghdad, Iraq, Dr. Tareq has dedicated his career to advancing laser technologies and their applications in biomedical engineering. With a strong academic foundation and a focus on cutting-edge research, his contributions have greatly influenced his field, particularly in laser-induced breakdown spectroscopy (LIBS) and its applications in dental science.

🎓 EARLY ACADEMIC PURSUITS

Dr. Tareq’s academic journey began with a Bachelor’s degree in Laser and Optoelectronics Engineering from the University of Technology in 2009. His thirst for knowledge led him to pursue a Master’s degree in the same field, completed in 2015, where he explored the fabrication of photodetectors using pulsed laser deposition. He continued his academic excellence with a PhD from Al-Nahrain University in 2025, where his dissertation focused on a novel approach for analyzing nanomaterials in human teeth using LIBS technology.

đź’Ľ PROFESSIONAL ENDEAVORS

Since 2016, Dr. Tareq has been teaching in the Department of Biomedical Engineering, where he imparts knowledge on laser technology, biomaterials, and bioacoustics. His role as an educator has included developing specialized lectures, practical experiments, and supervising student projects. Dr. Tareq has also participated in numerous conferences, showcasing his expertise in laser applications and advancing educational methodologies within his field.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS


Dr. Tareq’s research is primarily focused on laser technologies and their biomedical applications. His work has significantly contributed to the development of photodetectors and the analysis of dental materials using LIBS. Through innovative studies, he has explored the influence of lasers on dental enamel, the migration of heavy metals from dental fillings, and the use of nanoparticles in enhancing laser-induced breakdown spectroscopy for more accurate material analysis.

🌍 IMPACT AND INFLUENCE

Dr. Tareq’s research has had a profound impact on dental science and materials engineering. His work on laser interactions with dental materials has led to advancements in both laser technology and biomedical diagnostics. By developing novel techniques to analyze the properties of dental samples, Dr. Tareq’s research is helping to improve the safety and effectiveness of dental treatments. His work has also influenced other industries, contributing to the broader scientific community.

đź“š ACADEMIC CITATIONS AND PUBLICATIONS

Dr. Tareq’s research has been widely recognized and published in renowned journals, including Journal of Optics, Lasers in Medical Science, and Journal of Materials Science: Materials in Electronics. Some of his key publications include:

  • “Preparation and characteristics study of CuAlO2/Si heterojunction photodetector by pulsed laser deposition” (2017).

  • “In vitro studies the influence of Nd:YAG laser on dental enamels” (2024).

  • “Nanoparticle Enhanced Laser Induced Breakdown Spectroscopy (NELIBS) Analysis of Human Teeth” (2024).

He has also filed patents for his innovative work on photodetectors and laser treatments in dentistry.

🏅 HONORS & AWARDS

Dr. Tareq’s work has garnered numerous accolades over the years, recognizing his groundbreaking contributions to both academia and practical applications in the fields of laser technology and biomedical engineering. His innovative studies have been celebrated in academic and industry circles, earning him a respected place among experts in his field.

🌱 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Dr. Tareq’s research will continue to shape the landscape of laser science and biomedical engineering. His commitment to advancing laser applications in healthcare ensures his ongoing influence in the academic and medical communities. As his work progresses, Dr. Tareq will undoubtedly leave a lasting legacy in the fields of biomedical optics, materials science, and nanotechnology.

🔚 FINAL NOTE

Dr. Mays Sameer Tareq’s career exemplifies a deep commitment to advancing science and technology. His research, teaching, and innovative contributions to laser applications in healthcare have had a significant impact on both the scientific community and society. His future endeavors promise to continue driving advancements in laser science and medical engineering, solidifying his place as a leader in his field.

 TOP NOTES PUBLICATIONS 📚

  • Heavy metal migration from dental filling materials to calcified oral tissues: an in vitro analysis using LIBS and ICP-MS techniques

    • Authors: Mays S. Tareq; Tagreed K. Hamad

    • Journal: Odontology

    • Year: 2025

  • Quantitative Analysis Of Gallstones By Utilize LIBS Technique With ICP-MS And Standard Methods: An In Vitro Study

    • Authors: Lara A. Kadhim; Mays S. Tareq

    • Journal: Journal of Optics

    • Year: 2025

  • Nanoparticle Enhanced Laser Induced Breakdown Spectroscopy (NELIBS) Analysis Of Human Teeth By Using ZnO And Al2O3 Nanoparticles

    • Authors: Mays S. Tareq; Tagreed K. Hamad

    • Journal: Journal of Optics

    • Year: 2024

  • Quantitative analysis of human teeth by using LIBS technology with different calibration methods: in vitro study

    • Authors: Mays S. Tareq; Tagreed K. Hamad

    • Journal: Journal of Optics

    • Year: 2024

Radwa Rady | Biomedical Engineering | Best Researcher Award

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Dr. Radwa Rady | Biomedical Engineering | Best Researcher Award

Alexandria University | Egypt

PUBLICATION PROFILE

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🌟 INTRODUCTION

Dr. Radwa Rady is a meticulous, bilingual professional with a broad range of skills in IT applications, biomedical engineering, and communication technologies. With her extensive expertise in both theoretical and practical aspects of biomedical technology, Dr. Rady has made significant contributions to academia, research, and industry. Fluent in Arabic and English, she is well-versed in effectively communicating complex technical concepts while also excelling at multitasking and problem-solving. Dr. Rady’s work is characterized by her dedication to innovation and academic excellence, seeking to create lasting contributions in the field of Biomedical Engineering, IT, and Electrical Communication.

🎓 EARLY ACADEMIC PURSUITS

Dr. Radwa’s journey into the world of academia and technology began at Alexandria University, where she earned her Bachelor of Engineering in Communication. This foundational education allowed her to delve deeper into subjects such as digital signal processing and biomedical devices. She continued to build on this knowledge with her Master’s degree in Biomedical Devices, focusing on digital signal processing techniques to analyze respiratory wheeze sounds in children. Her early education laid the groundwork for her extensive research and innovations in biomedical engineering, solidifying her as a dedicated scholar and researcher in the field.

đź’Ľ PROFESSIONAL ENDEAVORS

Dr. Radwa Rady’s professional career is marked by diverse roles across academia, research, and software development. From her tenure as a Software Developer at VP .Net, where she contributed to significant projects for the Water and Wastewater Authority and Cataract Hospital, to her current role as Assistant Professor at Inaya Medical Colleges in Riyadh, she has continually sought to bridge the gap between theoretical knowledge and real-world applications. As an instructor, Dr. Rady has taught a wide range of subjects, including digital signal processing, biomedical engineering, and programming. Her leadership skills extend beyond the classroom as she serves on several faculty committees and supervises graduate students’ final projects.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Rady’s research focuses on the intersection of biomedical engineering, digital signal processing, and neurofeedback treatments. One of her primary research endeavors is her thesis on “Quantitative EEG and Neurofeedback Treatment,” which aims to improve attention skills in children with ADHD through real-time EEG analysis and neurofeedback. Her work also extends to the field of respiratory wheeze sound analysis, where she developed a system to assist physicians in diagnosing respiratory conditions in children using digital signal processing. These innovative projects demonstrate Dr. Rady’s commitment to advancing medical technology and improving patient outcomes.

🌍 IMPACT AND INFLUENCE

Dr. Rady has made a significant impact through her involvement in both teaching and research. As an academic, she not only imparts knowledge to her students but also actively contributes to the academic community through workshops and lectures on emotional intelligence and ethical considerations in AI research. Her research, including the published papers and patent application related to EEG analysis for ADHD treatment, demonstrates her ability to influence both academic discourse and practical applications in healthcare technology. Dr. Rady’s work is pushing the boundaries of medical engineering and continues to inspire new generations of researchers and students.

đź“š ACADEMIC CITATIONS AND PUBLICATIONS

Dr. Radwa Rady’s contributions to academic research have been widely recognized in peer-reviewed journals. She has authored and co-authored several papers, including one published in the Alexandria Engineering Journal and another in Neural Computing and Applications. She also holds a patent for her work on real-time EEG signal analysis for ADHD treatment. Dr. Rady’s publications, which are accessible through DOI references, have garnered attention within both the biomedical engineering and computer science fields, reflecting the significance of her research contributions.

🏅 HONORS & AWARDS

Dr. Rady’s exceptional academic performance has been consistently recognized. She achieved a GPA of 3.888 in her Doctorate of Science in Engineering at Alexandria University and a GPA of 3.788 in her Master’s degree. Additionally, her research papers have been published in prestigious journals such as Elsevier and Springer. Her work has also led to the submission of a patent for her innovative EEG analysis application, further cementing her status as a leading researcher in biomedical engineering.

đź”® LEGACY AND FUTURE CONTRIBUTIONS

Dr. Rady’s work holds the potential for long-term impact, particularly in the field of healthcare technology. Through her development of neurofeedback applications and digital signal processing systems, she is helping to shape the future of treatment for neurological conditions like ADHD. As a leader in both academia and research, Dr. Rady aims to continue advancing these fields by fostering collaborations and encouraging innovation among her students and colleagues. Her continued research promises to bring about transformative changes in the integration of biomedical engineering and artificial intelligence in medical practices.

đź“ť FINAL NOTE

Dr. Radwa Rady’s journey in academia, research, and professional development stands as a testament to her dedication to improving the lives of others through technology and education. From her work on respiratory wheeze sound analysis to her groundbreaking EEG research for ADHD, Dr. Rady is committed to making a meaningful difference in the world of biomedical engineering. Her future endeavors promise to build on her solid foundation, leaving a lasting legacy for generations to come.

đź“š TOP NOTES PUBLICATIONS

Enhancing affordable EEG to act as a quantitative EEG for inattention treatment using MATLAB

    • Authors: Radwa Magdy Rady, Doaa Elsalamawy, M. R. M. Rizk, Onsy Abdel Alim, Nancy Diaa Moussa

    • Journal: Neural Computing and Applications

    • Year: 2025

A comparison between classical and new proposed feature selection methods for attention level recognition in disordered children

    • Authors: Rady, R.M.; Moussa, N.D.; El Salmawy, D.H.; M Rizk, M.R.; Alim, O.A.

    • Journal: Alexandria Engineering Journal

    • Year: 2022

Respiratory Wheeze Sound Analysis Using Digital Signal Processing Techniques

    • Authors: Rady, R.M.; Akkary, I.M.E.; Haroun, A.N.; Fasseh, N.A.E.; Azmy, M.M.

    • Journal: Proceedings – 7th International Conference on Computational Intelligence, Communication Systems and Networks, CICSyN 2015

    • Year: 2015

Susanne Staehlke | Cell-Biomaterial-Interaction | Best Researcher Award

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Dr. Susanne Staehlke | Cell-Biomaterial-Interaction | Best Researcher Award

Rostock University Medical Center | Germany

Author Profile

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đź“š EARLY ACADEMIC PURSUITS

Dr. Susanne Staehlke began her academic journey with a focus on Genetic and Microbiology at the University of Rostock, Germany, from 2000 to 2006. During this time, she specialized in signal transduction in Oncorhynchus mykiss (rainbow trout), which laid the foundation for her interest in molecular biology and cell signaling. She continued her studies at Rostock University Medical Center, where she earned her PhD in Cell Biology in 2014. Her doctoral research focused on the interaction between human osteoblasts and geometrically structured implant surfaces, specifically investigating cell architecture and signal transduction.

đź’Ľ PROFESSIONAL ENDEAVORS

Dr. Staehlke’s career as a scientist includes an extensive background in cell biology, biomaterials, and tissue engineering. After earning her PhD, she embarked on post-doctoral research that expanded her expertise into ophthalmology, where she focused on understanding cell responses to surface modifications for ocular applications. Her work in this area also involved collaborations with experts in various fields, including engineering, physics, chemistry, and medicine, to enhance biomaterial designs for clinical applications. Throughout her career, Dr. Staehlke has contributed to over 40 publications, and her work has made significant strides in the fields of biomaterials and regenerative medicine.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS ON Cell-Biomaterial-Interaction

Dr. Staehlke has made a profound impact in the fields of biomaterials, cell biology, and tissue engineering. Her primary research focus has been on optimizing cell-biomaterial interactions, particularly improving osteoblast responses to implant surfaces. By investigating physico-chemical surface modifications, such as plasma polymer coatings and topographical features, Dr. Staehlke’s work has advanced biomaterial design, enhancing cell behavior and implant integration. Additionally, her research in the integration of artificial intelligence (AI), machine learning, and big data analytics has enabled better prediction of cellular responses to various biomaterials. Her interdisciplinary approach has driven significant advancements in regenerative medicine, stem cell characterization, and biomedicines.

🌍 IMPACT AND INFLUENCE

Dr. Staehlke’s contributions to science have had a lasting influence on biomaterial innovation, tissue engineering, and regenerative medicine. Her work has led to groundbreaking advances in surface modifications for implants, improving both the functional and biological success of biomaterials. Dr. Staehlke has also been instrumental in enhancing the reproducibility of scientific research by advocating for rigorous data analysis methods and the development of open-source platforms for data management. Her interdisciplinary approach, which bridges cell biology with computational tools and engineering, has strengthened scientific rigor and fostered collaborations across diverse fields.

đź“‘ ACADEMIC CITES

Dr. Staehlke’s work has garnered significant academic recognition, with over 40 publications in leading journals within the fields of biomaterials, cell biology, and tissue engineering. Her research is widely cited, contributing to the advancement of knowledge in cell-biomaterial interactions. She has a citation index of 506 and an h-index of 12, demonstrating the profound impact and influence of her scholarly contributions.

🏛️ LEGACY AND FUTURE CONTRIBUTIONS

Dr. Staehlke’s legacy in the scientific community will likely continue to grow as her research paves the way for new biomaterial technologies and therapeutic applications in regenerative medicine. Her integration of AI and big data into cell biology and biomaterials research ensures that her future contributions will further refine predictive models for cellular behavior, ultimately improving patient outcomes in tissue engineering and implantology. As she continues to collaborate with experts from various disciplines, Dr. Staehlke’s work promises to influence both academic research and clinical practice for years to come.

🤝 KEY COLLABORATIONS

Throughout her career, Dr. Staehlke has worked closely with interdisciplinary teams, including engineers, clinicians, data scientists, and materials scientists. Her research has benefited from collaborations in the fields of ophthalmology, biomaterials, and systems biology. These partnerships have led to innovative approaches for improving cell-biomaterial interactions and advancing technologies in regenerative medicine. Additionally, her work with AI and machine learning specialists has allowed her to optimize experimental data analysis, which has been essential for ensuring reproducibility and improving the predictive accuracy of her research findings.

🧑‍🔬 PROFESSIONAL MEMBERSHIPS

Dr. Staehlke holds memberships in several professional organizations, including the German Society for Biomaterials (DGBM), TERMIS (Tissue Engineering and Regenerative Medicine International Society), and the German Ophthalmology Society (DOG). These memberships reflect her commitment to staying at the forefront of developments in her field and engaging with a global network of researchers and professionals.

đź“Š RESEARCH DATA ANALYSIS AWARDS

Dr. Staehlke’s research has also been recognized in the field of data analysis, particularly for her innovative approaches in handling complex datasets related to cell-biomaterial interactions. This dedication to data integrity and reproducibility has earned her numerous accolades and collaborations with experts in scientific workflows and AI-powered data analysis tools.

📑 NOTABLE PUBLICATIONS 

Impact of Metal Ions on Cellular Functions: A Focus on Mesenchymal Stem/Stromal Cell Differentiation
    • Authors: Kirsten Peters, Susanne Staehlke, Henrike Rebl, Anika Jonitz-Heincke, Olga Hahn
    • Journal: International Journal of Molecular Sciences
    • Year: 2024
Suppressing Pro-Apoptotic Proteins by siRNA in Corneal Endothelial Cells Protects against Cell Death
    • Authors: Susanne Staehlke, Siddharth Mahajan, Daniel Thieme, Peter Trosan, Thomas A. Fuchsluger
    • Journal: Biomedicines
    • Year: 2024
Cold Atmospheric Pressure Plasma-Activated Medium Modulates Cellular Functions of Human Mesenchymal Stem/Stromal Cells In Vitro
    • Authors: Olga Hahn, Tawakalitu Okikiola Waheed, Kaarthik Sridharan, Thomas Huemerlehner, Susanne Staehlke, Mario ThĂĽrling, Lars Boeckmann, Mareike Meister, Kai Masur, Kirsten Peters
    • Journal: International Journal of Molecular Sciences
    • Year: 2024
The Impact of Ultrashort Pulse Laser Structuring of Metals on In-Vitro Cell Adhesion of Keratinocytes
    • Authors: Susanne Staehlke, Tobias Barth, Matthias Muench, Joerg Schroeter, Robert Wendlandt, Paul Oldorf, Rigo Peters, Barbara Nebe, Arndt-Peter Schulz
    • Journal: Journal of Functional Biomaterials
    • Year: 2024
Short-Time Alternating Current Electrical Stimulation and Cell Membrane-Related Components
    • Authors: Maren E. Buenning, Meike Bielfeldt, Barbara Nebe, Susanne Staehlke
    • Journal: Applied Sciences
    • Year: 2024

Redwanul Islam | Biomedical Engineering | Best Researcher Award

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Mr. Redwanul Islam, Biomedical Engineering, Best Researcher Award

Doctorate at Khulna University of Engineering & Technology, Bangladesh

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Summary:

Redwanul Islam is a dedicated Biomedical Engineer with a strong focus on research in neuro-engineering, biomaterials, nanotechnology, and tissue engineering. He has a passion for developing innovative solutions in biomedical image and signal processing, drug delivery, bio-optics, and biosensors.

👩‍🎓Education:

Redwanul Islam is currently pursuing a Master of Science in Biomedical Engineering at Khulna University of Engineering & Technology (KUET), building upon his Bachelor of Science in Biomedical Engineering, which he completed from the same institution. His academic journey has provided him with a solid foundation in biomedical engineering principles, preparing him to explore advanced research topics and contribute meaningfully to the field.

Professional Experience:

Redwanul Islam has gained valuable experience as a Graduate Research Assistant in the Department of Biomedical Engineering at Khulna University of Engineering & Technology (KUET). His role involves contributing to cutting-edge research projects aimed at advancing various areas of biomedical engineering. Prior to this, he served as an Undergraduate Research Assistant, where he honed his research skills and made significant contributions to projects within the department. These experiences have provided him with practical knowledge and expertise in conducting research, analyzing data, and collaborating with fellow researchers, positioning him as a promising professional in the field.

Research Interest :

Redwanul Islam’s research interests span a diverse range of fields within biomedical engineering, reflecting his passion for innovation and problem-solving. He is particularly interested in neuro-engineering, biomaterials, and nanotechnology, where he explores novel approaches to address complex biomedical challenges. Additionally, his expertise extends to tissue engineering, biomedical image and signal processing, drug delivery, bio-optics, and biosensors & bio-chips. His multidisciplinary approach to research allows him to tackle pressing issues in healthcare and contribute to the development of advanced medical technologies with the potential to improve patient outcomes and enhance quality of life.

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