Prof. Dr. YiSheng Huang | Computer Science | Best Researcher Award

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Prof. Dr. YiSheng Huang | Computer Science | Best Researcher Award

Professor, National Ilan University/EE, Taiwan

Dr. Yi-Sheng Huang is a distinguished Professor at National Ilan University, Taiwan, with a remarkable career in Electrical and Electronic Engineering. Holding a Ph.D. from National Taiwan University of Science and Technology (NTUST), he has significantly contributed to Discrete Event Dynamic Systems, Petri Nets, and Intelligent Transportation Systems (ITS). Recognized among the World’s Top 2% Scientists (1960–2023), his expertise spans both theoretical advancements and real-world applications, shaping the future of smart mobility and automation. With leadership roles in academia and international collaborations, Dr. Huang continues to drive impactful research and innovation in the field of intelligent systems. 🚀

Publication Profile

📚 Academic Background

Dr. Yi-Sheng Huang earned his Ph.D. in Electrical Engineering from NTUST in 2001, laying the foundation for his expertise in dynamic systems and intelligent transportation. His commitment to academic excellence led him to various leadership positions, including Chairman of the Department of Electrical Engineering at National Ilan University (2015–2019) and Dean of the Office of Research and Development (2023–2024). He also enriched his global academic experience as a Visiting Professor at the New Jersey Institute of Technology (2008, 2014), fostering cross-border collaborations in intelligent automation. 🎓

🏢 Professional Experience

With over two decades of academic and research contributions, Dr. Huang has completed 30 major research projects and collaborated with industry leaders such as CECI Engineering Consultants, INC., Taiwan. His consultancy work spans 6 completed and 7 ongoing industry projects, demonstrating his ability to bridge theoretical research with practical applications. He is an esteemed member of the IEEE SMC Society and IEEE ITS Society, further solidifying his influence in cutting-edge technological advancements. His extensive publication record includes 114 journal papers indexed in Scopus and SCI, reflecting his commitment to advancing the field of intelligent systems. ⚡

🏆 Awards and Honors

Dr. Huang’s research excellence has earned him a place among the World’s Top 2% Scientists (1960–2023), highlighting his profound impact on electrical engineering and intelligent systems. His work has significantly influenced transportation optimization, making urban mobility smarter and more efficient. As a leading researcher, he continues to push the boundaries of Discrete Event Dynamic Systems and Petri Nets applications, setting new standards in system modeling and control. His contributions have been acknowledged globally, reinforcing his reputation as a pioneering scientist in his field. 🏅

🔬 Research Focus

Dr. Huang’s research revolves around Discrete Event Dynamic Systems, Petri Nets, and Intelligent Transportation Systems (ITS). His work has led to advanced methodologies in traffic flow management, congestion control, and system optimization, improving urban transport networks. By integrating theoretical models with real-world applications, he has contributed to automated decision-making frameworks, enhancing efficiency and sustainability in transportation. His research is instrumental in shaping smart cities and next-generation mobility solutions, fostering safer and more efficient transport ecosystems worldwide. 🚦

🔍 Conclusion

Dr. Yi-Sheng Huang stands at the forefront of intelligent transportation research, driving significant innovations in automation and dynamic systems. His global academic presence, extensive research contributions, and impactful industry collaborations establish him as a leading figure in electrical engineering and intelligent mobility solutions. With a legacy of over 114 publications, numerous research projects, and an enduring influence in academia, Dr. Huang continues to shape the future of intelligent transportation and automated systems. 🌍🚀

📝 Top Publications

A Petri net-based model for real-time traffic control in urban networks.

Optimization of discrete event systems using hybrid Petri nets.

Modeling and performance analysis of ITS using dynamic Petri nets.

Smart transportation planning with discrete event system simulation.

Enhancing automated transport systems using intelligent Petri nets.

 

Leyi Zhao | Computer Science | Best Researcher Award

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Dr. Leyi Zhao | Computer Science | Best Researcher Award

Doctor, Beijing University of Chinese Medicine, China

Dr. Leyi Zhao is a dedicated clinical doctoral researcher in Integrative Medicine at the prestigious Beijing University of Chinese Medicine. With a keen interest in digestive tract diseases, Dr. Zhao specializes in studying precancerous lesions, tumors, and the intricate relationship between the immune environment and disease progression. Passionate about blending traditional medicine with modern computational techniques, Dr. Zhao integrates computer language and data analysis to establish innovative prognostic models, enhancing clinical applications. With multiple completed and ongoing research projects, Dr. Zhao’s contributions to the field of immunotherapy and colorectal cancer prognosis are highly impactful.

Publication Profile

ORCID

🎓 Education

Dr. Zhao is currently pursuing a doctorate in Integrative Medicine at Beijing University of Chinese Medicine, a renowned institution for traditional and modern medical research. This academic journey has equipped Dr. Zhao with a strong foundation in both traditional Chinese medical practices and cutting-edge clinical research methodologies.

💼 Experience

With extensive research experience, Dr. Zhao has led and contributed to multiple research projects focusing on colorectal cancer, immune microenvironments, and predictive modeling in oncology. Through a blend of experimental studies and computational approaches, Dr. Zhao has contributed significantly to understanding the impact of tertiary lymphoid structures (TLS) on tumor prognosis and immune response. In addition to academic research, Dr. Zhao has been involved in consultancy and industry-based projects, furthering the practical application of scientific findings.

🏆 Awards and Honors

Dr. Zhao’s research excellence has been recognized through publications in high-impact journals indexed in SCI and Scopus. The innovative work in colorectal cancer prognosis and immunotherapy has garnered citations and recognition within the scientific community. As an active contributor to the field, Dr. Zhao has been nominated for the prestigious Best Researcher Award at the Cryogenicist Global Awards.

🔬 Research Focus

Dr. Zhao’s primary research focus lies in immunotherapy for tumors, particularly in colorectal cancer. The groundbreaking research involves developing a TLS-based prognostic model that explores immune cell interactions within tumors. This model holds potential for predicting patient prognosis and treatment responsiveness, offering valuable insights into personalized medicine. Furthermore, Dr. Zhao’s interdisciplinary approach integrates network pharmacology, computational modeling, and traditional Chinese medicine, enhancing the precision and effectiveness of cancer treatments.

🔗 Publications

The Impact of Tertiary Lymphoid Structures on Tumor Prognosis and the Immune Microenvironment in Colorectal Cancer. Biomedicines, 2025; 13(3):539
🔗 DOI: 10.3390/biomedicines13030539

 Limonin ameliorates indomethacin-induced intestinal damage and ulcers through Nrf2/ARE pathway. Immun Inflamm Dis, 2023; 11(2):e787
🔗 DOI: 10.1002/iid3.787

Chinese patent herbal medicine (Shufeng Jiedu capsule) for acute upper respiratory tract infections: A systematic review and meta-analysis. Integr Med Res, 2021; 10(3):100726
🔗 DOI: 10.1016/j.imr.2021.100726

Deciphering the Mechanism of Siwu Decoction Inhibiting Liver Metastasis by Integrating Network Pharmacology and In Vivo Experimental Validation. Integr Cancer Ther, 2024; 23:15347354241236205
🔗 DOI: 10.1177/15347354241236205

🔚 Conclusion

Dr. Leyi Zhao’s research contributions are shaping the future of colorectal cancer treatment and immune microenvironment analysis. With a strong foundation in integrative medicine and a passion for computational research, Dr. Zhao continues to push the boundaries of medical science, making a profound impact on oncology and personalized medicine. As a nominee for the Best Researcher Award, Dr. Zhao’s work exemplifies innovation, dedication, and a commitment to improving patient outcomes worldwide. 🌍

Mr. Mingi Kwon | Computer Engineering | Best Researcher Award

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Mr. Mingi Kwon | Computer Engineering | Best Researcher Award

University of California San Diego, United States

Mingi Kwon is an aspiring computer engineer with a strong foundation in VLSI design, computer architecture, and hardware acceleration. 🎓 Currently pursuing an MS in Electrical and Computer Engineering at the University of California, San Diego, he previously earned his BS in Electrical Engineering from Hanyang University, South Korea. With a deep interest in optimizing hardware for AI acceleration, he has worked on advanced projects involving reconfigurable systolic arrays, low-power circuit design, and RISC-V processor architectures. His dedication to high-performance computing and low-power hardware systems is evident through his research contributions and hands-on experience with industry-standard tools. 🚀

Publication Profile

ORCID

🎓 Education:

Mingi Kwon is currently pursuing his Master of Science in Electrical and Computer Engineering at the University of California, San Diego (2024–2026), specializing in computer engineering. He completed his Bachelor of Science in Electrical Engineering from Hanyang University, South Korea (2019–2024), graduating with an impressive GPA of 3.97/4.5. 📚 His academic journey has been focused on advanced coursework, including computer architecture, low-power VLSI design, and deep learning accelerators, equipping him with a strong foundation in hardware and system design.

💼 Experience:

Mingi has gained significant hands-on experience through various projects and his military service. During his undergraduate studies, he developed a Cyclone IV GX-Based Reconfigurable 2D Systolic Array for AI Acceleration, optimizing power consumption and chip area. He also worked on a RISC-V 5-stage Pipeline Processor with an advanced branch predictor, significantly improving execution efficiency. 🔧 Additionally, he served as a cybersecurity specialist and squad leader in the Republic of Korea Army (2020–2022), where he managed encrypted communications and network security while leading a team of 20 soldiers, earning a Distinguished Service Award. 🏅

🏆 Awards and Honors:

Mingi’s excellence in academics and research has been recognized through multiple awards. He was named to the Dean’s List (2022) with a perfect GPA of 4.5/4.5. 🎖️ He also received the National Logic Chip Design Track Scholarship (2023–2024), awarded by the South Korean government for outstanding achievements in electrical engineering. His leadership and dedication in the military earned him a Distinguished Service Award (2021–2022) for enhancing work efficiency and team collaboration.

🔬 Research Focus:

Mingi’s research is centered around hardware acceleration for AI, low-power VLSI design, and computer architecture. 🖥️ His work on systolic arrays focuses on optimizing deep learning computations with reconfigurable architectures, improving efficiency in sparse neural networks. He has also explored low-power circuit design, reducing leakage power and optimizing combinational logic for improved energy efficiency. His expertise extends to processor architecture, particularly RISC-V pipeline design and branch prediction, enhancing execution speed and minimizing stalls.

🔚 Conclusion:

Mingi Kwon is a highly motivated researcher and engineer passionate about bridging the gap between hardware and AI acceleration. 🚀 With extensive experience in VLSI design, digital systems, and processor architecture, he is committed to advancing high-performance, energy-efficient computing systems. His technical expertise, research achievements, and leadership skills position him as a promising innovator in the field of computer engineering. 💡

📄 Publication:

Circuit-Centric Genetic Algorithm for the Optimization of a Radio-Frequency ReceiverElectronics

DOI: 10.3390/electronics14040770

Thu Ha Dao | quantum computation | Best Researcher Award

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Dr. Thu Ha Dao | quantum computation | Best Researcher Award

postdoc, Istituto Nazionale di Fisica Nucleare – Sezione di Roma Tor Vergata, Italy

🌟 Thu Ha Dao is a dedicated researcher specializing in silicon photonics and quantum technologies. Originally from Vietnam, she has gained extensive international experience through her academic journey and professional roles across Italy, Canada, and beyond. Her work focuses on advanced photonic integrated circuits (PIC) and cutting-edge applications in quantum computation. With numerous publications and active participation in international conferences, Thu Ha Dao is making a significant impact in the fields of industrial engineering and photonics.

Publication Profile

Education

🎓 Thu Ha Dao holds a Bachelor’s degree in Physical Sciences from Hanoi University of Science (2012–2016) 🇻🇳. She completed her Master of Physics at the University of Camerino, Italy (2016–2019) 🇮🇹, focusing on spectroscopic modifications of nanoparticles for battery cathodes. She further advanced her expertise with a Ph.D. in Industrial Engineering at the University of Rome Tor Vergata (2020–2023) 🇮🇹, with a thesis on silicon photonics integrated circuits for quantum computation.

Experience

💼 Thu Ha has worked in prominent research roles, including as a researcher at Tor Vergata University, Italy, where she contributed to the NARAs project on nanotechnology applications in water arsenic detection. Currently, she serves as a PostDoc Researcher at INFN sezione Roma Tor Vergata, contributing to the QUANTEP project. Her expertise spans silicon photonics, quantum platforms, spectroscopic ellipsometry, and PIC design using Python and IPKISS.

Awards and Honors

🏆 Thu Ha has been an invited speaker and active contributor to prestigious conferences such as the Italian Physical Society Congress and the Global Congress on Materials Science and Nanotechnology. Her research excellence is reflected in her publications in top-tier journals like Photonics and Optics Communications.

Research Focus

🔬 Thu Ha’s research centers on the integration of nanotechnology, photonics, and quantum computing. She is particularly interested in designing photonic integrated chips, exploring polarization control in graphene-silicon waveguides, and advancing single-photon detectors. Her contributions aim to revolutionize quantum technologies through innovative engineering solutions.

Conclusion

🌍 With her international background, strong academic foundation, and impactful research, Thu Ha Dao stands at the forefront of silicon photonics and quantum technologies. Her dedication to advancing science and engineering inspires her peers and contributes significantly to the global scientific community.

Publications

Pi-plasmon model for carbon nanostructures. Application to porphyrin (2016)Journal of Physics: Conference Series

Quantum technologies experimental platform (2021)Proceedings of the Italian Physical Society National Congress

Substrate for SERS sensor realized by DELIL technique (2021)AIP Conference Proceedings

Polarization Control in Integrated Graphene-Silicon Quantum Photonics Waveguides (2022)Materials

Measurement and Simulation of Mechanical and Optical Properties of Sputtered Amorphous SiC Coatings (2022)Physical Review Applied

Quantum Information with Integrated Photonics (2024)Applied Sciences

Solid-State Color Centers for Single-Photon Generation (2024)Photonics

Hybrid Integrated Silicon Photonics Based on Nanomaterials (2024)Photonics

Integrated photonic building blocks on SOI (2024)Photonics

Linearly multiplexed Photon Number Resolving single-photon detectors array (2025)Optics Communications

Single-Photon Detectors for Quantum Integrated Photonics (2025)Photonics

 

Rabha Ibrahim | Quantum Science | Best Researcher Award

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Prof. Dr. Rabha Ibrahim | Quantum Science | Best Researcher Award

Alayen University, United States

Rabha Waell Ibrahim (Rabha W. Ibrahim) is a distinguished researcher and academic in the fields of complex, computing, and cloud systems, with a focus on mathematical modeling, image processing, geometric function theory, fractional calculus, and quantum computing. She holds a Ph.D. in Complex Systems from Universiti Kebangsaan Malaysia (UKM) and has completed postdoctoral research at the Cloud Computing Center, University Malaya. With a career spanning multiple international institutions, Rabha has been recognized among the world’s top 2% scientists by Stanford University and Elsevier across multiple years. She currently serves as a Professor at Istanbul Okan University, Turkey, contributing to the advancement of mathematical and computing sciences. Her research is recognized globally, and she actively contributes to various prestigious journals. 📚🌐

Publication Profile

Education

Rabha Waell Ibrahim completed her Ph.D. in Complex Systems at the Centre of Modelling and Data Sciences, University Kebangsaan Malaysia (UKM), in 2011. She furthered her expertise with postdoctoral research at the Cloud Computing Center, University Malaya, in 2016. Additionally, she holds a Google Data Analytics Certificate from Coursera, earned in May 2022. 🎓📖

Experience

Rabha has held several academic and research positions in renowned universities and institutions across the world. She began her career as a Senior Lecturer at University Malaya, Malaysia, from 2011 to 2015, followed by a role as Senior Researcher at the same university until 2016. She was an Associate Professor at Modern College of Business and Science in Oman from 2017 to 2019, and later worked as a Senior Researcher at Ton Duc Thang University, Vietnam, from 2019 to 2021. Rabha has also contributed as a researcher at Lebanese American University, Lebanon, and Near East University, Cyprus, and is currently a Professor at Istanbul Okan University, Turkey. 🏫🌍

Awards and Honors

Rabha’s significant contributions to science have earned her recognition in the form of listings among the world’s top 2% scientists by Stanford University and Elsevier over several years (2019–2024). Additionally, she has a remarkable H-index, with values of 28 in Web of Science, 31 in Scopus, and 33 in ResearchGate. These achievements reflect her ongoing influence in her fields of expertise. 🏅🌟

Research Focus

Rabha’s research spans a broad array of topics, including complex systems, computing, cloud systems, and mathematical modeling. She has made substantial contributions to image processing, geometric function theory, fractional calculus, and quantum computing. Her work also delves into the intersection of fractals and fractional calculus, with applications in various scientific domains. Her research continues to impact theoretical and applied mathematics, influencing both academia and industry. 🔬💻

Conclusion

Rabha W. Ibrahim is a globally recognized expert in mathematical sciences, whose work spans numerous cutting-edge topics, including cloud computing, fractional calculus, and quantum computing. Her consistent presence in the global scientific community, coupled with her prestigious academic appointments and research achievements, makes her a leading figure in her field. 🌍💡

Publications

Quantum–Fractal–Fractional Operator in a Complex Domain

Published: 2025

Journal: Axioms

DOI: 10.3390/axioms14010057

Cited by: Crossref

The Essential Gronwall Inequality Demands the (ρ,φ)(\rho, \varphi)-Fractional Operator with Applications in Economic Studies

Published: 2024

Journal: Universal Journal of Mathematics and Applications

DOI: 10.32323/ujma.1425363

Cited by: Crossref

A New Self-Organization of Complex Networks Structure Generalized by a New Class of Fractional Differential Equations Generated by 3D-Gamma Function

Published: 2024

Journal: Journal of King Saud University – Science

DOI: 10.1016/j.jksus.2024.103512

Cited by: Crossref

Classification of Tomato Leaf Images for Detection of Plant Disease Using Conformable Polynomials Image Features

Published: 2024

Journal: MethodsX

DOI: 10.1016/j.mex.2024.102844

Cited by: Crossref

Studies in Fractal–Fractional Operators with Examples

Published: 2024

Journal: Examples and Counterexamples

DOI: 10.1016/j.exco.2024.100148

Cited by: Crossref

K-Symbol Fractional Order Discrete-Time Models of Lozi System

Published: 2024

Journal: Book Chapter

DOI: 10.1201/9781003568643-11

Cited by: Crossref

Properties and Applications of Complex Fractal–Fractional Operators in the Open Unit Disk

Published: 2024

Journal: Fractal and Fractional

DOI: 10.3390/fractalfract8100584

Cited by: Crossref

Analysis of a Normalized Structure of a Complex Fractal–Fractional Integral Transform Using Special Functions

Published: 2024

Journal: Axioms

DOI: 10.3390/axioms13080522

Cited by: Crossref

Generalized Fractional Integral Operator in a Complex Domain

Published: 2024

Journal: Studia Universitatis Babes-Bolyai Matematica

DOI: 10.24193/subbmath.2024.2.03

Cited by: Crossref

Mathematical Modeling and Performance Evaluation of Ducted Horizontal-Axis Helical Wind Turbines: Insights into Aerodynamics and Efficiency

Published: 2024

Journal: PLOS ONE

DOI: 10.1371/journal.pone.0303526

Cited by: Crossref

 

Malgorzata Makowska-Janusik | Quantum Computing | Women Researcher Award

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Prof Dr. Malgorzata Makowska-Janusik | Quantum Computing | Women Researcher Award

Faculty of Science and Technology, Jan Dlugosz University, Poland

🌟 Prof. Dr. Hab. Małgorzata Makowska-Janusik is a distinguished professor of physics at Jan Dlugosz University in Czestochowa, Poland. Born in 1970, she has dedicated her career to advancing the field of physics through research, teaching, and leadership roles. Since 2020, she has served as the head of the Department of Photoinduced Phenomena and has been recognized with numerous awards for her professional achievements.

Profile

Google Scholar

 

Education

🎓 Prof. Makowska-Janusik earned her Doctor of Science degree in 1998 from Silesian Technical University in Gliwice, Poland. In 2011, she completed her habilitation in physics at Silesian University in Katowice, Poland. Her extensive academic journey has been marked by prestigious scholarships and fellowships, including a postdoc position at the University of Maine in Le Mans, France, and a Marie Curie fellowship at the National Hellenic Research Foundation in Athens, Greece.

Experience

🧑‍🏫 Prof. Makowska-Janusik began her academic career as a trainee assistant and assistant at the Institute of Physics, Pedagogical University in Czestochowa from 1993 to 1998. She then joined Jan Dlugosz University, where she served as an adjunct from 1998 to 2011, and later as a professor of physics. Her leadership roles include Deputy Director for Student Affairs, Vice Dean for Research, and Dean of the Faculty of Science and Technology.

Research Interests

🔬 Prof. Makowska-Janusik’s research interests are vast, focusing on photoinduced phenomena, nonlinear optical properties of composite materials, and nanomaterials for photocatalytic and photovoltaic applications. She has been involved in numerous international collaborations and has directed several significant research projects.

Awards

🏆 Prof. Makowska-Janusik has received multiple accolades for her contributions to science, including the prestigious title of professor of science (physical sciences) from the President of the Republic of Poland in 2020. She is a scholarship holder of the Foundation for Polish Science and a Marie Curie fellow. Additionally, she has been honored with the first-level prize of the Rector of Jan Dlugosz University for her professional achievements multiple times.

Publications

Corrosion inhibition of mild steel in 1M HCl by D-glucose derivatives of dihydropyrido [2, 3-d: 6, 5-d′] dipyrimidine-2, 4, 6, 8 (1H, 3H, 5H, 7H)-tetraone

Photoluminescence features on the Raman spectra of quasistoichiometric SiC nanoparticles: Experimental and numerical simulations

Zinc induced a dramatic enhancement of the nonlinear optical properties of an azo-based iminopyridine ligand

SiC nanocrystals embedded in oligoetheracrylate photopolymer matrices; new promising nonlinear optical materials

Optical poling of oligoether acrylate photopolymers doped by stilbene-benzoate derivative chromophores