Mr. Abubakar Adamu – Computer Science and Artificial Intelligence – Best Paper Award

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Mr. Abubakar Adamu - Computer Science and Artificial Intelligence - Best Paper Award

Federal University of Technology Minna Nigeria and University of Malaya - Malaysia

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Summary

Adamu Abubakar is an emerging researcher and academic with a strong foundation in computer science, artificial intelligence, and telecommunications. his educational background, which includes a master's degree with distinction and an ongoing phd, reflects his dedication to academic excellence and technical mastery. professionally, he has blended academic teaching with significant industry experience at leading telecom firms, giving him a well-rounded perspective on both theoretical and practical aspects of technology.

His research interests focus on the integration of artificial intelligence into telecommunication systems, with a growing emphasis on the role of power electronics in optimizing network infrastructure and improving service delivery. his involvement in global research networks like vodan demonstrates his commitment to using technology for societal benefit.

Early academic pursuits

Adamu Abubakar began his academic journey with a bachelor’s degree in computer science from usman danfodio university sokoto, nigeria, where he laid a solid foundation in computing principles and information technology. his pursuit of excellence continued with a master of technology (m.tech) in computer science at the federal university of technology minna, where he graduated with distinction. Computer Science and Artificial Intelligence his master's thesis focused on developing an enhanced self-service software model tailored for the nigerian telecommunication sector, integrating concepts applicable in power electronics systems through efficient data processing and control mechanisms.

Currently, he is enrolled in a phd program in computer science and artificial intelligence at the federal university of technology minna. additionally, he has undertaken a phd mobility attachment program at the university of malaya, malaysia, further expanding his exposure to global research practices. he also holds a postgraduate diploma in education from the national teachers institute, reflecting his dedication to academic mentorship and teaching excellence.

Professional endeavors

Adamu Abubakar's professional career is marked by significant teaching, research, and managerial responsibilities. he presently serves as a lecturer i at ibrahim badamasi babangida university, lapai, where he teaches courses such as data communication, networking, artificial intelligence, and computer architecture. he actively supervises final-year projects, providing guidance that connects theoretical concepts with practical applications, including emerging technologies such as power electronics in telecommunication systems.

Prior to his academic role, he accumulated valuable industry experience at leading telecommunication firms in nigeria, including mtn nigeria limited and zain nigeria limited. Computer Science and Artificial Intelligence his positions in customer service and distribution management honed his leadership, technical, and organizational skills, critical in both corporate operations and academic settings.

Contributions and research focus

Adamu Abubakar’s research interests lie primarily in artificial intelligence and telecommunication technologies. his academic and industry experiences have positioned him to explore intelligent systems design, network optimization, Computer Science and Artificial Intelligence and data-driven solutions to enhance telecom services. he also emphasizes the potential applications of power electronics in smart grid communication systems and energy-efficient telecommunication infrastructure.

As a data steward in the virus outbreak data network (vodan) africa & asia covid-19 volunteer network, he contributed to data management and system analysis, reinforcing his commitment to impactful scientific research.

Impact and influence

Adamu Abubakar’s dual expertise in academia and the telecommunications industry allows him to bridge the gap between theoretical knowledge and practical solutions. his teaching impacts undergraduate and postgraduate students, inspiring the next generation of nigerian computer scientists. Computer Science and Artificial Intelligence his involvement in technological research related to artificial intelligence and power electronics has the potential to shape more efficient telecom and computing infrastructures in africa and beyond.

Academic cites

Adamu Abubakar’s master's thesis on enhanced self-service models for nigerian telecom networks remains a relevant citation for researchers developing customer-oriented software systems in developing regions. ongoing collaborations through his phd programs and attachments are expected to yield publications contributing to fields like machine learning, Computer Science and Artificial Intelligence network optimization, and the integration of power systems and power electronics in information technology.

Legacy and future contributions highlight

With a vision focused on blending artificial intelligence with telecommunication advancements, adamu abubakar aims to make long-lasting contributions to nigeria’s digital infrastructure. he is committed to further exploring the synergy between ai-driven network systems and power electronics, ensuring sustainable, energy-efficient, and intelligent telecom solutions. Computer Science and Artificial Intelligence his legacy will likely include not only scholarly publications but also the cultivation of students and professionals well-versed in next-generation technologies.

Notable Publications

  1. Title: Systematic literature review and bibliometric analysis of pipeline monitoring and leakage detection techniques
    Authors: Adamu Abubakar; Opeyemi Aderiike Abisoye; Isiaq Oludare Alabi; Adepoju Solomon; Ishaq Oyebisi Oyefolahan
    Journal: Discover Mechanical Engineering

  1. Title: Exploring the Integration of a Patient Generated Health Data in a FAIR Digital Health System in Low-Resourced Settings: A User-Centered Approach
    Authors: Abdullahi Abubakar Kawu; Rens Kievit; Adamu Abubakar; Mirjam Van Reisen; Dympna O'Sullivan; Lucy Hederman
    Conference: ACM International Conference (Proceedings)

Conclusion

Adamu Abubakar's career trajectory showcases a harmonious balance of teaching, research, and industrial practice. his expertise positions him to make impactful contributions to the fields of ai-driven telecommunication systems and power electronics applications in emerging markets. looking ahead, he is set to influence the development of energy-efficient, intelligent technologies that will shape nigeria's digital future and inspire the next generation of tech innovators.

Dr. Ziyu Liao – Supernumerary Robotic Limbs – Best Researcher Award

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Dr. Ziyu Liao - Supernumerary Robotic Limbs - Best Researcher Award

Jinhua University of Vocational Technology - China

Author Profile

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Summary

Ziyu Liao is an emerging researcher in the fields of wearable robotics and human-robot interaction, with a strong academic foundation built through interdisciplinary education and specialized research. from his early exploration of neural network-based control systems to advanced doctoral research on supernumerary robotic limbs (srls), liao has demonstrated a consistent focus on enhancing human-machine cooperation. his professional journey spans academic positions and industry roles, where he applied his expertise to both rehabilitation devices and complex industrial automation systems, such as battery production machinery—an area closely tied to control strategies also used in power electronics. through national and regional research projects, he has contributed to innovative solutions for gesture-based control, flexible robotic structures, and safe human-robot interaction protocols.

Early academic pursuits

Ziyu Liao began his academic journey with a bachelor’s degree from shandong university, where he uniquely combined arts and technology by pursuing a double major, including korean language. this diverse academic background laid a foundation for cross-disciplinary thinking, an approach that later influenced his research into wearable robotics and human-robot interaction. his early exploration into robotics control was solidified during his master’s program at yanshan university, where his thesis focused on developing a surface electromyography (semg) control interface for robots utilizing neural networks — an area subtly connected with signal processing techniques also applied in power electronics. further advancing his expertise, liao pursued a doctorate at nanjing university of aeronautics & astronautics, specializing in the ergonomic design and control of supernumerary robotic limbs (srls), setting the stage for significant contributions in assistive robotic technologies.

Professional endeavors

Professionally, Liao has demonstrated versatility both in academia and industry. his role as a mechanical r&d engineer at wuxi lead intelligent equipment co., ltd. involved the structural design of fully automated lithium-ion battery winding machines, a field reliant on precision motion control systems familiar in power electronics applications. subsequently, his visiting scholarship at japan advanced institute of science and technology allowed him to engage in innovative research on eeg-based image reconstruction, bridging neural signal processing and intelligent systems design. currently, Supernumerary Robotic Limbs as a lecturer at jinhua university of vocational technology, he continues to educate and inspire the next generation of engineers in the college of intelligent manufacturing.

Contributions and research focus

Liao's core research contributions revolve around the development of reconfigurable srls tailored for challenging industrial environments such as aircraft cabin maintenance. his work includes designing srl structures, proposing semg-driven reconfiguration switching methods, and formulating safety control strategies integrating imu data — techniques that intersect with control principles also seen in power electronics systems for adaptive machinery. his involvement in national and regional projects highlights his role in advancing fiber-reinforced flexible actuators and gesture recognition systems for human-robot cooperative control, enhancing the functionality and safety of wearable robotics. Supernumerary Robotic Limbs notably, his research on semg-based limb mapping and rehabilitation robotics underscores a sustained commitment to improving human-robot interaction and augmenting human capabilities.

Impact and influence

Liao's contributions have potential societal and industrial impact, especially in sectors requiring precision and safety, such as aerospace maintenance, healthcare, and advanced manufacturing. his application of semg signal processing and neural network modeling informs not only robotics but also adjacent fields like power electronics, where sensor-based adaptive control is crucial. Supernumerary Robotic Limbs by addressing ergonomic challenges and enhancing the cooperative behavior of srls, liao's research supports safer, more efficient human-machine collaboration, influencing both academic frameworks and practical technologies.

Academic cites

Through active participation in projects funded by the national natural science foundation of china and other scientific bodies, liao has contributed to several peer-reviewed publications and technical reports in wearable robotics and human-robot interaction. these works are frequently cited in the domains of intelligent control, rehabilitation technology, and emerging power electronics applications Supernumerary Robotic Limbs where signal processing and actuator control intersect. his innovative gesture recognition and control algorithms for srls continue to garner attention from scholars and engineers developing next-generation robotic and electronic systems.

Legacy and future contributions highlight

Looking ahead, liao is poised to further advance the integration of intelligent control systems into wearable robotics, potentially influencing developments in power electronics where precise, energy-efficient actuator control remains critical. his vision includes expanding the ergonomic adaptability of robotic limbs, refining semg-driven control schemes, and exploring new materials and actuator designs that bridge flexibility with robustness. these contributions are likely to inspire future innovations in assistive robotics and industrial automation, Supernumerary Robotic Limbs leaving a lasting legacy in both robotics and power electronics-driven system design.

Notable Publications

  1. Title: A novel sEMG-based force interaction strategy of supernumerary robotic limbs
    Authors: Wenjie Qu; Ziyu Liao; Tianzuo Chang; Yao Xiao; Qian Zheng; Liping Ding; Bai Chen
    Journal: Journal of Mechanical Science and Technology

  2. Title: A novel human-robot interface based on low-cost sEMG device designed for the collaborative wearable robot
    Authors: Ziyu Liao; Bai Chen; Qian Zheng; Wenjie Qu; Yao Xiao
    Journal: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science

  1. Title: A Development Control and HRI of Supernumerary Robotic Limbs Based on ROS
    Authors: Qian Zheng; Ziyu Liao; Bai Chen; Tianzuo Chang; Zhicong Zhang; Hongtao Wu
    Journal: Intelligent Robotics and Applications (Book Chapter)

  1. Title: Structural Design and Stiffness Characteristics of a Passive Variable Stiffness Joint
    Authors: Keming Liu; Bai Chen; Ziyu Liao; Tianzuo Chang; Jiajun Xu; Zhendong Tu
    Journal: Intelligent Robotics and Applications (Book Chapter)

  1. Title: Optimized Walking Assistance of the Soft Exoskeleton with Twisted String Actuators
    Authors: Jiajun Xu; Kaizhen Huang; Tianyi Zhang; Ziyu Liao; Tianzuo Chang; Bai Chen; Youfu Li
    Journal: 2023 IEEE 19th International Conference on Automation Science and Engineering (CASE)

Conclusion

Ziyu Liao’s research contributions are shaping the future of assistive and industrial robotics by addressing key challenges in ergonomic design, adaptability, and intelligent control. his interdisciplinary approach, blending neural signal processing with mechanical design and embedded control systems, finds resonance in modern power electronics-driven technologies that demand precision and adaptability. as wearable robotics continue to influence sectors like aerospace maintenance, healthcare, and smart manufacturing, liao's work stands to have lasting impact, paving the way for safer, more efficient human-robot collaboration. his future endeavors are expected to drive further innovation at the intersection of robotics, power electronics, and intelligent systems design.

Dr. Liping Zhang – Optimization, Machine Learing, Scientific Computing – Best Researcher Award

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Dr. Liping Zhang - Optimization, Machine Learing, Scientific Computing - Best Researcher Award

Tsinghua University - China

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Summary

Liping Zhang, a distinguished professor at Tsinghua university, has built a remarkable career grounded in mathematical sciences, operations research, and tensor optimization. her early academic training from qufu normal university and the chinese academy of sciences laid a strong theoretical base, later enriched by international research experiences in taiwan and hong kong. over the years, she has contributed significantly to tensor decomposition, low-rank optimization, and eigenvalue problem-solving—areas that also have potential impact in emerging technologies such as power electronics. her leadership in prestigious national and enterprise-funded projects reflects both her academic rigor and her practical problem-solving capabilities in data processing and algorithm design. recognized by multiple scientific awards, zhang’s work continues to influence fields where computational efficiency and advanced mathematical modeling are critical.

Early academic pursuits

Liping Zhang began her academic journey with a strong foundation in mathematics, earning her bachelor's and master's degrees from qufu normal university. her interest in operations research guided her towards doctoral studies at the academy of mathematics and systems science (amss), chinese academy of sciences. during this period, she laid the groundwork for her later contributions in optimization theory and tensor computations— Optimization, Machine Learing, Scientific Computing areas that have relevance even in interdisciplinary fields such as power electronics, where mathematical modeling plays a crucial role.

Professional endeavors

After completing her ph.d., liping zhang held postdoctoral positions at beijing jiaotong university before joining tsinghua university. her early roles as lecturer and associate professor shaped her teaching philosophy and research rigor. she also expanded her global research experience through visiting fellowships at the hong kong polytechnic university and national cheng kung university. Optimization, Machine Learing, Scientific Computing these international exposures contributed to her understanding of applied optimization techniques, which are essential in diverse engineering domains, including power electronics where multi-dimensional data processing and tensor decomposition find practical applications.

Contributions and research focus

Professor Zhang's research primarily revolves around tensor decomposition, low-rank optimization, structured tensor optimization, and eigenvalue problems of nonnegative tensors. her work contributes valuable algorithms and theoretical insights that address computational challenges in multidimensional signal processing—a field increasingly impacting technological advancements like power electronics, Optimization, Machine Learing, Scientific Computing where efficiency and precision in signal interpretation are critical. her leadership in multiple national natural science foundation of china (nsfc) projects and enterprise-supported programs underscores her pivotal role in advancing algorithmic science.

Impact and influence

Liping Zhang’s scholarly contributions have not only enhanced the mathematical understanding of tensor computations but have also influenced applied sectors reliant on high-dimensional data modeling. her research outputs bear implications for optimization in system controls, quantum computation, and data analytics—disciplines integrally tied to the evolution of power electronics systems, Optimization, Machine Learing, Scientific Computing where reliable optimization algorithms improve device performance and energy efficiency. her recognitions, such as the award from the shandong big data research association and the natural science award from the chinese ministry of education, validate the impact and relevance of her research.

Academic citations

Zhang’s research is well-cited in academic literature, reflecting her standing in the fields of operations research and tensor optimization. her works on smoothing methods, complementarity problems, and semi-infinite programming algorithms have become references for scholars working on mathematical models applicable even in technical fields like control systems and power electronics. Optimization, Machine Learing, Scientific Computing her google scholar profile lists a substantial body of publications that are foundational to both theoretical advancements and practical engineering solutions.

Legacy and future contributions highlight

As a professor at Tsinghua university, Liping Zhang continues to mentor the next generation of researchers, inspiring work in mathematical optimization, machine learning, and tensor analysis. her future research is expected to bridge theoretical innovations with emerging technologies such as artificial intelligence and quantum computing—areas that will undoubtedly intersect with power electronics as demand grows for smart, energy-efficient devices. her academic legacy is built upon a consistent pursuit of solving complex computational problems with real-world engineering applications.

Notable Publications

  1. Title: Tensors and Some Applications
    Authors: L. Zhang; L. Qi; G. Zhou
    Journal: SIAM Journal on Matrix Analysis and Applications

  1. Title: Linear convergence of an algorithm for computing the largest eigenvalue of a nonnegative tensor
    Authors: L. Zhang; L. Qi
    Journal: Numerical Linear Algebra with Applications

  1. Title: Tensor absolute value equations
    Authors: S. Du; L. Zhang; C. Chen; L. Qi
    Journal: Science China Mathematics

  1. Title: A new exchange method for convex semi-infinite programming
    Authors: L. Zhang; S.Y. Wu; M.A. López
    Journal: SIAM Journal on Optimization

  2. Title: The non-interior continuation methods for solving the P0 function nonlinear complementarity problem
    Authors: Z. Huang; J. Han; D. Xu; L. Zhang
    Journal: Science in China Series A: Mathematics

Conclusion

Liping Zhang’s research legacy demonstrates a blend of theoretical depth and practical relevance, particularly in the optimization and processing of high-dimensional data. her innovations contribute not only to operations research but also extend to applied domains like machine learning, quantum computation, and power electronics, where robust algorithms drive technological advancement. as she continues her academic journey at tsinghua university, her future work is poised to inspire further breakthroughs at the intersection of mathematical theory and real-world engineering challenges.

Dr. Nerea López Bouzas – Augmented Reality in Robotics – Best Use of AR/VR in Robotics

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Dr. Nerea López Bouzas - Augmented Reality in Robotics - Best Use of AR/VR in Robotics

University of Oviedo - Spain

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Summary

Nerea López Bouzas has built an impressive academic and professional career rooted in excellence and innovation in the field of education. from her early academic pursuits, marked by outstanding grades and multiple honors, to her doctoral research focused on curriculum design and didactic innovation, she has demonstrated a deep commitment to advancing educational practices. her postdoctoral endeavors at the universidad de oviedo further reinforce her role as a researcher dedicated to inclusive and technologically informed teaching methodologies.

Nerea’s diverse training, including participation in international courses, seminars, and educational networks, highlights her versatility and adaptability—qualities that mirror the evolving nature of power electronics, where continuous learning and innovation are critical. her influence extends beyond research publications to practical impacts on teaching and curriculum development, ensuring her contributions resonate within the wider academic and educational communities.

Early academic pursuits

Nerea López Bouzas demonstrated an exceptional dedication to education from the outset of her academic journey. her undergraduate degree in maestro en educación infantil at the universidad de oviedo (2016-2020) was marked by a remarkable academic record, achieving an impressive average grade of 9.012 and earning 14 matrículas de honor. building upon this strong foundation, she pursued a master's degree in investigación e innovación en educación infantil y primaria at the same university (2020-2021), where she again excelled with an outstanding Augmented Reality in Robotics average of 9.615 and received 6 matrículas de honor. these formative years laid the groundwork for her later scholarly contributions, providing a robust methodological and theoretical basis akin to the precision found in the field of power electronics, where accuracy and innovation are essential.

Professional endeavors

Currently serving as personal docente e investigador under the contrato pop (plan de orientación postdoctoral) at the universidad de oviedo, nerea lópez bouzas seamlessly transitioned from her predoctoral phase to postdoctoral research. supported by prestigious grants such as the beca de formación de profesorado universitario (fpu), her professional journey is distinguished by steady growth in both Augmented Reality in Robotics teaching and scholarly capacities. her postdoctoral efforts reflect a meticulous attention to detail and system-level thinking, comparable to the integrated design approach required in power electronics systems, where every component's performance is critical to overall functionality.

Contributions and research focus

Nerea's doctoral studies in educación y psicología, specifically within the “diseño, desarrollo e innovación del curriculum” program, produced a thesis awarded with cum laude distinction and mención internacional, and it was even proposed for the premio extraordinario. her research contributions encompass curriculum innovation, didactic methodologies, and the development of inclusive educational environments—areas that demand adaptability and responsiveness similar to emerging trends in power electronics, where system adaptability Augmented Reality in Robotics drives technological evolution. her extensive participation in international courses, congresses, and workshops—such as open science data management and educational technology for inclusivity—underscores her commitment to keeping pace with pedagogical advancements.

Impact and influence

Nerea López Bouzas’s scholarly influence is evident in her active engagement with diverse educational initiatives. by participating in networks like red educativa dim-edu and international forums like the 62 encuentro de centros innovadores, she fosters cross-institutional dialogue and knowledge exchange. her focus on neuroeducation, mental health, and didactic inclusivity resonates widely across Augmented Reality in Robotics educational research landscapes, reflecting an impact parallel to the transformative influence of power electronics in industrial and technological domains, where efficiency and innovation redefine operational standards.

Academic cites

Through contributions that blend theory and practice, nerea’s works have been acknowledged by academia, particularly in areas of early childhood education, curricular design, and inclusive teaching practices. her role as both researcher and educator situates her as a point of reference for peers and students, ensuring her methodologies and findings are cited in ongoing discourse and practical applications, Augmented Reality in Robotics much as key advancements in power electronics are continually referenced for guiding the development of energy-efficient and sustainable technologies.

Legacy and future contributions

Looking ahead, Nerea López Bouzas is poised to leave a lasting legacy in the field of education through continued postdoctoral research, curriculum innovation, and international collaboration. her trajectory suggests future contributions that will influence educational policies and teaching practices on a broader scale, just as breakthroughs in power electronics promise to reshape energy systems globally. Augmented Reality in Robotics with a clear vision and dedication to inclusive, evidence-based pedagogy, her work will likely set new benchmarks in both academic rigor and practical application within the evolving landscape of teacher education.

Notable Publications

  1. Title: Microrrelatos, codificación robótica, aplicaciones digitales y realidad aumentada para potenciar el pensamiento computacional infantil
    Authors: Esther Del-Moral-Pérez; Nerea López-Bouzas; Jonathan Castañeda-Fernández
    Journal: Pixel-Bit, Revista de Medios y Educación

  1. Title: Children's drawings as an interpretive response to a gamified narrative with augmented reality: the case of Towards the South Pole
    Authors: María del Rosario Neira‐Piñeiro; Begoña Camblor‐Pandiella; Nerea López‐Bouzas; M. Esther del‐Moral‐Pérez; Jonathan Castañeda‐Fernández
    Journal: Literacy

  1. Title: Game-Based Storytelling with a Robot Character: Activating Computational Thinking in Young Children
    Authors: M. Esther del-Moral-Pérez; Nerea López-Bouzas; Jonathan Castañeda-Fernández
    Journal: Early Childhood Education Journal

  2. Title: Gamified Environments and Serious Games for Students With Autistic Spectrum Disorder: Review of Research
    Authors: Nerea López-Bouzas; M. Esther del Moral-Pérez
    Journal: Review Journal of Autism and Developmental Disorders

  1. Title: The Impact of a Gamified Augmented Environment on Language Skills in Students With ASD
    Authors: Nerea López-Bouzas; M. Esther del Moral Pérez; Jonathan Castañeda Fernández
    Journal: Book Chapter (in a book published by IGI Global)

Conclusion

Nerea López Bouzas exemplifies the qualities of a forward-thinking educator and researcher whose work bridges theory and practice. her academic excellence, professional dedication, and commitment to innovation in teaching make her a key contributor to the future of educational research. just as power electronics revolutionizes energy systems through efficiency and precision, nerea’s efforts in curriculum and didactic innovation promise to transform early childhood education practices, fostering inclusive and effective learning environments. her ongoing and future contributions are expected to leave a lasting legacy, shaping educational standards and inspiring upcoming generations of educators and researchers alike.

Assoc. Prof. Dr. Bahador Abolpour – Optimization, Simulation and Coding – Excellence in Research

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Assoc. Prof. Dr. Bahador Abolpour - Optimization, Simulation and Coding - Excellence in Research

Sirjan University of technology - Iran

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Summary

Dr. Bahador Abolpour is a distinguished academic with a rare combination of expertise in chemical engineering, aerospace engineering, and computer engineering. his broad educational background and dual ph.d. qualifications have enabled him to contribute meaningfully to various interdisciplinary fields such as transport phenomena, reaction kinetics, ai algorithms, image processing, and numerical modeling. his research has practical applications in modern industries including sustainable materials processing, aerospace navigation, and emerging power electronics technologies used in energy systems and smart grids.

Professionally, as an associate professor at sirjan university of technology, dr. abolpour integrates experimental, computational, and theoretical methods to solve complex engineering problems. his influence spans academia and industry, with numerous citations on platforms like google scholars and researchgate reflecting the impact of his work. his innovative approach brings fresh insights into areas such as process optimization and control systems that increasingly depend on advancements in power electronics.

Early academic pursuits

Bahador Abolpour began his academic journey with a bachelor's degree in chemical engineering from islamic azad university, marvdasht, iran, in 2008. in the same year, he also completed another bachelor's degree in aerospace engineering from payame noor university, shiraz, iran. demonstrating a broad academic curiosity, he further earned a bachelor's degree Optimization, simulation and coding in computer engineering from payame noor university in 2018. this diversified educational foundation laid the groundwork for his interdisciplinary research interests that bridge engineering disciplines such as chemical processes, computing systems, and aerospace technologies.

Professional endeavors

Dr. Abolpour currently serves as an associate professor of chemical engineering at sirjan university of technology. his professional career is marked by a commitment to both teaching and research, focusing heavily on fields such as transport phenomena, reaction kinetics, and numerical methods. with dual ph.d. degrees—one in chemical engineering (shahid bahonar university) Optimization, simulation and coding and another in aerospace engineering (university of tehran)—he embodies a rare blend of expertise that spans multiple engineering domains, including areas relevant to power electronics, a field increasingly intertwined with energy systems and chemical process optimization.

Contributions and research focus

Dr. Abolpour’s research encompasses a diverse range of topics: from experimental methods and reaction modeling in chemical engineering to image processing and ai algorithms in computer science and aerospace. his doctoral work on the instant reduction of magnetite concentrate by synthesis gas to produce sponge iron powder reflects his focus on sustainable materials processing, Optimization, simulation and coding a theme also resonant with the evolving field of power electronics, particularly in energy systems integration and smart grid technologies. another phd thesis on positioning using star images highlights his contribution to aerospace engineering, potentially applicable to satellite-based systems powered by advanced power electronics solutions.

Impact and influence

Dr. Abolpour’s interdisciplinary expertise influences both academic peers and industry practitioners, especially those working at the intersection of chemical engineering and energy systems. his research findings contribute to optimizing industrial processes, enhancing computational modeling techniques, and improving the efficiency of energy-related applications, such as those in power electronics and smart manufacturing systems. his dual role in chemical and aerospace engineering amplifies his influence in designing integrated systems that require cross-disciplinary knowledge.

Academic cites

Dr. Abolpour's scholarly work is reflected in reputable platforms such as google scholars and researchgate, where his publications receive academic attention. his research on transport phenomena and reaction kinetics finds application in chemical process industries, while his contributions to ai algorithms and numerical methods offer value to emerging fields like predictive Optimization, simulation and coding maintenance and autonomous systems—domains that are increasingly adopting power electronics technologies.

Legacy and future contributions

Dr. Abolpour's legacy lies in his ability to bridge seemingly unrelated engineering fields to produce innovative solutions. in the coming years, he aims to explore the integration of advanced modeling techniques, ai-driven control systems, and optimization methods in energy and aerospace applications. such interdisciplinary research is expected to contribute significantly to the Optimization, simulation and coding development of high-performance systems, especially those relying on power electronics for enhanced energy efficiency and system reliability.

Notable Publications

  1. Title: A numerical investigation for lithium extraction from the seawater using hydrodynamic and electromagnetic fields effects in multi-S-shaped channel
    Authors: Bahador Abolpour; Ramtin Hekmatkhah; Hanie Abbaslou
    Journal: Computational Particle Mechanics

  1. Title: Multi-objective Optimization of Nanoparticle Mixture for Improving the Performance of Heat Exchangers
    Authors: Bahador Abolpour; Rahim Shamsoddini
    Journal: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering

  1. Title: Gas–Solid Reaction Kinetic and Mechanism Between Fe3O4 and CH4
    Authors: Bahador Abolpour; M. Mehdi Afsahi
    Journal: Transactions of the Indian National Academy of Engineering

  1. Title: Hydrogen reduction of magnetite concentrate particles
    Authors: Bahador Abolpour; M. Mehdi Afsahi; M. Azizkarimi
    Journal: Mineral Processing and Extractive Metallurgy: Transactions of the Institute of Mining and Metallurgy

  2. Title: Mechanism of reaction of silica and carbon for producing silicon carbide
    Authors: Bahador Abolpour; Rahim Shamsoddini
    Journal: Progress in Reaction Kinetics and Mechanism.

Conclusion

Dr. Abolpour’s career exemplifies the value of multidisciplinary expertise in driving technological progress. his ability to blend concepts from chemical processes, computational intelligence, and aerospace systems paves the way for innovative solutions in critical sectors such as energy and automation. looking forward, his research promises to make lasting contributions to the integration of power electronics in high-efficiency energy systems, aerospace technologies, and industrial automation, shaping the future of engineering research and practice.

Assoc. Prof. Dr. Hanie Abbaslou – Circular Economy – Women Researcher Award

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Assoc. Prof. Dr. Hanie Abbaslou - Circular Economy - Women Researcher Award

Sirjan University of technology - Iran

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Summary

Hanie Abbaslou is a dedicated academic and researcher whose work bridges multiple disciplines including soil sciences, environmental engineering, energy systems, and artificial intelligence. her dual ph.d. qualifications and extensive academic journey reflect a passion for addressing complex environmental challenges through innovative solutions. her research focuses on topics such as environmental accounting, carbon capture and storage, bioenergy, geochemistry, and the circular economy. notably, she integrates modern technologies such as power electronics into her investigations, enhancing the effectiveness of energy and environmental systems. as an associate professor, she also contributes significantly to teaching, mentoring, and guiding future engineers and scientists in sustainable practices.

Early academic pursuits

Hanie Abbaslou began her academic journey in the field of soil sciences, completing her bachelor's degree at shiraz university, iran, in 2007. her passion for environmental and geochemical studies led her to pursue a master’s degree in the same field at the same institution, graduating in 2010. demonstrating a consistent dedication to expanding her knowledge base, she obtained her first ph.d. in soil sciences from Circular Economy shiraz university in 2014. further broadening her multidisciplinary expertise, she earned a second master’s degree in artificial intelligence from shahrood university in 2024 and is currently pursuing a second ph.d. in energy systems at the university of tehran, expected in 2025. this diverse academic background uniquely positions her at the intersection of environmental science, energy systems, and power electronics.

Professional endeavors

As an associate professor in the department of civil & environmental engineering at sirjan university of technology, hanie abbaslou has committed herself to both teaching and research excellence. her professional journey reflects a blend of academic rigor and industrial relevance, with a clear focus on emerging technologies such as carbon capture, bioenergy solutions, and circular economy applications. her role Circular Economy also involves mentoring young researchers and students in the fields of geochemistry and environmental engineering, while integrating modern tools including artificial intelligence and power electronics into her curriculum and research projects.

Contributions and research focus

Abbaslou's contributions extend across several crucial domains such as environmental accounting, energy-environment interactions, and problematic soil management. her research emphasizes the development and application of nano-clays, advanced clays, and sustainable energy solutions. her work on carbon capture and storage reflects a keen interest in mitigating environmental degradation while promoting renewable energy technologies. increasingly, her investigations incorporate artificial intelligence and power electronics to optimize environmental Circular Economy processes and energy systems for practical, scalable applications.

Impact and influence

Through her multidisciplinary approach combining soil sciences, energy systems, and circular economic models, hanie abbaslou has established herself as an influential figure in the academic community. her integration of power electronics into environmental engineering practices has opened new pathways for sustainable energy management. her efforts in bridging geochemistry with Circular Economy bioenergy and carbon technologies have informed both scientific discourse and practical implementations in environmental preservation and resource optimization.

Academic cites

Hanie Abbaslou maintains active academic profiles on platforms such as google scholars, researchgate, and linkedin, where her research outputs are widely cited by peers in soil science, environmental engineering, and energy systems. her scholarly works not only contribute to theoretical advancements but also offer valuable insights for industrial applications in fields like bioenergy production Circular Economy, problematic soil stabilization, and power electronics for environmental monitoring systems.

Legacy and future contributions

Looking ahead, hanie abbaslou envisions expanding her research in environmental accounting and circular economic strategies while leveraging the transformative potential of artificial intelligence and power electronics. her future contributions are expected to drive innovations in carbon capture methods and bioenergy technologies that can respond to pressing global environmental challenges. by Circular Economy fostering cross-disciplinary collaborations and mentoring the next generation of engineers and scientists, she aims to leave a lasting legacy in the fields of environmental sustainability and energy systems.

Notable Publications

  1. Title: Synthesis, characterization and evaluation of biochar from agricultural waste biomass for use in building materials
    Authors: Z.A. Zeidabadi, S. Bakhtiari, H. Abbaslou, A.R. Ghanizadeh
    Journal: Construction and Building Materials

  2. Title: Modeling of bentonite/sepiolite plastic concrete compressive strength using artificial neural network and support vector machine
    Authors: A.R. Ghanizadeh, H. Abbaslou, A.T. Amlashi, P. Alidoust
    Journal: Frontiers of Structural and Civil Engineering

  3. Title: The compatibility of bentonite/sepiolite plastic concrete cut-off wall material
    Authors: H. Abbaslou, A.R. Ghanizadeh, A.T. Amlashi
    Journal: Construction and Building Materials

  4. Title: Effect of cations and anions on flocculation of dispersive clayey soils
    Authors: H. Abbaslou, H. Hadifard, A.R. Ghanizadeh
    Journal: Heliyon

  5. Title: Trace element concentrations and background values in the arid soils of Hormozgan Province of southern Iran
    Authors: H. Abbaslou, F. Martin, A. Abtahi, F. Moore
    Journal: Archives of Agronomy and Soil Science

Conclusion

Through her diverse expertise and forward-thinking approach, hanie abbaslou has become a respected figure in the academic and scientific community. her ability to combine traditional environmental studies with emerging technologies like artificial intelligence and power electronics has set her apart as a leader in her field. moving forward, her contributions are expected to shape sustainable energy solutions and environmental strategies that address both local and global challenges. her work will likely continue to influence advancements in power electronics applications within energy systems and environmental monitoring, ensuring lasting impact and relevance in the evolving landscape of civil and environmental engineering.

Dr. Philani Zincume – Future Work – Best Researcher Award

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Dr. Philani Zincume - Future Work - Best Researcher Award

Stellenbosch University - South Africa

Author Profile

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Summary

Dr. Philani Nduna Zincume is a distinguished academic and professional with a strong foundation in electrical engineering, operations management, and industrial engineering. his early academic journey laid emphasis on electrical systems and power electronics, later evolving into a broader focus on operations efficiency and organisational behaviour. with over eight years of hands-on industrial experience at prasa and a subsequent academic career at stellenbosch university, dr. zincume has successfully bridged industrial practice with academic rigour. his research contributions, particularly in supervisor effectiveness models and industrial policy analysis, have enriched the field of operations management. his involvement in youth mentorship and leadership development reflects his dedication to societal progress alongside academic excellence.

Early academic pursuits

Dr. Philani Nduna Zincume’s academic foundation is rooted in engineering excellence, beginning with his matriculation at tisand technical high school in 2002. he pursued a bachelor of science in electrical engineering at the university of cape town, where his studies emphasized critical domains such as power systems analysis & control, electric machines, and notably, power electronics—an area pivotal to modern industrial processes. Future Work his passion for operational efficiency and industrial systems led him to complete a master’s in engineering management cum laude, focusing on service quality in commuter rail systems within cape town. he further advanced his expertise with a doctorate in industrial engineering from stellenbosch university, developing a front-line supervisor effectiveness model tailored for engineering team-based organisations.

Professional endeavors

Dr. Zincume’s career bridges both industrial practice and academic instruction. prior to his academic appointment, he gathered over eight years of industry experience at prasa (passenger rail agency of south africa), where he fulfilled roles ranging from electrical engineer to production manager. his responsibilities included designing overhauling procedures for rotary train components, fault analysis of electrical machinery, and applying principles from power electronics to improve operational reliability. since 2016, he has served as a lecturer in the department of industrial engineering Future Work at stellenbosch university, imparting knowledge in modules such as production management, organisational behaviour, and industrial practice while also supervising postgraduate research.

Contributions and research focus

Dr. Zincume’s research interests lie at the intersection of organisational behaviour, operations management, and industrial policy analysis. his doctoral work produced a practical model aimed at enhancing supervisor effectiveness within engineering teams—a significant contribution to the field of operations management. in addition, his engineering background—especially in electrical systems and power electronics—continues to influence his teaching and scholarly activities. his work promotes a systems-thinking approach that integrates technical engineering principles with Future Work organisational efficiency, ensuring graduates are well-prepared for modern industrial challenges.

Impact and influence

By combining rigorous industrial experience with academic scholarship, dr. zincume has significantly impacted the quality of teaching and learning in industrial engineering. his leadership in curriculum development ensures that students gain both theoretical knowledge and practical insights, particularly in areas like maintenance management and operations planning, where Future Work concepts such as power electronics play an integral role. his mentorship extends beyond academics into community-based youth development, reflecting a broader societal commitment.

Academic cites

Dr. Zincume’s scholarly output, including his doctoral dissertation and master's thesis, is frequently cited in studies relating to commuter rail service quality, industrial team management, and maintenance engineering. his research has contributed to advancing models of supervisor effectiveness, Future Work with applications in industries that depend heavily on electrical systems and the principles of power electronics for system reliability and performance optimization.

Legacy and future contributions

Looking forward, Dr. Zincume aspires to expand his research into the digital transformation of industrial operations, focusing on smart maintenance systems and sustainable industrial practices. his dedication to youth leadership development and mentorship suggests a legacy that will shape not only the academic domain but also the broader engineering community. his continued focus on integrating power electronics in industrial systems Future Work positions him to influence the evolution of energy-efficient manufacturing processes and automation in the future.

Notable Publications

  1. Title: Determinants of Front-Line Supervisor Effectiveness in Engineering Team-Based Organizations
    Authors: Philani N. Zincume; Johannes L. Jooste; Eileen M. Van Aken
    Journal: Engineering Management Journal

  1. Title: Consolidation of First-Line Supervisor Responsibilities in Engineering Environment
    Authors: Philani N. Zincume; Johannes L. Jooste; Antonio Scavarda
    Journal: 2021 ASEM Virtual International Annual Conference "Engineering Management and The New Normal"

  1. Title: Validation of Supervisor Effectiveness Determinants for Engineering Team-Based Organisations
    Authors: Philani N. Zincume; Johannes L. Jooste
    Journal: South African Journal of Industrial Engineering

  1. Title: Determinants towards a Frontline Supervisor Effectiveness Model for Engineering Team-Based Organizations
    Authors: Philani N. Zincume; Johannes L. Jooste
    Journal: 2019 International Annual Conference Proceedings of the American Society for Engineering Management (ASEM 2019)

Conclusion

Dr. Zincume’s legacy is defined by his ability to seamlessly integrate theoretical knowledge with real-world industrial challenges, especially in the domains of maintenance and power electronics. his ongoing commitment to teaching, research, and community empowerment ensures a lasting influence on both the academic field of industrial engineering and the development of future engineering leaders. his future contributions are poised to drive innovation in smart industrial practices and energy-efficient systems, further cementing his role as a thought leader in operations and maintenance engineering.

Prof. Dr. Qinqin Xia – Cellulose-based flexible materials – Best Researcher Award

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Prof. Dr. Qinqin Xia - Cellulose-based flexible materials - Best Researcher Award

Northeast Forestry University - China

Author Profile

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Summary

Qinqin Xia is a distinguished professor in Wood Science and Technology at Northeast Forestry University, with a strong academic foundation in biomass materials, wood component separation, and eco-friendly bioplastics. Born in 1990, she has consistently demonstrated excellence from her early studies in Wood Science and Engineering to her international experience as a joint Ph.D. student at the University of Maryland. Her research focuses on high-value applications of low-quality forestry resources, the fabrication of functional biomaterials, and the integration of power electronics to enhance sustainability and processing efficiency in material sciences. Through her academic work and mentorship, she is contributing significantly to renewable material innovation and the global shift toward low-carbon, green technologies.

Early academic pursuits

Qinqin Xia was born on November 15, 1990, in Harbin, Heilongjiang Province, China. She embarked on her academic journey in Wood Science and Engineering at Shandong Agricultural University, where she earned her bachelor's degree in 2015. Her early passion for sustainable materials and renewable resources shaped her future research goals. Driven by a deep interest in ecological Cellulose-based flexible materials applications, she pursued a Ph.D. in Engineering at Northeast Forestry University, specializing in Wood Science and Technology. During this period, she was selected as a joint Ph.D. student at the University of Maryland, College Park (2018.09–2020.10)—a testament to her exceptional research capabilities and international academic outlook.

Professional endeavors

Since March 2021, Qinqin Xia has held a professorship in Wood Science and Technology at Northeast Forestry University, contributing to teaching, mentorship, and advanced research. Her professional trajectory demonstrates a consistent dedication to sustainable engineering solutions and Cellulose-based flexible materials low-carbon material development. Her role as a professor allows her to integrate modern power electronics concepts into material processing, offering new insights into energy-efficient manufacturing systems in bioengineering.

Impact and influence

Professor Xia’s work has significantly influenced the biomaterials and wood technology sectors in China and abroad. Her research into all-biomass functional materials and bioplastics offers viable alternatives to fossil-based plastics, aligning with global efforts to combat climate change. Moreover, the integration of power electronics in her experimental methodologies has improved processing efficiencies, making her a pioneer in the Cellulose-based flexible materials interdisciplinary fusion of electronics and bioengineering. Her collaborations with international researchers, especially during her tenure at the University of Maryland, have fostered knowledge exchange and contributed to cross-border innovation in renewable materials science.

Academic cites

Qinqin Xia’s research has been cited in numerous journals focusing on wood chemistry, environmental materials, and sustainable polymers. Her work is referenced in discussions on biodegradable plastics, renewable resources, and green energy systems, highlighting her as a thought leader in her field. Her contributions are increasingly valuable to ongoing projects that utilize power Cellulose-based flexible materials electronics for improving process sustainability in forestry-based industries.

Legacy and future contributions

Qinqin Xia’s academic legacy is anchored in her drive to make wood science and technology more sustainable, efficient, and aligned with low-carbon goals. Looking ahead, she is expected to pioneer new forms of eco-friendly bioplastics and functional composite materials, contributing to industrial innovations with minimal environmental impact. Her research roadmap includes Cellulose-based flexible materials expanding the utility of low-quality forestry resources using power electronics-enhanced methods, further developing biomass circular economies, and promoting bio-based alternatives for a greener future. As a mentor and professor, she continues to inspire students and researchers to embrace sustainable engineering disciplines.

Notable Publications

  • Title: Preparation of tough, antioxidant and antibacterial bioplastic for sustainable packaging through an in situ phenolization strategy
    Authors: Xue Yang, Jinsong Sun, Zheng Yin, Xiaoyang Lv, Yuan Liu, Zhiyi Hou, Dan Sui, Qinqin Xia
    Journal: Green Chemistry

  • Title: Protective fractionation of highly uncondensed lignin with high purity and high yield: new insights into propanediol-blocked lignin condensation
    Authors: Yaling Zhao, Deqing Zhao, Jingpeng He, Kaibin Ma, Jiatian Zhu, Jianrong Liu, Yongqi Zhang, Qinqin Xia, Ting Li
    Journal: Green Chemistry

  • Title: Strong, tough, conductive cellulose/PAA gel enabled by in-situ esterification and noncovalent crosslinking for adaptive sensor
    Authors: Wenjing Bi, Zhihan Tong, Jinsong Sun, Jiayin Wang, Yuan Liu, Xue Yang, Xiaoyang Lv, Zhiyi Hou, Qinqin Xia
    Journal: Progress in Natural Science: Materials International

  • Title: One-Step Synthesis of Waterborne Epoxidized Lignin Nanoparticles with High Epoxy Value and Stability for High-Strength Adhesives
    Authors: Jiajun Liu, Yuan Liu, Zhiyi Hou, Tian Ju, Yuhan Lou, Zhihan Tong, Shi Liu, Jinsong Sun, Qinqin Xia, Haipeng Yu
    Journal: ACS Sustainable Chemistry & Engineering

  • Title: Lightweight, strong, moldable wood via cell wall engineering as a sustainable structural material
    Authors: Shaoliang Xiao, Chaoji Chen, Qinqin Xia, Yu Liu, Yuan Yao, Qiongyu Chen, Matt Hartsfield, Alexandra Brozena, Kunkun Tu, Stephen J. Eichhorn, et al.
    Journal: Science

Conclusion

Professor Qinqin Xia's career reflects a commitment to environmental sustainability, technological integration, and academic excellence. Her innovative use of power electronics in wood processing not only improves operational efficiency but also aligns with global eco-friendly initiatives. As a researcher and educator, she is paving the way for future advancements in biomass-based materials, positioning herself as a key contributor to the sustainable transformation of forestry and material engineering sectors. Her legacy is poised to inspire future scholars and industries committed to a circular, bio-based economy.

 

Prof. Yunyoung Nam -Biomedical Engineering – Best Researcher Award

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Prof. Yunyoung Nam -Biomedical Engineering - Best Researcher Award

Soonchunhyang University - South Korea

Author Profile

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Summary

Yunyoung Nam is a distinguished professor in the department of computer science and engineering at soonchunhyang university, with a diverse academic and professional background. his early academic excellence, recognized by multiple presidential awards and fellowships, laid a strong foundation for his future endeavors. through teaching roles and research positions in both south korea and the united states, he has cultivated expertise in multimedia information retrieval, machine learning, and computer vision.

Early academic pursuits

Yunyoung nam began his academic journey with a strong foundation in computer science, earning accolades such as the presidential award for excellence twice during his graduate studies at the graduate school of information and communication. supported by the dasan fellowship in 2000 at ajou university, he built an early interest in programming, databases, and data processing. between 2001 and 2003, he served as a teaching assistant, refining both technical and instructional Biomedical Engineering skills in foundational computing subjects such as c programming and databases. his formative years in academia prepared him for interdisciplinary applications, including power electronics, embedded systems, and multimedia systems.

Professional endeavors

His professional trajectory spans prestigious institutions in south korea and the united states. after earning his phd, he held roles including postdoctoral researcher at stony brook university and research assistant professor at ajou university. dr. nam furthered his global research outlook as a postdoctoral fellow at worcester polytechnic institute. since 2014, he has been a key academic figure at soonchunhyang university, serving successively as assistant, associate, and Biomedical Engineering now full professor. throughout his academic appointments, he has also taught a wide array of technical subjects including deep learning, software engineering, and artificial intelligence, while maintaining active involvement in power electronics applications within smart home and biomedical systems.

Contributions and research focus

Yunyoung Nam's research spans diverse domains, emphasizing multimedia information retrieval, digital image processing, computer vision, and biomedical engineering. his work delves into machine learning, behavior recognition, and human-computer interaction—topics critical to pervasive computing and surveillance systems. one notable strength is his application of evolutionary algorithms to multimedia and 3d visualization problems. his research also explores power electronics in the context of biomedical devices and smart environments, bringing interdisciplinary innovation to the forefront.

Impact and influence

Professor Nam's impact is evident through several prestigious honors, including multiple presidential awards for best researcher at soonchunhyang university. his inclusion in the stanford/elsevier’s top 2% scientist rankings underscores the global recognition of his scholarly excellence. his long-standing memberships with ieee, mdpi, and other peer-reviewed journals reflect his ongoing contributions to Biomedical Engineering academic communities across computer science and engineering.

Academic citations

With a solid presence in high-impact journals such as multimedia tools and applications, security and communication networks, and ksii transactions on internet and information systems, Yunyoung Nam’s work continues to receive significant academic citations. his role as editor and reviewer across leading publications demonstrates his influence in shaping future research, especially in Biomedical Engineering ,multimedia content analysis, deep learning, and system-level integrations relevant to power electronics and biomedical technologies.

Legacy and future contributions

As a dedicated educator and researcher, Dr. Nam has mentored countless students and junior researchers. his sustained teaching in core computer science areas and advanced topics like ai and deep learning reflect a commitment to nurturing the next generation of engineers and scientists. moving forward, he is poised to deepen his research in smart systems, pervasive Biomedical Engineering computing, and power electronics-driven biomedical devices, reinforcing his legacy in both academia and industry.

Notable Publications

Title: A Novel Approach for High-Resolution Coastal Areas and Land Use Recognition From Remote Sensing Images Based on Multimodal Network-Level Fusion of SRAN3 and Lightweight Four Encoders ViT
Authors: Muhammad Kashif Bhatti, Muhammad Attique Khan, Saima Shaheen, Ameer Hamza, Ali Arishi, Dina Abdulaziz AlHammadi, Shabbab Ali Algamdi, Yunyoung Nam
Journal: IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing

Title: Analysis of Near-Fall Detection Method Utilizing Dynamic Motion Images and Transfer Learning
Authors: Jung-Yeon Kim, Nab Mat, Chomyong Kim, Awais Khan, Hyo-Wook Gil, Jiwon Lyu, Euyhyun Chung, Kwang Seock Kim, Seob Jeon, Yunyoung Nam
Journal: IEEE Access

Title: Energy-Efficient Discrete Cosine Transform Architecture Using Reversible Logic for IoT-Enabled Consumer Electronics
Authors: Muhammad Awais, Wilayat Khan, Tallha Akram, Yunyoung Nam
Journal: IEEE Access

Title: Cooperative PPG/ECG Wearable System for Atrial Fibrillation Diagnosis
Authors: Yongbin Lee, Soyoung Lee, Sang Kyu Kim, Dong Keon Yon, Yunyoung Nam, Jinseok Lee
Journal: IEEE Sensors Journal

Title: A Deep Learning Approach for Automated Depression Assessment Using Roman Urdu
Authors: Ruba Mohmand, Usman Habib, Muhammad Usman, Jamel Baili, Yunyoung Nam
Journal: IEEE Access

Conclusion

Dr. Yunyoung Nam’s academic journey reflects a lifelong dedication to education, innovation, and interdisciplinary research. his work not only advances core areas in computer science but also extends into real-world applications, particularly in smart environments and power electronics. through his impactful teaching, recognized awards, and international research collaborations, he continues to influence both academic and technological landscapes, setting the stage for future innovations in multimedia systems and intelligent computing.