Che Ping Cheng | Translational Neuroscience | Best Researcher Award

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Prof. Che Ping Cheng | Translational Neuroscience | Best Researcher Award

Prof. Che Ping Cheng, Wake Forest University School of Medicine, United States.

Dr. Che Ping Cheng, M.D., Ph.D., FAHA, is a distinguished cardiovascular physiologist and internal medicine specialist whose career has been dedicated to advancing the understanding of heart function and failure. From earning his medical degree in China to completing a Ph.D. in Physiology at Wayne State University, and later conducting pivotal postdoctoral research at Wake Forest School of Medicine, Dr. Cheng has consistently pursued excellence in science and education. His research on ventricular mechanics, volume loading, and heart failure has significantly influenced both experimental cardiology and clinical practice. Recognized as a Fellow of the American Heart Association, he is also a dedicated mentor, shaping the next generation of cardiovascular researchers through his academic leadership.

Profile

Scopus

 

🎓 Early Academic Pursuits

Dr. Che Ping Cheng’s journey into medicine and science began in Nanjing, China, where he earned his M.D. degree from Nanjing Railway Medical University in 1977. His early academic path reflected a deep interest in understanding the intricacies of human health, particularly in cardiovascular physiology. Driven by a desire to expand his knowledge and research capabilities, Dr. Cheng pursued his Ph.D. in Physiology at Wayne State University School of Medicine in Detroit, Michigan, completing his degree in 1986. Under the mentorship of Dr. Robert S. Shepard, his doctoral work focused on exploring the mechanisms of cardiovascular response to volume loading in a canine model with tricuspid valvulectomy, setting a strong foundation for his lifelong focus on heart function and disease mechanisms.

🩺 Professional Endeavors

Following his academic training, Dr. Cheng embarked on postdoctoral studies at the Bowman Gray School of Medicine (now part of Wake Forest School of Medicine), where he continued to cultivate his expertise in internal medicine and cardiovascular physiology. Between 1986 and 1988, he served as a Postdoctoral Fellow under the guidance of Dr. William C. Little. His research during this period focused on ventricular dynamics and the physiological factors affecting active ventricular filling, which would later inform his broader work on heart failure and cardiac function. Dr. Cheng has since remained at Wake Forest School of Medicine, where he is currently a distinguished member of the Section on Cardiovascular Medicine.

🧪 Contributions and Research Focus

Dr. Cheng’s career has been characterized by a deep commitment to advancing the understanding of cardiac hemodynamics, ventricular interaction, and heart failure mechanisms. His research has explored how ventricular function responds under altered physiological states, and how these responses inform disease progression and treatment strategies. His early animal model studies have provided critical insights into the interplay between structural and functional changes in the heart, especially in the context of diastolic dysfunction and volume overload conditions. Dr. Cheng has also made significant strides in translating these findings to clinical contexts, influencing how cardiologists approach diagnosis and therapy.

🏅 Accolades and Recognition

Throughout his career, Dr. Cheng has received considerable recognition for his scholarly contributions. He is a Fellow of the American Heart Association (FAHA), an honor that reflects his standing in the field of cardiovascular research and his commitment to scientific excellence. His work has earned the respect of colleagues and institutions alike, leading to numerous invitations to contribute to collaborative projects, serve on peer-review panels, and mentor future generations of cardiovascular researchers.

🌍 Impact and Influence

Dr. Cheng’s work has had a lasting impact on both experimental and clinical cardiology. By elucidating the mechanistic basis of ventricular dysfunction, he has helped shift paradigms in heart failure management, particularly in the areas of ventricular interdependence and preload responsiveness. His research findings are frequently cited in textbooks and high-impact journals, and they continue to inform guidelines for cardiac care and interventions. Through his work at Wake Forest and beyond, Dr. Cheng has played a pivotal role in bridging laboratory discoveries with bedside applications.

👨‍🏫 Legacy and Mentorship

As a respected mentor and educator, Dr. Cheng has dedicated a significant portion of his career to training medical students, residents, and postdoctoral fellows. His mentorship has influenced numerous emerging scholars in cardiovascular medicine, many of whom have gone on to successful academic and clinical careers. His guidance combines a rigorous scientific approach with a deep sense of responsibility to patient care and scientific integrity, shaping a legacy that extends well beyond his own research output.

🔬 Future Contributions and Vision

Looking ahead, Dr. Cheng remains committed to the advancement of cardiovascular research, with a continued focus on uncovering the cellular and mechanical determinants of heart disease. His vision includes fostering collaborative projects that integrate biomedical engineering, imaging, and computational modeling to further understand cardiac performance. With decades of experience and a forward-thinking approach, Dr. Cheng’s future contributions are poised to leave a lasting mark on the field of translational cardiovascular medicine.

Publication

  1. Title: Increased CaMKII activation and contrast changes of cardiac β1-and β3-Adrenergic signaling pathways in a humanized angiotensinogen model of hypertension
    Authors: Sun, Xiaoqiang; Cao, Jing; Chen, Zhe; Ferrario, Carlos M.; Cheng, Cheping
    Year: 2023
    Journal: Heliyon

 

  1. Title: Calmodulin-dependent protein kinase II activation promotes kidney mesangial expansion in streptozotocin-induced diabetic mice
    Authors: Mikhailov, Alexei V.; Liu, Yixi; Cheng, Hengjie; Lin, Jen Jar; Cheng, Cheping
    Year: 2022
    Journal: Heliyon

 

  1. Title: Chronic GPR30 agonist therapy causes restoration of normal cardiac functional performance in a male mouse model of progressive heart failure: Insights into cellular mechanisms
    Authors: Zhang, Xiaowei; Li, Tiankai; Cheng, Hengjie; Groban, Leanne; Cheng, Cheping
    Year: 2021
    Journal: Life Sciences

 

  1. Title: Chronic Ca2+/calmodulin-dependent protein Kinase II inhibition rescues advanced heart failure
    Authors: Liu, Yixi; Shao, Qun; Cheng, Hengjie; Zhao, David Xiao Ming; Cheng, Cheping
    Year: 2021
    Journal: Journal of Pharmacology and Experimental Therapeutics

 

  1. Title: The Angiotensin-(1–12)/Chymase axis as an alternate component of the tissue renin angiotensin system
    Authors: Ferrario, Carlos M.; Groban, Leanne; Wang, Hao; Sun, Xuming; Ahmad, Sarfaraz
    Year: 2021
    Journal: Molecular and Cellular Endocrinology

 

  1. Title: Reversal of angiotensin-(1–12)-caused positive modulation on left ventricular contractile performance in heart failure: Assessment by pressure-volume analysis
    Authors: Li, Tiankai; Zhang, Zhi; Zhang, Xiaowei; Ferrario, Carlos M.; Cheng, Cheping
    Year: 2020
    Journal: International Journal of Cardiology

 

  1. Title: Female Heart Health: Is GPER the Missing Link?
    Authors: Groban, Leanne; Tran, Q. K.; Ferrario, Carlos M.; Wang, Hao; Lindsey, Sarah H.
    Year: (Not specified, but likely 2020 or 2021)
    Journal: (Not specified)

 

🏁 Conclusion

Dr. Cheng’s legacy is one of intellectual rigor, clinical relevance, and mentorship. His work has not only deepened the scientific understanding of cardiac physiology but has also shaped modern approaches to diagnosing and managing heart failure. With a career spanning continents and disciplines, Dr. Cheng continues to be a guiding force in cardiovascular medicine, and his future contributions are anticipated to further advance the frontiers of heart research and patient care.

 

Jiwei Nie | Emerging Areas in Neuroscience | Best Researcher Award

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Dr. Jiwei Nie | Emerging Areas in Neuroscience | Best Researcher Award

Dr. Jiwei Nie, Haier Group, China.

Jiwei Nie is an accomplished Chinese researcher specializing in Artificial Intelligence-based Pattern Recognition and Intelligent Detection, with a strong focus on AI large models. His academic journey began with a Bachelor’s in Mechanical Design and Automation and evolved into a deeply integrated path through a Master’s and Ph.D. in Control Science and Engineering at Northeastern University. Throughout his doctoral research, he has made notable contributions to the field of Visual Place Recognition (VPR) for autonomous systems, publishing in prestigious journals such as IEEE Transactions on Intelligent Transportation Systems and IEEE Robotics and Automation Letters. Jiwei’s innovations—especially in lightweight, training-free image descriptors and adaptive texture fusion—have positioned him at the forefront of applied AI in robotics and automation. He has also presented at major international conferences and holds multiple patents.

Profile

Google Scholar

🎓 Early Academic Pursuits

 Jiwei Nie displayed a deep interest in engineering and innovation from an early age. His academic journey began at Hebei University of Science and Technology, where he pursued a Bachelor’s degree in Mechanical Design, Manufacturing, and Automation. His strong academic performance earned him first-class honors, and he graduated in July 2018. Motivated to delve deeper into the fusion of machinery and intelligence, he advanced to Northeastern University, completing his Master’s degree in Mechanical and Electronic Engineering by July 2020. Driven by a vision to integrate control systems with intelligent technologies, he enrolled in a PhD program in Control Science and Engineering under a prestigious Integrated Master-PhD track, further solidifying his expertise in the intelligent automation domain.

💼 Professional Endeavors

Jiwei’s professional development has been tightly interwoven with his academic path, where he has continuously applied theoretical insights to practical problems in Artificial Intelligence and Control Systems. As a member of the Communist Party of China, he approaches his work with a strong sense of discipline and public responsibility. His fluency in English, proven by his CET-6 certification, has enabled him to actively contribute to the global research community, engaging in international collaborations and conferences. Alongside his research, Jiwei has contributed to academic circles through mentorship roles and cross-institutional projects, making a significant impact both inside and outside his university.

🤖 Contributions and Research Focus

Jiwei Nie’s research is at the forefront of Artificial Intelligence-based Pattern Recognition and Intelligent Detection, with a special emphasis on AI Large Models. His work focuses on developing lightweight, efficient algorithms for Visual Place Recognition (VPR)—a critical capability for autonomous vehicles and robotic systems. He has pioneered new methods in saliency encoding, feature mixing, and texture fusion, leading to more robust and adaptive AI systems. Through these contributions, he has addressed real-world challenges in long-term navigation and intelligent perception, pushing the boundaries of control science and machine intelligence.

🏆 Accolades and Recognition

During his PhD, Jiwei published multiple high-impact articles in leading SCI-indexed journals. His paper in the IEEE Transactions on Intelligent Transportation Systems, titled “A Training-Free, Lightweight Global Image Descriptor for Long-Term Visual Place Recognition Toward Autonomous Vehicles”, has been particularly well-received and is ranked in Q1. Additional works in IEEE Robotics and Automation Letters have been ranked in Q2, highlighting his innovations such as MixVPR++ and Efficient Saliency Encoding. Furthermore, Jiwei’s presence has been notable at world-class conferences like ICPR, ICRA, and IROS, where he presented his work to a global audience of peers and experts. He also holds several patents, including an invention patent, and continues to submit further manuscripts to top-tier venues.

🌍 Impact and Influence

Jiwei’s research has had a significant influence on the future of intelligent transportation and autonomous systems. His development of training-free VPR models has contributed to making autonomous navigation more scalable and cost-effective, especially in dynamic environments where traditional AI systems fail. His proposed methods are not only academically rigorous but are also computationally efficient, paving the way for real-world deployment. Through his innovation and academic collaborations, he has helped bridge the gap between theoretical AI models and practical engineering applications, which is vital for industries moving toward Industry 4.0 and smart mobility solutions.

🧠 Legacy and Future Contributions

Looking ahead, Jiwei Nie aspires to deepen his research in generalized large AI models, expanding the scalability and generalization abilities of pattern recognition systems across domains beyond transportation—such as smart surveillance, industrial robotics, and medical imaging. His planned future publications and continued patent filings reflect a strong ambition to lead the next generation of intelligent systems research. Jiwei is committed to fostering innovation that aligns with both academic excellence and societal needs, aiming to establish himself as a pioneering researcher and mentor in the evolving field of intelligent detection and AI integration.

🔬 Vision in AI and Control Engineering

Jiwei Nie stands as a rising expert in the convergence of Artificial Intelligence, Control Science, and Robotic Vision, a field essential for the future of smart systems and automation. His deep technical knowledge, coupled with a strategic vision, positions him to contribute not only as a researcher but also as a thought leader in AI-driven engineering. With a career rooted in innovation and societal benefit, his trajectory points toward a legacy of breakthroughs that will influence smart cities, autonomous systems, and global AI research landscapes for years to come.

Publication

  • Title: A survey of extrinsic parameters calibration techniques for autonomous devices
    Authors: J Nie, F Pan, D Xue, L Luo
    Year: 2021

 

  • Title: A training-free, lightweight global image descriptor for long-term visual place recognition toward autonomous vehicles
    Authors: J Nie, JM Feng, D Xue, F Pan, W Liu, J Hu, S Cheng
    Year: 2023

 

  • Title: Forest: A lightweight semantic image descriptor for robust visual place recognition
    Authors: P Hou, J Chen, J Nie, Y Liu, J Zhao
    Year: 2022

 

  • Title: A novel image descriptor with aggregated semantic skeleton representation for long-term visual place recognition
    Authors: J Nie, JM Feng, D Xue, F Pan, W Liu, J Hu, S Cheng
    Year: 2022

 

  • Title: Efficient saliency encoding for visual place recognition: Introducing the lightweight pooling-centric saliency-aware VPR method
    Authors: J Nie, D Xue, F Pan, Z Ning, W Liu, J Hu, S Cheng
    Year: 2024

 

  • Title: 3D semantic scene completion and occupancy prediction for autonomous driving: A survey
    Authors: G Xu, W Liu, Z Ning, Q Zhao, S Cheng, J Nie
    Year: 2023

 

  • Title: A Novel Image Descriptor with Aggregated Semantic Skeleton Representation for Long-term Visual Place Recognition
    Authors: N Jiwei, F Joe-Mei, X Dingyu, P Feng, L Wei, H Jun, C Shuai
    Year: 2022

 

  • Title: Optic Disc and Fovea Localization based on Anatomical Constraints and Heatmaps Regression
    Authors: L Luo, F Pan, D Xue, X Feng, J Nie
    Year: 2021

 

  • Title: A Novel Fractional-Order Discrete Grey Model with Initial Condition Optimization and Its Application
    Authors: Y Liu, F Pan, D Xue, J Nie
    Year: 2021

 

  • Title: EPSA-VPR: A lightweight visual place recognition method with an Efficient Patch Saliency-weighted Aggregator
    Authors: J Nie, Q Zhào, D Xue, F Pan, W Liu
    Year: 2025

 

🔚 Conclusion

With a solid foundation in engineering and control systems and an innovative mindset in artificial intelligence, Jiwei Nie is poised to become a key figure in the evolution of intelligent automation technologies. His work contributes not only to academic theory but also to practical applications that influence the development of autonomous vehicles, intelligent detection systems, and large AI model architectures. As he approaches the completion of his Ph.D. in early 2025, Jiwei is expected to continue pushing technological boundaries, inspiring future advancements in AI research and real-world intelligent systems deployment.

Jun Liu | Neuroimaging | Best Researcher Award

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Prof.Dr. Jun Liu | Neuroimaging | Best Researcher Award

Prof. Dr. Jun Liu,  Department of Radiology, Second Xiangya Hospital of Central South University, China.

Professor Jun Liu is a highly accomplished radiologist and academic leader, serving as the Chief Radiologist and Director of the Radiology Department at the Second Xiangya Hospital, Central South University. With a strong foundation in medical sciences and an early passion for radiology, he has emerged as a national figure in neuroimaging and neuroregeneration research. His professional journey is marked by impactful roles in academic mentorship, hospital administration, and national medical organizations. His research excellence is evident through his leadership in multiple prestigious committees and his contributions to scientific review and innovation. Recognized by both government and medical associations, Professor Liu is a decorated figure, celebrated for his medical service during COVID-19 and his scientific leadership in Hunan Province and beyond.

Profile

Orcid 

Scopus

 

Professor Jun Liu is a highly accomplished radiologist and academic leader, serving as the Chief Radiologist and Director of the Radiology Department at the Second Xiangya Hospital, Central South University. With a strong foundation in medical sciences and an early passion for radiology, he has emerged as a national figure in neuroimaging and neuroregeneration research. His professional journey is marked by impactful roles in academic mentorship, hospital administration, and national medical organizations. His research excellence is evident through his leadership in multiple prestigious committees and his contributions to scientific review and innovation. Recognized by both government and medical associations, Professor Liu is a decorated figure, celebrated for his medical service during COVID-19 and his scientific leadership in Hunan Province and beyond.

Profile

Orcid
Scopus

 

🎓 Early Academic Pursuits


From the very beginning of his academic journey, Professor Jun Liu demonstrated exceptional dedication to the medical sciences. He earned his M.D. and laid a solid foundation in radiology, developing a keen interest in diagnostic imaging and neurological disorders. His academic commitment and intellectual curiosity propelled him toward advanced studies and laid the groundwork for a distinguished career in radiology. As a student and early-career academic, he was recognized for his strong analytical skills and leadership potential, setting the stage for the impactful roles he would later assume in both clinical and academic spheres.

🏥 Professional Endeavors


Professor Jun Liu currently serves as the Chief Radiologist and Director of the Radiology Department at the prestigious Second Xiangya Hospital of Central South University. In this role, he oversees cutting-edge radiological practices while also guiding clinical decision-making with expertise and precision. As a Doctoral Supervisor and Professor, he mentors a new generation of radiologists, integrating academic knowledge with clinical excellence. His influence also extends into organizational leadership as the Secretary of the First Party Branch, showcasing his commitment to institutional development and medical governance.

🔬 Contributions and Research Focus


A pivotal force in radiology, Professor Liu has devoted much of his research to neuroimaging and neuroregeneration. His work as the headman of the Neuroregeneration and Neuroimaging Group under the Chinese Research Hospital Association reflects his influence in shaping national research priorities. As a peer review expert for the National Natural Science Foundation of China, he contributes to the advancement of scientific standards and research integrity. His projects often intersect clinical imaging with neuroscience, allowing for better diagnosis and understanding of neurological diseases.

🏅 Accolades and Recognition


Professor Liu’s contributions have earned him numerous national honors. Notably, he was awarded the Advanced Individual against COVID-19 by the Ministry of Science and Technology of the People’s Republic of China, acknowledging his dedication during a critical period in global health. He received the Outstanding Style Award at the 5th People’s Famous Doctor Ceremony, and has been recognized as a leading talent in the Science and Technology Innovation Program of Hunan Province. His role as leader of 225 subjects in the province showcases his broad expertise and leadership in medical research and education.

🌐 Impact and Influence


Nationally, Professor Liu plays a vital role in shaping radiological standards and neurology practices. As a member of the Neurology Group under the Chinese Society of Radiology and the Chinese Medical Association, his insights influence nationwide healthcare policies and training programs. In Hunan, he is the Director of the Diagnostic Radiology Quality Control Center and President of the Radiologists Branch of the Hunan Medical Doctor Association, where he continues to elevate diagnostic standards and ensure quality in radiological services.

🚀 Innovation and Leadership


Professor Liu stands as a prime example of a “Double Leaders” Party Branch Secretary, a title awarded by the Ministry of Education, symbolizing excellence in both administrative and academic leadership. His involvement in technology-driven projects, particularly those that integrate AI and neuroimaging, highlights his forward-thinking approach to medical diagnostics. He champions the evolution of radiology into a more dynamic and precision-focused discipline, blending traditional expertise with technological innovations.

📘 Legacy and Future Contributions


As Professor Liu continues to mentor doctoral candidates and lead national research groups, his legacy is already visible in the improved radiological practices across China. His work in neuroregeneration and imaging not only enhances clinical outcomes but also pushes the boundaries of what medical imaging can achieve. In the years to come, his continued dedication to education, research, and innovation will undoubtedly shape the future of radiology and contribute to better neurological healthcare nationwide and beyond.

Publication

  • Title: Insulinoma detection on low-dose pancreatic CT perfusion: comparing with conventional contrast-enhanced CT and MRI
    Authors: S. Luo, X. Mei, Y. Shang, … W. Yang, J. Liu
    Year: 2025

 

  • Title: Functions and application of circRNAs in vascular aging and aging-related vascular diseases
    Authors: S. He, B. Huang, F. Xu, … X. Lin, J. Liu
    Year: 2025

 

  • Title: Persistent alterations in gray matter in COVID-19 patients experiencing sleep disturbances: a 3-month longitudinal study
    Authors: K. Zhou, G. Duan, Y. Liu, … J. Yang, D. Deng
    Year: 2025

 

  • Title: Multimodal radiopathological integration for prognosis and prediction of adjuvant chemotherapy benefit in resectable lung adenocarcinoma: A multicentre study
    Authors: H. Lin, J. Hua, Z. Gong, … C. Lu, Z. Liu
    Year: 2025

 

  • Title: Prognostic and predictive values of a multimodal nomogram incorporating tumor and peritumor morphology with immune status in resectable lung adenocarcinoma
    Authors: H. Lin, J. Hua, Y. Wang, … J. Liu, Z. Liu
    Year: 2025

 

  • Title: White matter microstructural alterations are associated with cognitive decline in benzodiazepine use disorders: a multi-shell diffusion magnetic resonance imaging study
    Authors: M. Yi, T. Wang, X. Li, … J. Liu, H. Zhou
    Year: 2025

 

  • Title: Unveiling causal relationships between addiction phenotypes and inflammatory cytokines: insights from bidirectional mendelian randomization and bibliometric analysis
    Authors: S. Cao, L. Yang, X. Wang, … S. Tang, J. Liu
    Year: 2025

 

  • Title: Microstructure changes of the brain preceded glymphatic function changes in young obesity with and without food addiction
    Authors: M. Yi, Z. Yule, W. Song, … J. Liu, H. Zhou
    Year: 2025

 

  • Title: Distinct insula subdivisions of resting-state functional connectivity in individuals with opioid and methamphetamine use disorders
    Authors: W. Yang, X. Wen, Z. Du, … K. Yuan, J. Liu
    Year: 2025

 

  • Title: Unraveling the Diffusion MRI-Based Glymphatic System Alterations in Children with Rolandic Epilepsy
    Authors: Y. Yin, M. Ma, F. Wang, … J. Liu, H. Liu
    Year: 2025

 

✅ Conclusion


Professor Jun Liu’s career embodies the intersection of clinical expertise, scientific innovation, and compassionate leadership. Through decades of dedication, he has transformed radiological practice and training in China, especially in neurological diagnostics. As a scholar, mentor, and administrator, his legacy continues to inspire the next generation of medical professionals. With a focus on advancing neuroimaging techniques and quality standards, Professor Liu stands as a beacon of excellence in modern radiology, with his future contributions set to further shape the landscape of medical diagnostics and research.

Fabiano Papaiz | Computational Neuroscience | Best Researcher Award

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Prof. Fabiano Papaiz | Computational Neuroscience | Best Researcher Award

Prof. Fabiano Papaiz, IFRN, Brazil.

Fabiano Papaiz is a dedicated academic and professional in the field of education and technology, affiliated with the Federal Institute of Education, Science, and Technology of Rio Grande do Norte (IFRN) in Brazil. With a strong foundation in the intersection of education and technology, his work focuses on integrating modern technological innovations into educational practices. Through his research and professional endeavors, Papaiz has contributed significantly to advancing educational methods and improving learning environments. His accolades reflect his influence both within Brazil and internationally. His research aims to enhance educational outcomes by leveraging digital tools and resources, benefiting the academic community and shaping the future of learning.

Profile

Orcid

 

📚 Early Academic Pursuits

Fabiano Papaiz began his academic journey in Brazil, where he cultivated a strong foundation in the field of education and technology. His early academic pursuits were centered around exploring the intersections of education and technological advancements. With a keen interest in applied sciences, he honed his knowledge and skills through his academic experiences, leading him to a path of lifelong learning and research. Papaiz’s commitment to education in Brazil is evident, and his passion for technology-driven academic progress is one of the key pillars of his professional career.

💻 Professional Endeavors

Currently affiliated with the Federal Institute of Education, Science, and Technology of Rio Grande do Norte (IFRN), Fabiano Papaiz plays a pivotal role in shaping the future of education and technology. At IFRN, he is part of the DATINF (Department of Information Technology), where he works on integrating modern technological solutions with academic practices. His professional journey reflects his dedication to advancing educational methodologies and bridging the gap between technology and learning. As part of the institution, Papaiz has contributed to a wide range of educational initiatives that aim to enhance the learning experience in Brazil, especially in the field of information technology.

🔬 Contributions and Research Focus

Papaiz’s research interests lie in the dynamic field of information technology and its application to educational contexts. His research focuses on leveraging technological innovations to improve educational outcomes, develop new learning tools, and address contemporary challenges in the digital age. Fabiano’s academic contributions have been significant, with a strong emphasis on the role of technology in shaping modern education. His work not only influences the academic community but also helps to create a more tech-savvy generation of students who can navigate and thrive in a rapidly evolving digital world.

🏆 Accolades and Recognition

Throughout his career, Fabiano Papaiz has received numerous accolades for his contributions to education and technology. His work at IFRN has been recognized not only within Brazil but also internationally, as he continues to share his expertise with global academic and technological communities. His dedication to advancing the integration of information technology into education has earned him admiration from peers, students, and academic institutions alike. His reputation as a thought leader in the intersection of education and technology is well-established, marking him as an influential figure in his field.

🌍 Impact and Influence

Fabiano Papaiz’s work has made a profound impact on both the academic and technological landscapes of Brazil. His influence extends beyond the classroom, as his research and professional endeavors have shaped the way information technology is applied in education. Through his leadership and innovation, he has fostered the growth of more effective learning environments, enhanced by the use of digital tools and resources. His contributions have not only benefited his institution but also contributed to the wider educational community by offering solutions that address modern teaching and learning needs.

Publication

  • Title: Predicting ALS progression using Autoregressive deep learning models
    Authors: Fabiano Papaiz, Mario Emílio Teixeira Dourado, Jr, Ricardo Alexsandro de Medeiros Valentim, Felipe Ricardo dos Santos Fernandes, João Paulo Queiroz dos Santos, Antonio Higor Freire de Morais, Fernanda Brito Correia, Joel Perdiz Arrais
    Year: 2025

 

  • Title: RR3D: Uma solução para renderização remota de imagens médicas tridimensionais
    Author: Fabiano Papaiz
    Year: 2013

 

Conclusion

Fabiano Papaiz’s career exemplifies the transformative power of technology in education. His contributions, ranging from research to institutional leadership, have made a lasting impact on the integration of technology in educational settings. As he continues to innovate and lead, Papaiz’s legacy will undoubtedly shape the future of education, paving the way for more inclusive and effective learning environments. His ongoing work ensures that technology will remain a key driver in educational progress, with the potential to benefit generations of students and educators worldwide.

 

Soumya Pahari | Clinical Neuroscience | Young Researcher Award

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Dr. Soumya Pahari | Clinical Neuroscience | Young Researcher Award

Dr. Soumya Pahari,  Nepalese Army Institute of Health Sciences, Nepal.

Dr. Soumya Pahari, MBBS, is a globally engaged physician with a deep-rooted passion for neurosurgery, clinical research, and public health advocacy. From excelling in medical school on a full academic scholarship to completing hands-on neurosurgical training in both Nepal and the U.S., Dr. Pahari has built a career that blends clinical excellence with scholarly rigor. Their dedication to global neurosurgical research, reflected through projects with Vanderbilt University and Mission Brain Foundation, demonstrates a commitment to solving complex medical challenges through evidence-based innovation. Beyond the operating theater, their work as a mental health advocate and educator underscores a holistic approach to medicine that prioritizes human connection, education, and equity.

 

Profile

Google Scholar

 

🎓 Early Academic Pursuits

Dr. Soumya Pahari’s academic journey began with a strong foundation in science, nurtured during their high school years at St. Xavier’s College, Nepal,  Their passion for medicine soon led them to pursue an MBBS degree at the Nepalese Army Institute of Health Sciences (NAIHS), where they not only excelled academically but also earned the prestigious NAIHS Academic Scholarship in 2016. Throughout medical school, they developed a keen interest in neuroscience and surgical disciplines, which laid the groundwork for their future specialization in neurosurgery and global neurosurgical initiatives.

🧠 Professional Endeavors in Neurosurgery

Driven by an unrelenting commitment to clinical excellence, Dr. Pahari’s professional training includes a year-long position as House Officer in the Department of Neurosurgery at Shree Birendra Hospital, Nepal’s only neurosurgical unit under the Nepalese Army. Here, they performed critical procedures such as EVD insertion, burr hole evacuation, and tracheostomy, while actively assisting in advanced surgeries like aneurysm clipping and tumor resections. Later, as a Visiting Scholar in Neurosurgery at West Virginia University (WV, USA) under Dr. P. David Adelson, they broadened their exposure by shadowing surgeons, presenting clinical cases, and initiating a quality improvement project focused on vagal nerve stimulators for refractory epilepsy patients. These experiences have collectively enriched Dr. Pahari’s surgical acumen and global neurosurgical insight.

🔬 Contributions and Research Focus

Research forms a core pillar of Dr. Pahari’s career, with a focus on pediatric cerebrovascular disorders, endovascular interventions in extradural hematomas, and quality improvement in epilepsy care. As a Research Collaborator with Vanderbilt Global Neurosurgery Program, they are leading a systematic review to assess the global burden of pediatric cerebrovascular diseases, contributing meaningfully to evidence-based global neurosurgical strategies. Simultaneously, their work with the Mission Brain Foundation aims to analyze the emerging utility of endovascular techniques in traumatic brain injury management. Earlier, they also contributed as an administrator and content developer at the Abdulrauf University of Neurosurgery’s Research Institute in California, helping curate educational content for aspiring neurosurgeon-scientists.

🌍 Advocacy, Mental Health & Global Impact

Dr. Pahari’s commitment to health extends beyond the operating room into the domain of mental health and psychosocial well-being. As a Founding Board Member of Antardhoni Nepal, they’ve played a vital role in promoting mental health awareness and support services in underserved communities. Their leadership also reflects through media engagement as a Podcast Host for ‘Behind White Coats’, a platform where pressing global health issues and common illnesses are discussed with clarity and compassion. These endeavors underline their belief in a holistic approach to health, where mental, social, and physical well-being are equally prioritized.

🏆 Accolades and Recognition

Throughout their academic and professional career, Dr. Pahari has garnered several accolades, notably being ECFMG Certified in August 2024 and scoring an impressive 253 on USMLE Step 2. Their achievements are further supported by certifications such as the Diploma in Neurotrauma Care from the Global Neuro Foundation, which granted them 43.5 AMA PRA Category 1 credits, enhancing their preparedness for managing acute neurotrauma in global contexts. These recognitions reflect their unwavering commitment to clinical excellence and continuous learning.

📢 Influence Through Education and Media

An inspiring communicator and educator, Dr. Pahari has invested time in peer tutoring through Medlife Stories, where they guided junior students through complex medical concepts. Their innovative spirit also led them to head marketing strategies for The SET Exhibition during their early college years—an event that showcased student innovation in science and technology. Through educational content creation, public speaking, and mentoring, Dr. Pahari continues to shape the next generation of healthcare leaders while making medicine more accessible and engaging for all.

🚀 Legacy and Future Contributions

As Dr. Soumya Pahari looks ahead, their vision is clearly anchored in the intersection of clinical neurosurgery, global health equity, and academic research. With ongoing collaborations in global neurosurgical research and growing experience in both developed and developing healthcare systems, they are uniquely positioned to bridge disparities in neurosurgical care. Their future contributions are expected to amplify the voices of underrepresented populations in global health discourse, enhance neurosurgical systems through data-driven quality improvement, and inspire young physicians to approach medicine with both empathy and rigor. Their legacy, still unfolding, promises to be one of profound impact, innovation, and inclusion.

Publication

 

  • Title: Gallstone among patients presenting to the department of surgery in a tertiary care center: a descriptive cross-sectional study
    Authors: S Pahari, S Basukala, U Piya, Y Khand, B Thapa, O Thapa, S Thapa
    Year: 2023

 

  • Title: A rare case of retroperitoneal extension in Fournier’s gangrene: A case report and review of literature
    Authors: S Basukala, Y Khand, S Pahari, KB Shah, A Shah
    Year: 2022

 

  • Title: Large posterior mediastinal ganglioneuroma with intradural cervical spine extension: a rare case report and review of literature
    Authors: A Dahal, JJ Malla, D Neupane, N Lageju, LS Jaiswal, S Chaudhary, …
    Year: 2022

 

  • Title: Complicated pylephlebitis secondary to perforated appendicitis in a child-A rare case report
    Authors: S Pahari, M Shrestha, S Basukala, P Kafle, K Rai, Y Khand, O Thapa, …
    Year: 2022

 

  • Title: A life-threatening complication of biliary peritonitis following T-tube removal: A case report and review of literature
    Authors: Y Khand, S Basukala, U Piya, P Mainali, S Pahari, KB Shah
    Year: 2022

 

  • Title: Spontaneous splenic hematoma secondary to dengue infection: a rare case report
    Authors: S Pahari, S Basukala, P Kunwar, K Thapa, Y Khand, O Thapa
    Year: 2023

 

  • Title: An unusual case of perforated stump appendicitis: a case report
    Authors: S Basukala, BD Pathak, S Pahari, S Gurung, B Basukala, BB Rayamajhi, …
    Year: 2022

 

  • Title: Acute Pancreatitis among Patients Visiting the Department of Surgery in a Tertiary Care Centre: A Descriptive Cross-sectional Study
    Authors: S Basukala, BD Pathak, P Dawadi, S Bohara, A Tamang, S Pahari, …
    Year: 2023

 

  • Title: Patient Safety and organizational Safety Culture in Surgery: A Need of an Hour in the developing countries
    Authors: S Basukala, S Bohara, A Thapa, A Shah, S Pahari, Y Khand, O Thapa, …
    Year: 2022

 

  • Title: Acute recurrent pancreatitis in a child with pancreatic divisum–A case report
    Authors: O Thapa, S Basukala, M Shrestha, Y Khand, S Pahari, S Bohara, A Thapa, …
    Year: 2022

 

✅ Conclusion

With a powerful blend of academic distinction, surgical skill, and compassionate advocacy, Dr. Soumya Pahari stands at the forefront of a new generation of physician-leaders. Their journey is a testament to the impact that global collaboration, research, and empathy can have on healthcare. As they continue to pursue excellence in neurosurgery and global health, their work promises not only to improve lives in the operating room but to inspire systemic change across borders. The future undoubtedly holds even greater contributions from this rising medical changemaker.

Francisco Mena | Computational Neuroscience | Best Researcher Award

Published on by Neuroscientists

Mr. Francisco Mena | Computational Neuroscience | Best Researcher Award

Mr. Francisco Mena, University of Kaiserslautern-Landau, Germany.

Francisco Mena is a dynamic researcher in the field of machine learning, currently pursuing a PhD at the University of Kaiserslautern-Landau (RPTU), Germany. His academic roots trace back to Federico Santa María Technical University (UTFSM) in Chile, where he developed a strong foundation in computer engineering and data science. With a specialization in unsupervised learning, deep learning, and multi-view data fusion, his work focuses on building robust and scalable models that minimize human intervention and adapt to incomplete or noisy datasets—particularly in the context of Earth observation and crowdsourced data. He has worked across international research institutes like DFKI in Germany and Inria in France, contributing to global advancements in AI and data science. His teaching and mentoring roles, combined with his innovative research, mark him as a rising contributor to the future of intelligent systems.

Profile

Google Scholar
Scopus
Orcid

 

🎓 Early Academic Pursuits

Francisco Mena’s academic journey began with a strong foundation in computer engineering at Federico Santa María Technical University (UTFSM) in Chile. Demonstrating exceptional academic performance, he ranked in the top 10% of his class, securing the 4th position among 66 students. He pursued an integrated path that led him to obtain a Bachelor of Science, a Licenciado, and later the Ingeniería Civil en Informática degree. Driven by curiosity and a passion for machine learning, he transitioned seamlessly into postgraduate studies, earning a Magíster en Ciencias de la Ingeniería Informática at UTFSM. His master’s thesis, focused on mixture models in crowdsourcing scenarios, set the stage for his growing interest in unsupervised learning and probabilistic models.

💼 Professional Endeavors

Alongside his studies, Francisco actively engaged in diverse professional roles that enriched his technical and academic expertise. He served as a research assistant at the Chilean Virtual Observatory (CHIVO), contributing to astroinformatics projects by processing and organizing astronomical datasets from ALMA and ESO observatories. His early professional stint as a front-end and back-end developer provided him with hands-on industry experience. In academia, he held several teaching roles, progressing from laboratory assistant to lecturer in key courses such as computational statistics, artificial neural networks, and machine learning. Currently, as a Student Research Assistant at the German Research Centre for Artificial Intelligence (DFKI), he contributes to Earth observation projects, enhancing models for crop yield prediction using multi-view data.

🔬 Contributions and Research Focus

Francisco’s research is anchored in machine learning with a special emphasis on unsupervised learning, deep neural architectures, multi-view learning, and data fusion. His doctoral work at University of Kaiserslautern-Landau (RPTU) focuses on handling missing views in Earth observation data, an increasingly important issue in remote sensing. He explores innovative methods that challenge traditional domain-specific models by advocating for approaches that minimize human intervention and labeling. His core research areas include autoencoders, deep clustering, dimensionality reduction, and latent variable modeling, with applications extending to vegetation monitoring, neural information retrieval, and crowdsourcing.

🌍 Global Collaborations

Francisco’s commitment to impactful research is evident in his international collaborations. In addition to his work in Germany, he undertook a research visit to Inria in Montpellier, France, where he explored cutting-edge topics such as multi-modal co-learning, multi-task learning, and mutual distillation. These collaborations allow him to expand the practical relevance of his research across geographical and disciplinary boundaries, contributing to global discussions in artificial intelligence and data science.

🧠 Impact and Influence

Through his extensive academic involvement, Francisco has shaped the understanding of machine learning models that are both scalable and adaptable to real-world challenges. His contributions in crowdsourcing, particularly the use of latent group variable models for large-scale annotations, reflect his commitment to developing resource-efficient models. His influence extends into education, where he has mentored students and shaped curriculum delivery in machine learning-related subjects. By leveraging tools like PyTorch, QGIS, and Slurm, he ensures his work remains at the cutting edge of technological advancement.

🏆 Recognition and Growth

Francisco’s academic excellence is evident from his consistent achievements and recognition. His GPA of 94% during his master’s program stands as a testament to his dedication and intellect. Being ranked #4 in his undergraduate program highlights his sustained academic brilliance. His teaching roles at UTFSM and lecturing at RPTU further underscore the trust institutions place in his knowledge and teaching abilities.

🚀 Legacy and Future Contributions

With a clear research vision and a strong international presence, Francisco Mena is poised to leave a lasting impact in the field of artificial intelligence, particularly in unsupervised learning and Earth observation. His focus on reducing dependency on human intervention, increasing model generalizability, and handling incomplete or noisy data reflects a future-forward approach. As his doctoral journey progresses, he is expected to continue influencing how machine learning models are conceptualized, designed, and deployed in real-world applications—especially those that require scalable, domain-agnostic solutions.

Publication

 

  • Harnessing the power of CNNs for unevenly-sampled light-curves using Markov Transition Field – M Bugueño, G Molina, F Mena, P Olivares, M Araya – 2021

 

  • Common practices and taxonomy in deep multiview fusion for remote sensing applications – F Mena, D Arenas, M Nuske, A Dengel – 2024

 

  • A binary variational autoencoder for hashing – F Mena, R Ñanculef – 2019

 

  • Refining exoplanet detection using supervised learning and feature engineering – M Bugueño, F Mena, M Araya – 2018

 

  • Predicting crop yield with machine learning: An extensive analysis of input modalities and models on a field and sub-field level – D Pathak, M Miranda, F Mena, C Sanchez, P Helber, B Bischke, … – 2023

 

  • Adaptive fusion of multi-modal remote sensing data for optimal sub-field crop yield prediction – F Mena, D Pathak, H Najjar, C Sanchez, P Helber, B Bischke, P Habelitz, … – 2025

 

  • A comparative assessment of multi-view fusion learning for crop classification – F Mena, D Arenas, M Nuske, A Dengel – 2023

 

  • Self-supervised Bernoulli autoencoders for semi-supervised hashing – R Ñanculef, F Mena, A Macaluso, S Lodi, C Sartori – 2021

 

  • Impact assessment of missing data in model predictions for Earth observation applications – F Mena, D Arenas, M Charfuelan, M Nuske, A Dengel – 2024

 

  • Increasing the robustness of model predictions to missing sensors in Earth observation – F Mena, D Arenas, A Dengel – 2024

 

🧩 Conclusion

Driven by curiosity and innovation, Francisco Mena is reshaping the landscape of machine learning through his pursuit of generalizable, efficient, and human-independent models. His research not only addresses technical limitations but also responds to the growing need for AI systems that are adaptable across domains and disciplines. With a solid academic background, global collaborations, and a clear research vision, he is set to make lasting contributions to unsupervised learning and its applications in critical areas like Earth observation and neural information retrieval. As he continues to build on his expertise, his work promises to influence both the academic world and the practical deployment of intelligent systems in complex, real-world scenarios.

Camilla Bellone | Translational Neuroscience | Best Researcher Award

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Assoc. Prof. Dr. Camilla Bellone | Translational Neuroscience | Best Researcher Award

Assoc. Prof. Dr. Camilla Bellone,  University of Geneva, Switzerland.

Dr. Camilla Bellone is a renowned neuroscientist whose academic and research career has been marked by excellence, innovation, and impact. From her foundational training in Italy to her leadership role in Geneva, she has made pioneering contributions to understanding the neural underpinnings of social behavior. Her work bridges basic science and clinical relevance, and she has played a vital role in training, mentorship, and international collaboration within the neuroscience community.

Profile

Google Scholar

 

🎓 Early Academic Pursuits

Dr. Camilla Bellone began her academic journey with a Master’s degree in Pharmacy from the University of Milano in 2000. With a strong foundation in pharmacology and medical chemistry, she pursued her Ph.D. in “Pharmacology, Toxicology, and Medical Chemotherapy” at the same institution, completing it in 2006. Her early education shaped a robust scientific mindset, preparing her for a career at the intersection of neuroscience and pharmacology. These formative years set the tone for her later work on the molecular mechanisms that govern complex behaviors in both healthy and diseased states.

🧪 Professional Endeavors

After her doctoral studies, Dr. Bellone enhanced her research acumen through a postdoctoral fellowship at the University of California, San Francisco (UCSF), gaining international exposure. She later returned to Switzerland, where she served as a scientist under the Ambizione Fellowship at the University of Geneva. Her academic path took a significant leap when she became an Assistant Professor at the University of Lausanne in 2014, followed by a transition to the University of Geneva in 2016. In 2020, she was promoted to Associate Professor in the Department of Basic Neuroscience, where she continues to lead cutting-edge investigations and mentor future neuroscientists.

🧠 Contributions and Research Focus

At the core of Dr. Bellone’s research lies a deep interest in the neurobiological basis of social behavior, with a particular focus on how these processes are disrupted in neuropsychiatric disorders. Her lab explores the synaptic and circuit-level mechanisms that underpin social cognition, often using advanced molecular and behavioral techniques. Her work has provided critical insights into how alterations in neural plasticity and connectivity contribute to diseases such as schizophrenia and autism spectrum disorders. With over 40 peer-reviewed publications in high-impact journals like Nature Neuroscience and Neuron, Dr. Bellone’s research continues to advance the field of behavioral neuroscience.

🏆 Accolades and Recognition

Dr. Bellone’s scientific excellence has been recognized through several prestigious honors. In 2023, she received the EBBS Mid-Career Award and the Leenaards Scientific Prize for her collaborative project on cerebellar stimulation in schizophrenia. Earlier, she was elected to the distinguished FENS-KAVLI Network of Excellence in 2015, highlighting her position among Europe’s most promising neuroscientists. In 2014, she was honored with the Fondation du Prix Pfizer de la Recherche, marking an early milestone in her independent research career.

🌍 Impact and Influence

Beyond her lab, Dr. Bellone has made meaningful contributions to the academic and scientific community. She has delivered over 20 invited lectures at international conferences and institutions, sharing her discoveries with a global audience. As a dedicated mentor, she has guided eight master’s students and seven PhD candidates, nurturing the next generation of neuroscientists. Her commitment extends to active service on academic committees, grant review panels, and editorial boards, reflecting her role as a respected leader in the field.

👩‍🔬 Balancing Science and Life

A champion of work-life integration, Dr. Bellone has managed to thrive professionally while embracing motherhood. She took two career breaks following the birth of her three children, exemplifying resilience and balance in a demanding academic landscape. Her story is an inspiration to young scientists, especially women, striving to build careers in STEM while honoring personal life choices.

🔬 Legacy and Future Contributions

Looking ahead, Dr. Bellone’s work holds promise for transforming our understanding of social dysfunction in mental illness. Her innovative approaches—blending circuit neuroscience, pharmacology, and behavior—position her as a leading voice in the neurobiology of social behavior. With continued support from initiatives like the ERC Consolidator Grant, her research will likely pave the way for novel therapeutic interventions, leaving a lasting legacy in neuroscience and psychiatry.

Publication

  • Title: NMDA receptor subunit diversity: impact on receptor properties, synaptic plasticity and disease
    Author: P Paoletti, C Bellone, Q Zhou
    Year: 2013

 

  • Title: Cocaine triggered AMPA receptor redistribution is reversed in vivo by mGluR-dependent long-term depression
    Author: C Bellone, C Lüscher
    Year: 2006

 

  • Title: Rapid bidirectional switching of synaptic NMDA receptors
    Author: C Bellone, RA Nicoll
    Year: 2007

 

  • Title: Cocaine inverts rules for synaptic plasticity of glutamate transmission in the ventral tegmental area
    Author: M Mameli, C Bellone, MTC Brown, C Lüscher
    Year: 2011

 

  • Title: In vivo reprogramming of circuit connectivity in postmitotic neocortical neurons
    Author: A De la Rossa, C Bellone, B Golding, I Vitali, J Moss, N Toni, C Lüscher, …
    Year: 2013

 

  • Title: Mechanisms of synaptic depression triggered by metabotropic glutamate receptors
    Author: C Bellone, C Lüscher, M Mameli
    Year: 2008

 

  • Title: Effects of streptozotocin‐diabetes on the hippocampal NMDA receptor complex in rats
    Author: F Gardoni, A Kamal, C Bellone, GJ Biessels, GMJ Ramakers, F Cattabeni, …
    Year: 2002

 

  • Title: Neurons under T cell attack coordinate phagocyte-mediated synaptic stripping
    Author: G Di Liberto, S Pantelyushin, M Kreutzfeldt, N Page, S Musardo, R Coras, …
    Year: 2018

 

  • Title: mGluRs induce a long‐term depression in the ventral tegmental area that involves a switch of the subunit composition of AMPA receptors
    Author: C Bellone, C Lüscher
    Year: 2005

 

  • Title: SHANK3 controls maturation of social reward circuits in the VTA
    Author: S Bariselli, S Tzanoulinou, C Glangetas, C Prévost-Solié, L Pucci, …
    Year: 2016

 

✅ Conclusion

Dr. Bellone’s journey reflects a remarkable blend of scientific curiosity, academic leadership, and personal resilience. As she continues to explore the brain’s most intricate social circuits, her influence will undoubtedly expand across neuroscience, psychiatry, and therapeutic innovation. Her career serves as both a roadmap and an inspiration for emerging scientists navigating the evolving landscape of brain research.

 

Koagne Longpa Tamo Silas | Neuroinformatics | Pioneer Researcher Award

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Mr. Koagne Longpa Tamo Silas | Neuroinformatics | Pioneer Researcher Award

Mr.  Koagne Longpa Tamo Silas, University of Dschang, Cameroon.

Koagne Longpa Tamo Silas is a dedicated researcher in the field of medical physics, specializing in automation, artificial intelligence, and electronic system design. His academic journey from Bamenda State University to Dschang State University reflects his continuous pursuit of knowledge and innovation. His contributions to circuit simulation, embedded systems, and artificial neural networks have established him as a promising figure in medical physics.

Profile

Google Scholar

🎓 Early Academic Pursuits

Born on July 12, 1998, in Mbouda, Cameroon, Koagne Longpa Tamo Silas displayed a keen interest in science and technology from a young age. His passion for physics and engineering led him to pursue higher education at Bamenda State University, where he embarked on an academic journey in Electrical and Power Engineering. His undergraduate studies, from November 2015 to August 2018, laid the foundation for his expertise in electrical systems, automation, and circuit design. Eager to expand his knowledge, he continued his postgraduate studies in the same field at Bamenda State University from September 2018 to July 2020, honing his skills in power engineering and applied electronics.

🚀 Professional Endeavors

Determined to deepen his expertise, Koagne Longpa Tamo Silas transitioned into the field of physics, enrolling as a Ph.D. student at Dschang State University in December 2022. His academic pursuits in the Department of Physics align with his interests in medical physics, where he integrates automation, applied computer science, and electronics to innovate in the field. As a dedicated researcher, he continues to engage with the Faculty of Science at Dschang State University, contributing to the academic and scientific community with his research in medical physics and embedded systems.

🤖 Contributions and Research Focus

Koagne Longpa Tamo Silas has dedicated his research efforts to the intersection of medical physics, automation, and artificial intelligence. His work encompasses Analog Artificial Neural Networks, Embedded Systems, Circuit Simulation, Digital and Analog Electronics, and Microcontroller Programming. His proficiency in tools like Spice Simulation, Cadence Virtuoso, and Electronic Design Automation allows him to design and optimize medical devices and automated systems. His research aims to enhance diagnostic and therapeutic tools in medical physics by leveraging artificial intelligence and embedded systems.

🏆 Accolades and Recognition

Throughout his academic and research career, Koagne Longpa Tamo Silas has garnered recognition for his contributions to medical physics and electronics. His innovative approach to circuit simulation and signal processing has positioned him as a promising researcher in his field. His dedication to advancing medical technologies has earned him the respect of his peers and mentors, as he continues to contribute valuable insights to the scientific community.

🌐 Impact and Influence

Through his academic journey and research, Koagne Longpa Tamo Silas has influenced the way automation and artificial intelligence are integrated into medical physics. His work in digital electronics and microcontroller programming is paving the way for innovative solutions in the medical field. His contributions extend beyond research, as he actively engages with students and researchers, fostering a culture of knowledge-sharing and scientific exploration.

 

Publication

  • A High-Resolution Non-Volatile Floating Gate Transistor Memory Cell for On-Chip Learning in Analog Artificial Neural Networks
    Authors: KLT Silas, DTA Bernard, FT Bernard, L Jean-Pierre, GW Ejuh
    Year: 2025

 

  • Breast Cancer Diagnosis with Machine Learning Using Feed-Forward Multilayer Perceptron Analog Artificial Neural Network
    Authors: B Djimeli-Tsajio Alain, KLT Silas, LT Jean-Pierre, N Thierry, GW Ejuh
    Year: 2024

 

  • Design and Implementation of a Digital Breath Alcohol Detection System with SMS Alert and Vehicle Tracking on Google Map
    Author: KLT Silas
    Year: 2020

 

  • Design and Realization of an Electronic Attendance System Based on RFID with an Automatic Door Unit
    Author: MK Jules
    Year: 2018

 

🎯 Conclusion

With a vision to transform medical physics through automation and AI-driven technologies, Koagne Longpa Tamo Silas is on a path to making significant contributions to healthcare innovation. His passion, dedication, and expertise ensure that his research will continue to shape the future of medical technology, leaving a lasting impact on both academia and practical applications in the field.

 

Xiaobing Yan | Neurotechnology | Best Researcher Award

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Prof. Xiaobing Yan | Neurotechnology | Best Researcher Award

Prof. Xiaobing Yan, Hebei University, China.

Professor Xiaobing Yan is a distinguished researcher specializing in novel memory devices and memristor-based brain-inspired chip technologies. As a Senior Member of IEEE and a reviewer for leading journals, he has made significant contributions to the field of neuromorphic engineering. His outstanding achievements include recognition as a Young Changjiang Scholar and a Young Top-notch Talent under China’s National Ten Thousand Talents Program. With over 120 high-impact publications, 5,600+ citations, and an H-index of 40, he is globally recognized among the top 2% of scientists. His research has been supported by several prestigious national and provincial funding programs.

Profile

Scopus

🎓 Early Academic Pursuits

Xiaobing Yan embarked on his academic journey with a deep passion for electronics and information engineering. His early years were marked by an unwavering dedication to understanding the complexities of memory devices and neuromorphic systems. As he progressed through his studies, his curiosity and drive led him to explore the intersection of artificial intelligence and hardware development. His rigorous academic training laid a solid foundation for his future contributions to next-generation computing technologies.

💪 Professional Endeavors

Currently serving as a Professor at the Institute of Life Science and Green Development, Hebei University, Xiaobing Yan has established himself as a distinguished leader in the field of electronic engineering. He is a Doctoral Supervisor and a Senior Member of IEEE, a testament to his vast expertise and influence in the scientific community. His role extends beyond academia, as he actively engages in national-level research programs and collaborates with top-tier research institutions. His professional journey is a testament to his commitment to pioneering advancements in neuromorphic computing and memristor-based brain-inspired chip technologies.

🤖 Contributions and Research Focus

Xiaobing Yan’s research primarily revolves around novel memory devices and brain-like computing systems. His work has been instrumental in the advancement of memristor-based chip technologies, which hold the potential to revolutionize artificial intelligence hardware. By bridging the gap between neuroscience and semiconductor innovation, he is contributing to the development of energy-efficient, high-performance computing architectures. His research projects, funded by prestigious national programs, aim to push the boundaries of nanoelectronics and intelligent systems.

🏆 Accolades and Recognition

Xiaobing Yan’s groundbreaking work has earned him widespread recognition. In 2019, he was honored as a Young Changjiang Scholar by the Ministry of Education and selected as a Young Top-notch Talent under the National Ten Thousand Talents Program. In 2024, he further cemented his legacy by winning the Excellence Award at the National Disruptive Innovation Technology Competition. His contributions are not only recognized in China but also on a global scale, as he has been listed among the top 2% of scientists worldwide by Stanford University.

🌟 Impact and Influence

With over 120 high-impact publications and more than 5,600 citations, Xiaobing Yan’s research has significantly shaped the field of electronics and artificial intelligence. His H-index of 40 reflects the depth and relevance of his contributions. As a reviewer for prestigious journals such as Nature Electronics, Advanced Materials, and ACS Nano, he plays a crucial role in shaping the direction of cutting-edge research. His influence extends beyond his publications, as he mentors young researchers and fosters collaborations that drive innovation in neuromorphic computing.

🚀 Legacy and Future Contributions

As a leader in disruptive technology and nanoelectronics, Xiaobing Yan is poised to continue pushing the boundaries of scientific discovery. His ongoing research projects, including multiple National Key R&D initiatives and collaborations with leading institutions, demonstrate his commitment to pioneering breakthroughs in brain-inspired computing. With his vision and expertise, he is set to leave a lasting legacy in the development of next-generation intelligent systems, shaping the future of artificial intelligence and semiconductor technology.

Publication

  1. In situ training of an in-sensor artificial neural network based on ferroelectric photosensors

    • Authors: H. Lin, Haipeng; J. Ou, Jiali; Z. Fan, Zhen; X. Gao, Xingsen; J. Liu, Junming
    • Year: 2025

 

  1. Ultra robust negative differential resistance memristor for hardware neuron circuit implementation

    • Authors: Y. Pei, Yifei; B. Yang, Biao; X. Zhang, Xumeng; S. Li, Shushen; X. Yan, Xiaobing
    • Year: 2025

 

  1. Physical unclonable in-memory computing for simultaneous protecting private data and deep learning models

    • Authors: W. Yue, Wenshuo; K. Wu, Kai; Z. Li, Zhiyuan; R. Huang, Ru; Y. Yang, Yuchao
    • Year: 2025

 

  1. Memristor-based feature learning for pattern classification

    • Authors: T. Shi, Tuo; L. Gao, Lili; Y. Tian, Yang; X. Yan, Xiaobing; Q. Liu, Qi
    • Year: 2025

 

  1. Harnessing spatiotemporal transformation in magnetic domains for nonvolatile physical reservoir computing

    • Authors: J. Zhou, Jing; J. Xu, Jikang; L. Huang, Lisen; X. Yan, Xiaobing; S.T. Lim, Sze Ter
    • Year: 2025

 

  1. Flexoelectric Effect in Thin Films: Theory and Applications

    • Authors: X. Jia, Xiaotong; R. Guo, Rui; J. Chen, Jingsheng; X. Yan, Xiaobing
    • Year: 2025

 

  1. Deoxyribonucleic acid brick crystals-based memristor as an artificial synapse for neuromorphic computing

    • Authors: Z. Wang, Zhongrong; X. Liu, Xinran; J. Li, Jiahang; J. Lou, Jianzhong; X. Yan, Xiaobing
    • Year: 2025

 

  1. Weighted Echo State Graph Neural Networks Based on Robust and Epitaxial Film Memristors

    • Authors: Z. Guo, Zhenqiang; G. Duan, Guojun; Y. Zhang, Yinxing; Y. Faraj, Yousef; X. Yan, Xiaobing
    • Year: 2025

 

  1. Achieving over 10 % efficiency in kesterite solar cells via selenium-free annealing

    • Authors: Q. Zhou, Qing; Y. Cong, Yijia; H. Li, Hao; Y. Sun, Yali; W. Yu, Wei
    • Year: 2024

 

  1. Hardware implementation of memristor-based artificial neural networks

  • Authors: F.L. Aguirre, Fernando L.; A. Sebastian, Abu; M. Le Gallo, Manuel; S. Matias Pazos, Sebastian; M. Lanza, Mario
  • Year: 2024

 

Conclusion

Professor Yan’s work plays a pivotal role in advancing memory technology and brain-inspired computing. His extensive research contributions and leadership in high-impact projects underscore his expertise in developing next-generation computing technologies. His global recognition and numerous accolades highlight his influence in the field, positioning him as a key figure in neuromorphic engineering and memory device innovation.