Jacob Mbarndouka Taamté | Machine learning | Best Researcher Award

Posted on by Academic achievements

Dr. Jacob Mbarndouka Taamté | Machine learning | Best Researcher Award

Dr. Jacob Mbarndouka Taamté | Machine learning – Research Officer at Institute of Geological and Mining Research, Cameroon

Jacob Mbarndouka Taamté is an accomplished research scientist specializing in electronics, electrical engineering, automation, instrumentation, and industrial maintenance. Based in Cameroon, his work has been instrumental in the development of low-cost, innovative devices for monitoring air quality, environmental radiation, and nuclear safety. Taamté holds a Ph.D. in Physics, with a focus on Electrical and Electronic Systems, and has made significant contributions to the field of environmental monitoring through cutting-edge technology. His academic and professional journey is marked by numerous achievements, including being awarded the Best Young Researcher of Cameroon in 2024. He is also an active member of several international research initiatives and has presented his findings at numerous conferences, advancing global discussions on sustainable technology and environmental protection.

Profile:

Orcid

Education:


Jacob Mbarndouka Taamté’s academic journey is defined by rigorous studies in the fields of physics, electrical engineering, and industrial production. He completed his Ph.D. in Physics, specializing in Electrical and Electronic Systems, at the University of Yaoundé I in 2022. Prior to this, he earned his Master’s in Science from the University of Ngaoundéré, where he also completed his Bachelor’s and UDT degrees, specializing in industrial maintenance and production. His educational background, spanning over a decade, has provided him with a solid foundation in the development and application of advanced technologies aimed at solving complex industrial and environmental challenges.

Experience:


Jacob Taamté’s professional career spans several years in both academia and research. Since 2021, he has served as a Research Officer at the Research Center for Nuclear Science and Technology (CRSTN) at the Institute of Geological and Mining Research (IRGM) in Cameroon, where he continues to contribute to innovative research on environmental monitoring and radiation protection. He also teaches Electronics and Electrical Engineering at The Armandins Higher Institute in Yaoundé, Cameroon, guiding students in practical applications of his research. Before his current roles, Taamté worked as a teacher and supervisor in scientific clubs, mentoring young minds and promoting scientific inquiry. His work extends beyond research, as he actively engages in the development of programs aimed at promoting sustainable technological solutions in his region.

Research Interest:


Jacob Taamté’s primary research interests lie in the areas of environmental monitoring, nuclear instrumentation, and sustainable technology. He is particularly focused on the development of low-cost electronic devices for real-time monitoring of air quality, water quality, soil health, and environmental radiation. His work integrates the use of microcontrollers, embedded systems, and machine learning to design smart devices that provide real-time data for public health and safety. Taamté’s research in this domain has led to practical applications, such as radiation protection systems and air quality monitoring devices, which have been widely recognized for their impact on public health and safety, especially in Cameroon and other African countries.

Award:


Jacob Mbarndouka Taamté has earned numerous accolades for his groundbreaking research and contributions to the scientific community. In 2024, he was awarded the Special Prize at the National Technology Days in Cameroon for his innovative research in environmental monitoring. He also received the Best Young Researcher of Cameroon Award the same year, recognizing his outstanding contributions to research and technology. Additionally, Taamté was honored with the Best Young Professional Radiation Protection Scientist Award in 2022 by the International Radiation Protection Association (IRPA), reflecting his exceptional work in the field of environmental radiation measurement. His achievements underscore his leadership in scientific research and his dedication to improving public health through technology.

Publications:


Jacob Taamté has authored several influential publications in renowned scientific journals, contributing significantly to the fields of environmental monitoring, radiation protection, and low-cost technological innovations. Below are some of his key publications:

  1. Taamté, J. M., Danwé, Y. F., Folifack Signing, V. R., Gondji, D. S., Koyang, F., & Saïdou. (2025). Design of a low-cost water quality assessment device based on a reference instrument. Urban Water Journal, 1–22. [Cited by: 15]
  2. Taamte, J. M., Tchuente Siaka, Y. F., Nducol, N., Yakum-Ntaw Younui, S., Ahmadou, G., Etende Essama, R. C., … Saïdou. (2025). Smart electronic device for air quality and exposure risk assessment. Smart Science, 1–15. [Cited by: 12]
  3. Folifack Signing, V. R., Taamté, J. M., & Saïdou. (2024). IoT-based Monitoring System and Air Quality Prediction Using Machine Learning for a Healthy Environment in Cameroon. Environmental Monitoring and Assessment, 198(12). [Cited by: 25]
  4. Taamté, J. M., Kountchou Noube, M., Folifack Signing, V. R., Yerima Abba Hamadou, et al. (2024). Real-time air quality monitoring based on locally developed unmanned aerial vehicle and low-cost smart electronic device. Journal of Instrumentation, 19 P05036. [Cited by: 18]
  5. Taamté, J. M., Koyang, F., Gondji, D. S., Oumar Bobbo, M., et al. (2022). Low-cost radon monitoring with validation by a reference instrument. Instrumentation Science and Technology. [Cited by: 22]
  6. Taamté, J. M., Kountchou Noubé, M., Bodo Bertrand, et al. (2021). Low-cost air quality monitoring system design and comparative analysis with a conventional method. International Journal of Energy and Environmental Engineering, 10(4). [Cited by: 10]

Conclusion:


Jacob Mbarndouka Taamté stands out as a researcher whose work combines scientific excellence, innovative problem-solving, and a commitment to societal impact. His research has not only contributed to the advancement of environmental monitoring technology but has also provided practical solutions to pressing global challenges such as radiation protection and public health. Through his numerous accolades, publications, and active participation in international projects, Taamté has established himself as a leader in his field. His dedication to advancing scientific knowledge, particularly in developing affordable technologies for environmental monitoring, makes him a deserving candidate for the Best Researcher Award.

Arturo Benayas Ayuso | Generative Artificial Intelligence | Best Researcher Award

Posted on by Academic achievements

Prof. Arturo Benayas Ayuso | Generative Artificial Intelligence | Best Researcher Award

PhD Candidate at Polytechnic University of Madrid, Spain

Arturo Benayas Ayuso is a highly skilled naval architect with over two decades of experience in naval shipbuilding, digitization, and PLM (Product Lifecycle Management) systems integration. Known for his contributions to advancing digital solutions in the naval sector, he currently leads the integration efforts for NAVANTIA’s “El Cano” platform, which leverages cutting-edge technologies under the Industry 4.0 paradigm. This platform integrates complex processes in ship design, construction, and maintenance, marking a significant stride in naval digitization. Arturo is recognized for his leadership, technical expertise, and commitment to continuous improvement, which have consistently contributed to both national defense and international maritime innovation. His career reflects a dynamic blend of hands-on expertise, theoretical knowledge, and thought leadership within his field.

Profile

ORCID

Education

Arturo’s educational background is grounded in naval architecture, with a Master’s degree from the prestigious Universidad Politécnica de Madrid. His specialized training in marine motors provided him with a strong foundation for understanding the technical demands of naval engineering. Currently, Arturo is pursuing a PhD focused on IoT applications in ship design, construction, and management, further expanding his research in digitalization and its transformative impacts on the naval industry. His academic pursuits are complemented by numerous advanced courses in PLM platforms, machine learning, and materials science, reflecting his commitment to staying at the forefront of technological advancements relevant to his field.

Professional Experience

Arturo’s professional career spans pivotal roles in renowned engineering firms and projects within the naval and aerospace industries. His experience includes serving as a Technical Account Manager, Solution Architect, and Associate Manager, where he has spearheaded complex PLM integrations, notably in projects such as the Spanish Navy’s S80P submarine and the collaborative development of the Royal Navy’s CVF program. His role as Integration Lead for the “El Cano” platform exemplifies his capability to manage large teams, oversee end-to-end PLM implementations, and introduce digital solutions that optimize naval operations on an international scale. Throughout his career, Arturo has contributed to innovative projects, ensuring seamless transitions across software platforms and providing critical support for project management in challenging environments.

Research Interests

Arturo’s research interests lie at the intersection of naval architecture, digital transformation, and the Internet of Things (IoT). His doctoral research focuses on applying IoT to streamline and enhance various stages of ship design, manufacturing, and management. By leveraging data analytics, he explores ways to optimize shipbuilding efficiency and reduce costs. Arturo is also passionate about cybersecurity in IoT networks, recognizing the importance of robust security measures in protecting sensitive maritime operations. Additionally, he has an interest in machine learning and its potential applications in automating design processes, which could significantly advance naval engineering and shipyard productivity.

Awards and Recognitions

While Arturo has not received specific awards to date, his role as a thought leader and influential practitioner in naval PLM integration has earned him considerable recognition in his field. His significant contributions to NAVANTIA’s “El Cano” platform have been widely regarded as a benchmark for digital transformation within the naval industry. Furthermore, his insights on naval digitization and IoT applications in shipbuilding have been published in respected journals and presented at international conferences. These accomplishments underscore his impact on the industry and his commitment to innovation.

Publications

Benayas Ayuso, A. & Cebollero, A. (2011). “Integrated Development Environment in Shipbuilding Computer Systems.” ICAS Conference Paper. Cited by 17.
Benayas-Ayuso, A., & Pérez Fernández, R. (2018). “Automated/Controlled Storage for an Efficient MBOM Process in the Shipbuilding Managing the IoT Technology.” RINA Smart Ship Technology. Cited by 22.
Pérez Fernández, R., & Benayas-Ayuso, A. (2018). “Data Management for Smart Ship or How to Reduce Machine Learning Cost in IoS Applications.” RINA Smart Ship Technology. Cited by 18.
Benayas-Ayuso, A., & Pérez Fernández, R. (2019). “What does the Shipbuilding Industry Expect from the CAD/CAM/CAE Systems in the Next Years?” Naval Architect Magazine. Cited by 13.
Benayas Ayuso, A. (2021). “Internet of Things Cybersecurity – Blockchain as First Securitisation Layer of an IoT Network.” In Introduction to IoT in Management Science and Operations Research. Cited by 25.

Conclusion

Arturo Benayas Ayuso’s career exemplifies a blend of practical expertise and research-driven innovation. His contributions to naval digitalization, particularly through his work on the “El Cano” platform, highlight his commitment to integrating advanced technologies in shipbuilding. Arturo’s focus on IoT and cybersecurity, coupled with his passion for teaching, positions him as a forward-thinking leader in his field. As he continues to contribute to the academic and professional spheres, his research has the potential to reshape naval engineering, making him a strong candidate for the Best Researcher Award. His work reflects a dedication to innovation, resilience in navigating complex projects, and a vision for the future of naval architecture and digital integration.

Jie Li | Artificial Intelligence | Best Researcher Award

Posted on by Academic achievements

Assoc Prof Dr. Jie Li | Artificial Intelligence | Best Researcher Award 

Assoc Prof Dr. Jie Li, Chongqing University of Science & Technology, China

Profile

scopus

Dr. Jie Li is an Associate Professor at the School of Computer Science and Engineering, Chongqing University of Science and Technology. With a PhD from Chongqing University (2011), she has held roles as an assistant researcher at the Chongqing Green Intelligent Technology Research Institute and a post-doctoral fellow at Chongqing Qingshan Industrial Company Limited. Her research has led to numerous patents and influential publications in top journals like IEEE Transactions. Dr. Li has also been involved in significant university-enterprise cooperative projects, highlighting her leadership and innovation in artificial intelligence and machine learning.

Strengths for the Award:

  1. Significant Research Contributions: Dr. Jie Li has made substantial contributions to artificial intelligence, machine learning, and fault diagnosis. Her work, published in top-tier journals like IEEE Transactions, demonstrates high-impact research in these fields.
  2. Extensive Patent Portfolio: With over 40 invention patents applied for and 18 authorized, Dr. Li’s innovative approaches are translating into practical technologies and solutions, showcasing her role as a leading inventor and researcher.
  3. Leadership in Projects: She has successfully led 16 national and provincial research projects and 7 enterprise-level projects. Her leadership in university-enterprise cooperative projects further underscores her ability to bridge academia and industry effectively.
  4. Academic and Industry Impact: Her book “Artificial Intelligence” has received industry praise, and her publications, totaling over 40 papers, reflect a broad and impactful research portfolio.

Areas for Improvement:

  1. Broader Citation Metrics: While Dr. Li has a respectable citation count, expanding her citation index could enhance her visibility and recognition in the global research community. Increasing collaboration with international researchers might help achieve this.
  2. Research Dissemination: Although Dr. Li has published extensively, further dissemination through high-impact conferences and workshops could elevate her work’s visibility and influence, potentially leading to more collaborative opportunities.
  3. Diverse Research Areas: Diversifying her research focus beyond her core areas could open new avenues for innovation and impact. Exploring emerging trends in AI and machine learning might strengthen her research portfolio.

Education🎓

Dr. Jie Li completed her PhD in Computer Science at Chongqing University in December 2011. Her doctoral studies laid the foundation for her extensive research in artificial intelligence and machine learning. During her academic career, she has broadened her expertise through postdoctoral research and academic visits to prestigious institutions like Tsinghua University and the University of Rhode Island. These experiences have enriched her academic perspective and research capabilities, significantly contributing to her professional achievements.

Experience💼

Dr. Jie Li began her career as an assistant researcher at the Chongqing Green Intelligent Technology Research Institute from February 2012 to April 2014. She later worked as a post-doctoral fellow at Chongqing Qingshan Industrial Company Limited from April 2017 to January 2020. Her academic tenure at Chongqing University of Science and Technology includes significant roles, such as being rated as an associate professor in September 2019. Additionally, she has led numerous national and provincial research projects and has been actively involved in university-enterprise cooperation initiatives.

Research Focus🔬

Dr. Jie Li’s research encompasses Deep Learning, Machine Learning, Fault Diagnosis, and Artificial Intelligence. Her work focuses on advancing these fields through innovative algorithms and practical applications. She has led and participated in several high-impact projects funded by national and provincial bodies. Her research has significantly contributed to the development of new technologies and solutions, reflected in her extensive patent portfolio and publications in prestigious journals such as IEEE Transactions.

Publications Top Notes

Polyacrylonitrile-based 3D N-rich activated porous carbon synergized with Co-doped MoS2 for promoted electrocatalytic hydrogen evolution (Huang, Z., Li, J., Guo, S., Zeng, J., Yuan, F., Separation and Purification Technology, 2025, 354, 129011) 📄

In-situ construction of nano-multifunctional interlayer to obtain intimate Li/garnet interface for dendrite-free all solid-state battery (Yu, S., Gong, Z., Gao, M., Li, Y., Chen, Y., Journal of Materials Science and Technology, 2025, 206, pp. 248–256) 📄

Advanced cathode materials for metal ion hybrid capacitors: Structure and mechanisms (Li, J., Liu, C., Momen, R., Zou, G., Ji, X., Coordination Chemistry Reviews, 2024, 517, 216018) 📖

Unraveling the delithiation mechanism of air-stabilized fluorinated lithium iron oxide pre-lithiation material (Wen, N., Li, J., Zhu, B., Guo, J., Zhang, Z., Chemical Engineering Journal, 2024, 497, 154536) 📄

Dual ion regulation enables High-Coulombic-efficiency lithium metal batteries (Huang, X., Wang, M., Zhou, Y., Li, J., Lai, Y., Nano Energy, 2024, 129, 110031) 📄

In-Situ Construction of Electronically Insulating and Air-Stable Ionic Conductor Layer on Electrolyte Surface and Grain Boundary to Enable High-Performance Garnet-Type Solid-State Batteries (Zhou, X., Liu, J., Ouyang, Z., Li, J., Jiang, L., Small, 2024, 20(34), 2402086) 📄

Enhancing the Efficient Utilization of Li2S in Lithium-Sulfur Batteries via Functional Additive Diethyldiselenide (Li, Z., Wang, M., Yang, J., Lai, Y., Li, J., Energy and Fuels, 2024, 38(16), pp. 15762–15770) 📄

Emerging polyoxometalate clusters-based redox flow batteries: Performance metrics, application prospects, and development strategies (Han, M., Sun, W., Hu, W., Zhang, C., Li, J., Energy Storage Materials, 2024, 71, 103576) 📖

Conductivity behavior of Na5YSi4O12 and its typical structural analogues by solution-assisted solid-state reaction for solid-state sodium battery (Liu, L., Xu, Y., Zhou, X., Guo, X., Jiang, Y., Journal of Solid State Chemistry, 2024, 336, 124781) 📄

Preparation of Hard-Soft Carbon via Co-Carbonization for the Enhanced Plateau Capacity of Sodium-Ion Batteries (Li, J., Zheng, H., Du, B., Li, D., Chen, Y., Energy and Fuels, 2024, 38(14), pp. 13398–13406) 📄

Conclusion:

Dr. Jie Li’s exceptional achievements in artificial intelligence and machine learning, marked by a robust patent portfolio, significant publications, and leadership in high-impact projects, position her as a strong candidate for the Best Researcher Award. Her innovative contributions and ability to lead and execute complex research projects highlight her outstanding capabilities and potential for furthering advancements in her field. Addressing the areas for improvement could further enhance her already impressive research profile and global impact.