Dongju Chen | Engineering | Best Researcher Award

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Prof. Dongju Chen | Engineering | Best Researcher Award

university professor from Beijing University of Technology, China

Dongju Chen is a distinguished professor and doctoral supervisor at the College of Mechanical & Energy Engineering, Beijing University of Technology. With a Ph.D. in mechanical engineering from the University of Gombigne, France, and Harbin Institute of Technology, she has made significant contributions to precision machining and mechanical systems. She serves as an assistant director at the Institute of CNC Precision Machining Technology and has been recognized through multiple prestigious talent programs, including the “Rixin Talents” Training Program and the “Qingbai Talents” Hundred Talents Program. As a senior member of CMES, IEEE fellow, and Secretary of the Production Engineering Society of China, she plays a crucial role in advancing the field of mechanical engineering. Her research primarily focuses on ultra-precision machine tools, micro-nano processing, and hydrostatic spindle mechanics. She is an esteemed reviewer for several high-impact journals and an active participant in national research initiatives. Dongju Chen has authored numerous influential publications, contributing to advancements in manufacturing technology and precision machining.

Professional Profile

Education

Dongju Chen holds a Ph.D. in mechanical engineering, earned through a joint program between the University of Gombigne in France and Harbin Institute of Technology in China. This dual-degree program provided her with an extensive foundation in advanced mechanical systems and manufacturing technologies. Her academic journey has been instrumental in shaping her expertise in ultra-precision machining, fluid mechanics, and micro-nano-scale processing. The rigorous training at these prestigious institutions equipped her with a deep understanding of both theoretical and applied aspects of mechanical engineering. Throughout her education, she actively engaged in research projects that explored error identification in machine tools and the influence of micro-scale fluids on machining performance. Her commitment to academic excellence led to numerous collaborations with international research teams and further strengthened her expertise in manufacturing technology.

Professional Experience

Dongju Chen has had a remarkable professional career, contributing significantly to academia and research in mechanical engineering. Since completing her Ph.D. in 2010, she has been a faculty member at Beijing University of Technology, serving as a professor and doctoral supervisor at the College of Mechanical & Energy Engineering. She is also an assistant director at the Institute of CNC Precision Machining Technology, where she leads research on precision machining techniques. Throughout her career, she has held key positions in professional societies, including Secretary of the Production Engineering Society of China and a senior CMES member. As a recognized expert, she has contributed to evaluating research projects for institutions like the National Natural Science Foundation of China and the Zhejiang Natural Science Foundation. Her role as a reviewer for prestigious journals, such as the Journal of Manufacturing Science and Technology (JMST) and Measurement and Advanced Manufacturing Technology (AMT), further highlights her influence in the field.

Research Interests

Dongju Chen’s research is centered on precision machining, ultra-precision machine tools, and fluid-structure interactions in mechanical systems. She is particularly interested in error identification and detection technologies for ultra-precision machine tools, investigating the dynamic behavior of hydrostatic spindles and their interactions with micro-scale fluids. Another key area of her research focuses on the influence of micro-nano-scale fluid mechanics on the performance of machine tool components. Additionally, her studies extend to the dynamic contact mechanisms of hydrostatic spindle-solid coupling under the influence of slip, contributing to enhanced machining accuracy and efficiency. She has also explored micro-nano-scale processing techniques and their implications in advanced manufacturing. Her work plays a crucial role in improving machining precision, enhancing industrial manufacturing processes, and developing innovative solutions for high-precision engineering applications.

Research Skills

Dongju Chen possesses a diverse set of research skills that have enabled her to make substantial contributions to mechanical engineering. Her expertise includes numerical simulation techniques, computational fluid dynamics (CFD), and finite element analysis (FEA) to study machining processes at micro and nano scales. She has extensive experience in error identification and detection methodologies, crucial for optimizing the performance of ultra-precision machine tools. Additionally, her skills in molecular dynamics simulations allow her to investigate the rheological performance of lubricant oils in machining applications. Her proficiency in tribology, hydrostatic spindle mechanics, and fluid-structure interactions further strengthen her research capabilities. Beyond computational methods, she has expertise in experimental techniques for evaluating spindle dynamics and machining accuracy. Her interdisciplinary approach, combining theoretical modeling with experimental validation, has been instrumental in advancing precision machining technologies.

Awards and Honors

Dongju Chen has received several prestigious awards in recognition of her contributions to mechanical engineering. She was selected for the “Rixin Talents” Training Program of Beijing University of Technology in 2012, highlighting her exceptional research potential. In 2016, she was honored as a “New Star of Science and Technology” in Beijing, acknowledging her impact on technological advancements in manufacturing. The same year, she was inducted into the “Qingbai Talents” Hundred Talents Program of Beijing University of Technology, further solidifying her status as a leading researcher in the field. Her contributions have also been recognized through memberships in esteemed professional societies, including IEEE fellowship and senior membership in CMES. Her publications in top-tier journals have received widespread acclaim, further affirming her influence and expertise in precision machining and advanced manufacturing technologies.

Conclusion

Dongju Chen is a highly accomplished researcher and professor in the field of mechanical engineering, with a strong focus on ultra-precision machining and fluid-structure interactions. Her contributions to research, education, and professional organizations have positioned her as a leading expert in precision engineering. Through her extensive academic background, numerous publications, and leadership roles, she has significantly influenced the development of advanced manufacturing technologies. Her commitment to innovation and excellence continues to drive progress in the field, making her a valuable asset to both academia and industry. As a mentor and educator, she plays a vital role in shaping the next generation of engineers, ensuring the continued advancement of precision machining technologies.

Publication Top Notes

  1. A study of the influence of speed effect on the kinematic behavior of aerostatic spindles

    • Authors: D. Chen, X. Du, J. Fan, K. Sun, H. Wang
    • Year: 2025

  2. Study on the mechanism of correlation between surface quality and tissue properties of Ti6Al4V alloy formed by selective laser melting

    • Authors: D. Chen, G. Li, P. Wang, Y. Tang
    • Year: 2025

  3. Optimization of multi-axis laser shock peening process for nickel alloy components based on workpiece curvature and equipment dynamic performance

    • Authors: R. Pan, Y. Xing, R. Wang, K. Sun, P. Gao
    • Year: 2024

  4. The tribological properties of nano-lubricants and their application on bearings: recent research progress

    • Authors: J. Li, D. Chen, H. Zhang, J. Fan, Y. Tang
    • Year: 2024
    • Citations: 2

  5. Tool inclination angle designing for low-deformation and high-efficiency machining of thin-wall blade based on edge-workpiece-engagement

    • Authors: D. Chen, S. Wu, J. Wu, J. Fan, Y. Tang
    • Year: 2024

  6. A systematic review of micro-texture formation based on milling: from mechanism, existing techniques, characterization to typical applications

    • Authors: Z. Jiang, D. Chen, K. Sun, J. Fan, Y. Tang
    • Year: 2024

  7. Coupling effect of partial composite texture and thermal effect on the performance of hydrostatic bearing

    • Authors: D. Chen, Y. Cui, K. Sun, J. Fan, K. Cheng
    • Year: 2024

  8. Ball-end milling stability and force analysis in the presence of inclination angles through a new algorithm with numerical chip thickness in edge-workpiece engagement

    • Authors: S. Wu, D. Chen, J. Fan, Y. Tang
    • Year: 2024

  9. Unbalanced vibration suppressing for aerostatic spindle using sliding mode control method and piezoelectric ceramics

    • Authors: D. Chen, X. Zhang, H. Wang, J. Fan, D. Liang
    • Year: 2024

  10. Analysis of the impact of graphene nano-lubricating oil on thermal performance of hydrostatic bearing

  • Authors: D. Chen, Y. Zhao, K. Sun, R. Pan, J. Fan
  • Year: 2024
  • Citations: 2

Geetha | Engineering | Women Researcher Award

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Dr. Geetha | Engineering | Women Researcher Award

Saveetha school of engineering, India

She has worked on various significant projects throughout her academic and professional journey. For her Ph.D. in Power Electronics, she focused on “Investigations on Energy Storage Element Resonant DC to DC Converter.” For her M.E. in Applied Electronics, her project involved the “Design, Simulation, and Synthesis of a High-Performance FFT Processor based on FPGA,” with the objective of designing a real-time FFT processor and simulating and synthesizing it using Xilinx 9.1i and Modelsim for core generation and verification. In her B.E. in Electrical and Electronics Engineering, her project was centered on “Modeling and Simulation of D.C. Motor,” where she aimed to create a dynamic model for a D.C. motor using SIMULINK. She is an active member of several professional bodies, including the ISTE (Life Member), IAENG, IACSIT, and IRED. Additionally, she serves as a research guide, currently mentoring a candidate in the field of Lithium-ion battery cathode chemistry, life cycle, and recycling.

Professional Profile

Education

She completed her Ph.D. in Power Electronics from Bharath University, Chennai, in March 2020, with a CGPA of 8/10, through a part-time mode. She earned her M.E. in Applied Electronics from C. Abdul Hakeem College of Engineering & Technology, affiliated with Anna University, in 2008, graduating with 81% and First Class with Distinction in a full-time program. Prior to that, she obtained her B.E. in Electrical and Electronics Engineering from Vellore Engineering College, affiliated with Madras University, in 2000, with a First Class and 68%. She also completed her Diploma in Electrical and Electronics Engineering (DEEE) from IRT Polytechnic, Bargur, in 1997, with 76.8% and First Class with Distinction. Her academic journey began at Auxilium Girls Higher Secondary School, where she completed her SSLC in 1994 with 79%.

Professional Experience

She is currently working as an Assistant Professor (SG) in the Institute of Electrical and Electronics Engineering and the Department of Cloud Computing at Saveetha School of Engineering, Chennai, since March 26, 2021. Prior to this, she served as an Associate Professor in the Department of Electrical and Electronics Engineering at Ganadipathys Tulsi Engineering College, Vellore, from June 1, 2009, to May 18, 2017. She began her teaching career as a Lecturer at C. Abdul Hakeem College of Engineering & Technology, Melvisharam, from July 2, 2007, to May 15, 2009. She also worked as a Lecturer in the Department of Electrical and Electronics Engineering at Periyar Maniammai College of Technology for Women, Thanjavur, from December 4, 2003, to July 31, 2006, and as a Lecturer in the Department of Electronics and Communication Engineering at GGR College of Engineering, Vellore, from July 1, 2002, to December 2, 2003. Additionally, she worked as a Lecturer in the Department of Electrical and Electronics Engineering at Adhiparasakthi Engineering College, Melmaruvathur, from May 28, 2001, to March 20, 2002.

Research Interests

Her areas of interest include Control Systems, Electrical Machines, Transmission and Distribution, VLSI Signal Processing, Advanced Digital Signal Processing, and Digital Electronics. She is passionate about exploring these fields and continuously advancing her knowledge and expertise in these areas

Publication Top Notes

  • Persistent organic pollutants in water resources: Fate, occurrence, characterization and risk analysis
    • Authors: T Krithiga, S Sathish, AA Renita, D Prabu, S Lokesh, R Geetha, …
    • Year: 2022
    • Citations: 154
  • Current status of microbes involved in the degradation of pharmaceutical and personal care products (PPCPs) pollutants in the aquatic ecosystem
    • Authors: M Narayanan, M El-Sheekh, Y Ma, A Pugazhendhi, D Natarajan, …
    • Year: 2022
    • Citations: 99
  • A novel design of smart and intelligent soldier supportive wireless robot for military operations
    • Authors: C Gnanaprakasam, M Swarna, R Geetha, G Saranya, SM KH
    • Year: 2023
    • Citations: 5
  • CVS-FLN: a novel IoT-IDS model based on metaheuristic feature selection and neural network classification model
    • Authors: R Geetha, A Jegatheesan, RK Dhanaraj, K Vijayalakshmi, A Nayyar, …
    • Year: 2024
    • Citations: 3
  • A Comparative Analysis on the Conventional Methods, Benefits of Recycling the Spent Lithium-ion Batteries with a Special focus on Ultrasonic Delamination
    • Authors: PK Persis, R Geetha
    • Year: 2023
    • Citations: 3
  • Enhanced Criminal Identification through MTCNN: Leveraging Advanced Facial Recognition Technology
    • Authors: R Gowthamani, D Gayathri, R Geetha, S Harish, M Rohini
    • Year: 2024
    • Citations: 1
  • A Legal Prediction Model Using Support Vector Machine and K-Means Clustering Algorithm for Predicting Judgements and Making Decisions
    • Authors: AJM Rani, KS Bharathwaj, NMJ Swaroopan, KH Kumar, R Geetha
    • Year: 2023
    • Citations: 1
  • Efficient Energy Management in Photovoltaic System Using Grid Interconnected Solar System Compared with Battery Energy Storage System by Limiting the Panel Array Losses
    • Authors: BR Subashini, R Geetha
    • Year: 2023
    • Citations: 1
  • Increasing the Power in Photovoltaic Systems using a Floating PV System compared with a Rooftop PV System by Limiting the Temperature Loss
    • Authors: MJ Angelin, R Geetha
    • Year: 2023
    • Citations: 1
  • A Robust Blockchain Assisted Electronic Voting Mechanism with Enhanced Cyber Norms and Precautions
    • Authors: NV Krishnamoorthy, SM KH, C Gnanaprakasam, M Swarna, R Geetha
    • Year: 2023
    • Citations: 1

 

Wesam Rababa | Engineering | Best Researcher Award

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Mr. Wesam Rababa | Engineering | Best Researcher Award

Graduated Student at King Fahd University of Petroleum and Minerals, Saudi Arabia 

Wesam Rababa is a dedicated architectural professional specializing in sustainable design and green building practices. With a strong focus on environmental sustainability, Wesam integrates eco-friendly principles into architectural designs, creating structures that are both efficient and comfortable. His expertise spans project development, energy efficiency, CO₂ emissions, and passive design, all of which are central to advancing green architecture. Wesam’s professional experiences are diverse, covering roles in teaching, interior design, architectural engineering, and project management across Jordan and Saudi Arabia. Recognized for his academic excellence, he has contributed to sustainability-focused research and holds multiple certifications in sustainable assessment, energy auditing, and environmental product declarations. As a committed member of the architectural community, Wesam is also a part of the Jordan Engineers Association and has led the Jordanian community at King Fahd University. With a solid academic foundation and a passion for sustainable design, Wesam Rababa is actively shaping the future of architecture in an environmentally conscious direction.

Education

Wesam Rababa has a strong academic background in architecture with a focus on sustainability. He completed his Master’s degree in Architecture Science from King Fahd University of Petroleum and Minerals in Saudi Arabia in 2023, supported by a fully funded scholarship. His Master’s studies equipped him with advanced knowledge in sustainable design practices, allowing him to address environmental challenges in architecture. Before this, Wesam earned his Bachelor’s degree in Architecture Engineering from Yarmouk University in Jordan in 2020, where he graduated with First Honor and a GPA of 3.844/4. His undergraduate studies emphasized sustainability and green buildings, laying a solid foundation for his career in sustainable architecture. These achievements reflect his academic dedication and commitment to environmental sustainability, supported by his excellent performance and academic honors. Wesam’s educational journey highlights his dedication to learning and the critical role that sustainable design principles play in modern architecture.

Professional Experience

Wesam Rababa has held diverse roles in architectural and educational settings, demonstrating his commitment to sustainable design and project management. His recent role as a Planning Engineer at PHASE in Khobar, Saudi Arabia, involves overseeing project timelines, coordinating design and construction teams, and managing project risks and budgets. Wesam has also served as an Architect at Minimalist for Design in Jordan, where he developed design concepts and detailed 3D models, focusing on functionality and sustainability. In academia, he contributed as a Teaching Assistant at King Fahd University of Petroleum and Minerals, preparing course materials and teaching courses like Architectural Design Studio and Digital Communication. His teaching extended to Yarmouk University and the TAFE Arabia training institute, where he guided students in AutoCAD and engineering drawing. His professional journey showcases a blend of practical architectural work and academic contributions, highlighting his versatile skills in design, project planning, and education.

Research Interests

Wesam Rababa’s research interests center around sustainable architecture and energy efficiency. He is deeply invested in exploring ways to reduce CO₂ emissions and enhance energy efficiency within buildings. His work focuses on passive design principles, which aim to naturally regulate building temperatures through architectural design elements, reducing reliance on mechanical systems. Wesam is also interested in green buildings and facade retrofit strategies, especially in hot climates, where energy efficiency can make a significant environmental impact. His interest in sustainable assessment rating systems and life cycle assessment underscores his commitment to designing environmentally responsible buildings. Wesam’s research aligns with the pressing need for sustainable solutions in the built environment, addressing both ecological and functional aspects of architecture. By focusing on innovative strategies that prioritize sustainability, he is actively contributing to the advancement of environmentally friendly architectural practices.

Research Skills

Wesam Rababa possesses a broad set of research skills essential for advancing sustainable architectural practices. His technical proficiency in sustainability programs such as IES and Envi_Met supports his research in energy-efficient design and environmental analysis. Wesam is skilled in using advanced architectural software, including Revit, AutoCAD, and SketchUp, which are crucial for developing detailed and accurate design models. Additionally, he is proficient in visualization tools like Lumion, Illustrator, and Photoshop, enabling him to create compelling presentations of his sustainable designs. His knowledge of the Mostadam AP sustainability rating system and certifications in life cycle assessment (LCA) and energy auditing further complement his skill set, allowing him to conduct comprehensive sustainability evaluations. Wesam’s expertise in design, energy efficiency, and sustainable assessment tools highlights his capacity to conduct impactful research in green architecture, making him a valuable contributor to the field.

Awards and Honors

Wesam Rababa has received numerous accolades in recognition of his academic and professional achievements. His commitment to excellence in architecture was honored with First Honor recognition in his Bachelor’s degree in Architecture Engineering at Yarmouk University. He was awarded a fully funded MSc scholarship from King Fahd University of Petroleum and Minerals in Saudi Arabia, reflecting his academic potential and dedication to sustainability. Wesam also received a scholarship from the China Scholarship Council, emphasizing his academic standing. In competitions, he achieved top ranks, including fifth place in the Smart Campus Competition at King Fahd University in 2023. His project on “Lightweight Concrete Block” advanced to the final stage of the Shamal Star Competition, underscoring his innovative approach to sustainable construction. These awards and honors highlight Wesam’s dedication, innovation, and commitment to sustainable design, establishing him as a promising architect and researcher in his field.

Conclusion

Wesam Rababa demonstrates a strong candidacy for a Best Researcher Award, especially in fields centered on sustainability and environmentally conscious architectural design. With a robust foundation in sustainable practices, academic excellence, and contributions to sustainability research, they embody the qualities valued in a researcher committed to ecological impact. If they continue to expand their research outputs and engage in collaborative projects, Wesam’s contributions could further their influence and strengthen their case for recognition in sustainable architectural research awards.

Publication Top Notes

  1. Façade Retrofit Strategies for Energy Efficiency Improvement Considering the Hot Climatic Conditions of Saudi Arabia
    Journal: Applied Sciences
    Publication Date: November 1, 2024
    Author(s): Wesam Rababa

 

 

Yousaf Khan | Engineering Optimization | Environmental Engineering Impact Award

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Mr. Yousaf Khan | Engineering Optimization | Environmental Engineering Impact Award

Masters of Philosophy at Abdul Wali Khan University Mardan, Pakistan.

Yousaf Khan is a dedicated researcher and educator based in Khyber Pakhtunkhwa, Pakistan. Born on March 8, 1999, he holds a Master of Philosophy in Mathematics from Abdul Wali Khan University Mardan, where he specialized in hybrid energy management systems. His research focuses on advanced optimization techniques, mathematical modeling, and computational systems, contributing to the field of environmental engineering. In addition to his academic pursuits, Yousaf serves as a subject instructor, demonstrating his commitment to education and knowledge dissemination. With several publications in reputable journals, he is recognized for his innovative approaches to energy management, particularly in off-grid applications. Yousaf’s work is essential for sustainable development, particularly in addressing energy challenges in remote areas. His diverse skills and collaborative mindset position him as a promising contributor to the field of environmental engineering.

Publication Profile👤

Education

Yousaf Khan completed his educational journey at Abdul Wali Khan University Mardan, where he earned both his Bachelor of Science and Master of Philosophy in Mathematics. His academic pursuits began with a Bachelor’s degree in Mathematics from 2017 to 2021, followed by an MPhil from 2021 to 2023, during which he focused on hybrid energy management systems. His master’s dissertation, titled “Optimal Power Management of a Stand-alone Hybrid Energy Management System,” reflects his innovative approach to integrating hydro, photovoltaic, and fuel cell technologies to enhance power generation efficiency. Throughout his studies, Yousaf engaged in courses such as Engineering Optimization, Optimization Theory, and Computational Methods, providing him with a solid foundation in mathematical tools applicable to real-world energy challenges. His educational background equips him with the analytical and computational skills necessary to tackle complex environmental engineering problems.

Professional Experience

Yousaf Khan has garnered valuable professional experience as an educator and instructor in mathematics. He is currently a Subject Instructor at Rozatul Islam Public School, where he imparts mathematical knowledge to students, emphasizing analytical thinking and problem-solving skills. Prior to this role, he served as a Lecturer of Mathematics at ANSI School and Degree College in Mardan, where he further honed his teaching abilities. Yousaf also has experience as an online subject instructor, showcasing his adaptability to different educational environments. His roles in academia have allowed him to engage with students effectively and foster a love for mathematics and its applications. Through his teaching, Yousaf encourages critical thinking and promotes the importance of mathematics in various fields, including environmental engineering, where mathematical modeling and optimization play a crucial role in finding sustainable solutions.

Research Interests

Yousaf Khan’s research interests lie primarily in advanced optimization techniques for hybrid energy management systems, focusing on sustainable energy solutions. His work emphasizes multi-objective optimization using heuristic and metaheuristic approaches, particularly Genetic Algorithms and Ant Colony Optimization. Yousaf also delves into mathematical modeling and optimization, exploring optimal power management and combinatorial optimization strategies. His foundational knowledge in mathematical statistics, linear algebra, and integral equations enhances his research capabilities, allowing him to tackle complex problems effectively. Additionally, he is interested in computational and network systems, including neural and sensor networking, which are essential for modern energy management. Yousaf’s research aims to contribute to the development of innovative and efficient energy systems, particularly for off-grid and remote areas, highlighting his commitment to advancing the field of environmental engineering through sustainable practices.

Research Skills

Yousaf Khan possesses a diverse range of research skills that enhance his contributions to the field of environmental engineering. His proficiency in advanced optimization techniques, particularly in hybrid energy management systems, allows him to develop innovative solutions for sustainable energy challenges. Yousaf is skilled in utilizing computational tools such as Matlab and Simulink for modeling and simulation, which are crucial for validating his research findings. His experience with mathematical statistics and linear algebra equips him to analyze data effectively and draw meaningful conclusions from complex datasets. Additionally, Yousaf demonstrates strong research and organizational skills, enabling him to manage projects efficiently and collaborate with peers and mentors. His dedication to academic excellence is reflected in his ability to conduct thorough literature reviews and apply appropriate methodologies in his studies, ensuring that his research is both rigorous and impactful.

Awards and Honors

Yousaf Khan has received the EHSAAS Undergraduate Scholarship in recognition of his academic excellence and commitment to education. This scholarship highlights his dedication to pursuing higher education in mathematics, emphasizing his potential as a future leader in the field of environmental engineering. While his current accolades focus primarily on academic achievement, Yousaf’s contributions to research, particularly in the area of hybrid energy management systems, position him as a promising candidate for future awards and recognitions in his field. His involvement in various research projects and publications demonstrates his commitment to advancing sustainable energy solutions, potentially leading to further accolades as he continues to make strides in his research. Yousaf’s achievements underscore his dedication to excellence in academia and research, reflecting his aspiration to contribute significantly to the field of environmental engineering.

Conclusion

Yousaf Khan’s research contributions in hybrid energy management systems and optimization techniques are relevant to environmental engineering, particularly in the context of sustainable energy solutions. His technical skills, strong academic background, and relevant publications strengthen his candidacy for the Environmental Engineering Impact Award. However, broadening the scope of his research to encompass more diverse environmental applications and showcasing fieldwork or real-world implementations could improve his chances.

Publication Top Notes
        1. Title: Optimal power management of a stand-alone hybrid energy management system: Hydro-photovoltaic-fuel cell
        2. Authors: M. Mossa Al-Sawalha, Humaira Yasmin, Shakoor Muhammad, Yousaf Khan, Rasool Shah
        3. Year: 2024
        4. Journal: Ain Shams Engineering Journal
        5. DOI: 10.1016/j.asej.2024.103089

         

HUY NGUYEN | Communication Engineering | Best Researcher Award

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Dr. HUY NGUYEN | Communication Engineering | Best Researcher Award

Researcher at Kookmin University, Vietnam.

Nguyen Ngoc Huy is a dedicated researcher specializing in microprocessors, semiconductors, embedded systems, and optical communication technologies. Currently serving as a Senior Researcher at the Wireless Communications and Artificial Intelligence Lab at Kookmin University, he leads projects on optical wireless communication systems for drone networks. Huy has excelled academically, achieving high distinctions in his studies, including a Ph.D. in Electronics Engineering, and he has received multiple awards for academic excellence. His research contributions include several SCI papers and over 30 patents, reflecting his innovative approach to deep learning applications in optical camera communication and LiFi systems. Additionally, Huy has actively participated in the IEEE 802.15.7a Task Group as a technical editor, underscoring his commitment to advancing telecommunications standards. With strong programming skills and extensive research experience, he is poised to make significant impacts in the fields of wireless communications and artificial intelligence.

Profile:

Education

Nguyen Ngoc Huy has an impressive educational background in Electronics Engineering. He is currently pursuing his Ph.D. at Kookmin University, Seoul, Korea, at the Wireless Communications and Artificial Intelligence Lab, where he has achieved an excellent GPA of 4.25/4.5. His research focuses on advanced topics such as Optical Camera Communication and Deep Learning for vehicular applications. Prior to his doctoral studies, Huy earned a Master’s degree from the same lab at Kookmin University, maintaining a remarkable GPA of 4.37/4.5. His academic journey began with a Bachelor’s degree in Electronics and Communications from the Hanoi University of Science and Technology (HUST), Vietnam, where he graduated with distinction, earning a GPA of 3.24/4.0. Throughout his educational pursuits, Huy has consistently demonstrated dedication and excellence, receiving multiple awards for academic achievements, including accolades for both his Master’s and Ph.D. studies.

Professional Experiences 

Nguyen Ngoc Huy is currently a Senior Researcher at the Wireless Communications and Artificial Intelligence Lab at Kookmin University, where he leads the Optical Camera Communication (OCC) team for a Drone Network Project. His responsibilities include the design and implementation of optical wireless communication systems and the development of hardware and software for OCC, LiFi, and Free Space Optical (FSO) systems. As a Ph.D. student at the same lab from 2020 to 2023, Huy focused on deep learning applications in communication systems, culminating in his thesis on “Optical Camera Communication and Multi-sensor Fusion on Deep Learning for Vehicular Applications.” He has previously served as an Assistant Teacher and Researcher at the Radio Frequency and Microwave Laboratory at Hanoi University of Science and Technology, where he supported undergraduate education and contributed to projects involving the Internet of Things (IoT) and wireless sensor networks. His extensive experience is complemented by a strong publication record and contributions to international patents and standards.

Research Interests

Nguyen Ngoc Huy’s research interests encompass a broad spectrum within the field of electronics engineering, focusing on cutting-edge technologies such as microprocessors, semiconductors, and embedded systems. He is particularly passionate about optical communication, specifically Optical Camera Communication (OCC), Light Fidelity (LiFi), and Free Space Optical (FSO) systems, which have transformative potential in wireless communications. Huy integrates advanced signal processing and image processing techniques with artificial intelligence to enhance the performance and efficiency of these systems. His work includes designing and implementing innovative solutions for long-distance communication applications, as well as developing deep learning models for object detection and channel estimation. By contributing to significant projects like the Drone Network Project, Huy aims to push the boundaries of wireless communication technologies, making them more robust and adaptable for future applications in various industries. His commitment to advancing these fields positions him as a valuable contributor to ongoing research and development efforts.

Research Skills 

Nguyen Ngoc Huy possesses a diverse set of research skills that span various aspects of electronics engineering and communication technologies. His expertise in designing and implementing Optical Camera Communication (OCC) systems showcases his proficiency in both hardware and software development. Huy’s experience in signal processing, particularly in deep learning applications for object detection and channel estimation, highlights his ability to integrate advanced technologies into practical solutions. He has demonstrated significant contributions to international journals, patents, and technical standards, underscoring his research capability in cutting-edge topics such as LiFi and Free Space Optical (FSO) systems. His role as a Technical Editor in the IEEE 802.15.7a Task Group further reflects his strong understanding of industry standards and collaboration within the scientific community. With a solid foundation in programming languages, engineering tools, and practical knowledge of wireless sensor networks, Huy is well-equipped to tackle complex research challenges in his field.

Award and Recognition 

Nguyen Ngoc Huy has received multiple awards and recognitions throughout his academic journey, highlighting his dedication and excellence in the field of Electronics Engineering. In August 2023, he was honored with the Award for Academic Excellence for Ph.D. Students from Kookmin University, reflecting his outstanding performance during his doctoral studies. Prior to this, he was awarded the Academic Excellence Award for Master’s Students in August 2020, further underscoring his commitment to academic excellence. His achievements are complemented by a Merit Certificate for Very Good Graduation from Hanoi University of Science and Technology in 2017, along with several scholarships awarded during his undergraduate studies. Huy’s contributions to research, particularly in optical wireless communication and deep learning applications, have also led to numerous publications in international journals, further establishing him as a respected researcher in his field. His accolades serve as a testament to his hard work, innovation, and impactful contributions to technology.

Conclusion

Nguyen Ngoc Huy stands out as a strong candidate for the Research for Best Researcher Award due to his remarkable academic achievements, extensive research experience, significant contributions to international journals and patents, and professional involvement in standardization efforts. While there are areas for improvement, such as language proficiency and networking, his strengths far outweigh these considerations. Recognizing him with this award would not only honor his accomplishments but also encourage further innovation and research excellence in the fields of electronics and communications.

Publication Top Notes
  • Rolling OFDM for Image Sensor Based Optical Wireless Communication
    • Authors: H Nguyen, MD Thieu, T Nguyen, YM Jang
    • Year: 2019
    • Journal: IEEE Photonics Journal, 11(4), 1-17
  • The Impact of Camera Parameters on Optical Camera Communication
    • Authors: H Nguyen, MD Thieu, TL Pham, H Nguyen, YM Jang
    • Year: 2019
    • Conference: 2019 International Conference on Artificial Intelligence in Information and Communication Technology
  • Low Power Wide Area Network Technologies for Smart Cities Applications
    • Authors: TL Pham, H Nguyen, H Nguyen, V Bui, YM Jang
    • Year: 2019
    • Conference: 2019 International Conference on Information and Communication Technology
  • Design and Implementation of the MIMO–COOK Scheme Using an Image Sensor for Long-Range Communication
    • Authors: VH Nguyen, MD Thieu, H Nguyen, YM Jang
    • Year: 2020
    • Journal: Sensors, 20(8), 2258
  • Design and Implementation of 2D MIMO-Based Optical Camera Communication Using a Light-Emitting Diode Array for Long-Range Monitoring System
    • Authors: H Nguyen, V Nguyen, C Nguyen, V Bui, Y Jang
    • Year: 2021
    • Journal: Sensors, 21(9), 3023
  • Design of MIMO C-OOK using Matched filter for Optical Camera Communication System
    • Authors: H Nguyen, YM Jang
    • Year: 2021
    • Conference: 2021 International Conference on Artificial Intelligence in Information and Communication Technology
  • Rolling MIMO-OFDM for Optical Camera Communication System
    • Authors: H Nguyen, TL Pham, H Nguyen, YM Jang
    • Year: 2020
    • Conference: 2020 International Conference on Artificial Intelligence in Information and Communication Technology
  • A Novel Neural Network-Based Method for Decoding and Detecting of the DS8-PSK Scheme in an OCC System
    • Authors: TL Pham, H Nguyen, T Nguyen, YM Jang
    • Year: 2019
    • Journal: Applied Sciences, 9(11), 2242
  • An Experimental Demonstration of MIMO C-OOK Scheme Based on Deep Learning for Optical Camera Communication System
    • Authors: VL Nguyen, DH Tran, H Nguyen, YM Jang
    • Year: 2022
    • Journal: Applied Sciences, 12(14), 6935
  • Trade-off Communication distance and Data rate of Rolling shutter OCC
    • Authors: H Nguyen, TL Pham, H Nguyen, YM Jang
    • Year: 2019
    • Conference: 2019 Eleventh International Conference on Ubiquitous and Future Networks

 

 

 

Walid AWADI | Engineering | Best Scholar Award

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Mr. Walid AWADI | Engineering | Best Scholar Award 

Professor at Polytechnic Institute of Leiria , Portugal .

Walid Awadi is a mechanical engineering professional with extensive experience in both academia and industry. He is currently a Maitre Technologue in Mechanical Engineering at ISET Jendouba and previously served as the Director of the Higher Institute of Technological Studies in Jendouba from 2010 to 2017. Awadi holds a Master’s degree in Mechanical Engineering and is pursuing a Ph.D. focusing on the characterization and optimization of thermoplastic polymer welding. He has participated in various training programs and certifications, including SolidWorks, technological transfer, and risk prevention. His career includes contributions to numerous engineering projects, such as the design and fabrication of specialized machinery. Additionally, Awadi has been involved in international collaborations and training sessions in countries such as Spain, France, and Belgium. His work is characterized by a strong emphasis on technological innovation, applied research, and educational development.

Profile

Education

Walid Awadi holds a strong educational background in mechanical engineering, beginning with his Baccalaureate in Technical Studies from Lycée Technique 9 Avril in Jendouba, Tunisia, obtained in 1995 with honors. He pursued his higher education at the National Engineering School of Monastir (ENIM), where he earned his National Engineering Diploma in Mechanical Engineering in 2000. His final project focused on the design and fabrication of a PVC-U pipe grooving machine. Building on this, he completed a Master’s degree in Mechanical Engineering at ENIM from 2000 to 2002, specializing in the numerical simulation of micro-indentation tests. Since 2018, Walid has been pursuing a Ph.D. in Mechanical Engineering, focusing on the study and characterization of thermoplastic polymer welding using thermo-mechanical processes, under the guidance of Dr. Mondher Zidi (ENIM) and Dr. Redouane Zitoune (Université Toulouse, France). His educational journey reflects a deep commitment to advancing his expertise in mechanical engineering.

Professional Experience

Walid Awadi is a seasoned professional with extensive experience in mechanical engineering and academia. He holds the position of Maître Technologue in Mechanical Engineering at the Higher Institute of Technological Studies (ISET) in Jendouba, Tunisia. From August 2010 to December 2017, he served as the Director of ISET Jendouba, where he played a crucial role in enhancing the institution’s academic programs and infrastructure. Throughout his career, Walid has been deeply involved in both teaching and research, with a focus on mechanical engineering, particularly in thermomechanical processes and polymer welding. His professional journey is marked by his contributions to curriculum development, particularly in adopting competency-based approaches, and his active participation in various international projects and training programs. Walid’s commitment to advancing mechanical engineering education and research has earned him recognition within academic and professional circles, making him a respected figure in his field.

Research Interest

Walid Awadi’s research interests are deeply rooted in mechanical engineering, with a particular focus on the study and characterization of thermoplastic polymer welding. His work involves the application of thermomechanical processes to optimize joining parameters, a field critical for enhancing the durability and functionality of engineering materials. Additionally, Awadi is engaged in numerical simulation studies, especially in micro-indentation testing, which further highlights his commitment to precision in material analysis. His research extends to innovative design and fabrication projects, including the development of specialized machinery for PVC-U tube grooving. Awadi’s academic pursuits are complemented by his involvement in advanced manufacturing technologies, such as SolidWorks, where he holds multiple certifications. His research contributions are pivotal in advancing knowledge in mechanical engineering, particularly in the areas of material characterization, process optimization, and the integration of modern simulation tools to enhance engineering outcomes.

Research Skills

Walid Awadi possesses a robust set of research skills, particularly in the field of mechanical engineering. His expertise spans thermoplastic welding, numerical simulation, and mechanical design, with a strong focus on optimizing and characterizing engineering processes. Awadi’s ability to conduct complex simulations, such as micro-indentation testing, demonstrates his proficiency in advanced analytical tools. His experience in SolidWorks, CSWA, and CSWP certifications further highlights his capabilities in computer-aided design and mechanical modeling. Additionally, Awadi has a deep understanding of technology transfer, intellectual property management, and risk prevention in industrial settings, as evidenced by his extensive training and certifications in these areas. His participation in various international workshops and collaborative projects underscores his collaborative and innovative approach to research. Overall, Awadi’s research skills are a blend of theoretical knowledge and practical expertise, making him a versatile researcher capable of contributing significantly to advancements in mechanical engineering.

Awards and Recognition

Awadi’s achievements in education and training, including certifications in SolidWorks and his involvement in various international training programs, are commendable. His role as Director of ISET Jendouba also highlights his leadership and recognition in the academic community.

Conclusion

Walid Awadi is a dedicated mechanical engineer with a strong focus on applied research, international collaboration, and education. While his work primarily centers around mechanical engineering, his contributions to the field, coupled with his leadership in academia, make him a commendable candidate for a research award, particularly in categories related to engineering and technology. However, if the award emphasizes environmental health, parasitology, or infectious diseases, other candidates with a stronger focus in those areas might be more suitable.