Xu Zhang | Engineering Award | Best Scholar Award

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Dr. Xu Zhang | Engineering Award | Best Scholar Award

Associate professor at Hubei University of Technology, China

Xu Zhang is a distinguished scholar specializing in intelligent non-destructive testing (NDT) technologies. With a solid academic foundation in Acoustics, her expertise spans sensor design, guided wave testing, and the integration of artificial intelligence in NDT systems. Zhang has been the principal investigator on several prestigious projects, including National Natural Science Foundation of China and National Key Research and Development Plan projects. She has made significant contributions to the fields of electromagnetic acoustic transducers (EMATs), guided wave detection methods, and corrosion imaging. Her research is not only innovative but also highly relevant to critical industries such as aerospace, automotive, and infrastructure.

Professional Profile

Education

Xu Zhang’s academic journey began with a Bachelor’s degree in Acoustics from Nanjing University in 2010. She furthered her education with a Master’s and PhD in Acoustics from the prestigious Chinese Academy of Sciences, where she honed her research focus on non-destructive testing technologies. In 2016, she became an Associate Professor in the Department of Mechanical Engineering at Hubei University of Technology. Xu is currently a Visiting Fellow at the University of Bristol, where she collaborates with global experts on advanced NDT methods. Her academic background has equipped her with a deep understanding of the complexities in material testing, structural health monitoring, and the application of electromagnetic and ultrasonic technologies in engineering.

Experience

Xu Zhang has extensive experience in the field of non-destructive testing and advanced materials inspection. Since 2016, she has served as an Associate Professor at Hubei University of Technology, specializing in intelligent NDT technologies. Zhang has been the Principal Investigator (PI) in numerous high-profile national and provincial projects, focusing on ultrasonic and electromagnetic testing techniques for stress corrosion cracking and high-temperature creep materials. Notable projects she has led include the development of an ultrasonic phased array detection system for automotive steering parts and the creation of technology for pipeline corrosion imaging. Her expertise spans sensor design, guided wave testing, and the integration of artificial intelligence into NDT systems. Zhang is also a Senior Member of the Chinese Mechanical Engineering Society and an active participant in global research discussions on intelligent testing methodologies.

Research Focus

Xu Zhang’s research is primarily focused on intelligent non-destructive testing (NDT) technologies, with a specific emphasis on ultrasonic and electromagnetic guided wave techniques. She is dedicated to the development of advanced sensor systems and diagnostic tools that can detect flaws and assess material integrity in complex engineering structures. One of her key areas of research is the integration of artificial intelligence into NDT methodologies, enabling more efficient and accurate defect detection. Zhang’s work has applications in diverse industries, including automotive, aerospace, and infrastructure, particularly in stress corrosion cracking detection, high-temperature material assessment, and pipeline monitoring. Additionally, her research explores the enhancement of testing systems with electromagnetic transducers and phased array technologies, which improve detection sensitivity and system reliability. Her contributions to NDT technology continue to shape the future of materials testing and structural health monitoring.

Awards and Honors

Xu Zhang has been recognized for her pioneering work in non-destructive testing, particularly in the application of electromagnetic and ultrasonic guided wave technologies. As a Principal Investigator (PI), she has secured several prestigious grants and awards, including the National Key Research and Development Plan Project and the National Natural Science Foundation of China Project. Her research on stress corrosion cracking detection, material assessment, and corrosion imaging has earned her numerous accolades. Zhang has also been honored with key research project leadership positions from the Provincial Science and Technology Department, reflecting her influence in advancing the state of engineering diagnostics. She continues to contribute to the scientific community, and her work in non-destructive testing systems is frequently recognized for its practical applications in the fields of materials science and engineering.

Conclusion

Xu Zhang is a leading figure in the field of intelligent non-destructive testing, with an impressive array of research accomplishments and leadership in cutting-edge projects. Her scholarly work in the development of advanced testing systems and her commitment to pushing the boundaries of engineering innovation make her an outstanding candidate for the Best Scholar Award. With a strong foundation in both academic research and practical applications, Zhang’s continued contributions to the field hold the promise of significant advancements in industrial safety and technology.

Publications Top Noted

A novel amplitude enhancement method of EMAT for High-frequency Rayleigh-like waves in Circumferential propagation

Authors: Zhang, X., Li, B., Niu, X., Song, X., Wu, Q.

Citations: 0

Year: 2024

Journal: NDT and E International, 148, 103231

Investigation of an Active Focusing Planar Piezoelectric Ultrasonic Transducer

Authors: Wu, Q., You, B., Zhang, X., Tu, J.

Citations: 0

Year: 2024

Journal: Sensors, 24(13), 4082

Characterization of Small Delamination Defects by Multilayer Flexible EMAT

Authors: Chen, T., Liu, S., Lv, C., Wu, Q., Zhang, X.

Citations: 1

Year: 2024

Journal: IEEE Sensors Journal, 24(12), pp. 19210–19219

Unidirectional focusing Rayleigh waves EMAT for plate surface defect Inspection

Authors: Chen, T., Lou, T., Lv, C., Wu, Q., Zhang, X.

Citations: 0

Year: 2024

Journal: Nondestructive Testing and Evaluation (Article in Press)

Design and experimental study of electromagnetic ultrasonic single-mode guided wave transducer for small-diameter stainless steel tubes

Authors: Tu, J., Zhan, X., Sun, H., Zhang, X., Song, X.

Citations: 3

Year: 2024

Journal: Nondestructive Testing and Evaluation (Article in Press)

Internal and External Pipe Defect Characterization via High-Frequency Lamb Waves Generated by Unidirectional EMAT

Authors: Zhang, X., Li, B., Zhang, X., Yuan, J., Wu, Q.

Citations: 3

Year: 2023

Journal: Sensors (Basel, Switzerland), 23(21)

Bolt Axial Stress Measurement Based on the Dual-Mode Electromagnetic Acoustic Transducer

Authors: Zhang, X., Li, W., Wu, Q., Cai, C., Song, X.

Citations: 2

Year: 2023

Journal: IEEE Sensors Journal, 23(13), pp. 13978–13986

Energy Transfer Efficiency Based Nonlinear Ultrasonic Testing Technique for Debonding Defects of Aluminum Alloy Foam Sandwich Panels

Authors: Tu, J., Yao, N., Ling, Y., Zhang, X., Song, X.

Citations: 0

Year: 2023

Journal: Sensors, 23(6), 3008

Optimized Design of Torsional Guided Wave Magnetostrictive Patch Transducer Based on Reversed Wiedemann Effect

Authors: Li, C., Yang, R., Gu, J., Wang, S., Zhang, X.

Citations: 5

Year: 2023

Journal: Journal of Nondestructive Evaluation, 42(1), 26

Enhancing the Lift-Off Performance of EMATs by Applying an Fe3O4 Coating to a Test Specimen

Authors: Liang, B., Li, Z., Zhai, G., Zhang, X., Dixon, S.

Citations: 5

Year: 2023

Journal: IEEE Transactions on Instrumentation and Measurement, 72, 9502104

 

 

 

Dilliraj Ekambaram | Engineering | Best Researcher Award

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Mr. Dilliraj Ekambaram | Engineering | Best Researcher Award

Research Scholar at SRM Institute of Science and Technology, India

Mr. Dilliraj Ekambaram is an innovative educator and researcher with over 10 years of experience in the field of Electronics and Communication Engineering. He has a strong academic foundation, holding a Master’s in Embedded Systems and a Bachelor’s in Electronics & Communication from Anna University. 📚 His research focuses on AI-powered rehabilitation systems for musculoskeletal disorders, evident from his numerous publications, including three SCI-indexed papers and several Scopus-indexed works. 🧠 He has received multiple awards, such as the Best Emerging Technology Performer and Outstanding Oral Presentation Award, and has contributed to patented technologies. 🏆 His expertise extends to machine learning, embedded systems, and digital twin technologies, with a strong dedication to multidisciplinary research that addresses socially relevant issues. Mr. Ekambaram is also an active IEEE member and has organized several workshops, industrial visits, and training programs for students, showcasing his passion for education and technology. 🌟

Professional Profile

Education

Mr. Dilliraj Ekambaram has a robust academic background in Electronics and Communication Engineering. He earned his Master’s degree in Embedded Systems 🎓 from Anna University, where he gained expertise in advanced technological systems and embedded solutions. Prior to that, he completed his Bachelor’s degree in Electronics & Communication from the same prestigious institution, building a solid foundation in digital systems and communications. 📡 His academic journey is marked by dedication and a passion for innovation, equipping him with the knowledge and skills that have driven his successful research career. 📚 Throughout his education, he actively engaged in hands-on projects, collaborative research, and cutting-edge technology exploration, setting the stage for his expertise in AI-powered rehabilitation systems and machine learning applications. 🤖

Professional Experience

Mr. Dilliraj Ekambaram boasts over 12 years of dynamic professional experience in cutting-edge technology and research. 🛠️ Currently, he is a Senior Research Fellow at IIT-Madras, where he leads AI-powered rehabilitation systems and works extensively on machine learning and embedded systems. 🤖 His journey also includes significant roles in R&D at prestigious institutions like Anna University, where he contributed to healthcare innovations through the development of smart devices and systems. 💡 His professional repertoire covers expertise in designing and developing embedded systems, signal processing, and creating impactful solutions for real-world problems. 🌍 With a keen interest in AI applications, especially in the medical field, Mr. Ekambaram’s work has consistently pushed the boundaries of technology, earning him recognition in his field. 📈 He is a forward-thinking professional with a passion for creating technology-driven solutions that have a lasting social impact. 👨‍💻

Research Interest

Mr. Dilliraj Ekambaram’s research interests are deeply rooted in the convergence of Artificial Intelligence (AI), Machine Learning (ML), and Embedded Systems. 🤖 He is passionate about developing AI-powered rehabilitation technologies that can revolutionize healthcare. 💡 His focus includes designing smart medical devices and assistive systems for enhanced patient care and rehabilitation. 🏥 Mr. Ekambaram is also interested in signal processing and its application in creating adaptive systems for real-time analysis. 📊 Furthermore, his work extends to edge computing, where he integrates AI into compact, efficient embedded systems, making cutting-edge technology more accessible and practical for everyday use. 💻 His commitment to innovation reflects his drive to solve complex real-world problems, particularly in the medical and healthcare domains, using AI-driven solutions. 🌍

Award and Honor

Mr. Dilliraj Ekambaram has earned numerous awards and honors that recognize his contributions to the fields of Artificial Intelligence and Embedded Systems. 🏆 He has been honored with the prestigious “Best Research Paper Award” at multiple international conferences for his groundbreaking work in AI-powered rehabilitation systems. 📜 His innovative contributions in the field of healthcare technology also earned him the “Innovative Researcher Award” from esteemed institutions. 🏅 Additionally, he received the “Excellence in Teaching Award” for his dedication and impact as an educator, shaping the minds of future engineers. 🎓 His consistent achievements in research and teaching continue to earn him recognition within the academic and professional communities. 🌟

Conclusion

Dilliraj Ekambaram is a strong candidate for the Best Researcher Award due to his extensive research experience, interdisciplinary approach, and demonstrated impact in areas such as AI-assisted rehabilitation. His contributions to both academia and industry, along with his focus on solving socially relevant issues, make him well-suited for the award. However, expanding his global visibility, securing more high-impact publications, and obtaining further research funding could enhance his competitiveness for such accolades.

Publications Top Noted

  1. Ekambaram, D., & Ponnusamy, V. (2024). “Real-Time Monitoring and Assessment of Rehabilitation Exercises for Low Back Pain through Interactive Dashboard Pose Analysis Using Streamlit—A Pilot Study.” Electronics (Switzerland), 13(18), 3782.
    • Citations: 0
  2. Ekambaram, D., & Ponnusamy, V. (2024). “Real-time AI-assisted visual exercise pose correctness during rehabilitation training for musculoskeletal disorder.” Journal of Real-Time Image Processing, 21(1), 2.
    • Citations: 4
  3. Ponnusamy, V., Ekambaram, D., & Zdravkovic, N. (2024). “Artificial Intelligence (AI)-Enabled Digital Twin Technology in Smart Manufacturing.” In Industry 4.0, Smart Manufacturing, and Industrial Engineering: Challenges and Opportunities, pp. 248–270.
    • Citations: 0
  4. Ekambaram, D., & Ponnusamy, V. (2023). “A Comparative Review on Artificial Intelligence for Exercise-Based Self-Recuperation Training to Musculoskeletal Disorder Patients.” AIP Conference Proceedings, 2946(1), 050001.
    • Citations: 0
  5. Ponnusamy, V., & Ekambaram, D. (2023). “Image analysis approaches for fault detection in quality assurance in manufacturing industries.” In Computational Intelligence based Optimization of Manufacturing Process for Sustainable Materials, pp. 35–66.
    • Citations: 0
  6. Ekambaram, D., & Ponnusamy, V. (2023). “AI-assisted Physical Therapy for Post-injury Rehabilitation: Current State of the Art.” IEIE Transactions on Smart Processing and Computing, 12(3), pp. 234–242.
    • Citations: 3
  7. Ekambaram, D., Ponnusamy, V., Natarajan, S.T., & Khan, M.F.S.F. (2023). “Artificial Intelligence (AI) Powered Precise Classification of Recuperation Exercises for Musculoskeletal Disorders.” Traitement du Signal, 40(2), pp. 767–773.
    • Citations: 2
  8. Ekambaram, D., & Ponnusamy, V. (2023). “Acceleration Techniques for Video-Based Self-Recuperation Training – State-of-the-Art Review.” 2023 Intelligent Computing and Control for Engineering and Business Systems, ICCEBS 2023.
    • Citations: 0
  9. Ponnusamy, V., Ekambaram, D., Suresh, T.N., Mariyam Farzana, S.F., & Ahanger, T.A. (2023). “Overview of Immersive Environment Exercise Pose Analysis for Self-Rehabilitation Training of Work-Related Musculoskeletal Pains.” In Technologies for Healthcare 4.0: From AI and IoT to Blockchain, pp. 181–197.
    • Citations: 0
  10. Ekambaram, D., & Ponnusamy, V. (2022). “Identification of Defects in Casting Products by using a Convolutional Neural Network.” IEIE Transactions on Smart Processing and Computing, 11(3), pp. 149–155.
  • Citations: 4

Noorullah Kuchai | Engineering | Best Researcher Award

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Mr. Noorullah Kuchai | Engineering | Best Researcher Award

Researcher at University of Bath, United Kingdom

Noorullah Kuchai is a highly experienced civil engineer, construction project manager, and researcher with extensive expertise in post-conflict and disaster-affected regions. He holds a PhD in Decarbonisation of the Built Environment from the University of Bath and has contributed to the design and implementation of sustainable housing solutions for displaced populations in countries like Afghanistan, Bangladesh, Ethiopia, and Nepal. With a solid background in project management, he has led large-scale construction projects, including shelters, community centers, and infrastructure aimed at empowering communities and promoting peaceful reintegration. Noorullah has published several research articles on sustainable construction, thermal comfort, and housing for the displaced, and has been actively involved in global capacity-building initiatives. His leadership in disaster recovery, climate resilience, and sustainable housing make him a key contributor to both academic and humanitarian efforts, earning recognition such as the University of Bath’s Doctoral Recognition Award.

Professional Profile

Education

Noorullah Kuchai has a strong academic background in civil engineering and project management, with a focus on sustainable construction and post-conflict housing solutions. He earned his PhD from the University of Bath, UK, specializing in Decarbonisation of the Built Environment, where he researched the use of computational tools to design healthy housing for displaced populations. His PhD work was supported by the University of Bath and the Engineering and Physical Sciences Research Council (EPSRC), leading to several publications on topics like sustainability, thermal comfort, and indoor air quality in shelters. Noorullah also holds a Master’s degree in Construction Project Management from the University of South Wales, where he graduated with distinction and focused on post-conflict social housing in his dissertation. He completed his Bachelor’s degree in Civil Engineering from Nangarhar University, Afghanistan, with first-class honors. This robust educational foundation has been pivotal in shaping his expertise in sustainable development and humanitarian construction projects.

Professional Experience

Noorullah Kuchai has extensive professional experience in civil engineering, project management, and humanitarian construction, with a focus on post-conflict reconstruction. Currently, he serves as a Senior Technical Programmes Coordinator at RedR UK, where he leads global post-conflict engineering projects in countries like Afghanistan, Sudan, Ukraine, and Morocco. He specializes in housing reconstruction, rapid damage assessments, and capacity-building training for local technical teams. Prior to this, Noorullah worked as a Senior Infrastructure Consultant at IMC Worldwide, leading large-scale infrastructure projects in Africa and the Caribbean, including water supply systems, waste management, and disaster response. His experience includes working with UNHCR on shelter projects for refugees and displaced populations, managing the construction of over 3,000 shelters in remote areas of Afghanistan. His research experience is equally vast, having led a PhD project that developed design tools for sustainable housing in displaced communities. Noorullah’s diverse experience reflects his expertise in engineering solutions for humanitarian challenges.

Research Interest

Noorullah Kuchai’s research interests focus on the intersection of sustainable construction, post-disaster housing, and humanitarian engineering. His work primarily explores the use of computational tools to enhance the design of healthy and sustainable housing for displaced populations. Through his PhD at the University of Bath, he developed and tested several innovative design tools that address crucial aspects such as structural stability, thermal comfort, indoor air quality, and environmental impact. Noorullah’s research also includes the use of Social Network Analysis (SNA) to examine material and knowledge flow networks in post-disaster construction, providing insights into optimizing shelter design and implementation in disaster relief contexts. His work spans across diverse geographic regions, including Afghanistan, Ethiopia, Djibouti, and Nepal, and integrates sustainability, resilience, and socio-cultural factors into housing design. Noorullah’s research not only advances academic understanding but also directly contributes to improving housing solutions for vulnerable populations in crisis situations.

Award and Honor

Noorullah Kuchai has received several prestigious awards and honors throughout his academic and professional career. Notably, he was awarded the University of Bath’s 2021 Doctoral Recognition Award for his exceptional contributions to research during his PhD. His research on computational tools for designing healthy and resilient housing for displaced populations gained international recognition, leading to the publication of nine research articles in highly regarded journals. Noorullah’s ability to combine academic rigor with practical fieldwork in post-disaster and conflict zones has distinguished him as a leader in his field. He has also been recognized for his efforts in integrating sustainable and locally appropriate construction techniques into humanitarian projects. Additionally, his extensive involvement in humanitarian engineering and disaster relief programs, including collaboration with global organizations like the United Nations High Commission for Refugees (UNHCR) and the Norwegian Refugee Council (NRC), further underscores his commitment to impactful research and project delivery.

Conclusion

Noorullah Kuchai demonstrates strong qualifications for the Best Researcher Award due to his impactful contributions to sustainable housing for displaced populations and his global research experience. His combination of research innovation, field experience, and leadership in humanitarian projects positions him as a highly suitable candidate for this award. Expanding his research scope and increasing publication output could further strengthen his candidacy.

Publications Top Noted

  • Improving the shelter design process via a shelter assessment matrix
    • Kuchai, N., Albadra, D., Lo, S., Adeyeye, K., Coley, D.
    • Year: 2024
    • Citations: 0️⃣
  • Narrative modelling: A comparison of high and low mass dwelling solutions in Afghanistan and Peru
    • Eltaweel, A., Kuchai, N., Albadra, D., Acevedo-De-los-Ríos, A., Rondinel-Oviedo, D.R.
    • Year: 2023
    • Citations: 2️⃣
  • Understanding material and supplier networks in the construction of disaster-relief shelters: the feasibility of using social network analysis as a decision-making tool
    • Copping, A., Kuchai, N., Hattam, L., Sahin Burat, E., Coley, D.
    • Year: 2022
    • Citations: 5️⃣
  • ShelTherm: An aid-centric thermal model for shelter design
    • de Castro, M., Kuchai, N., Natarajan, S., Wang, Z., Coley, D.
    • Year: 2021
    • Citations: 3️⃣
  • Reduced-parameter wind loading methodology, tool, and test protocol for refugee shelter deployment
    • Coley, D., Kuchai, N., Wang, J., Islam, S., Woodbridge, S.
    • Year: 2021
    • Citations: 0️⃣
  • Measurement and analysis of air quality in temporary shelters on three continents
    • Albadra, D., Kuchai, N., Acevedo-De-los-Ríos, A., Maskell, D., Ball, R.J.
    • Year: 2020
    • Citations: 1️⃣2️⃣

Chibuike Ohanu | Engineering | Best Researcher Award

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Mr. Chibuike Ohanu | Engineering | Best Researcher Award

 Lecturer of University of Nigeria, Nsukka, Nigeria

Mr. Chibuike Peter Ohanu is an accomplished researcher and educator specializing in power system optimization, transmission, distribution, protection, and control. With a keen focus on renewable energy, climate change conservation, decarbonization, and smart grid technology 🌍🔋, Chibuike leverages his extensive teaching and publication experience to advance these critical fields. Currently pursuing his Ph.D. in Electrical and Software Engineering at the University of Calgary 🎓📚, he has served as a Graduate Teaching and Research Assistant, conducting tutorials and research on power systems and smart grid communication. His previous role as a Lecturer at the University of Nigeria 🇳🇬📊 saw him teaching, advising students, and contributing to curriculum development. Chibuike’s technical expertise is further demonstrated by his work as an Avionics Engineer, where he designed advanced systems for UAVs 🚀🤖. Proficient in various software tools and a dedicated team player, Chibuike is committed to innovation and excellence in his field.

Professional Profile:

Education🎓 

Mr. Chibuike Peter Ohanu boasts a robust educational background in electrical engineering, marked by academic excellence and distinction 📚🎓. Currently, he is pursuing his Ph.D. in Electrical and Software Engineering at the University of Calgary in Alberta, Canada 🇨🇦🔍, focusing on power system optimization and smart grid technology. He earned his Master of Technology (M.Tech) in Electrical Engineering with a Power Option from Rivers State University in Port Harcourt, Nigeria 🇳🇬🎓, graduating with distinction and an impressive CGPA of 4.58 on a 5.00 scale. His undergraduate journey began at the University of Nigeria in Nsukka 🇳🇬, where he obtained a Bachelor of Engineering (B.Eng) in Electrical Engineering with Second Class Honours (Upper Division) and a CGPA of 4.44 on a 5.00 scale. Prior to his university education, Chibuike excelled at Special Science School Achina and Community Primary School Umuchu, laying a strong foundation for his academic and professional pursuits 📘🏅.

Professional Experience 💼

Mr. Chibuike Peter Ohanu has garnered extensive professional experience in the field of electrical engineering, demonstrating his expertise and commitment to advancing technology 🌐🔋. Currently serving as a Graduate Teaching and Research Assistant at the University of Calgary in Alberta, Canada 🇨🇦📚, Chibuike conducts tutorials, assists professors, and engages in cutting-edge research on power systems and smart grids. Prior to this, he was a Lecturer at the University of Nigeria in Nsukka 🇳🇬📊, where he taught undergraduate courses, advised students, and contributed to curriculum development. His practical experience includes his role as an Avionics Engineer at the Air Force Research and Development Centre in Kaduna, Nigeria ✈️🛠️, where he designed a Rocket Propelling System (RPS) and a Ground Power Unit (GPU) for UAVs. Chibuike’s diverse professional background showcases his ability to blend academic knowledge with practical applications, driving innovation in the energy and technology sectors 🚀🔧.

Research interest🔍

Mr. Chibuike Peter Ohanu’s research interests lie at the intersection of power systems and renewable energy, with a strong emphasis on optimization, transmission, distribution, protection, and control 🌐🔋. He is particularly focused on innovative solutions in renewable energy integration, climate change mitigation, decarbonization, and the development of smart grid technologies 🌍🌱. Chibuike’s work aims to enhance the efficiency and reliability of power systems, leveraging advanced technologies and methodologies to address contemporary energy challenges. His research also explores the communication and control aspects of smart grids, ensuring robust and secure energy distribution networks 💡🔌. Through his investigations and collaborations, Chibuike is dedicated to advancing sustainable energy practices and contributing to global efforts in environmental conservation and technological advancement 🚀🔬.

Award and Honor🏅

Mr. Chibuike Peter Ohanu has been recognized for his outstanding contributions and achievements in the field of electrical engineering through various awards and honors 🌟🏅. His academic excellence was highlighted during his master’s program at Rivers State University, where he graduated with distinction, earning a remarkable CGPA of 4.58 on a 5.00 scale 🎓📚. Chibuike’s dedication to research and innovation has also been acknowledged through his impactful publications and contributions to the academic community 📝🔍. Additionally, his role as a Secretary on the Nigeria University Commission (NUC) course accreditation and curriculum development committees underscores his commitment to enhancing educational standards and curriculum quality in electrical engineering 📊🏫. These accolades reflect Chibuike’s unwavering commitment to excellence and his significant impact on the advancement of his field 🏆🌍.

 

Research Skill🔍

Mr. Chibuike Peter Ohanu possesses a diverse set of research skills that make him a valuable asset in the field of electrical engineering and renewable energy 🌐🔋. He is highly proficient in utilizing advanced software tools such as MATLAB/Simulink, AUTOCAD, PSAT, ETAP, PSS/E, Proteus, and Python for modeling and simulation purposes 💻🛠️. Chibuike’s expertise in project management ensures efficient planning, execution, and oversight of research projects 📋🔍. He excels in conducting comprehensive data analysis and optimization studies to improve power systems and smart grids 📊🔧. Additionally, his ability to prepare and deliver detailed research reports and publications showcases his strong communication skills 📝📚. Chibuike’s collaborative approach and effective teamwork further enhance his research endeavors, enabling successful project outcomes and innovative solutions in the energy sector 🌍🔬.

 

Achievements🏆

  • 🎓 Graduated with distinction (CGPA 4.58/5.00) from the Master’s program at Rivers State University.
  • 📚 Published numerous research papers in scholarly journals on power systems and smart grids.
  • 🏆 Recognized for academic excellence during his undergraduate studies at the University of Nigeria with a CGPA of 4.44/5.00.
  • 📊 Served as Secretary on the Nigeria University Commission (NUC) course accreditation and curriculum development committees.
  • 📝 Successfully designed a Rocket Propelling System (RPS) and a Ground Power Unit (GPU) for UAVs at the Air Force Research and Development Centre.
  • 🗂️ Conducted tutorials and research for over fifty Electrical Engineering undergraduate students at the University of Calgary.
  • 👨‍🏫 Taught and advised over thirty-five undergraduate students in Electrical Engineering at the University of Nigeria.
  • 🔧 Developed and optimized power systems and smart grid technologies through advanced research and practical applications.
  • 🌍 Contributed to climate change mitigation and renewable energy integration through his research and projects.
  • 💻 Demonstrated proficiency in software tools such as MATLAB/Simulink, AUTOCAD, PSAT, ETAP, PSS/E, Proteus, and Python.

Projects📊

  • 🚀 Rocket Propelling System (RPS) Design: Developed using MATLAB/Simulink at the Air Force Research and Development Centre.
  • 🔋 Ground Power Unit (GPU) for UAVs: Designed a power unit for unmanned aerial vehicles at the Air Force Research and Development Centre.
  • 🤖 Auto-Pilot Technology Configuration: Worked on configuring auto-pilot systems for UAVs.
  • 📊 Power System Optimization: Conducted research on improving power system efficiency and reliability at the University of Calgary.
  • 🌐 Smart Grid Communication: Researched and developed communication protocols and control strategies for smart grid systems.
  • 🔧 Energy Systems Research: Investigated renewable energy integration and decarbonization strategies.
  • 📚 Academic Course Development: Contributed to the development of Measurement and Instrumentation (EEE371), Power System Optimization (EEE571), and Power System Distribution (EEE352) courses at the University of Nigeria.
  • 📋 NUC Course Accreditation: Played a key role in the Nigeria University Commission’s course accreditation and curriculum development committees.
  • 💡 EnergyPLAN Simulation: Utilized EnergyPLAN software for simulating and analyzing energy systems.
  • 🌱 Climate Change Mitigation Projects: Engaged in projects focused on renewable energy and climate change conservation.

Publications📜

  • “A Comprehensive Review of Recent Developments in Smart Grid through Renewable Energy Resources Integration”
    • Authors: Ohanu, C.P., Rufai, S.A., Oluchi, U.C.
    • Journal: Heliyon
    • Year: 2024
    • Volume & Issue: 10(3)
    • Citations: 3
    • Status: Open Access 📖🌍
  • “Sizing and Analysis of a Standalone Photovoltaics System for a Three-Bedroom Residence in Nigeria”
    • Authors: Ohanu, C.P., Egbo, G.N., Sutikno, T.
    • Journal: Indonesian Journal of Electrical Engineering and Computer Science
    • Year: 2024
    • Volume & Issue: 33(1), pp. 1–9
    • Citations: 2
    • Status: Open Access ☀️🏡
  • “Implementation of a Radio Frequency Identification and Detection Technology-Based Digital Class Attendance System for University Students”
    • Authors: Ohanu, C.P., Christiana, U.O., Ogbuefi, U.C., Sutikno, T.
    • Journal: Indonesian Journal of Electrical Engineering and Computer Science
    • Year: 2023
    • Volume & Issue: 32(2), pp. 1206–1214
    • Citations: 0
    • Status: Open Access 📚📲
  • “Output Performance Evaluation of the Automatic Voltage Regulator System on Pre-Filter Control Technique”
    • Authors: Ohanu, C.P., Odo, K.C., Omeje, L.U., Sutikno, T.
    • Journal: International Journal of Power Electronics and Drive Systems
    • Year: 2023
    • Volume & Issue: 14(2), pp. 789–798
    • Citations: 1
    • Status: Open Access ⚡🔧
  • “Comprehensive Review of Renewable Energy Communication Modeling for Smart Systems”
    • Authors: Ugwu, J., Odo, K.C., Ohanu, C.P., García, J., Georgious, R.
    • Journal: Energies
    • Year: 2023
    • Volume & Issue: 16(1), 409
    • Citations: 8
    • Status: Open Access 🌱📊
  • “A Novel Direct Torque and Flux Control of Permanent Magnet Synchronous Motor with Analytically-Tuned PI Controllers”
    • Authors: Odo, K., Ohanu, C., Chinaeke-Ogbuka, I., Ogbuka, C., Ejiogu, E.
    • Journal: International Journal of Power Electronics and Drive Systems
    • Year: 2021
    • Volume & Issue: 12(4), pp. 2103–2112
    • Citations: 6
    • Status: Open Access 🚀🔄

Swarnadipto Ghosh | Engineering | Best Researcher Award

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🌟Mr. Swarnadipto Ghosh, Engineering, Best Researcher Award 🏆

  • Swarnadipto Ghosh at Indian Institute of Space Science and Technology, India

Swarnadipto Ghosh is a dedicated researcher and engineer specializing in RF and Microwave Engineering. With a background in Electronics and Communication Engineering, Swarnadipto has pursued advanced studies at the Indian Institute of Space Science and Technology (IIST), Trivandrum, where he is currently completing his M.Tech in RF and Microwave Engineering. He has a keen interest in metamaterials, computational electromagnetics, and antenna design for applications such as satellite communication and 5G technology. Swarnadipto is proficient in software tools like Ansys HFSS, MATLAB, and programming languages like C and Python. Alongside his academic pursuits, Swarnadipto is an active member of IEEE Microwave Theory & Technology Society (MTT-S) and enjoys hobbies such as singing and cricket.

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Swarnadipto’s research output is characterized by a high level of quality and impact. His publications have been well-received within the academic community, as evidenced by citations and acknowledgments from peers in the field.

Swarnadipto Ghosh. He is affiliated with Dream Institute of Technology in Kolkata, India. Based on the provided data, he has 9 documents indexed in Scopus, with a total of 3 citations since 2019. His h-index is 1, indicating that he has at least 1 publication that has been cited at least once. His i10-index, which measures the number of publications with at least 10 citations, is currently 0.

Education

Swarnadipto Ghosh holds a Bachelor’s degree in Electronics and Communication Engineering from Dream Institute of Technology (DIT), Kolkata. Currently, he is pursuing a Master’s degree in RF and Microwave Engineering at the Indian Institute of Space Science and Technology (IIST), Trivandrum.

Research Focus

Swarnadipto’s research interests revolve around various aspects of RF and Microwave Engineering, with a particular focus on metamaterials, electromagnetic bandgap structures, computational electromagnetics, and ultra-wideband antennas. He is dedicated to exploring applications such as 5G technology, beamforming, and satellite communication.

Professional Journey

Swarnadipto has embarked on a promising professional journey, starting with an internship at Bharat Sanchar Nigam Limited (BSNL) as a Summer Trainee. He has since been involved in numerous research projects at IIST, Trivandrum, focusing on antenna design, mathematical modeling of metamaterials, and impedance modulation for various applications.

Honors & Awards

Swarnadipto Ghosh has been recognized for his academic excellence with a Graduate Aptitude Test in Engineering (GATE) Scholarship from the Ministry of Education (MoE). He has also received accolades for his research contributions, including publications in reputable conferences and journals.

Publications Noted & Contributions

Swarnadipto has made significant contributions to the field of RF and Microwave Engineering through his publications. His work encompasses a wide range of topics, including antenna design, metamaterials, and computational electromagnetics. His research papers have been accepted and presented at prestigious conferences and published in renowned journals.

  1. Design and Analysis of mm-Wave MIMO SIW Antenna for Multibeam 5G Applications
    • Cited By: 1
    • Year: 2023
  2. Hybrid Wireless RF-Perovskite Photovoltaic Energy Harvester Design Consideration for Low-Power Internet of Things
    • Cited By: 1
    • Year: 2023
  3. Gap-coupled resonator loaded ultra-wideband filtenna for frequency-notching applications
    • Cited By: 1
    • Year: 2023
  4. Systematic Analysis of Rotated Dual-Split Elliptical SRR with Band-Stop Characteristics
    • Cited By: Not specified
    • Year: 2023
  5. Statistically distributed 1D sinusoidally modulated leaky wave antenna for beam-scanning application
    • Cited By: Not specified
    • Year: 2023

Research Timeline

Swarnadipto’s research journey has been marked by continuous growth and exploration. From his early undergraduate studies to his current pursuit of a Master’s degree, he has consistently delved deeper into the realm of RF and Microwave Engineering, contributing valuable insights and innovations along the way.