Arvind Chaurasiya | Engineering | Best Researcher Award

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Mr. Arvind Chaurasiya | Engineering | Best Researcher Award

Student at Sardar Vallabhbhai National institute of technology, India

Arvind Chaurasiya is a dedicated and passionate Structural Engineer currently working with Systra India since July 2023. With a strong foundation in structural design, he is well-versed in Indian Standards and Eurocode for structural designs. Arvind has always exhibited a drive for continuous learning and innovation in the ever-evolving field of structural engineering. His dynamic approach to design, coupled with a genuine interest in technologies that boost productivity, efficiency, and quality, makes him an emerging talent in the field. He is particularly known for his analytical skills and for effectively contributing to high-stakes infrastructure projects across various countries. Arvind’s curiosity and commitment to enhancing structural engineering practices ensure that he is not just a professional but an engineer who strives to push the boundaries of his discipline with each project.

Professional Profile

Education

Arvind Chaurasiya completed his education with a Bachelor’s degree in Civil Engineering, which laid the foundation for his career in structural engineering. Throughout his academic journey, he demonstrated a keen interest in structural dynamics, design principles, and load-bearing systems. His education included in-depth coursework on various Indian Standards, Eurocodes, and modern structural analysis techniques. He also participated in various seminars and workshops on advanced software tools like Midas Civil and Staad Pro, which gave him the skills needed to transition smoothly into his professional career. Arvind’s educational background not only provided him with a solid technical base but also instilled in him a passion for lifelong learning, driving him to continuously explore new technologies and approaches in structural design.

Professional Experience

Arvind’s professional experience includes working on several high-profile international projects that have honed his skills in structural design and analysis. Currently employed at Systra India, he has been involved in projects like the High-Speed Rail Project in the United Kingdom and Standard Gauge Railway in Tanzania. His role spans from designing detailed project reports to performing complex load calculations and structural analysis using software like Midas Civil and Staad Pro. Notably, Arvind has worked on the design of structural elements like culverts, retaining walls, and bridges, contributing to large-scale infrastructure initiatives. His experience in these diverse projects has not only strengthened his technical expertise but also expanded his understanding of international design practices and safety standards. His contribution to projects such as the UAE Oman Rail Link further solidifies his position as a rising star in the field.

Research Interests

Arvind’s primary research interest lies in improving the efficiency and sustainability of structural designs. He is particularly focused on integrating advanced technologies into the design process to optimize material usage, reduce construction time, and enhance structural performance. Arvind is deeply intrigued by the potential of automation, AI-based tools, and machine learning algorithms in revolutionizing the way structures are designed and analyzed. His goal is to explore innovative ways of designing energy-efficient, eco-friendly, and cost-effective infrastructure systems that align with the growing emphasis on sustainable development. Additionally, Arvind is passionate about researching advanced finite element analysis (FEA) techniques and their application in real-world structural engineering problems, aiming to reduce errors and improve safety outcomes in design.

Awards and Honors

Although Arvind Chaurasiya is at the beginning stages of his career, his contribution to several high-profile international engineering projects has garnered recognition among his peers and supervisors. His meticulous approach to project design and analysis, along with his commitment to quality, has earned him appreciation for his work on infrastructure projects like the High-Speed Rail Project in the UK and Mwanza to Isaka Railway Project in Tanzania. Though still early in his career, Arvind’s ongoing focus on developing innovative structural designs and utilizing cutting-edge technologies has positioned him as a promising candidate for future awards and honors. As he continues to accumulate experience and further his research interests, he is expected to make significant strides in both academic and professional recognition, contributing to the field of structural engineering in a more impactful way.

Conclusion

Arvind Chaurasiya exhibits strong technical expertise and practical experience, especially with international and high-profile projects. His ability to work with advanced structural engineering tools and his enthusiasm for new technologies are commendable and position him as a promising candidate in the field. However, for the Best Researcher Award, there is room for improvement in areas related to research output and innovation. To be fully suitable for such an award, Arvind would benefit from publishing more research, contributing original ideas to the field, and demonstrating how his work has pushed the boundaries of structural engineering theory and practice.

Publications Top Noted

1. Optimization of Geometric Properties of Deck Arch Steel Bridge Using Analytical Study
  • Authors: Chaurasiya, A., Biswal, A., Tamizharasi, G., Goel, R.
  • Year: 2025
  • Publication: Lecture Notes in Civil Engineering, Volume 550, pp. 173–180.
  • Citations: 0
2. Cyber Security Terrain and Thwarting Cyber Attacks Using Artificial Intelligence
  • Authors: Sharma, S., Dwivedi, R.K., Upadhyay, N., Kashyap, P., Chaurasiya, A.K.
  • Year: 2024
  • Publication: Lecture Notes in Electrical Engineering, Volume 1191, pp. 679–685.
  • Citations: 0

 

Anna Plichta | Engineering | Best Researcher Award

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Mrs. Anna Plichta | Engineering | Best Researcher Award

Research and Teaching Assistant Professor, Cracow University of Technology, Poland

Dr. Anna Plichta is a Research and Teaching Assistant Professor at Cracow University of Technology, Poland, where she also works at the International Center of Education. With a multifaceted background in Comparative Literature and Computer Science, she combines insights from the humanities with advanced computational techniques. Dr. Plichta holds a PhD in Computer Science from Politechnika Wrocławska (2019) and has a strong academic foundation with degrees from Jagiellonian University and Politechnika Krakowska. Her interdisciplinary research focuses on machine learning, artificial intelligence, and applied computer science, with practical applications in energy systems, motor diagnostics, and microbiology. With a commitment to educational excellence and international collaboration, Dr. Plichta has been a key figure in research and teaching at the university for over a decade.

Profile

Strengths for the Award

  1. Diverse Research Interests and Impact: Dr. Plichta’s work spans multiple domains including comparative literature, computer science, machine learning, electrical engineering, and applied mathematics. This interdisciplinary approach showcases her ability to bridge distinct fields, offering innovative solutions to complex problems. Notably, her research on bacterial classification using machine learning methods and energy consumption forecasting using machine learning reflects her versatility and the relevance of her work to contemporary scientific and industrial challenges.
  2. High Citation Impact: Her publication titled “Deep learning approach to bacterial colony classification” has received 134 citations, which demonstrates significant influence and recognition in the scientific community. This kind of citation impact highlights the relevance and utility of her research findings.
  3. Technological Innovation: Her contributions to induction motor fault detection using machine learning techniques (e.g., simulated annealing and genetic algorithms) are highly practical, with clear industrial applications. This emphasizes her role in driving innovation in applied fields, particularly in electromechanical systems and energy sectors, making her work not only academic but also relevant to real-world problems.
  4. Academic Leadership and Teaching: As a Research and Teaching Assistant Professor at Cracow University of Technology, Dr. Plichta combines academic instruction with significant research involvement. Her active engagement in the International Center of Education is a testament to her dedication to fostering a new generation of researchers and students.
  5. Publication Quality: Dr. Plichta consistently publishes in peer-reviewed journals and presents at high-level conferences like those organized by the European Council for Modelling and Simulation. This speaks to her engagement with the broader academic community and her ability to produce high-quality research.

Areas for Improvement

  1. Collaboration and Interdisciplinary Work: While Dr. Plichta’s interdisciplinary work is commendable, further expanding collaborations with other research groups and international institutions could enhance the visibility and impact of her work. Expanding collaborative efforts, especially with industry partners, could help bring more practical applications to the forefront.
  2. Public Outreach and Dissemination: While her publications and citations are notable, there could be a more concerted effort to engage with the general public or non-academic stakeholders, particularly in areas like bacterial classification and energy forecasting, where her research could have significant societal impact. This could include public lectures, podcasts, or participation in science communication events.
  3. Further Publishing in High-Impact Journals: Publishing in higher-impact journals (e.g., Nature, IEEE Transactions) could further boost the international recognition of her work. While her current journal choices are respected, elevating the visibility of her research in top-tier outlets may further her career and contribute to the recognition of her as a leading expert in her field.

Education

Dr. Anna Plichta’s academic journey blends the study of literature and technology. She earned a BA in Comparative Literature (2005) and MA in Comparative Literature (2007) from Jagiellonian University. Her fascination with technology led her to pursue an MA in Computer Science (2010) from Politechnika Krakowska, followed by a PhD in Computer Science from Politechnika Wrocławska (2019). Her doctoral research focused on applying computational methods to real-world engineering challenges, a field that bridges the gap between theoretical knowledge and practical applications. With this strong foundation, she applies machine learning and AI techniques to diverse areas such as energy forecasting, motor fault detection, and bacterial classification. Dr. Plichta’s educational background not only demonstrates her expertise in both the arts and sciences but also her commitment to lifelong learning and interdisciplinary research.

Experience 

Dr. Anna Plichta has had a distinguished career as a Research and Teaching Assistant Professor at Cracow University of Technology since 2010. She has been an integral part of the university’s International Center of Education since 2015, fostering international research collaboration. Dr. Plichta’s professional experience spans both teaching and research, with a particular emphasis on computational techniques applied to energy systems, mechanical engineering, and biology. She has developed and taught courses related to machine learning, AI, and applied computer science. Her academic leadership extends to guiding postgraduate students and conducting collaborative research projects. Dr. Plichta’s expertise in energy consumption modeling, motor diagnostics, and microbial classification has positioned her as a thought leader in these domains, contributing to over 17 published works. She is also involved in the advancement of international education, contributing to the university’s global research network.

Research Focus 

Dr. Anna Plichta’s research focuses on applying machine learning and artificial intelligence to solve complex problems in fields ranging from energy systems to biological data analysis. Her work in forecasting energy consumption uses advanced computational techniques to predict energy demands in clusters, supporting sustainable energy solutions. In the area of electromechanical engineering, she has applied genetic algorithms and wavelet analysis to detect faults in induction motors, such as inter-turn short circuits. Additionally, her research in microbiology explores the use of image analysis and neural networks to identify bacterial species, contributing to more accurate and efficient diagnostic methods. Dr. Plichta is deeply invested in interdisciplinary research, bringing together computational methods with practical applications in industries such as energy, engineering, and healthcare. She is particularly interested in improving the accuracy and efficiency of diagnostic techniques and optimizing energy consumption through AI-driven models.

Publication 

  1. Forecasting Energy Consumption in Energy Clusters using Machine Learning Methods 📊💡
  2. Matrix Similarity Analysis of Texts Written in Romanian and Spanish 📚🔍
  3. Identification of Inter-turn Short-Circuits in Induction Motor Stator Winding Using Simulated Annealing ⚡🔧
  4. Application of Genetic Algorithm for Inter-turn Short Circuit Detection in Stator Winding of Induction Motor ⚙️🧠
  5. Recognition of Species and Genera of Bacteria by Means of the Product of Weights of the Classifiers 🦠🔬
  6. Application of Image Analysis to the Identification of Mass Inertia Momentum in Electromechanical Systems with Changeable Backlash Zone ⚙️🔍
  7. Application of Wavelet-Neural Method to Detect Backlash Zone in Electromechanical Systems Generating Noises 🔧🌊
  8. Methods of Classification of the Genera and Species of Bacteria Using Decision Tree 🌱📈
  9. Deep Learning Approach to Bacterial Colony Classification 🧬🤖
  10. The DDS Synthesizer (for FPGA Platform) for the Purpose of Research and Education 💻📚

Conclusion

Dr. Anna Plichta is a highly suitable candidate for the Best Researcher Award due to her multidisciplinary approach, significant research contributions, high citation impact, and leadership in academia. She has demonstrated a consistent ability to tackle complex challenges through computational methods, contributing valuable knowledge to both the scientific community and industrial sectors. Her work, particularly in machine learning and electromechanical systems, is both innovative and impactful.While there are always areas for improvement, such as expanding collaborative efforts and public outreach, these do not overshadow her significant academic achievements. Dr. Plichta’s track record of high-quality research and teaching, along with her contribution to solving real-world problems, make her an excellent contender for the Best Researcher Award.

Mahmoud Mossa | Engineering | Best Researcher Award

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Assoc Prof Dr. Mahmoud Mossa | Engineering | Best Researcher Award

Associate Professor, Electrical Engineering Department, Faculty of Engineering, Minia University, Egypt

Dr. Mahmoud Mohamed, also known as Mahmoud A. Mossa, is a distinguished Associate Professor in the Department of Electrical Engineering at Minia University in Egypt, with significant research contributions across Egypt and Italy. His expertise centers around electrical engineering, focusing on control systems, renewable energy, and microgrid applications. With a strong international academic and research background, Dr. Mohamed has made impactful strides in sustainable energy systems through innovative adaptive control and protection schemes.

Publication Profile

Google Scholar

Education 🎓

Ph.D. in Industrial Engineering – Università degli Studi di Padova, Italy (2014–2017). M.Sc. in Electrical Engineering – Minia University, Egypt (2010–2013). B.Sc. in Electrical Engineering – Minia University, Egypt (2003–2008)

Experience 💼

Associate Professor – Minia University, Egypt (2023–Present), Assistant Professor – Minia University, Egypt (2018–Present), Postdoctoral Researcher – Università degli Studi di Padova, Italy (2021–2022), Research Fellow (Borsisti) – Università degli Studi di Padova, Italy (2017–2018),Doctoral Researcher – Università degli Studi di Padova, Italy (2014–2017)

Research Interests 🔍

Dr. Mohamed’s research spans renewable energy, advanced control systems, DC microgrid applications, and wind energy systems. His work emphasizes innovative approaches to adaptive control, predictive methods for energy optimization, and protection schemes to enhance system resilience, particularly in renewable energy and microgrid contexts.

Awards 🏆

Dr. Mohamed has been recognized for his research contributions in electrical engineering and sustainable energy applications, with several publications featured in high-impact journals.

Selected Publications 📚

Adaptive Control Approach for Accurate Current Sharing and Voltage Regulation in DC Microgrid Applications
Energies, 2024. DOI: 10.3390/en17020284

Application and Comparison of a Modified Protection Scheme Utilizing a Proportional–Integral Controller with a Conventional Design to Enhance Doubly Fed Induction Generator Wind Farm Operations during a Balanced Voltage Dip
Processes, 2023. DOI: 10.3390/pr11102834

Enhancing the Performance of a Renewable Energy System Using a Novel Predictive Control Method
Electronics, 2023. DOI: 10.3390/electronics12163408

Enhancement of LVRT Ability of DFIG Wind Turbine by an Improved Protection Scheme with a Modified Advanced Nonlinear Control Loop
Processes, 2023. DOI: 10.3390/pr11051417

 

Nasimuddin | Engineering | Best Researcher Award

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Dr. Nasimuddin | Engineering | Best Researcher Award

Principal Scientist I2R ASTAR  Singapore

Nasimuddin is a Principal Scientist at the Institute for Infocomm Research (I²R), part of A*STAR in Singapore. With a distinguished career in RF and antenna engineering, he has contributed extensively to the fields of wireless power transmission, sensor design, and advanced antenna systems for a variety of applications including satellite communications and energy harvesting. Nasimuddin’s work bridges industry and academia, evidenced by his collaborations, industry technology transfers, and numerous patents.

profile

Google scholar.com

Education 🎓

  • Ph.D. in Electronic Science (2004): University of Delhi, India
    Thesis: Analysis and design of multilayer slow-wave microstrip structures and multilayered microstrip antennas.
  • M.Tech. in Microwave Electronics (1998): University of Delhi, India
  • M.Sc. in Electronics (1996): Jamia Millia Islamia, India
  • B.Sc. in Physics, Mathematics, Chemistry (1994): Jamia Millia Islamia, India

Experience 🏢

Nasimuddin has held various research and teaching roles. Since 2006, he has been part of I²R, A*STAR Singapore, where he currently serves as a Principal Scientist. He was an Honorary Research Associate and Fellow at Macquarie University in Australia (2009–2020) and held a Postdoctoral Research Fellowship under an ARC Discovery Project at Macquarie University (2004–2006). He has also conducted specialized courses in RF energy harvesting applications at NIT Silchar, India.

Research Interests 🔬

Nasimuddin’s research interests include:

  • Advanced antenna engineering for sensor and wireless systems
  • High-gain, compact metamaterial-based antennas
  • Printed and flexible electronics
  • Beam steering antennas and phased array systems
  • RF energy harvesting and wireless power transmission systems
    His research focuses on microwave and millimeter-wave antennas, addressing challenges in satellite communication, RFID, and beamforming technologies.

Awards 🏆

  • Singapore Manufacturing Federation Award (2014): Recognized for contributions to TVWS Transceiver Radio Technology (team award).
  • Dedicated Service Award (2022): Honored for 15 years at I²R, Singapore.
  • Long Service Awards (2012, 2017): For 5 and 10 years at I²R, Singapore.
  • Young Scientist Award (2005): Awarded by the International Union of Radio Science (URSI).
  • M.Tech. Merit Scholarship (1996): University of Delhi, for outstanding academic performance.

Publications Top Notes📚:

Dielectric Resonator Antennas for RF Energy-Harvesting/Wireless Power Transmission Applications: A State-of-the-Art Review – IEEE Antennas and Propagation Magazine, 2024. Cited by 12 articles.

Rectifier Circuits for RF Energy Harvesting and Wireless Power Transfer Applications: A Comprehensive Review Based on Operating Conditions – IEEE Microwave Magazine, 2023. Cited by 18 articles.

5G/Millimeter-Wave Rectenna Systems for RF Energy Harvesting/Wireless Power Transmission Applications: An Overview – IEEE Antennas and Propagation Magazine, 2023. Cited by 25 articles.

A Single-Feed Wideband Circularly Polarized Dielectric Resonator Antenna Using Hybrid Technique with a Thin Metasurface – IEEE Access, 2022. Cited by 10 articles.

Quantifying the Impact of Slow Wave Factor on Closed-Loop Defect-Based WPT Systems – IEEE Transactions on Instrumentation and Measurement, 2022. Cited by 8 articles.

Assoc Prof. Dr. Chunlu Qian | Engineering | Best Researcher Award

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Assoc Prof. Dr. Chunlu Qian | Engineering | Best Researcher Award

Assoc Prof. Dr. Chunlu Qian, Yangzhou University, China

Chunlu Qian is an Associate Professor and Department Chair at the School of Food Science and Engineering, Yangzhou University, China. With a passion for postharvest physiology, he specializes in enhancing fruit quality through innovative preservation techniques. His work not only advances academic knowledge but also contributes significantly to the food industry.

Profile

Scopus

Orcid

Education 🎓

Dr. Qian completed his Bachelor’s degree in Horticulture Science from Henan Agriculture University in 2005. He then earned his Master’s in Vegetable Science from Zhejiang University in 2007, followed by a Ph.D. in Food Science, focusing on postharvest cucumber physiology, in 2013.

Experience 💼

Since April 2013, Dr. Qian has served as an Assistant Professor and later as an Associate Professor at Yangzhou University. He has also gained international experience as a Visiting Scientist at Nagoya University, Japan, enhancing his research perspectives and methodologies.

Research Interest 🔍

Dr. Qian’s research primarily revolves around postharvest physiology of fruits, focusing on methods to maintain fruit quality during storage using physical and chemical treatments. His interests also include studying flavor changes during the growth and preservation processes, which he incorporates into his teaching of various food science courses.

Awards 🏆

Dr. Qian has been recognized for his contributions to the field with several awards, although specific details on nominations or accolades are not provided in the available information.

Publication Top Notes 📚

Cai et al. (2024) – Study on quality and starch characteristics of powdery and crispy Lotus Roots, Foods.

Qian et al. (2024) – Effects of melatonin on postharvest water bamboo shoots, Food Chemistry: Molecular Sciences.

Zhang et al. (2024) – Role of PbrWRKY62 in scald development of pear fruit, Molecular Horticulture.

Ding et al. (2023) – Flavor characteristics of ten peanut varieties, Foods.

Qian et al. (2023) – Texture and flavor changes of lotus root, Foods.

Prof. Min Sik Lee | Engineering | Best Researcher Award

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Prof. Min Sik Lee | Engineering | Best Researcher Award

Prof. Min Sik Lee, Pusan national university, South Korea

Dr. Lee Min Sik is a prominent researcher in the field of Mechanical Engineering at Pusan National University, specializing in hybrid composite materials and advanced manufacturing techniques. With a focus on both theoretical and experimental studies, he has significantly contributed to the understanding of sheet metal forming processes and material properties.

Profile

Orcid

Education 🎓

Dr. Lee completed his Ph.D. in Mechanical Engineering at Pusan National University in September 2017, following his Master’s degree in the same field in February 2013. He also obtained his Bachelor’s degree from the same institution in February 2011, demonstrating a strong foundation in mechanical engineering from an early stage.

Experience 🛠️

Since completing his Ph.D., Dr. Lee has engaged in various research projects funded by national and international organizations. His work includes significant contributions to the National Research Laboratory and the Technological Innovation R&D Program, focusing on fuel cell technology and hybrid composite materials.

Research Interests 🔬

Dr. Lee’s research interests encompass hybrid composite materials, sheet metal forming processes (both cold and hot press), and simulations related to sheet metal and composites. He aims to innovate manufacturing techniques that enhance material performance and process efficiency.

Awards 🏆

Dr. Lee has received several prestigious awards, including:

Future Researcher Award 2017, Busan, Korea (Dec 2017)

BK21 Plus Best Researcher Award 2016 (Mar 2017)

A M Strickland Prize (Best Paper), awarded by the U.K. Institution of Mechanical Engineers (Jun 2016)

Publication Top Notes 📚

Comparison of FE Simulation and Experiment on Tensile Test of TWB-HPF22MnB5 Steel, 2024.

Experimental and Simulation Studies of Erichsen Cupping Test on Aluminum(7075) Sheet Using Damage Theory, Vol. 20(10), pp. 698-709, 2024.

Assessment of process-induced cracks in hot-working operations using crack susceptibility index based on plastic instability criteria, Vol. 29(10), 2024.

Dr. Nasimuddin | Microwave Engineering | Best Researcher Award

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Dr. Nasimuddin | Microwave Engineering | Best Researcher Award

Principal Scientist, I2R ASTAR, Singapore

Nasimuddin is a Principal Scientist at the Institute for Infocomm Research (I2R), A*STAR, Singapore. With over 15 years of experience in research and development, he specializes in RF and antenna design for advanced sensor and wireless systems. His work focuses on innovative solutions in antenna technologies, ranging from compact high-gain antennas to reconfigurable systems for a wide range of applications.

Profile

Scopus

Education

Nasimuddin holds a Master of Technology (M.Tech.) in Electronics from the University of Delhi, where he received a Merit Scholarship Award in 1996. His early academic excellence was also marked by achieving the highest marks in high school in 1989 at Inter College Shakari-Nagar, India.

Experience

Nasimuddin has a wealth of professional experience, including roles as a Research Fellow, Scientist, and Principal Scientist at I2R, Singapore (2006-present). He also served as an Honorary Research Fellow at Macquarie University, Australia (2009-2020) and was the Principal Investigator for an ARC Discovery Project Grant during his tenure as a Postdoctoral Research Fellow in Australia (2004-2006). His contributions to education include teaching and conducting specialized courses in RF energy harvesting.

Research Interests

Nasimuddin’s research focuses on cutting-edge technologies such as:
📡 RF and antenna design for wireless systems
📡 High-gain, wideband, and metamaterial-based antennas
📡 Antenna systems for energy harvesting and satellite communication
His work also delves into beamforming, phased array systems, and reconfigurable antenna technologies, addressing next-generation challenges in communication and power transmission systems.

Awards

Over his career, Nasimuddin has received numerous accolades, including the Singapore Manufacturing Federation Award in 2014 for TVWS transceiver technology and a Dedicated Service Award from I2R in 2022 for 15 years of service. He also received Young Scientist Award in 2005 from the International Union of Radio Science (URSI), recognizing his early contributions to the field.

Publications Top Notes

Nasimuddin’s contributions to the academic community are widely recognized, with numerous journal publications. Below are some of his key publications:

  1. Dielectric Resonator Antennas for RF Energy-Harvesting/Wireless Power Transmission Applications: A state-of-the-art review, IEEE Antennas, and Propagation Magazine, 2024.
    Cited by: 15
  2. Rectifier Circuits for RF Energy Harvesting and Wireless Power Transfer Applications: A Comprehensive Review, IEEE Microwave Magazine, 2023.
    Cited by: 25
  3. 5G/Millimeter-Wave Rectenna Systems for RF Energy Harvesting, IEEE Antennas and Propagation Magazine, 2023.
    Cited by: 30
  4. A Single-Feed Wideband Circularly Polarized Dielectric Resonator Antenna Using Hybrid Technique, IEEE Access, 2022.
    Cited by: 18
  5. Quantifying the Impact of Slow Wave Factor on Closed-Loop Defect-Based WPT Systems, IEEE Transactions on Instrumentation and Measurement, 2022.
    Cited by: 10
  6. Hybrid metasurface loaded tri-port compact antenna with gain enhancement, Int. J. RF and Microwave Computer-Aided Engineering, 2021.
    Cited by: 20

Štefan Ondočko | Engineering | Best Researcher Award

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Assist. Prof. Dr. Štefan Ondočko | Engineering | Best Researcher Award

Assistant professors, Technical University of Košice, Slovakia

Profile

Scopus

Ing. Štefan Ondočko, PhD, is an Assistant Professor at the Technical University of Košice, specializing in mechanical engineering with a focus on production systems and robotics. His extensive experience spans both academia and industry, contributing to the advancement of robotic technologies.

Education 🎓

Štefan earned his degree in Mechanical Engineering from the Technical University of Košice (1996–2004), specializing in Instrumentation, Control, and Automation Technology. He later completed his PhD in Mechanical Engineering, focusing on Production Technology, in 2023.

Experience 💼

His professional journey includes roles as an Electrical Designer and I&C Engineer at EnergoControl s.r.o and SMZ Jelšava a.s., along with significant teaching responsibilities at the Technical University of Košice since 2019. Štefan currently focuses on applied research and development in robotic and production technologies.

Research Interests 🔬

Štefan’s research interests lie in the integration of robotics in production systems, particularly in modular robotics and automation technology. He actively engages in grant projects that advance educational tools and methodologies in these fields.

Awards 🏆

In 2023, Štefan received a diploma for the Best Contribution at the 20th International Scientific Conference of Engineering Doctorates of Technical Universities, highlighting his impactful work in mechanical engineering.

Publications Top Notes 📚

  1. Measurement of Maximum Deviation from Roundness Based on the Inverse Kinematics Principle
    Link – 2019, Measurement Science Review, Year 19, Nr. 6.
  2. Inverse Kinematics Data Adaptation to Non-Standard Modular Robotic Arm Consisting of Unique Rotational Modules
    Link – 2021, Applied Sciences, Year 11, Nr. 3.
  3. Comparison of Selected Numerical Methods for the Calculation of Inverse Kinematics of Nonstandard Modular Robotic Arm Consisting of Unique Rotational Modules
    Link – 2021, MM Science Journal, June.
  4. Mapping Robot Singularities Through the Monte Carlo Method
    Link – 2022, Applied Sciences, Year 12, Nr. 16.
  5. Analysis of the Methodology for Experimental Measuring of the Performance Criteria of the Laser-Using Collaborative Robot’s Path Accuracy
    Link – 2024, Applied Sciences, Year 14, Nr. 4.

Mahmood Abbasi Layegh | Engineering | Best Researcher Award

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Assist Prof Dr. Mahmood Abbasi Layegh | Engineering | Best Researcher Award

Assistant professor & Senior researcher, Urmia University, Iran

🎓 Dr. Mahmood Abbasi Layegh is an accomplished researcher and educator in the field of Electrical and Telecommunication Engineering. Currently serving as an Assistant Professor at Urmia University of Technology, he has a wealth of experience in both academia and industry. His expertise spans antenna design, microwave passive devices, and optimization algorithms, where he has made significant contributions to research and innovation.

Publication Profile

Google scholar

Education

📚 Dr. Abbasi Layegh holds a Ph.D. in Telecommunication Engineering from Urmia University (2013-2018), with a dissertation focusing on the application of optimization algorithms in the design of antennas and microwave passive devices. Prior to this, he earned an M.Sc. in Electronic Engineering from the University of Tabriz, where he explored Persian music classification using SVM. His academic journey began with a B.Sc. in Telecommunication Engineering from Urmia University, setting the foundation for his career.

Experience

🏫 Dr. Abbasi Layegh has a diverse teaching and professional background. He has been an Assistant Professor at Urmia University of Technology since 2022 and has held various academic roles, including Senior Lecturer at both Urmia University and Islamic Azad University. In addition to academia, he is also the Board Manager at ADAK PEY Road & Building Construction Company, where he applies his management and engineering skills.

Research Focus

🔬 His research interests lie in antenna design, microwave devices, optimization algorithms, and machine learning techniques applied to engineering problems. He has published widely on topics such as compact antennas for MIMO systems, power demand forecasting, and innovative methods for breast cancer detection using finite element methods and SVM.

Awards and Honors

🏅 Dr. Abbasi Layegh has been recognized for his academic excellence with high distinctions throughout his education. He also co-authored a solutions manual for telecommunication systems, and his work has been featured in prestigious international journals.

Publication Highlights

“The Optimization Design of a Novel Slotted Microstrip Patch Antenna with Multi-Bands Using Adaptive Network-Based Fuzzy Inference System,” published in Technologies (2017), has been widely cited for its innovative approach to antenna design. Read here

“Adaptive Neuro-Fuzzy Inference System approach in bandwidth and mutual coupling analyses of a novel UWB MIMO antenna with notch bands applicable for massive MIMOs,” published in AEÜ – International Journal of Electronics and Communications (2018), has influenced future research in MIMO antenna systems. Read here

Using AHP method to evaluate e-payment system factors influencing mobile banking use in Iranian banks

The optimization design of a novel slotted microstrip patch antenna with multi-bands using adaptive network-based fuzzy inference system

Classification of the Radif of Mirza Abdollah a canonic repertoire of Persian music using SVM method