Alice Cervellieri | Engineering | Best Researcher Award

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Dr. Alice Cervellieri | Engineering | Best Researcher Award

Politecnico di Torino | Italy

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Early Academic Pursuits šŸŽ“

Dr. Alice Cervellieri began her academic journey with a Bachelorā€™s degree in Civil and Environmental Engineering from the University of Engineering, Bologna, in 2005, achieving a perfect score of 110/110 laude. Her pursuit of excellence continued with a Masterā€™s degree in Civil Engineering from the same institution in 2011. Notably, she expanded her intellectual horizons by earning a Bachelorā€™s degree in Linguistic Mediation Sciences from the School of Advanced Linguistic Mediation in 2019, graduating with an outstanding average of 29. Her educational endeavors were further enriched by certifications and specialized training. She participated in the ERASMUS Virtual Exchange program in 2020, focusing on dialogue facilitation, and completed the ā€œCertificatore Energeticoā€ course by Assform in 2016, gaining qualifications as an energy certifier. Dr. Cervellieri also acquired advanced knowledge in digital transformation technologies through a prestigious course at the Massachusetts Institute of Technology (MIT) in 2021.

Professional Endeavors šŸŒ

Dr. Cervellieri has played significant roles in academia and professional training. She served as a visiting professor at the Catholic University of Manizales, Colombia, in November 2020. Her teaching contributions also include assignments for the Emilia Romagna Regionā€™s ā€œEnergy Certifierā€ course and tutoring roles for EUSAIR Week. Since 2021, she has been a mentor for Harvard Universityā€™s Mentorship Project, showcasing her dedication to fostering the next generation of scholars. Her formal qualifications to practice civil engineering were solidified by passing the state examination at the Polytechnic University of Marche in 2016. These accomplishments underscore her dual commitment to practical engineering applications and academic mentorship.

Contributions and Research Focus šŸ”„

Dr. Cervellieriā€™s research lies at the intersection of energy analysis and comfort optimization in residential and rural buildings. Her studies delve into established metrics such as PMV (Predicted Mean Vote) and PPD (Percentage of People Dissatisfied), as well as the development of novel indices like OTE and OEE. These indices, drawn from the manufacturing sector, have been innovatively adapted to enhance energy efficiency and occupant comfort. Her international collaborations have facilitated the development of groundbreaking algorithms, as evidenced by her impressive publication record. Dr. Cervellieriā€™s contributions include six publications in international scientific journals, ten conference proceedings, six books, two posters, and a national journal article.

Accolades and Recognition šŸ†

Dr. Cervellieriā€™s academic achievements have been consistently recognized. Her selection as a mentor for prestigious projects like the Harvard Mentorship Program underscores her global standing as an educator and researcher.

Impact and Influence šŸ’”

Dr. Cervellieri has significantly influenced the field of sustainable engineering through her participation in international projects. She contributed to the EU H2020 Project "ENCORE," which focused on energy-aware BIM Cloud Platforms for efficient building renovation. Additionally, her work in the EFRE-FESR Project "Brotweg" explored innovative mechanized solutions for high-altitude cereal production in alpine environments. These projects reflect her commitment to sustainable development and technological advancement. Her participation in the Erasmus+ Virtual Exchange project (2018-2020) exemplifies her dedication to fostering intercultural learning and virtual collaboration, providing young minds with transformative educational experiences.

Legacy and Future Contributions šŸŒ±

Dr. Alice Cervellieriā€™s legacy is one of interdisciplinary excellence and global collaboration. Her contributions to energy-efficient building systems and educational mentorship are poised to leave a lasting impact on the fields of civil engineering and sustainable development. With her commitment to innovation and fostering cross-cultural dialogue, she is well-positioned to continue influencing academia and industry for years to come. As she advances her career, Dr. Cervellieriā€™s work will undoubtedly inspire future engineers and researchers to embrace sustainability and technological innovation as integral components of their practice.

 

Publications

šŸ“„ A Feed-Forward Back-Propagation Neural Network Approach for Integration of Electric Vehicles into Vehicle-to-Grid (V2G) to Predict State of Charge for Lithium-Ion Batteries
Authors: Alice Cervellieri
Journal: Energies
Year: 2024

šŸ“„Ā On the Synthesis of Holonic Management Trees
Authors: Pirani, M., Bonci, A., Cervellieri, A., Longhi, S.
Journal: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)
Year: 2021

šŸ“„ Innovative Approach in Cyber-Physical System for Smart Building Efficiency Monitoring
Authors: Bonci, A., Cervellieri, A., Longhi, S., Pirani, M.
Journal: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)
Year: 2021

šŸ“„ The Double Propeller Ducted-Fan, an UAV for Safe Infrastructure Inspection and Human-Interaction
Authors: Bonci, A., Cervellieri, A., Longhi, S., Nabissi, G., Antonio Scala, G.
Journal: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)
Year: 2020

šŸ“š Brotwegā€”A Path of Bread in an Alpine Environment: New Mechanical Solutions for Grain Processing in Steep Mountain Slopes
Authors: Mayr, S., Brozzi, R., Cervellieri, A., Sacco, P., Mazzetto, F.
Journal: Lecture Notes in Civil Engineering
Year: 2020

 

Jaewon Rhee | Engineering | Best Researcher Award

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Ms. Jaewon Rhee | Engineering | Best Researcher Award

Korea Advanced Institute of Science and Technology | South Korea

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Early Academic Pursuits šŸ“˜

Ms. Jaewon Rhee embarked on her academic journey in the field of electrical engineering, earning her Bachelor's degree from Kyungpook National University, Daegu, Korea, in 2020. She then pursued her Master's degree in CCS Green Transportation Engineering (Electrical Engineering) from the Korea Advanced Institute of Science and Technology (KAIST) in Daejeon, Korea, where she completed her thesis on the "Reactive Shielding Method with Increasing Power Transfer Efficiency using Frequency Split Phenomena" under the guidance of Professor Seungyoung Ahn. Currently, she is working towards her Ph.D. at the Cho Chun Shik Graduate School of Mobility at KAIST, continuing her research in Daejeon, Korea.

Professional Endeavors šŸš€

Throughout her academic career, Ms. Rhee has made significant contributions to the field of electrical engineering, focusing on wireless power transfer, electromagnetic compatibility, electromagnetic fields, and power electronics. She has been actively involved in research projects and has co-authored several papers in renowned international journals. Her work includes innovative methods to enhance power transfer efficiency and reduce electromagnetic interference in wireless power systems.

Contributions and Research Focus šŸ”¬

Ms. Rhee's research interests are primarily centered around wireless power transfer, electromagnetic compatibility, electromagnetic fields, and power electronics. She has contributed to several key publications, including:

  1. "EMI Reduction Method for Wireless Power Transfer Systems with High Power Transfer Efficiency Using Frequency Split Phenomena" (IEEE Transactions on Electromagnetic Compatibility, 2022).
  2. "Minimizing Leakage Magnetic Field of Wireless Power Transfer Systems Using Phase Difference Control" (Energies, 2022).
  3. "Accurate Method for Extracting the Coupling Coefficient of Wireless Power Transfer System" (IEEE Transactions on Power Electronics, 2022).
  4. "Wireless Torque and Power Transfer Using Multiple Coils with LCC-S Topology for Implantable Medical Drug Pump" (Sensors, 2021).

Accolades and Recognition šŸ…

Ms. Rhee has been recognized for her outstanding research contributions with the Best Research Award from the Cho Chun Shik Graduate School of Mobility at KAIST in 2022. Her work has been published in leading journals and presented at various international conferences, reflecting her commitment to advancing the field of electrical engineering.

Impact and Influence šŸŒŸ

Ms. Rhee's research has had a significant impact on the development of more efficient and reliable wireless power transfer systems. Her innovative methods for reducing electromagnetic interference and improving power transfer efficiency are paving the way for advancements in wireless technology, particularly in the fields of transportation and medical devices.

Legacy and Future Contributions Highlight šŸ”®

As Ms. Rhee continues her Ph.D. studies and research, her future contributions are expected to further enhance the efficiency and applicability of wireless power transfer systems. Her ongoing work promises to address critical challenges in electromagnetic compatibility and power electronics, contributing to the development of cutting-edge technologies that will shape the future of wireless power transfer and its applications across various industries.

Publications šŸ“—

Selection of Ferrite Depending on Permeability and Weight to Enhance Power Transfer Efficiency in Low-Power Wireless Power Transfer Systems

  • Authors: Jaewon Rhee, Seongho Woo, Changmin Lee, Seungyoung Ahn
  • Journal: Energies
  • Year: 2024

A Method for Deembedding the Mounting Pad and Via-Hole Effect in a Test Fixture for Accurate Impedance Measurement of the Surface Mount Device Component

  • Authors: Sanguk Lee, Hyunwoong Kim, Jangyong Ahn, Jaewon Rhee, Jaeyong Cho, Hongseok Kim, Seungyoung Ahn
  • Journal: IEEE Transactions on Instrumentation and Measurement
  • Year: 2024

Methodology for Extracting Low-Frequency Input Impedance of Personal Computer During Operation Using Dual Current Probes Method

  • Authors: Jaewon Rhee, Hyunwoong Kim, Kwanguk Chu, Seungyoung Ahn
  • Journal: IEEE Transactions on Electromagnetic Compatibility
  • Year: 2024

A Study on Automotive Passive EMI Filter Modeling Method for Conducted Emission Prediction

  • Authors: Jaewon Rhee, Sanguk Lee, Jangyong Ahn, Hongseok Kim, Jiseong Kim, Seungyoung Ahn
  • Journal: The Journal of Korean Institute of Electromagnetic Engineering and Science
  • Year: 2024

Minimizing Leakage Magnetic Field of Wireless Power Transfer Systems Using Phase Difference Control

  • Authors: Seongho Woo, Yujun Shin, Changmin Lee, Jaewon Rhee, Jangyong Ahn, Jungick Moon, Seokhyeon Son, Sanguk Lee, Hongseok Kim, Seungyoung Ahn
  • Journal: Energies
  • Year: 2022

 

Zohming Liana | Engineering | Best Researcher Award

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Mr. Zohming Liana | Engineering | Best Researcher Award

NIT Silchar | India

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Early Academic Pursuits šŸ“š

Mr. Zohming Liana's academic journey began in 2009 when he completed his high school education at Maubawk High School under the Mizoram Board of School Education. Demonstrating a keen interest in the sciences, he pursued his intermediate studies at Synod Higher Secondary School, focusing on Physics, Chemistry, and Mathematics. This solid foundation paved the way for his enrollment in the B.Tech program at PES College of Engineering, Mandya, Karnataka, where he specialized in Electronics and Communication Engineering, graduating with an impressive 8.48 CGPA in 2015.

Professional Endeavors šŸ’¼

Upon completing his B.Tech, Mr. Liana continued his academic progression by enrolling in the M.Tech program at the National Institute of Technology (NIT), Mizoram. There, he specialized in Microelectronics and VLSI System Design, earning a 7.73 CGPA in 2019. His doctoral journey took him to NIT Silchar, where he pursued a Ph.D. focused on the "Modeling and Simulation of Graphene Nanoribbon Vertical TFET," under the supervision of Prof. Brinda Bhowmick and Dr. Bijit Choudhuri. His research utilized advanced software tools such as Silvaco ATLAS and Virtuoso Cadence.

Contributions and Research Focus šŸ§‘ā€šŸ”¬

Mr. Liana has made significant contributions to the field of electronics and communication engineering. His research primarily revolves around the modeling and simulation of semiconductor devices, with a particular emphasis on Graphene Nanoribbon Vertical Tunnel FETs (TFETs). His work includes projects like "Modeling for Minimization of Leakage in DG SOI NanoFET," guided by Dr. Rudra Sankar at NIT Mizoram, employing software such as Sentaurus TCAD, MATLAB, and Cadence.

Accolades and Recognition šŸ…

Throughout his academic and professional journey, Mr. Liana has achieved notable recognition. He qualified for the National Eligibility Test in 2019 and has published extensively in esteemed international journals. His publications cover various aspects of semiconductor device performance, including the impact of graphene channels, gas sensing stability, and RF energy harvesting. He has also been granted a South African patent and contributed to a book chapter on advanced semiconductor devices.

Impact and Influence šŸŒ

Mr. Liana's research has had a considerable impact on the field of semiconductor device engineering. His work on the performance analysis of Graphene Nanoribbon Vertical Tunnel FETs has been published in high-impact journals, influencing both academic research and practical applications in microelectronics. His participation in international conferences has further disseminated his findings to a global audience.

Legacy and Future Contributions šŸŒŸ

Looking ahead, Mr. Liana's contributions to the field of electronics and communication engineering are poised to leave a lasting legacy. His ongoing research and innovative approach to semiconductor device modeling continue to push the boundaries of what is possible in microelectronics. As he progresses in his career, his work is expected to drive further advancements in the development of efficient, high-performance electronic devices, solidifying his role as a leading figure in his field.

 

Publications šŸ“šĀ 

Device and Circuit-Level Performance Evaluation of DG-GNR-DMG Vertical Tunnel FET

  • šŸ“” Journal: Micro and Nanostructures
  • šŸ“… Year: 2024
  • šŸ‘„ Contributors: Zohming Liana, Manas Ranjan Tripathy, Bijit Choudhuri, Brinda Bhowmick

Sensitivity Analysis of a Double Source Stack Lateral TFET-Based Gas Sensor

  • šŸ“” Journal: ECS Journal of Solid State Science and Technology
  • šŸ“… Year: 2024
  • šŸ‘„ Contributors: Mili, G., Liana, Z., Bhowmick, B.

Analysis of the Impact of Interface Trap Charges on the Analog/RF Performance of a Graphene Nanoribbon Vertical Tunnel FET

  • šŸ“” Journal: Journal of Electronic Materials
  • šŸ“… Year: 2023
  • šŸ‘„ Contributors: Liana, Z., Choudhuri, B., Bhowmick, B.

Sensitivity and Stability Analysis of Double-Gate Graphene Nanoribbon Vertical Tunnel FET for Different Gas Sensing

  • šŸ“” Journal: ECS Journal of Solid State Science and Technology
  • šŸ“… Year: 2023
  • šŸ‘„ Contributors: Liana, Z., Choudhuri, B., Bhowmick, B.

Drift Diffusion and Advance Hydrodynamic Simulation for the Design of Double-Gate SOI MOSFET in Nano-Scale Regime

  • šŸ“” Conference: 2019 2nd International Conference on Advanced Computational and Communication Paradigms (ICACCP 2019)
  • šŸ“… Year: 2019
  • šŸ‘„ Contributors: Liana, Z., Khiangte, L., Dash, S., Dhar, R.S.

 

 

 

Akash Sharma | Engineering | Best Researcher Award

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Mr. Akash Sharma | Engineering | Best Researcher Award

Malaviya National Institute of Technology | India

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Early Academic Pursuits šŸŽ“

Mr. Akash Sharmaā€™s academic journey began with a solid foundation in Electrical Engineering. He earned his Bachelor of Technology (B-Tech) in Electrical Engineering from Arya College of Engineering & IT, RTU Kota in 2016, achieving a commendable 68.5%. He further pursued a Master of Technology (M-Tech) in Power Systems from Malaviya National Institute of Technology (MNIT), Jaipur in 2021, with a CGPA of 7.72. His quest for knowledge continued as he completed his PhD in Power Systems at MNIT, Jaipur in 2022, with a CGPA of 7.6. His doctoral research focused on the performance analysis of smart grids, utilizing data-driven methods and machine learning.

Professional Endeavors šŸ’¼

Mr. Sharma's professional experience includes diverse roles. He served as a guest faculty at the College of Dairy Science and Technology, Jobner, from 2021 to 2022, where he contributed to the academic environment. Prior to this, he worked as a Graduate Engineer Trainee (GET) at IRB Infrastructure Ltd., handling electrical aspects of various plants and overseeing staff welfare. Additionally, Mr. Sharma gained valuable experience as a Public Relations Officer (PRO) with Indian Business Pages in 2016.

Contributions and Research Focus šŸ”

Mr. Sharma's research is centered on the performance analysis of smart grids, integrating deep learning and machine learning techniques. His PhD work emphasizes cybersecurity in energy consumption, aiming to develop advanced models for detecting and mitigating cyber-attacks on smart grid infrastructures. His work also explores the seamless integration of renewable energy sources and optimization of smart grid performance. He has published a notable research paper on voltage profile enhancement using FACTS devices and has worked on solar tracking systems.

Accolades and Recognition šŸ…

While Mr. Sharma has not yet received major awards, his active participation in co-curricular activities and his impactful research reflect his dedication. His work on smart grids and renewable energy has been well-received in academic circles, demonstrating his commitment to advancing the field of electrical engineering.

Impact and Influence šŸŒŸ

Mr. Sharma's contributions to smart grid technology and renewable energy integration are shaping the future of power systems. His work in enhancing grid performance and addressing cybersecurity concerns is crucial in the evolving landscape of energy management. His involvement in both academic and professional settings highlights his influence on the next generation of engineers and researchers.

Legacy and Future Contributions šŸš€

Looking ahead, Mr. Sharma's ongoing research and professional activities will continue to impact the field of electrical engineering. His focus on smart grids and renewable energy positions him to contribute significantly to advancements in these areas. As he builds on his experiences and research, he is poised to leave a lasting legacy in the realm of power systems and sustainable energy solutions.

 

Publications

  • Title: Anomaly detection in smart grid using optimized extreme gradient boosting with SCADA system
  • Authors: Sharma, A., Tiwari, R.
  • Journal: Electric Power Systems Research
  • Year: 2024

 

  • Title: Load Shedding Technique for Maintaining Voltage Stability
  • Authors: Sharma, P.K., Sharma, A., Tiwari, R.
  • Journal: Lecture Notes in Electrical Engineering
  • Year: 2024

 

 

 

 

Mullangi Vinod kumar | Engineering | Best Researcher Award

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Mr. Mullangi Vinod kumar | Engineering | Best Researcher Award

Sri Vasavi Engineering College | India

Author Profile

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Early Academic Pursuits

Mr. Mullangi Vinod Kumar's academic journey is marked by a consistent pursuit of excellence in engineering. He began his education at Narayana E.M High School, where he achieved a notable 76.5% in his 10th-grade examinations. He continued his studies at Narayana Junior College, securing an impressive 92.7% in his Intermediate Board exams. This strong foundation in science and mathematics paved the way for his higher education in engineering. Mr. Kumar pursued his undergraduate studies in engineering at SASI Engineering College, affiliated with J.T.U.K Kakinada, and graduated in 2015 with a commendable 70%. He further advanced his education by obtaining a postgraduate degree from S.R.K.R Engineering College, Andhra University, in 2018, achieving a GPA of 7.65. Currently, he is pursuing his Ph.D. at Panjab University, C.C.E.T-degree wings, showcasing his ongoing commitment to academic growth and specialization.

Professional Endeavors

Mr. Kumar's professional career began as an Assistant Professor at VISIT Engineering College, where he worked from December 2018 to May 2019. He then joined Sri Vasavi Engineering College as an Assistant Professor on June 1, 2019, and continues to contribute to the institution. His roles in these academic institutions involve teaching, mentoring, and guiding undergraduate students, particularly in the field of microstrip patch antennas and other advanced engineering topics.

Contributions and Research Focus

Mr. Kumar has made significant contributions to the field of electrical and electronics engineering, particularly in the design and analysis of microstrip antennas. His M.Tech project focused on "Design and Analysis of Printed Microstrip Antennas for UWB (Ultra Wide Band) Application," reflecting his deep interest and expertise in antenna technology. He has published several research papers in reputed journals, including seven papers in Scopus-indexed international journals and one paper in an SCI journal. His notable publications include research on metasurface antennas for energy harvesting applications, comparative analyses of feeding techniques in antennas, and the design of fractal monopole and ultra-wideband antennas. These publications demonstrate his dedication to advancing the field of antenna design and his ability to contribute novel insights to the academic community.

Accolades and Recognition

Mr. Kumar's academic and research efforts have been recognized through various achievements. He qualified in the GATE 2016, a testament to his proficiency in engineering fundamentals. He has also participated in Faculty Development Programs (FDP) conducted by SASI, further enhancing his teaching and research skills. His publications in esteemed journals and conference proceedings highlight his recognition within the academic and research community.

Impact and Influence

Mr. Kumar's research on microstrip patch antennas and other advanced antenna designs has had a significant impact on the field of electrical and electronics engineering. His work on enhancing antenna performance for energy harvesting and ultra-wideband applications has practical implications for the development of advanced communication systems. Additionally, his role as an educator has influenced many students, guiding them in their academic and research pursuits.

Legacy and Future Contributions

Mr. Kumar's ongoing research and academic endeavors are expected to leave a lasting legacy in the field of antenna design and engineering education. His contributions to the development of advanced antenna technologies will continue to influence future research and innovation. As he progresses in his Ph.D. studies and beyond, Mr. Kumar is poised to make further significant contributions to the field, potentially leading to new advancements in communication technology and other related areas. His commitment to education and research ensures that he will remain a valuable asset to the academic and engineering communities for years to come.

 

Notable Publications

Enhancement of Gain and Reduction of Backward Radiation Using Metasurface Antenna for Energy Harvesting Applications 2022
Design and Analysis of 2 Ɨ 4 Array Antenna With Single Slot For UWB Applications 2020

Microstrip Line Fed Fractal Monopole Antenna with Defected Ground Structure 2018 (3)

Comparative Analysis of Edge Feeding and coaxial Feeding Technique with Fixed Frequency 2018 (1)

Stair Plus Rectangular Patch CPW Feeding Antenna with Ultra Wide Band 2018 (1)

 

 

Elaheh Yaghoubi | Energy | Best Researcher Award

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Dr. Elaheh Yaghoubi | Energy | Best Researcher Award

Karabuk University | Turkey

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Early Academic Pursuits

Dr. Elaheh Yaghoubi's academic journey began with an Associate's degree in Electrical Engineering from University College of Rouzbahan, Iran, where she graduated with a GPA of 3.5. She then pursued a Bachelor's degree in Electrical Engineering at Aryan Institute of Science and Technology University, Iran, achieving a perfect GPA of 4. Following this, she completed her Master's degree in Electrical Engineering at Islamic Azad University in Qaemshahr, Mazandaran, Iran, again with a perfect GPA of 4. Her Master's thesis focused on developing a routing algorithm for a proposed topology for a grid on a large-scale chip to detect errors. Dr. Yaghoubi is currently a Ph.D. candidate in Electronic and Electrical Engineering at Karabuk University in Turkey, where she is working on her thesis titled "Optimal power control of grid-connected distributed generation in a hierarchical framework based on Model Predictive Control."

Professional Endeavors

Dr. Yaghoubi has a diverse professional background that complements her academic achievements. From 2015 to 2018, she served as a Senior Manager at Kati Kabl Tabarestan Factory in Mazandaran, Iran, where she was responsible for quality assurance, inspecting products to ensure high quality, and troubleshooting technical issues. She then worked as a Senior Manager at Rico Electronics Company in Mazandaran, Iran, overseeing product quality assurance and implementing design modifications. From 2019 to 2021, she worked as a Website Designer at WebCore Company in Mazandaran, designing front-end interfaces with HTML, CSS, and JavaScript, and back-end systems with PHP and Laravel. Currently, Dr. Yaghoubi is a Principal Researcher at the Power Electrical Developing Advanced Research (PEDAR) group, focusing on investigation, teaching, and designing.

Contributions and Research Focus

Dr. Yaghoubi's research interests are broad and interdisciplinary, encompassing power system analysis, power system stability, power management, microgrids, smart grids, renewable energies, model predictive controllers (MPC), artificial neural networks, machine learning, deep learning, plasmonic applications, and nano-electronic devices. Her current research work involves optimal power control of grid-connected distributed generation using model predictive control, a topic that is crucial for the advancement of smart grids and renewable energy systems. She has also contributed to the understanding and development of routing algorithms for large-scale chips and has experience in quality control and product management in industrial settings.

Accolades and Recognition

Throughout her academic and professional career, Dr. Yaghoubi has been recognized for her excellence and contributions. She successfully passed her Ph.D. qualification exam with a perfect grade of 4 out of 4. Her consistent academic performance, marked by perfect GPAs during her Bachelor's and Master's studies, reflects her dedication and expertise in her field.

Impact and Influence

Dr. Yaghoubi's work has had a significant impact on both academic and industrial fields. Her research on smart grids, optimization techniques, and model predictive control contributes to the development of more efficient and reliable power systems. Her practical experience in quality control and product management ensures that her research is grounded in real-world applications and industrial standards.

Legacy and Future Contributions

Dr. Yaghoubi's legacy lies in her interdisciplinary approach to electronic and electrical engineering, integrating theoretical research with practical applications. Her work in power systems, renewable energy, and advanced control techniques positions her as a key contributor to the future of smart grid technology and sustainable energy solutions. As she continues her research and professional activities, Dr. Yaghoubi is likely to make further significant contributions to the field, driving innovation and excellence in electronic and electrical engineering.

 

Notable Publications

A systematic review and meta-analysis of machine learning, deep learning, and ensemble learning approaches in predicting EV charging behavior 2024

A systematic review and meta-analysis of artificial neural network, machine learning, deep learning, and ensemble learning approaches in field of geotechnical engineering 2024

Controlling and tracking the maximum active power point in a photovoltaic system connected to the grid using the fuzzy neural controller 2023 (1)

Tunable band-pass plasmonic filter and wavelength triple-channel demultiplexer based on square nanodisk resonator in MIM waveguide 2022 (9)

Triple-channel glasses-shape nanoplasmonic demultiplexer based on multi nanodisk resonators in MIM waveguide 2021 (11)

 

 

 

Soham Ghosh | Engineering | Best Researcher Award

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Mr. Soham Ghosh | Engineering | Best Researcher Award

Jadavpur University | India

Author Profile

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Early Academic Pursuits

Mr. Soham Ghosh began his academic journey with a strong foundation in electronics and communication. He completed his secondary education from the West Bengal Board of Secondary Education (WBBSE) in 2013 with a commendable score of 89.28%. His higher secondary education was pursued under the West Bengal Council of Higher Secondary Education (WBCHSE), where he achieved an impressive 92.8% in 2015. Mr. Ghosh then earned his Bachelor of Technology in Electronics and Communication from Maulana Abul Kalam Azad University of Technology (formerly WBUT) in 2019, graduating with a CGPA of 9.37 out of 10. His academic excellence continued as he pursued a Master of Electronics and Telecommunication Engineering at Jadavpur University, where he achieved a CGPA of 9.89 out of 10 in 2022. Currently, he is a Doctor of Philosophy (Engineering) candidate at Jadavpur University, demonstrating his ongoing commitment to advancing his knowledge and expertise in the field.

Professional Endeavors

Mr. Soham Ghosh has built a notable career in the field of electronics and communication engineering, with a particular focus on antenna design. He has delved into specialized areas such as microstrip antenna design, implantable and wearable antennas, and the development of phantom liquids. His professional appointments and research activities are marked by his association with Jadavpur University, where he is currently pursuing his PhD. His work in antenna design has led to several high-impact publications and presentations at international conferences.

Contributions and Research Focus

Mr. Ghoshā€™s research primarily focuses on advanced antenna design and wireless communication. His areas of interest include:

* Microstrip Antenna Design

* Implantable and Wearable Antennas

* Phantom Liquid Development

* Artificial Neural Networks

* Wireless Communication

* Terahertz Antenna Design

He has made significant contributions through his research, such as the development of meander-lined implantable antennas for medical applications and the analysis of muscle-implanted antenna performance. His research on dual-band slot-loaded hexagonal patch antennas and semi-circular ring slotted circular patch antennas has implications for 5G technology, showcasing his ability to address contemporary challenges in wireless communication.

Accolades and Recognition

Mr. Ghoshā€™s dedication and expertise have been recognized through his numerous publications in peer-reviewed journals and his presentations at international conferences. His notable publications include:

* ā€œMeander-Lined Implantable Antenna Design at 2.45 GHz Using Transmission Line Modelā€ in the IETE Journal of Research.

* ā€œAnalysis of Muscle Implanted Antenna Performance with the Variation of Implantation Depthā€ in Frequenz.

* Contributions to IEEE conferences on dual-band and semi-circular ring slotted antennas for 5G applications.

  • These publications highlight his role in advancing the field of antenna design and his ability to contribute to cutting-edge research.

Impact and Influence

Mr. Ghoshā€™s research has had a substantial impact on the field of electronics and communication engineering. His work on implantable and wearable antennas is particularly influential, offering advancements in medical technology and wireless communication. His research findings are frequently cited, demonstrating the relevance and importance of his work in academic and professional circles. Moreover, his involvement in the development of phantom liquids and terahertz antennas showcases his versatility and broad influence in various subfields of electronics engineering.

Legacy and Future Contributions

As Mr. Ghosh continues his PhD at Jadavpur University, his ongoing research is expected to yield further innovations in antenna design and wireless communication. His legacy will likely be defined by his contributions to the development of advanced antenna technologies and their applications in both medical and communication fields. His work sets a foundation for future researchers and engineers to build upon, ensuring that his influence will persist in the academic and professional communities.

 

Notable Publications

Meander-Lined Implantable Antenna Design at 2.45 GHz Using Transmission Line Model 2024

Analysis of muscle implanted antenna performance with the variation of implantation depth 2024

Dual Band Slot loaded Hexagonal Patch Antenna for 5G Applications 2024

Semi- Circular Ring slotted Circular Patch Antenna for 5G Applications 2023

Design and Performance Analysis of Defected Grounded Hexagonal Patch Antenna at 5.17 GHz 2023

 

 

 

 

 

 

Akhil Nigam | Engineering | Best Researcher Award

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Dr. Akhil Nigam | Engineering | Best Researcher Award

Chandigarh University | India

Author Profile

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Early Academic Pursuits

Dr. Akhil Nigam's academic journey is rooted in a strong foundation in Electrical and Electronics Engineering. He completed his secondary education at N.L.K. Inter College, Kanpur, achieving 70.6% in his XII board exams in 2006 and 65% in his X board exams in 2004. His passion for engineering led him to pursue a B.Tech. in Electrical & Electronics Engineering at Naraina College of Engineering and Technology, under Gautam Buddh Technical University, where he graduated with a commendable 78.22% in 2011.

Professional Endeavors

Dr. Nigam's professional career began with a one-year tenure as a Teaching Personnel at Govind Ballabh Pant University of Agriculture & Technology, Pantnagar, Uttarakhand, from August 2011 to May 2012. He then served as an Assistant Professor at IFTM University, Moradabad, from August 2013 to July 2017, in the Department of Electrical Engineering. Currently, he holds the position of Assistant Professor at Chandigarh University, Mohali, since June 2018, where he continues to contribute to the academic and research landscape.

Contributions and Research Focus

Dr. Nigam's research interests are primarily focused on renewable energy sources and power systems. His academic projects include the M.Tech. project "Simulation of Modified Perturb & Observe MPPT Technique for Solar PV Cell Application Using MATLAB/SIMULINK" and the B.Tech. project "Wireless MCB Fault Finder." He has made significant contributions to the field through his publications, which include several articles in reputed journals and conference proceedings. His notable works include research on MPPT techniques for solar PV cells and optimization techniques for distributed generators.

Accolades and Recognition

Dr. Nigam has been recognized for his academic and research excellence throughout his career. He completed his M.Tech. in Electrical Engineering (Power Systems) from IFTM University, Moradabad, in 2016, with an impressive 84.55%. His Ph.D. from Chandigarh University in 2023, with a CGPA of 7.0, further solidifies his expertise in Electrical Engineering. He has received accolades for his outstanding performance, including awards for his research publications and contributions to the field of electrical engineering.

Impact and Influence

Dr. Nigam's impact extends beyond his research contributions. He has actively participated in international conferences and workshops, presenting his work and engaging with the global academic community. His dedication to teaching and mentoring students has influenced many aspiring engineers. His involvement in research projects and publications has contributed to advancements in renewable energy and power systems, driving innovation and sustainability in the field.

Legacy and Future Contributions

Dr. Akhil Nigam's legacy in Electrical Engineering is marked by his rigorous research, academic excellence, and commitment to education. As he continues his career, his contributions to renewable energy, power systems, and smart grid technology are anticipated to significantly advance the field. His ongoing research and professional endeavors promise to leave a lasting impact on the scientific community and pave the way for future innovations.

 

Notable Publications

Reactive power compensation during the convergence of grid system with FACTS devices 2024

Modeling of hybrid power system using MATLABĀ  2023

Utilization of Various Controllers for Determination of Stability for Hybrid System Under MATLAB 2023

Modeling & Simulation Analysis of Solar PV System Using MPPT Controller for Study of Hybrid Energy System 2023

Optimization of Wind-Hydro Hybrid Energy System for Stability Analysis by Using Different Types of Controllers 2023 (2)

 

 

 

Vishnu Dharssini A.C | Engineering | Best Researcher Award

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Ms. Vishnu Dharssini A.C | Engineering | Best Researcher Award

Thiagarajar College of Engineering | India

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Early Academic Pursuits

Ms. Vishnu Dharssini A.C has consistently demonstrated a passion for knowledge and excellence in her academic journey. Her pursuit of higher education in Electrical and Electronics Engineering began at Thiagarajar College of Engineering, Madurai, where she excelled academically. She was awarded a Silver Medal as the Best Outgoing Student of the Year 2021. Her dedication and outstanding performance were further recognized through awards for her achievements in the Anna University semestral examinations for two consecutive years, 2017 and 2018.

Professional Endeavors

Ms. Dharssini's professional endeavors are marked by her dedication to research and development in the field of Electrical and Electronics Engineering. She has engaged in various innovative projects, such as the simulation and analysis of a standalone microgrid for grid stability and modeling energy demand for an educational institution. Her current work focuses on an IoT-based demand side management and control scheme for smart grids. Additionally, she has gained valuable industrial exposure through her involvement in projects and collaborations.

Contributions and Research Focus

Ms. Dharssini has made significant contributions to the field of Electrical and Electronics Engineering, particularly in smart grid and renewable energy technologies. She is also exploring the burgeoning fields of machine learning and deep learning. Her research is supported by her proficiency in tools and software such as MATLAB, ETAP, Power World Simulator, Grafana, HOMER, DIG SILENT Power Factory Software, and PARAMICS. Her dedication to research is evident from her publications, which include two book chapters, seven conference papers, and five journal articles.

Accolades and Recognition

Ms. Dharssini's academic and research excellence have been widely recognized. In June 2023, she was selected for the "International Young Scientist Awards" under the category of "Best Researcher Award." Her commitment to continuous learning and skill enhancement is evident from her participation in numerous courses during the COVID-19 lockdown, including over five IEEE courses and five Coursera courses. Her efforts were further acknowledged when she received the "Savitha" scheme fellowship from Thiagarajar Research Fellowship in June 2022.

Impact and Influence

Ms. Dharssini's impact extends beyond her research contributions. She has actively participated in international conferences, where she has presented her work and engaged with the global academic community. Her involvement in initiatives such as the "Science and Technology Capacity Building for Industrial Needs" by the Tamil Nadu Council for Science and Technology in Chennai in 2019 highlights her commitment to applying her knowledge for industrial and societal benefits.

Legacy and Future Contributions

Ms. Vishnu Dharssini A.C's legacy in Electrical and Electronics Engineering is marked by her rigorous research, academic excellence, and dedication to continuous learning. As she continues her career, her contributions to smart grid technology, renewable energy systems, and the integration of machine learning in engineering are anticipated to advance the field significantly. Her ongoing research and professional endeavors promise to leave a lasting impact on the scientific community and pave the way for future innovations.

 

Notable Publications

Three-tier integrated demand-supply energy management for optimized energy usage in institutional building 2024

Smart Energy Source Management in a Commercial Building Microgrid 2024

An Investigation on Static Reconfiguration of Solar Photovoltaic Panels by Adopting Arithmetic Array Modelling 2023 (1)

Deployment of IoT-Based Smart Demand-Side Management System with an Enhanced Degree of User Comfort at an Educational Institution 2023 (4)

Energy Pattern Classification and Prediction in an Educational Institution using Deep Learning Framework 2022 (5)

 

 

Saida Bedoui | Engineering | Best Researcher Award

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Dr. Saida Bedoui | Engineering | Best Researcher Award

Gabes University | Tunisia

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Early Academic Pursuits

Dr. Saida Bedouiā€™s academic journey is marked by an exceptional pursuit of knowledge and excellence in electrical engineering and related fields. She began her educational journey at LycĆ©e RĆ©publique in GabĆØs, Tunisia, where she earned her Bachelor of Mathematics in June 2003. Following this, she attended the Higher Institute of Applied Sciences and Technology of Gabes, where she completed her preparatory classes for the National Engineering School with a focus on Physics and Mathematics in July 2005, securing admission to the engineering school. Her higher education was pursued at the National Engineering School of Gabes, where she obtained her degree in Electric-Automatic Engineering in July 2008, graduating with a ā€œVery Goodā€ rating. She further specialized by obtaining a Master's in Automatic and Intelligent Techniques in June 2009, also with a ā€œVery Goodā€ rating. Dr. Bedoui then achieved her PhD in Electrical Engineering in March 2013 with the highest honors, and later completed her Habilitation Thesis in Electrical Engineering at Gabes University in February 2023.

Professional Endeavors

Dr. Bedouiā€™s professional career spans several prestigious roles in academia. She started as a contractual lecturer at the National Engineering School of Gabes from 2008 to 2012. She then served as a lecturer at the Higher Institute of Applied Sciences and Technology of Gafsa from 2012 to 2013. Since September 2013, she has been an Assistant Professor at the Higher Institute of Industrial Systems of Gabes, where she has been involved in teaching a variety of subjects, including Automatic, Electronics, and Industrial Computing, at all levels of higher education.

Contributions and Research Focus

Dr. Bedouiā€™s research interests primarily focus on the identification and control of time-delay systems. Her PhD thesis contributed significantly to this field by proposing methods to identify time-delay systems, addressing the simultaneous identification of time delay and dynamic parameters of both mono-variable and multi-variable time-delay systems. Her work includes the development of new approaches for generating libraries of local models for nonlinear time-delay systems. Her contributions extend to supervising numerous graduate projects and theses. She has guided students in projects ranging from the design and implementation of road junction prototypes to the modernization of control systems for industrial applications.

Accolades and Recognition

Dr. Bedoui has been recognized for her work with various scholarships and research stays at esteemed institutions. Notably, she received a CSC scholarship for a research stay at Jiangnan University, PR China, in 2023. She has also undertaken research stays at the Laboratory of Engineering Systems in Caen, France, and the Research Center for Automatic Control of Nancy, France.

Impact and Influence

Dr. Bedoui has played a pivotal role in several significant projects and associations. She served as the project manager for the initiative "Strengthening the Capacity of the 4C Center in Training and Support for Students and Young Graduates of ISSI-Gabes" from January 2020 to February 2022. Additionally, she has been the Director of the Career Center and Skills Certification and has been actively involved with the Tunisian Association of Automatic and Digitizing in various capacities since 2010.

Legacy and Future Contributions

Dr. Bedouiā€™s legacy is characterized by her dedication to advancing the field of electrical engineering through both education and research. Her extensive teaching experience, coupled with her innovative research, has made significant contributions to the academic community. Her work continues to influence the development of automatic and intelligent systems.

 

Notable Publications

Iterative parameter identification for Hammerstein systems with ARMA noises by using the filtering identification idea 2024

On the combined estimation of the parameters and the states of fractional-order systems 2023 (2)

Diagnosis and fault tolerant control against actuator fault for a class of hybrid Dynamic systems 2023 (3)

Convergence Analysis of Forgetting Factor Least Squares Algorithm for ARMAX Time-Delay Models 2022 (1)

Parameter and State Estimation of Nonlinear Fractional-Order Model Using Luenberger Observer 2022 (6)