Saeed Zolfaghari Moghaddam | Engineering | Best Researcher Award

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Saeed Zolfaghari Moghaddam | Engineering | Best Researcher Award

Assoc. Prof. Dr Saeed Zolfaghari Moghaddam, Urmia University of Technology, Iran

Dr. Saeed Zolfaghari Moghaddam is an esteemed academic in Electrical Engineering, specializing in power systems planning, renewable energy, and power market dynamics. 📚⚡ He earned his PhD from Amirkabir University, MSc from Tehran University, and BSc from Iran University of Science and Technology. His research includes advanced methods in smart grids, electric vehicle charging, and microgrid stability. 🔋🌍 Dr. Moghaddam has authored numerous high-impact journal articles and led industrial projects in power system automation and electromagnetic compatibility. A dedicated educator, he teaches courses in electrical machines, smart grids, and power system planning. 🎓✨

Publication Profile

google scholar

Educational Background

Assoc. Prof. Dr. Saeed Zolfaghari Moghaddam is a distinguished academic with expertise in electrical engineering. He earned his PhD in Power Engineering from Amirkabir University of Technology, Tehran, Iran 🇮🇷. Prior to this, he completed his MSc in Power Engineering from the University of Tehran and his BSc in Electronics Engineering at the Iran University of Science and Technology, Tehran. Dr. Moghaddam has made significant contributions to the field of power systems and electronics, leveraging his academic background to advance research and innovation in electrical engineering. ⚡📚

Research Interests

Assoc. Prof. Dr. Saeed Zolfaghari Dr. Moghaddam specializes in renewable energy, power systems planning, and reliability. His research focuses on optimizing power markets, ensuring sustainable and reliable electricity distribution. With expertise in electrical apparatus design and industrial automation, Dr. Zolfaghari also works on advanced system calculations, including load flow and short-circuit analysis. His contributions to the technical side of power systems play a vital role in improving efficiency and sustainability within the energy sector. 🌍💡🔧

Teaching Contributions 

Assoc. Prof. Dr. Saeed Zolfaghari is a distinguished academic in electrical engineering, having taught a wide array of undergraduate and graduate courses. His expertise spans subjects such as Electrical Machines, Power Systems Analysis, Smart Grid Control, and Engineering Mathematics. With a strong commitment to education, he plays a vital role in shaping the next generation of engineers and researchers. His passion for teaching and advancing the field highlights his dedication to nurturing students’ skills and fostering a deep understanding of complex engineering concepts. Dr. Zolfaghari’s influence continues to inspire both students and colleagues.

Industrial Projects 

Assoc. Prof. Dr. Saeed Zolfaghari is a distinguished researcher with significant contributions to industrial projects. His work spans various fields, including grounding in military systems, DG-connected substation automation, and optimizing Combined Heat and Power (CHP) and Photovoltaic (PV) capacities. Dr. Zolfaghari’s expertise lies in applying cutting-edge research to address complex engineering challenges, delivering practical solutions with real-world impact. His achievements highlight his role in shaping innovative solutions within the engineering and energy sectors. Through these projects, Dr. Zolfaghari continues to bridge the gap between academic research and industrial applications. 💡🔧🌱

Research Focus

Assoc. Prof. Dr. Saeed Zolfaghari Moghaddam’s research primarily focuses on energy systems, optimization techniques, and power networks, particularly in the context of renewable energy integration and grid planning. His work includes stochastic and robust optimization, wind energy integration, transmission and distribution expansion planning, and game theory applications in electrical networks. Dr. Moghaddam’s expertise also extends to heat transfer enhancement in distribution transformers and multi-stage stochastic planning under uncertainties. His contributions have significant implications for energy efficiency and sustainable power systems. 🌍⚡🔋📊

Publication Top Notes

Network-constrained optimal bidding strategy of a plug-in electric vehicle aggregator: A stochastic/robust game theoretic approach

Generation and transmission expansion planning with high penetration of wind farms considering spatial distribution of wind speed

Bilevel transmission expansion planning using second-order cone programming considering wind investment

A new method to adequate assessment of wind farms’ power output

Multi-stage stochastic transmission expansion planning under load uncertainty using benders decomposition

Coordinated scheme for expansion planning of distribution networks: A bilevel game approach

Heat transfer enhancement in distribution transformers using TiO2 nanoparticles

Udhayasankar R | Engineering | Best Faculty Award

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Udhayasankar R | Engineering | Best Faculty Award

Dr Udhayasankar R, Government, India

Dr. R. Udhayasankar, a distinguished scholar in biocomposites and thermal engineering, completed his Ph.D. (2019), PG (2011), and UG (2006) from Annamalai University. His academic journey began with a diploma in Mechanical Engineering (1999) from Muthiah Polytechnic College. Dr. Udhayasankar has authored numerous international publications on coconut shell-reinforced composites and their thermal, mechanical, and morphological properties. He has guided 8 PG and 15 UG projects and serves as the Exam Cell Coordinator at Annamalai University. A life member of ISTE, he has participated in various workshops and FDPs, contributing to green composite development and sustainable engineering. 🌍📘

Publication Profile

google scholar

Educational Qualifications

Dr. Udhayasankar R has a distinguished academic background rooted in mechanical engineering and advanced studies. He earned his Diploma in Mechanical Engineering from Muthiah Polytechnic College, Chennai, in 1999. Pursuing higher education at Annamalai University, he completed his undergraduate degree in 2006 and specialized in his postgraduate studies in 2011. Dr. Udhayasankar crowned his academic achievements with a Ph.D. from Annamalai University in 2019. His dedication to education and expertise in engineering highlights his continuous pursuit of excellence in his field. 📚✨

Professional Activities 

Dr. Udhayasankar R has made significant contributions to academia, particularly as the Exam Cell Coordinator, where his organizational expertise ensures smooth academic processes. Over the years, he has demonstrated unwavering commitment to mentoring future engineers by supervising numerous postgraduate and undergraduate projects, guiding a total of 23 batches to success. His hands-on approach and dedication to advancing knowledge have left a lasting impact on his students, shaping them into skilled professionals ready to excel in their fields. Dr. Udhayasankar’s efforts reflect his passion for education and his role as a beacon of inspiration in the academic community. 📚🔧

Development and Outreach 

Dr. Udhayasankar R is a passionate educator and researcher who actively participates in workshops, seminars, and Faculty Development Programs (FDPs) on diverse topics, including industrial automation and material properties. His expertise shines in guest lectures, such as his session at Government Engineering College, Coimbatore, where he explored the applications of composite materials in sports equipment. 🏗️🎾 Dr. Udhayasankar’s ability to connect theoretical knowledge with practical applications inspires students and professionals alike. Through his engagements, he fosters innovation and bridges the gap between academia and industry, contributing significantly to the advancement of engineering and technology. 🚀📚

Memberships and Leadership 

Dr. Udhayasankar R, a Life Member of the Indian Society for Technical Education (ISTE), exemplifies dedication to professional excellence and a passion for continuous learning. His affiliation with ISTE highlights his commitment to advancing technical education and staying at the forefront of innovation. With a steadfast approach to professional development, Dr. Udhayasankar actively engages in knowledge-sharing and collaborative opportunities. His journey reflects a deep enthusiasm for growth, both as an educator and a learner, inspiring others in the academic and technical community to pursue excellence. 🌟🔬

Research Focus

Dr. Udhayasankar R specializes in biocomposites, fiber-reinforced materials, and sustainable polymer composites. His research focuses on utilizing natural fibers like banana, coconut shell, sisal, and bagasse for creating environmentally friendly materials. Key areas include mechanical and thermal characterization, morphological analysis, and the effect of chemical treatments like NaOH on composite properties. His innovative work explores green composites using renewable resources like cardanol resin, advancing sustainability in materials science. His contributions are impactful in eco-friendly materials development, tribology, and engineering applications. 🌿🛠️🌍

Publication Top notes

Investigation of chemical, thermal and morphological properties of untreated and NaOH treated banana fiber

Study on Mechanical, Thermal and Morphological Properties of Banana Fiber‑Reinforced Epoxy Composites

Study on mechanical and morphological properties of sisal/banana/ coir fber‑reinforced hybrid polymer composites

MECHANICAL AND THERMAL CHARACTERIZATION OF BAGASSE FIBRE / COCONUT SHELL PARTICLE HYB R ID BIOCOMPOSITES REINFORCED WITH CARDANOL RESIN

Coconut shell particles reinforced cardanol–formaldehyde resole resin biocomposites: effect of treatment on thermal properties

Comparative mechanical, thermal properties and morphological study of untreated and NaOH-treated coconut shell-reinforced cardanol environmental friendly green composites

Preparation and properties of cashew nut shell liquid-based composite reinforced by coconut shell particles

BURAK AKIN | Engineering | Best Researcher Award

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BURAK AKIN | Engineering | Best Researcher Award

Assist. Prof. Dr BURAK AKIN, YTU, Turkey

Assist. Prof. Dr. Burak Akın is an academician at Yıldız Technical University, specializing in Electrical and Electronics Engineering. He holds a doctorate from Yıldız Technical University (2001-2008) and has extensive research in energy, renewable energy, and engineering technology. He has been an Assistant Professor since 2013, also holding roles such as Deputy Head of the Department and Commission Chair. Dr. Akın advises postgraduate and doctoral students, with research published in SCI journals. His academic contributions extend to organizing national and international scientific events and refereeing for journals. His expertise includes power systems, battery management, and optimization algorithms. ⚡📚🔋

Publication Profile

Scopus

Education & Career

Assist. Prof. Dr. Burak Akın is an accomplished expert in Electrical and Electronics Engineering with a Doctorate from Yıldız Technical University, Turkey. With over two decades of academic experience, he began his career as a research assistant and progressively advanced to his current role as an assistant professor. Dr. Akın is dedicated to research and education in his field, contributing significantly to advancements in Electrical and Electronics Engineering. Currently serving at Yıldız Technical University, he continues to inspire and mentor students while driving forward innovative research. 🔬📚💡🎓

Academic & Administrative Roles

Dr. Akın is a dedicated academic leader at Yıldız Technical University, actively engaged in shaping educational strategies and overseeing key academic initiatives. He holds leadership roles in various university committees, where he influences decision-making processes and contributes to the growth of the institution. Dr. Akın is also deeply involved in supervising multiple postgraduate theses, guiding students through their research journeys. His commitment to academic excellence and leadership is evident in his continuous efforts to enhance the university’s educational framework and support the next generation of scholars. 🎓📚💼👨‍🏫

Non-Academic Experience

Dr. Akın has significantly contributed to various legal proceedings by offering his expert knowledge in electrical engineering and technology. His insights have proven invaluable in legal contexts, showcasing his ability to bridge the gap between technical expertise and legal matters. With a strong background in engineering, Dr. Akın has applied his skills in areas like patent law, intellectual property, and technology-related disputes. His versatility in both technical and legal domains has enhanced his professional reputation, allowing him to be a trusted expert in his field. ⚖️🔌📚💡

Projects

B. Akın has contributed to various projects focused on power electronics and renewable energy systems. Key projects include the development of a safe onboard charging unit for electric vehicle batteries (TÜBİTAK, 2023) and a three-phase power factor correction circuit for charging stations (TÜBİTAK, 2022-2023). He also worked on a compact DC/DC converter (2020-2021), a smart turnstile system (TÜBİTAK, 2018-2019), and solutions for reducing the impact of energy-efficient lamps on the grid (2015-2017). Other notable projects include induction ovens (2011-2013) and power factor correction circuits (2005-2008), emphasizing renewable energy applications 🌍🔋⚡.

Book Chapters

Assist. Prof. Dr. Burak Akın contributed to several important topics in physics in 2015. He authored chapters in the book Fen ve Mühendisler için Fizik (Physics for Science and Engineers), edited by D. Esra Yıldız, Erol Kurt, and H. Hilal Kurt, published by Nobel Yayın Dağıtım. His chapters include Kinetic Theory of Gases (pp. 1-17), Temperature, Heat, and Heat Transfer (pp. 1-17), and The First and Second Laws of Thermodynamics (pp. 1-17). These works have provided valuable insights into fundamental principles of physics for engineering and science students. ⚛️📚🌡️

Research Focus

Assist. Prof. Dr. Burak Akın’s research primarily focuses on optimization techniques for energy systems, particularly in photovoltaic (solar power) applications. His work includes innovative algorithms such as the grey wolf optimization and hybrid particle swarm algorithms for efficient energy management, battery charging, and maximum power point tracking (MPPT). Additionally, he explores feedback control systems and converter designs, aiming to improve energy storage systems and power conversion efficiency. His contributions support sustainable energy solutions, particularly in optimizing the performance of solar and battery systems. 🌞⚡🔋🧑‍💻

Publication Top Notes

A modified multi-stepped constant current based on gray wolf algorithm for photovoltaics applications

An improved constant current step-based grey wolf optimization algorithm for photovoltaic systems

Transformer rail-tapped buck-boost converter design-based feedback controller for battery charging systems

MPPT mechanism based on novel hybrid particle swarm optimization and salp swarm optimization algorithm for battery charging through simulink

A novel hybrid series salp particle Swarm optimization (SSPSO) for standalone battery charging applications

Improved salp swarm algorithm based on particle swarm optimization for maximum power point tracking of optimal photovoltaic systems

DESIGN AND ANALYSIS OF A FLYBACK CONVERTER WITH IMPROVED SNUBBER CELLS

Mohammad Jafar Hemmati | Engineering Award | Best Researcher Award

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Assist. Prof. Dr. Mohammad Jafar Hemmati | Engineering Award | Best Researcher Award

Assist. Prof. Dr. Mohammad Jafar Hemmati, Sirjan University of Technology, Iran

Assist. Prof. Dr. Mohammad Jafar Hemmati, based in Kerman, Iran, is an accomplished electrical engineer specializing in low-voltage and low-noise oscillator designs. He holds a PhD in Electrical Engineering from Shahid Bahonar University of Kerman (2019), focusing on Colpitts quadrature oscillators in CMOS technology. He also earned an MSc from Ferdowsi University of Mashhad (2010) and a BSc from Shahid Chamran University of Kerman. Currently, he lectures at Sirjan University of Technology, where he teaches courses on CMOS Integrated Circuits and Digital Logic Circuits. His research interests include VCOs, frequency dividers, and low-noise amplifiers. 📡👨‍🏫📘

 

Publication Profile

Google Scholar

Education 🎓

Dr. Mohammad Jafar Hemmati completed his Ph.D. in Electrical Engineering at Shahid Bahonar University of Kerman (2014-2019). His thesis focused on designing a low-voltage Colpitts quadrature oscillator using the gm-enhanced technique in CMOS technology. He also holds an M.Sc. in Electrical Engineering from Ferdowsi University of Mashhad (2008-2010) and a B.Sc. from Shahid Chamran University of Kerman (2003-2007). His academic background strongly supports his expertise in low-power and low-noise circuit design.

Work Experience 💼

Dr. Hemmati is currently a lecturer at Sirjan University of Technology, where he teaches CMOS Integrated Circuits, Digital Logic Circuits, and more. His previous roles include being the head of the electrical department at Islamic Azad University, Firouzabad branch, and a design engineer at Kerman Tablo Electrical and Electronics Engineering Corporation. His broad teaching experience and industry involvement enrich his contributions to research and academia.

Research Interests 🔬

His research focuses on designing low-voltage and low-noise voltage-controlled oscillators (VCOs), injection-locked frequency dividers, low-noise amplifiers, and active mixers. These areas are critical for advancing modern communication and signal processing systems, reflecting his strong alignment with cutting-edge engineering challenges.

Conclusion 🌟

Dr. Mohammad Jafar Hemmati’s solid educational foundation, extensive research, and professional experience make him a highly suitable candidate for the Research for Best Researcher Award. His innovative work on low-power, low-noise VCOs and oscillators has significantly contributed to the advancement of electrical engineering, establishing him as a leader in his field.

 

Publication Top Notes

  • 📚 A CMOS quadrature VCO with optimized Colpitts topology for low-voltage applications – 9 citations, 2018
  • 📚 Design optimization of the complementary voltage controlled oscillator using a multi-objective gravitational search algorithm – 8 citations, 2023
  • 📚 A low-voltage swing-enhanced Colpitts CMOS LC-QVCO based on first-harmonics coupling – 7 citations, 2019
  • 📚 Ultra‐low‐phase‐noise CMOS LC quadrature voltage controlled oscillator with Colpitts topology – 7 citations, 2014
  • 📚 A second-harmonic LC-quadrature voltage controlled oscillator with direct connection of MOSFETs’ substrate – 6 citations, 2012
  • 📚 Analysis and review of main characteristics of Colpitts oscillators – 5 citations, 2021
  • 📚 CMOS second-harmonic quadrature voltage controlled oscillator using substrate for coupling – 5 citations, 2011
  • 📚 Novel six‐phase ring voltage controlled oscillator with wide frequency tuning range – 4 citations, 2024
  • 📚 A New Low-Power and High-Linearity CMOS Bulk-Injection Mixer in Technology – 4 citations, 2018
  • 📚 Low power differential Colpitts injection-locked frequency dividers using 0.18 μm CMOS technology – 3 citations, 2018

 

Marina Guindi | Electrical Engineering | Best Researcher Award

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Ms. Marina Guindi | Electrical Engineering | Best Researcher Award

Ms. Marina Guindi, American University of Kuwait, Kuwait

Based on the information provided, Ms. Marina Guindi appears to be a strong candidate for the Best Researcher Award due to her academic excellence, teaching experience, and involvement in research projects in electrical engineering. Below is an evaluation of her qualifications organized under relevant titles:

Publication profile

Academic Excellence 🎓

Marina Guindi has a solid educational background in electrical engineering, having completed her Bachelor of Engineering at the American University of Kuwait with high honors (Magna Cum Laude) and consistently placed on the Dean’s and President’s honor lists. Her academic journey continued with a Master of Science in Electrical Engineering from Kuwait University, graduating with distinction. These achievements demonstrate her commitment to academic excellence and intellectual growth.

Teaching Experience 🏫

Marina has accumulated significant teaching experience as a Teaching Assistant at Kuwait University and the American University of Kuwait. This experience, spanning multiple years and institutions, highlights her ability to convey complex concepts, engage students in the learning process, and contribute to academic environments. Her role as a teaching assistant also suggests strong communication and leadership skills, which are vital for a researcher.

Research Projects 🔍

Marina has demonstrated her research capabilities through her senior capstone project on “Motor Current Signature Analysis for Fault Detection in Induction Motors” and her master’s thesis focused on the “Optimal Location and Sizing of Renewable Distributed Generations and Electric Vehicle Charging Stations.” Both projects are highly relevant to contemporary challenges in electrical engineering, showcasing her ability to address complex technical problems and contribute innovative solutions.

Technical Skills 💻

Marina is proficient in various technical tools and programming languages, including MATLAB, Simulink, LabVIEW, PSpice, and Java. Her skills in using specialized software like Multisim, Ultiboard, and Quartus indicate her readiness to engage in advanced research and development projects. These competencies enhance her ability to carry out sophisticated analyses and simulations, which are essential for cutting-edge research.

Publication Top Notes  

Optimal Location and Sizing of Renewable Distributed Generations and Electric Vehicle Charging Stations

Signature Analysis as a Medium for Faults Detection in Induction Motors

Conclusion 🏆

Marina Guindi’s academic achievements, teaching experience, research projects, and technical skills make her a compelling candidate for the Best Researcher Award. Her background suggests a strong potential for future contributions to electrical engineering research, particularly in the areas of renewable energy integration and fault detection systems. Her commitment to education and research excellence aligns with the criteria typically sought for such prestigious recognition.