Samarth Sarvade | Electronics | Best Researcher Award

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Mr. Samarth Sarvade | Electronics | Best Researcher Award

Samarth Sarvade is an aspiring researcher and technology enthusiast specializing in cloud computing, AI, and IoT-driven solutions. With a passion for problem-solving, he actively contributes to technological advancements through patents, research papers, and innovative projects. As the Google Developer Student Clubs Lead, he successfully organized hackathons and workshops, fostering a culture of learning and collaboration. He has also served as a Google Cloud Arcade Facilitator, guiding over 1,050+ students in hands-on cloud computing experiences. His projects, including AgroGuard and Cyber Attacks Analytics Tool, showcase his ability to integrate AI with real-world applications. He actively participates in technical communities like DevHub and FOSS United, driving tech engagement in Solapur. With a strong foundation in software development, data analytics, and cybersecurity, he is committed to leveraging technology for impactful solutions. His research work is indexed in Scopus, reflecting his dedication to high-quality academic contributions.

Publication Profile

Scholar

🎓 Education

Samarth Sarvade is pursuing a Bachelor of Engineering in Electronics & Telecommunication at Nagesh Karajagi Orchid College of Engineering and Technology, Solapur (2021-2025). He completed his Higher Secondary School Certificate (HSC) from Walchand College of Arts and Science, Solapur (2019-2021) and his Secondary School Certificate (SSC) from Hindustani Covenant Church English Medium High School, Solapur (2018-2019). His academic journey is marked by excellence in technical education, complemented by hands-on project development and research in AI, IoT, and cloud computing. His engineering education has provided him with expertise in programming, analytics, and emerging technologies, equipping him with the necessary skills for cutting-edge research. Actively engaged in tech communities and competitions, he has developed projects that integrate machine learning, cybersecurity, and automation, solidifying his reputation as an innovative thinker in the engineering domain.

💼 Experience

As the Google Developer Student Clubs Lead (2023-2024), Samarth played a pivotal role in organizing hackathons like Solution Challenge and workshops such as GenAI, fostering an ecosystem of learning at his institute. As a Google Cloud Arcade Facilitator (2023-2024), he led multiple cloud computing events, training over 1,050+ students in Google Cloud services. He is also a community leader at DevHub and FOSS United, Solapur, where he organized IoT and AI-focused workshops, connecting students with industry experts. His technical expertise extends to research and project development, with patents in AI-based farm management and railway automation. His research contributions, published in Scopus-indexed journals, demonstrate his dedication to academic excellence. He has also built innovative tools like Cyber Attacks Analytics Tool, enhancing cybersecurity insights. His multifaceted experience bridges academia, research, and industry, shaping him into a dynamic technology leader.

🏆 Awards & Honors

Gold Prize for AgroGuard at Aavishkar Zonal & University Level (2024). Finalist at Intelliswift Innovation Hackathon (2023) for Kisan Ki Duniya. Ultimate Milestone Achiever – Google Cloud India (2024) for cloud computing contributions. Graduated Google Developer Student Clubs Lead (2024) for exceptional leadership. DIPEX 2024 Exhibition cum Competition participation. Best Paper Award Nomination – Procedia Computer Science (2025) for railway automation research. Ideathon 3.0 Participant (2024) for innovation in sustainable technologies. National Intellectual Property Awareness Mission (2023) certification for contributions to patent filing. Certified AWS Cloud Practitioner & Microsoft DevOps Specialist for excellence in cloud computing His awards reflect his dedication to research, innovation, and leadership in emerging technologies.

🔬 Research Focus

Samarth Sarvade’s research revolves around AI-driven automation, IoT in agriculture, cloud computing, and cybersecurity. His work includes patented AI-based agricultural management systems, LoRaWAN-enabled railway automation, and cybersecurity analytics using LLM (Llama 3). He has published Scopus-indexed research papers, including “AgroGuard: Intelligent Farm Cover Control” and “Optimizing Railway Signaling with RFID and Automation”. His projects integrate machine learning, embedded systems, and cloud computing to create innovative real-world solutions. He is particularly interested in intelligent automation for smart cities, AI-enhanced cybersecurity threat detection, and industrial IoT applications. His research contributions, recognized in international conferences, showcase his ability to apply theoretical knowledge to practical problem-solving, contributing significantly to national security and technological self-reliance.

Conclusion

Samarth Sarvade is a highly promising researcher with a strong foundation in innovation, leadership, and technology-driven solutions. While his patents and projects demonstrate real-world impact, focusing on higher-ranked research publications and industry collaborations would further strengthen his candidacy for the Best Researcher Award.

Publication 

  • Title: Agroguard: Intelligent Farm Cover Control and Climate Management System
    Year: 2024
    Authors: RS Bakare, SR Sarvade
    Citation: Grenze International Journal of Engineering & Technology (GIJET) 10

 

  • Title: Optimizing Railway Signaling and Platform Management with LoRaWAN, RFID and Automation Technologies
    Year: 2025
    Authors: S Sarvade, V Shirwal, P Kugaonkar, K Mudgonda
    Citation: Procedia Computer Science 252, 557-566

 

 

Ahmed Mohamed | Electrical Engineering | Best Researcher Award

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Prof. Ahmed Mohamed | Electrical Engineering | Best Researcher Award

 Aswan University Egypt

Prof. Dr. Ahmed Thabet Mohamed, born on February 13, 1974, in Aswan, Egypt, is a distinguished professor and researcher specializing in Electrical Engineering, with a focus on High Voltage Engineering and Nanotechnology Applications. He currently heads the Nanotechnology Research Center at Aswan University and has held faculty positions at various prestigious institutions, including Buraydah Colleges, Qassim University, and Aswan University. With a robust background in electrical engineering and nanotechnology, Dr. Mohamed has contributed extensively to scientific research and innovation. He is globally recognized, ranking in the top 2% of scientists worldwide in 2022 and 2024. 🏆🔬

Publication Profile

Orcid

🎓 Education

Dr. Mohamed holds a Ph.D. in Electrical Engineering from El-Minia University (2006), focusing on solid insulating materials in high-frequency alternating fields and impulse voltage. He also earned an MSc in High Voltage Engineering from Aswan University (2002), where his thesis explored grounding systems of electric substations. Additionally, he completed his BSc in Electrical Engineering from Aswan University in 1997. 🏫💡

💼 Experience

Dr. Ahmed Thabet Mohamed has vast teaching experience, currently serving as a Full Professor and Head of the Nanotechnology Research Center at Aswan University. He has previously worked as a Full Professor at Buraydah Colleges and Qassim University, Saudi Arabia. His teaching expertise spans various subjects, including High Voltage Engineering, Electromagnetics, Electric Power Drives, and Power System Protection. He has also supervised numerous graduate and postgraduate students, making significant contributions to the field of Electrical Engineering and Nanotechnology. 👨‍🏫💼

🏆 Awards & Honors

Dr. Mohamed has received numerous accolades throughout his career, including being ranked among the top 2% of scientists worldwide in 2022 and 2024. His research excellence has earned him recognition in prestigious academic circles. He has authored 102 publications, including books, journal articles, and conference papers. Additionally, he has been a recipient of various international honors for his contributions to electrical engineering and nanotechnology. 🏅📚

🔬 Research Focus

Prof. Dr. Ahmed Thabet Mohamed’s research primarily focuses on High Voltage Engineering, Nanotechnology, and their applications in energy systems. His research includes the study of solid insulating materials, grounding systems, dielectric materials, and the development of green energy solutions. He has contributed to advancements in switchgear, substations, and transmission systems, with particular emphasis on high-voltage technology and energy efficiency. Dr. Mohamed’s work is recognized for its significant impact on both academic and industrial advancements in energy engineering. ⚡🔋

Publication Top Notes

  • Title: Controlling the optical constants of PVC nanocomposite films for optoelectronic applications
    Year: 2016
    Authors: AA Ebnalwaled, A Thabet
    Citations: 134

 

  • Title: Experimental enhancement for dielectric strength of polyethylene insulation materials using cost-fewer nanoparticles
    Year: 2015
    Authors: AT Mohamed
    Citations: 59

 

  • Title: Investigation on enhancing breakdown voltages of transformer oil nanofluids using multi-nanoparticles technique
    Year: 2018
    Authors: A Thabet, M Allam, SA Shaaban
    Citations: 51

 

  • Title: Improvement of surface energy properties of PVC nanocomposites for enhancing electrical applications
    Year: 2017
    Authors: A Thabet, AA Ebnalwaled
    Citations: 50

 

  • Title: A review of nano-fillers effects on industrial polymers and their characteristics
    Year: 2011
    Authors: A Thabet, YA Mubarak, M Bakry
    Citations: 46

 

  • Title: Emerging nanotechnology applications in electrical engineering
    Year: 2021
    Authors: AT Mohamed
    Citations: 39

 

  • Title: Thermal experimental verification on effects of nanoparticles for enhancing electric and dielectric performance of polyvinyl chloride
    Year: 2016
    Authors: AT Mohamed
    Citations: 39

 

  • Title: Simulation of electrical ageing in insulating polymers using a quantitative physical model
    Year: 2008
    Authors: LA Dissado, A Thabet
    Citations: 30

 

  • Title: Theoretical analysis for effects of nanoparticles on dielectric characterization of electrical industrial materials
    Year: 2017
    Authors: AT Mohamed
    Citations: 28

 

  • Title: Experimental investigation on dielectric losses and electric field distribution inside nanocomposites insulation of three-core belted power cables
    Year: 2021
    Authors: A Thabet, N Salem
    Citations: 24

 

  • Title: Simulation of DC electrical ageing in insulating polymer films
    Year: 2010
    Authors: LA Dissado, A Thabet, SJ Dodd
    Citations: 24

 

  • Title: The effect of cost-fewer nanoparticles on the electrical properties of polyvinyl chloride
    Year: 2017
    Authors: A Thabet, Y Mobarak
    Citations: 21

 

  • Title: Design and investment of high voltage nanodielectrics
    Year: 2020
    Authors: AT Mohamed
    Citations: 20

 

 

 

Ahmed Nouainia | Electromagnetic et electronique | Best Scholar Award

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Mr. Ahmed Nouainia | Electromagnetic et electronique | Best Scholar Award

Mr at Université tunis manar, Tunisia

Nouainia Ahmed, born on August 20, 1985, is a Tunisian physicist specializing in electromagnetic shielding and radio frequency circuits. With a Ph.D. in Physics from the Faculty of Sciences of Tunisia (2019), his work has primarily focused on optimizing shielding efficiency in communication systems. He served as a Contractual Assistant Professor at various institutions including the Higher Institute of Human Sciences of Jendouba and the Higher Institute of Technology Studies of Jendouba. In addition, Nouainia has contributed significantly to postdoctoral research at the National Institute of Research and Physical and Chemical Analysis (INRAP). He is skilled in designing RF circuits, antennas, and digital signal processing, and has actively supervised master’s and doctoral students. Nouainia is fluent in Arabic and French and possesses a strong command of English.

profile

Scopus

  • 🎓 Education 

    Nouainia Ahmed earned his Ph.D. in Physics in February 2019 from the Faculty of Sciences of Tunisia (FST) under the supervision of Professor Taoufik Aguili. His dissertation focused on modeling electromagnetic leakage in high-frequency systems and optimizing shielding efficiency. Earlier, in December 2012, he completed a specialized master’s degree at FST in Soft Matter Physics and Electromagnetic Modeling, where he experimentally determined the Landau coefficients of ferroelectric liquid crystals under the guidance of Professor Soltani Taoufik. In June 2010, Nouainia also received his master’s degree from FST. He has undergone various specialized formations and trainings in electromagnetic compatibility and cyber security. Nouainia’s academic background reflects his expertise in applied physics, particularly within the domain of communications and shielding technologies.

    🧑‍🏫 Experience 

    From 2019 to 2022, Nouainia Ahmed served as a Contractual Assistant Professor at the Higher Institute of Human Sciences of Jendouba, where he taught advanced physics courses such as Geometric Optics and Antenna Systems. In 2022-2023, he continued his role at the Higher Institute of Technology Studies of Jendouba (ISETJ), focusing on Electrical Safety, Signal Processing, and CAO labs. Simultaneously, from 2021 to 2023, Nouainia pursued postdoctoral research at the National Institute of Research and Physical and Chemical Analysis (INRAP). His areas of teaching expertise include satellite systems, antenna design, and data transmission. Additionally, Nouainia has supervised multiple students and engineers during his tenure, guiding them through master’s and doctoral programs as well as practical research projects.

    🏆 Awards and Honors 

    Nouainia Ahmed has achieved recognition for his contributions to the field of electromagnetic shielding and wave concept modeling. Throughout his academic and research career, he has been involved in international symposiums and conferences where his work was frequently highlighted and awarded. In particular, his participation at conferences such as the International Wireless Communications & Mobile Computing Conference (IWCMC) in Morocco and the Mediterranean Microwave Symposium (MMS) in France, among others, received significant accolades. His participation in renowned international research schools and forums, such as the Spring School of Electromagnetic Compatibility and the Forum for Electromagnetic Research Methods and Application Technologies (FERMAT), further exemplify his academic and research commitment. Although specifics regarding his formal awards remain limited, his achievements across various prestigious platforms and collaborative international engagements reflect his standing in the academic and research communities.

    🔬 Research Focus

    Nouainia Ahmed’s research primarily revolves around electromagnetic compatibility, shielding optimization, and high-frequency circuit design. His Ph.D. work focused on reducing electromagnetic interference (EMI) through improved shielding techniques, using innovative approaches like the Method of Moments-Generalized Equivalent Circuit (MoM-GEC). He has extended this expertise to applications in waveguide shielding, antenna design for wireless communications, and digital signal processing. His contributions to understanding electromagnetic diffraction and interference control have practical implications in both academic and industrial settings. Throughout his career, he has collaborated with international teams, enhancing his work in reconfigurable antennas, microwave structure modeling, and wireless communications. His postdoctoral research at the National Institute of Research and Physical and Chemical Analysis (INRAP) explored new techniques in RF circuit optimization and shielding effectiveness, emphasizing the development of more efficient and sustainable communication systems.

Publications Top Notes:

 

 

 

 

 

 

 

  • Wave concept in MoM-GEC formalism
    • Authors: Nouainia, A., Hajji, M., Aguili, T.
    • Conference: 2017 International Applied Computational Electromagnetics Society Symposium – Italy (ACES 2017), 7916331

 

Ashish Kumar Chowdhary | Electronics | Young Scientist Award

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Assist Prof Dr. Ashish Kumar Chowdhary | Electronics | Young Scientist Award

Assistant Professor at IIT Roorkee, India

Dr. Ashish Kumar Chowdhary is an Assistant Professor in the Department of Electronics and Communication Engineering at the Indian Institute of Technology Roorkee. He earned his PhD from IIT Guwahati, winning the Best PhD Thesis Medal for his research on nanophotonics and metamaterials, focusing on tunable optical devices. With expertise in smart windows and hybrid electronics, Dr. Chowdhary has published extensively in top-tier journals and garnered significant media attention for his work. His post-doctoral research at Nanyang Technological University, Singapore, further enhanced his credentials in 6G communication technologies. He is proficient in English, Hindi, and Bengali.

Publication profile

Scholar

🎓 Education

PhD in Electronics and Electrical Engineering from IIT Guwahati (2022) – Best Thesis Medal Winner. MS in Engineering from IIT Guwahati (2020). B.Tech in Electronics and Communication Engineering from NIT Durgapur (2015) – Distinction.

🏢 Current Position

  • Assistant Professor at the Department of Electronics and Communication Engineering, IIT Roorkee.

🔬 Research Interests

Specializes in Nanophotonics, Metamaterials, and Terahertz Electronics. Focus on designing smart tunable optical devices, including smart windows, radiative cooling systems, and graphene-based devices.

🌐 Professional Experience

Post-doctoral Research Fellow at Nanyang Technological University, Singapore (2022-2023). Teaching Assistant at IIT Guwahati for multiple courses from 2017 to 2022. Worked at Ericsson India as a Solution Integration Engineer (2015-2017).

🌟 Recognition

  • Featured in over 400 media outlets, including The Hindu and NDTV, for his innovative research contributions.

Publication

  • Design of Electrotunable All-Weather Smart Windows
    • Authors: A.K. Chowdhary, D. Sikdar
    • Published In: Solar Energy Materials and Solar Cells, 222, 110921
    • Year: 2021
    • Citations: 36

 

  • Polarization-and Angle-Insensitive Ultrawideband Perfect Metamaterial Absorber for Thermophotovoltaics
    • Authors: A.K. Chowdhary, T. Bhowmik, D. Sikdar
    • Published In: JOSA B, 38(2), 327-335
    • Year: 2021
    • Citations: 31

 

  • Energy-Saving All-Weather Window Based on Selective Filtering of Solar Spectral Radiation
    • Authors: A.K. Chowdhary, T. Bhowmik, J. Gupta, D. Sikdar
    • Published In: Applied Optics, 60(5), 1315-1325
    • Year: 2021
    • Citations: 20

 

  • Low-Power Design of Electrotunable Color Filters and Optical Switches
    • Authors: A.K. Chowdhary, D. Sikdar
    • Published In: JOSA B, 37(12), 3865-3873
    • Year: 2020
    • Citations: 14

 

  • Selective Thermal Emitters for High-Performance All-Day Radiative Cooling
    • Authors: A.K. Chowdhary, V.A. Reddy, D. Sikdar
    • Published In: Journal of Physics D: Applied Physics, 55(8), 085504
    • Year: 2021
    • Citations: 12

 

  • Grating-Assisted Polarization-Insensitive Dual-Mode Spatial Light Modulator Design Using Epsilon-Near-Zero Material
    • Authors: T. Bhowmik, A.K. Chowdhary, D. Sikdar
    • Published In: IEEE Journal of Quantum Electronics, 58(4), 1-8
    • Year: 2022
    • Citations: 11

 

  • Tunable Terahertz Absorption Modulation in Graphene Nanoribbon-Assisted Dielectric Metamaterial
    • Authors: K.M. Dhriti, A.K. Chowdhary, B.S. Chouhan, D. Sikdar, G. Kumar
    • Published In: Journal of Physics D: Applied Physics, 55(28), 285101
    • Year: 2022
    • Citations: 10

 

  • Ultra-Broadband Wide-Angle Metallo-Dielectric Metamaterial Absorber for Solar Energy Harvesting
    • Authors: A.K. Chowdhary, D. Sikdar
    • Published In: 2019 Workshop on Recent Advances in Photonics (WRAP), 1-3
    • Year: 2019
    • Citations: 9

 

  • Thin-Wire Array Based Resonator for Targeted Clinical 1.5 T Magnetic Resonance Imaging
    • Authors: J. Gupta, P. Das, A.K. Chowdhary, R. Bhattacharjee, D. Sikdar
    • Published In: 2022 IEEE Photonics Conference (IPC), 1-2
    • Year: 2022
    • Citations: 7

 

  • Nanophotonics-Enabled High-Efficiency Selective Solar Absorbers for Waste Heat Management
    • Authors: A.K. Chowdhary, V.A. Reddy, D. Sikdar
    • Published In: IEEE Transactions on Nanotechnology, 21, 131-136
    • Year: 2022
    • Citations: 6

 

  • Polarization-and Angle-Insensitive Tunable Metasurface for Electro-Optic Modulation
    • Authors: T. Bhowmik, A.K. Chowdhary, D. Sikdar
    • Published In: IEEE Photonics Technology Letters, 35(16), 879-882
    • Year: 2023
    • Citations: 5

 

  • Infrared-Blocking Plasmonic Meta-Glass for Energy-Saving Passive Windows
    • Authors: A.K. Chowdhary, T. Bhowmik, D. Sikdar
    • Published In: Optics Letters, 47(9), 2242-2245
    • Year: 2022
    • Citations: 5

 

 

Hala lalaymia | Electrical engineering | Young Scientist Award

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Ms. Hala lalaymia | Electrical engineering | Young Scientist Award

PhD at École Nationale Supérieure de Technologie et d’Ingénierie (ENSTI), Algeria

Hala Lalaymia is a PhD candidate at the National Higher School of Technology and Engineering in Annaba, specializing in renewable energy systems, particularly grid-connected photovoltaic systems. Her work focuses on control and optimization techniques to improve energy efficiency and system performance. Hala has gained substantial professional experience through internships with notable Algerian energy companies. She is fluent in French, Arabic, and English, and has a passion for teaching, mentorship, and research.

profile:

Scholar

🎓 Education

PhD in Renewable Energy | National Higher School of Technology and Engineering, Annaba (02/2023 – Present) Ranked 2nd out of 59 candidates in the National PhD Competition, Hala is researching the control and optimization of grid-connected photovoltaic systems for her thesis. Engineering Degree in Electrical Power Production and Renewable Energy | National Higher School of Industrial Technologies, Annaba (09/2019 – 07/2022) Graduated with a GPA of 15.65, ranked 3rd out of 17 students. Master in Electrical Networks | National Higher School of Technology and Engineering, Annaba Graduated with a GPA of 15.36, building strong expertise in electrical systems.

💼 Experience

Intern – Photovoltaic Solar Energy Division | Renewable Energy Development Center (CDER), Algiers (02/2022 – 04/2022) Focused on advanced control systems for multilevel inverters in grid-connected photovoltaic systems. Intern – Electrical Engineering Department | Hadjar Soud Cement Company (SCHS), Skikda (04/2021 – 05/2021) Observed and learned about electrical measurement and protection devices. Intern – Electricity Transport Region | Algerian Electricity Transmission Management Company (GRTE), Annaba (11/2020 – 12/2020) Gained practical experience in electricity production and energy transportation.

🏆 Awards and Honors

National PhD Competition: Ranked 2nd out of 59 candidates. Engineering Degree: Ranked 3rd in her class. Certificate of French Language Proficiency: TCF-Test Level B2. IT Training: Certified in Microsoft Word, Excel, PowerPoint, and Windows (2011). English Language Certificate: Completed training in English language proficiency.

🔬 Research Focus

Grid-Connected Photovoltaic Systems: Focused on optimizing the control systems to improve energy efficiency and reduce costs.  Meta-heuristic Algorithms: Specialized in applying these algorithms for the enhancement of control systems in renewable energy. Power Electronics: Advanced understanding of power electronics, particularly in photovoltaic systems. Renewable Energy Systems: Researching efficient integration of renewable energy into existing power grids. Fractional PI Controllers: Utilized for improved performance in T-type neutral point inverters for photovoltaic systems.

 

Publication:📝

  • Revolutionizing PV Grid Integration: Metaheuristic Optimization of Fractional PI Controllers in T-type Neutral Point Piloted Inverters for Enhanced Performance
    Journal: Computers and Electrical Engineering
    Year: 2024

 

  • A Control Grid-Connected PV System with NPC Multi-Level Inverter
    Conference: 2023 International Conference on Electrical Engineering and Advanced Technologies
    Year: 2023

 

  • Analysis of Performance and Degradation in PV Modules After Aging
    This research analyzes the performance of photovoltaic modules after aging. It highlights the degradation rates of different PV technologies, contributing valuable data for the maintenance and longevity of solar power systems.

Conclusion

Hala Lalaymia is a strong candidate for the “Young Scientist Award” due to her academic achievements, cutting-edge research in renewable energy, and technical expertise in photovoltaic systems. Her record of publications and conference presentations also supports her case. Improving her industry connections, international collaborations, and diversifying her research scope could further enhance her candidacy. Overall, her contributions to renewable energy research make her highly deserving of recognition as a promising young scientist.

Priyanka sahu | Processing Technique | Young Scientist Award

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Dr.Priyanka sahu | Processing Technique | Young Scientist Award

Dr Priyanka sahu Rajiv Gandhi University of Knowledge of Technologies-RK Valley (AP-IIIT RK Valley), Idupulapaya, Andhra Pradesh India

Dr. Priyanka Sahu is an Assistant Professor in Computer Science and Engineering at RGIPT. She holds a PhD from IIT (ISM) Dhanbad, an MTech from IIT Guwahati, and a B.E. from Chhattisgarh Swami Vivekanand Technical University. Her research focuses on Distributed Systems, Blockchain, IoT, and Cloud Computing. Dr. Sahu has published 11 papers in international journals and conferences and contributed book chapters. With experience in academia at IIIT Sri City and SSEC Bhilai, she teaches subjects like Distributed Systems and Blockchain. She also holds certifications in Cloud Computing and has expertise in IoT and cloud platforms.

 

Publication profile

scholar

🏫 Academic Qualifications

Ph.D. in Physics & Materials Science (IIT Indore) – 2023.M.Tech in Physics & Astronomy (NIT Rourkela) – 2017.B.E. in Electronics & Telecommunication (Govt. Engineering College Bilaspur) – 2014.Diploma in Electronics & Telecommunication (Govt. Polytechnic College Ambikapur) – 2011

🎓 Research & Thesis

Ph.D.: Development & Characterization of High Entropy Soft Magnetic Alloys.M.Tech: Electrical & Magnetic Properties of Modified Strontium Hexaferrite

🛠 Technical Skills

Materials Synthesis: Ceramic materials, High Entropy Alloys (HEAs), Magnetocaloric materials.Characterization Techniques: XRD, SEM, TEM, DSC, VSM, Complex Impedance Spectroscopy.Programming & Analysis: MATLAB, COMSOL, Origin, Thermo-Calc.Software: ImageJ, Mendeley, Endnote.

📢 Conference Participation

Presented papers at several international conferences, including ICSM, ICONN, and ISPMM.Invited speaker at the International Conference on Renewable Energy and Sustainable Technology, 2024.

👩‍🏫 Experience

Assistant Professor at Rajiv Gandhi University of Knowledge Technologies (2024–Present).Teaching & Lab experience at IIT Indore and NIT Rourkela

🏆 Achievements

Best Researcher Award at Atomic, Molecular, and Optical Physics 2024.Awards for best oral presentation and poster presentations at IIT IndoreMerit scholarships and multiple academic distinctions.

 

Publication

  • Synthesis and characterization of hydrogenated novel AlCrFeMnNiW high entropy alloy
    • SK Dewangan, VK Sharma, P Sahu, V Kumar
    • 2020

 

  • Investigating the effect of multiple grain–grain interfaces on electric and magnetic properties of [50 wt% BaFe12O19–50 wt% Na0.5Bi0.5TiO3] composite system
    • R Pattanayak, R Muduli, RK Panda, T Dash, P Sahu, S Raut, S Panigrahi
    • 2016

 

  • Microstructure and magnetic behavior of FeCoNi (Mn–Si)x (x = 0.5, 0.75, 1.0) high-entropy alloys
    • P Sahu, S Solanki, S Dewangan, V Kumar
    • 2019

 

  • Dielectric, ferroelectric and impedance spectroscopic studies in TiO2-doped AgNbO3 ceramic
    • R Muduli, R Pattanayak, S Raut, P Sahu, V Senthil, S Rath, P Kumar
    • 2016

 

  • Effect of grain size on electric transport and magnetic behavior of strontium hexaferrite (SrFe12O19)
    • P Sahu, SN Tripathy, R Pattanayak, R Muduli, N Mohapatra, S Panigrahi
    • 2017

 

  • Microstructure, Non-isothermal Crystallization Kinetics and Magnetic Behaviour Study of [FeCoNi100-x(SiMn)x] High Entropy Amorphous Alloys Synthesized by Mechanical Alloying
    • P Sahu, S Samal, V Kumar
    • 2023

 

  • Investigation of the structural, electrical, and magnetic behavior of Co3+-Ti4+ doped strontium hexaferrite: validation of measured and theoretical models
    • P Sahu, PK Sahu, S Panigrahi
    • 2024

 

  • Phase Evolution and Soft Magnetic Behavior of Mechanically Alloyed Fe–Co–Ni Medium Entropy Alloy at Different Disk Angular Velocity
    • P Sahu, S Samal, V Kumar
    • 2023

 

  • An assessment of the mechanically alloyed equiatomic FeCoNiMnSi high entropy amorphous alloy for non-isothermal crystallization kinetics and magnetocaloric refrigeration
    • P Sahu, S Samal, V Kumar
    • 2024

 

conclusion

Dr. Priyanka Sahu is a strong candidate for the Young Scientist Award. Her early achievements in high entropy alloys, magnetocaloric materials, and other areas of materials science are impressive, and her recognition within the scientific community speaks to her potential. While there is room for growth in terms of expanding the real-world impact and leading independent research projects, her current trajectory suggests she is well on her way to becoming a leading figure in her field.

Ming-Yen Wei | Electrical Engineering | Best Innovation Award

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Assist Prof Dr. Ming-Yen Wei | Electrical Engineering | Best Innovation Award

Assist Prof Dr at National Formosa University, Department of Electrical Engineering Taiwan

Ming-Yen Wei was born in Taichung City, Taiwan, Republic of China, on April 20, 1983. He received his Bachelor’s and Master’s degrees in Electrical Engineering from National Formosa University in 2005 and 2007, respectively, and his Ph.D. in Electrical Engineering from National Taiwan University of Science and Technology in 2012. Since late 2012, he has held industrial technical positions at a research institution for ten years. In early 2023, he joined National Formosa University as an Assistant Professor in the Department of Electrical Engineering. His research focuses on motor drive control, embedded systems, control theory applications, mechatronics, and robotics.

profile:

Scopus

Orcid

 

This paper introduces an encoder calibration system designed to enhance resolution and accuracy in interior permanent magnet synchronous motor (IPMSM) drives, complemented by customized embedded software. The system employs closed-loop control with the IPMSM drive, adjusting encoder resolution via gear ratio modifications. Communication between the human-machine interface (HMI) and the DSP’s internal 28x CPU utilizes a digital RS-422 interface. The embedded software running on the 28x CPU processes real-time data and presents calibration information on the HMI. Firmware integration encompasses external analog/digital converters, comparators, digital communication interfaces, high-accuracy encoders, original encoders, and additional gear ratio adjustments. Computed compensation values are stored in EEPROM. The TMS-320F28335 digital signal processor serves as the central control unit, facilitating encoder signal processing, embedded software execution, HMI operation, and IPMSM drive control. Experimental results confirm the feasibility of the proposed digitization approach, demonstrating its effective application in industrial control systems.

publication:📝

 

  • Title: Design and implementation of an encoder calibration system for improved resolution and accuracy in IPMSM drive with embedded software
    Authors: M.-Y. Wei
    Journal: Journal of the Chinese Institute of Engineers, Transactions of the Chinese Institute of Engineers, Series A
    Year: 2024
    Status: Article in Press
    Citations: 0

 

  • Title: Design and Control of a Three-Axis Motion Servo Control System Based on a CAN Bus
    Authors: M.-Y. Wei
    Journal: Energies
    Year: 2023
    Volume: 16
    Issue: 10
    Article ID: 4208
    Citations: 0

 

  • Title: Design and Implementation of a New Training Flight Simulator System
    Authors: M.-Y. Wei, S.-A. Fang, J.-W. Liu
    Journal: Sensors
    Year: 2022
    Volume: 22
    Issue: 20
    Article ID: 7933
    Citations: 4

 

  • Title: Design and Control of a Multi-Axis Servo Motion Chair System Based on a Microcontroller
    Authors: M.-Y. Wei, Y.-L. Yeh, J.-W. Liu, H.-M. Wu
    Journal: Energies
    Year: 2022
    Volume: 15
    Issue: 12
    Article ID: 4401
    Citations: 3

 

  • Title: Design of a DSP-Based Motion-Cueing Algorithm Using the Kinematic Solution for the 6-DoF Motion Platform
    Authors: M.-Y. Wei
    Journal: Aerospace
    Year: 2022
    Volume: 9
    Issue: 4
    Article ID: 203
    Citations: 6

 

  • Title: Design and implementation of inverse kinematics and motion monitoring system for 6dof platform
    Authors: M.-Y. Wei
    Journal: Applied Sciences (Switzerland)
    Year: 2021
    Volume: 11
    Issue: 19
    Article ID: 9330
    Citations: 10

 

  • Title: Optimal Control-based Motion Cueing Algorithm Design for 6DOF Motion Platform
    Authors: M.-Y. Wei, S.-W. Chen
    Conference: 4th IEEE International Conference on Knowledge Innovation and Invention 2021, ICKII 2021
    Year: 2021
    Pages: 216–222
    Citations: 2

 

  • Title: Design and Implementation of the Inverse Kinematics and Monitoring Module for Six-axis Crank Arm Platform
    Authors: M.-Y. Wei
    Conference: 4th IEEE International Conference on Knowledge Innovation and Invention 2021, ICKII 2021
    Year: 2021
    Pages: 210–215
    Citations: 0

 

  • Title: Design, Analysis, and Implementation of a Four-DoF Chair Motion Mechanism
    Authors: M.-Y. Wei, Y.-L. Yeh, S.-W. Chen, H.-M. Wu, J.-W. Liu
    Journal: IEEE Access
    Year: 2021
    Volume: 9
    Pages: 124986–124999
    Citations: 3