Ayman M. Ibrahim | Engineering and Technology | Best Academic Researcher Award

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Ayman M. Ibrahim | Engineering and Technology | Best Academic Researcher Award

Dr Ayman M. Ibrahim, kunmining university of science and technology, China

Dr. Ayman M. Ibrahim is a distinguished mineral processing engineer and academic researcher known for his expertise in sustainable mining practices. Currently serving as an Assistant Professor at the University of Nyala and a Postdoctoral Researcher at Kunming University of Science and Technology in China, Dr. Ibrahim bridges the gap between academia and industry. Fluent in Arabic, English, and Chinese, he is also a part-time instructor at the University of Khartoum. His work focuses on enhancing mineral recovery methods and reducing the environmental footprint of mining operations. Dr. Ibrahim’s academic contributions are reflected in numerous SCI-indexed publications addressing flotation technologies, sulfidization mechanisms, and eco-friendly leaching techniques. With a commitment to innovation and community upliftment, he is also deeply involved in mentoring and guiding students. His multilingual capabilities, cross-continental collaborations, and industry-integrated teaching practices place him at the forefront of mineral engineering research globally.

Publication Profile

Scopus

Education

Dr. Ayman M. Ibrahim holds a Ph.D. in Mineral Processing Engineering from the Sudan Academy of Sciences, earned in June 2023, where he explored advanced flotation and sulfidization techniques. Prior to this, he completed his Master of Science in Mining Technology at Omdurman Islamic University in March 2017, gaining hands-on experience in ore beneficiation and sustainable mining solutions. His foundational education includes a Bachelor of Science in Mining Engineering from the same university, completed in June 2012, which established his strong engineering background. Throughout his academic journey, Dr. Ibrahim has maintained a research-oriented approach, actively publishing and participating in scientific discourse. Proficient in Arabic, English, and Chinese, his multilingual education enhances his collaborative research with institutions across Asia and Africa. His academic training has equipped him with the skills necessary for cutting-edge mineral resource management, sustainable development, and the formulation of environmentally responsible mining practices.

Experience

Dr. Ayman M. Ibrahim’s professional journey showcases a blend of academia, research, and field expertise. Since June 2023, he has held dual roles as an Assistant Professor at the University of Nyala and a Postdoctoral Researcher at Kunming University of Science and Technology, China. At Nyala, he teaches mineral engineering and engineering geology, mentors students, and bridges industry-academia through collaborative research. Simultaneously, his postdoctoral work in China focuses on cutting-edge mineral processing technologies and environmental impact reduction. Previously, he served as a Lecturer (2017–2018) and Teaching Assistant (2013–2015) at the University of Nyala. His core skills include data analysis, GIS, simulation software, academic publishing, and cross-functional collaboration. His leadership, teamwork, and communication abilities enable him to contribute meaningfully to global sustainability goals through innovative engineering solutions. Dr. Ibrahim’s experience reflects a strong commitment to advancing academic excellence, community impact, and technical innovation in mineral sciences.

Awards and Honors

While specific named awards are not listed in his profile, Dr. Ayman M. Ibrahim’s academic accomplishments and continuous progression into higher educational and research roles signify recognition of his exceptional capabilities. His current postdoctoral position at Kunming University of Science and Technology, one of China’s leading technical institutions, is a testament to his scholarly merit and international recognition. Moreover, his appointment as Assistant Professor at the University of Nyala and his selection as a master’s-level instructor at the University of Khartoum reflect institutional trust in his academic leadership. His ability to publish in SCI-indexed international journals and collaborate with cross-border experts in mineral processing is a notable achievement in itself. Furthermore, his inclusion in multiple collaborative projects involving cutting-edge surface chemistry, flotation technologies, and eco-friendly extraction techniques mark him as a rising figure in sustainable mineral engineering. His academic trajectory is decorated with milestones deserving formal recognition.

Research Focus

Dr. Ayman M. Ibrahim’s research is rooted in advanced mineral processing, with a particular focus on sustainable flotation techniques, sulfidization mechanisms, and eco-friendly leaching methods. He seeks to enhance copper recovery from complex ores like malachite using selective collectors and depressants, minimizing environmental impact. His recent research investigates synergistic reagents, such as DDTC and ammonium phosphate, to improve flotation efficiency while reducing the use of toxic materials. Through surface analysis techniques like XPS, FTIR, ToF-SIMS, and zeta potential measurements, Dr. Ibrahim elucidates the physicochemical interactions governing flotation and leaching. He also explores the optimization of leaching parameters (temperature, acid concentration, and particle size) to maximize recovery from Sudanese ore bodies. His work bridges academic theory with industrial needs, offering innovative and environmentally responsible solutions to mining challenges. His mission aligns with global sustainability goals, positioning him as a thought leader in the transformation of mineral engineering for the 21st century.

Publication Top Notes

  1. “Improved activation of malachite sulfurization flotation by thiourea”Colloids and Surfaces A, Oct 2024. 📄🔬
    ✅ Achieved 89% flotation recovery; introduced eco-friendly chemisorption pathway.

  2. “Effect of DDTC and xanthate in malachite flotation”Physicochemical Problems of Mineral Processing, Mar 2025. 📘⚗️
    ✅ Reached 93.15% recovery; collaborative reagents significantly outperformed traditional systems.

  3. “Effect of Ammonium Sulfide on Malachite Flotation”Minerals, Sep 2022. 🧪🌿
    ✅ Demonstrated superior performance of ammonium vs sodium sulfide.

  4. “Ammonium phosphate’s role in malachite flotation”Physicochemical Problems of Mineral Processing, Feb 2023. 🔍📈
    ✅ Enhanced stability and recovery through surface modification.

  5. “Effect of pre-oxidation and PAAS on Cu-Pb separation”Separation and Purification Technology, Sep 2022. 🧫💧
    ✅ Pre-oxidation improved galena depression, replacing toxic agents.

  6. “Lead ions affecting CLS adsorption on chalcopyrite”Journal of Molecular Liquids, Feb 2023. ⚛️🧲
    ✅ Revealed challenges in selectivity of Cu-Pb separation due to lead interference.

  7. “Cu-S separation using PAAS in acidic pulp”Minerals Engineering, Sep 2022. ⚙️🧪
    ✅ Selective flotation achieved at low pH, improving pyrite hydrophilicity.

  8. “Enhanced Malachite Leaching from Jebel Hadieda”Conclusions in Engineering, May 2025. 🔬🌍
    ✅ 88.15% extraction achieved under optimized leaching conditions.

GULDANA MAKASHEVA | Engineering and Technology | Research Hypothesis Excellence Award

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GULDANA MAKASHEVA | Engineering and Technology | Research Hypothesis Excellence Award

Leading Research Scientist at LLP KazHydroMed, Kazakhstan

Mrs. Guldana Makasheva is a seasoned metallurgical researcher and Senior Research Scientist at LLP KazHydroMed, Kazakhstan. With over a decade of hands-on and theoretical experience across various roles in metallurgy, her expertise lies in flotation, hydrometallurgy, and the beneficiation of complex ores and industrial tailings. She is currently pursuing a Ph.D. in Metallurgy at Satbayev University and holds advanced degrees in Metallurgy and Organic Chemistry. Her career spans from laboratory chemist to lead engineer, demonstrating her adaptability and growth. Makasheva has authored numerous scientific publications in both national and international journals and has contributed to high-impact projects aimed at developing eco-friendly and efficient mineral processing technologies. Her research, marked by technical precision and practical relevance, has addressed pressing industrial challenges in Kazakhstan’s mining sector. With a strong foundation in hypothesis-driven experimentation, she exemplifies the principles celebrated by the Research Hypothesis Excellence Award.

Publication Profile

Orcid

Education

Mrs. Makasheva holds a Master’s degree in Technical Sciences with a specialization in Metallurgy and Mineral Processing from Satbayev University, one of Kazakhstan’s premier technical institutions. Her academic foundation began with a Bachelor’s in Chemistry of Organic Substances from Karaganda State University named after E.A. Buketov, where she gained solid grounding in analytical and synthetic chemistry. Continuing her academic journey, she is currently pursuing her Ph.D. in Metallurgy at Satbayev University (2023–present), focusing on advanced beneficiation techniques and processing of complex ore materials. Her academic background is complemented by specialized certifications, including a Certified PC User qualification and Accounting & 1C certification, highlighting her commitment to interdisciplinary skills. Her education has consistently supported her progression as a research leader in metallurgical science, emphasizing innovation, practical application, and publication in high-impact forums. 🎓📘🧪

Experience

Mrs. Guldana Makasheva’s professional trajectory reflects deep engagement with Kazakhstan’s metallurgical sector. Since 2021, she has served as a Senior Research Scientist at LLP KazHydroMed, where she designed cutting-edge research programs and executed pilot-scale tests in slag and ore processing. Earlier, as Lead Process Engineer at JSC “Zhairem GOK” (2020–2021), she worked on mineral flow diagrams and thickening technologies. At JSC “Varvarinskoye” (2011–2020), she ascended from Laboratory Chemist to Metallurgical Process Engineer, gaining end-to-end operational experience—from ore crushing to desorption and AAS/XRF analysis. Her earliest role was at the Institute of Organic Synthesis and Coal Chemistry, where she synthesized catalysts and conducted chromatographic studies. Each position honed her skills in technical reporting, pilot experiments, and project leadership, building a solid foundation for her present-day research excellence.

Awards and Honors

While specific national or international awards are not listed, Mrs. Guldana Makasheva’s consistent leadership in funded scientific projects and co-authorship of peer-reviewed publications signifies her recognition within the scientific community. Her appointment as Lead Investigator across multiple major projects—such as beneficiation of legacy tailings and development of flotation technologies—indicates institutional trust and high-level peer acknowledgment. She has also been a frequent contributor to SCOPUS-indexed and national journals, suggesting editorial confidence in her scientific rigor. As a Senior Research Scientist, she has been a key figure in government and industrial research initiatives, often coordinating multidisciplinary teams to address Kazakhstan’s critical metallurgical challenges. Her accolades are implicit in her elevation to senior scientific ranks and her pivotal roles in transformative projects. Her ongoing Ph.D. candidacy further reflects academic recognition and career progression.

Research Focus

Mrs. Makasheva’s research spans flotation chemistry, hydrometallurgical processing, ore beneficiation, and tailings revalorization. Her core investigations involve innovative techniques for processing refractory oxidized ores and polymetallic tailings, with special emphasis on flotation using hydroxamate-based collectors and gravity-flotation technologies. She has actively contributed to pilot testing for slag processing from metallurgical plants and has optimized concentrate thickening strategies. Her projects are critical to sustainable resource management, addressing legacy waste streams from major mining hubs like Balkhash and Zhezkazgan. Guldana also explores the oxidative-reductive potential in ore enrichment and thermochemical methods for improving flotation performance. Her current Ph.D. research likely intersects with these themes, pushing boundaries in extractive metallurgy. With a clear focus on bridging lab research with field applications, her work is both environmentally and economically transformative.

Publication Top Notes

Study of Oxidative–Reductive Potential Changes in the Enrichment of Oxidized Polymetallic Ores

Improving the Efficiency of Flotation Enrichment of Oxidized Lead-Zinc Ores Using Calcium Polysulfide

Study of Oxidative-Reductive Potential Changes in the Enrichment of Oxidized Polymetallic Ores

HYDROMETALLURGICAL PROCESSING OF MOLYBDENUM MIDDLINGS FROM SHATYRKUL-ZHAYSAN CLUSTER ORE,HIDROMETALURŠKA PRERADA SRASLAKA MOLIBDENA IZ RUDE ŠATIRKUL-ŽAJSAN KLASTERA

STUDIES ON EXTRACTION OF COPPER FROM SULFURIC ACID SOLUTION AFTER THERMOCHEMICAL ENRICHMENT OF ROUGH CONCENTRATE

Electrocatalytic reduction of quinoline and its oxy derivatives

borjini naceur | Engineering and Technology | Best Researcher Award

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borjini naceur | Engineering and Technology | Best Researcher Award

Prof. Dr borjini naceur, enim, Tunisia

Prof. Dr. Mohamed Naceur Borjini is a distinguished physicist with over two decades of academic and research excellence in thermal sciences, fluid dynamics, and energy systems. Currently serving as Professor of Physics at the National School of Engineering (ENIM), Monastir, Tunisia, he has held various academic posts across Tunisia’s leading scientific institutions. With a Hirsch Index of 28 (Scopus), his prolific contributions span advanced modeling in microfluidics, biomass gasification, and radiative heat transfer. An expert in numerical simulations using Comsol, Ansys Fluent, and Aspen Plus, Dr. Borjini bridges theoretical research and applied engineering. He actively serves as a reviewer for prestigious journals such as Energy, Numerical Heat Transfer, and International Journal of Thermal Sciences. His global collaborations, high-impact publications, and commitment to scientific advancement make him a prominent figure in thermal-fluid sciences and a suitable recipient of the Best Researcher Award.

Publication Profile

Scopus

Education

Prof. Dr. Borjini’s academic journey is rooted in rigorous training across Europe and North Africa. He earned his HDR (Habilitation à Diriger des Recherches) in Physics Sciences from the Faculty of Sciences, Tunis, Tunisia, in 2007, signifying his high-level research leadership. In 1998, he received his Doctorate in Engineering Sciences from the Faculty of Sciences, Perpignan, France. Prior to that, he completed a Master’s degree in Thermal Sciences at INSAT Lyon, France, in 1995, demonstrating a strong foundation in heat transfer and energy systems. His academic path began with an Engineering Diploma in Energy Engineering from ENIM, Monastir, Tunisia, in 1994. This diverse and international academic background equipped him with a robust interdisciplinary skill set, allowing him to excel in numerical modeling, fluid mechanics, and thermal system design.

Experience

Prof. Dr. Borjini has served in academia for over 25 years, holding progressively senior roles. Since 2014, he has been a Professor of Physics at the National School of Engineering (ENIM), Monastir. Prior to this, he held faculty positions at the High Institute of Applied Sciences and Technologies of Sousse (ISSATS) from 2009 to 2014, first as an Associate Professor and then as a full Professor. Between 2001 and 2009, he was affiliated with the Faculty of Sciences, Monastir, and the High School of Sciences and Technologies, Tunis. His early academic career began as an Assistant Professor at the Faculty of Sciences, Monastir. Across these institutions, he has led research initiatives, mentored graduate students, and contributed to curriculum development in physics and engineering. His experience spans teaching, research leadership, and collaborative engineering projects in energy systems and fluid dynamics.

Awards and Honors

While explicit awards are not listed in the provided data, Prof. Dr. Borjini’s academic standing is underscored by his H-index of 28 (Scopus), a testament to the sustained citation and impact of his scholarly work. His regular role as a scientific reviewer for renowned international journals such as Applied Mathematical Modelling, Energy, International Journal of Heat and Mass Transfer, and Journal of Electrostatics further signifies the academic community’s recognition of his expertise. The diversity and prestige of these journals suggest a consistent contribution to peer-reviewed literature in thermal and fluid sciences. His extensive publication record and participation in global collaborations mark him as an influential voice in his field, and his HDR qualification is itself a mark of high academic distinction in the French-speaking academic world. These credentials collectively justify his consideration for prestigious recognitions such as the Best Researcher Award.

Research Focus

Prof. Dr. Borjini’s research centers on thermal-fluid sciences, with specialization in the numerical modeling of complex heat and fluid flow systems. His primary areas of interest include microfluidics, where he employs Comsol Multiphysics for 3D simulations; biomass gasification, involving experimental and CFD-based analyses of multi-stage and fluidized bed reactors using Ansys Fluent and Aspen Plus; and radiative heat transfer, focusing on semitransparent media and methods like FVM and FTnFVM. He has also delved into natural convection and nanofluids, particularly in confined 2D/3D systems, and studied the interaction of magnetic fields and radiation in combined convection problems. His exploration of double diffusive convection and electroconvection in dielectric fluids highlights his wide-ranging applications in sustainable energy and process optimization. Through advanced modeling techniques and cross-platform simulations, he addresses critical challenges in energy engineering, making significant contributions to renewable energy and thermal system design.

Publication Top Notes

Double diffusive convection of hybrid nanofluids in porous enclosures: impact

Numerical study of thermo-solutal convection of a Cu/water micropolar nanofluid in a cubic cavity saturated with porous media

HYSTERESIS AND BISTABILITY BIFURCATION INDUCED BY COMBINED FLUID SHEAR-THICKENING AND DOUBLE-DIFFUSIVE CONVECTION IN SHALLOW POROUS ENCLOSURES FILLED WITH NON-NEWTONIAN POWER-LAW FLUIDS1

Three-dimensional analysis of combined thermal–solutal buoyancy and capillary convection of water-based micropolar multi-walled carbon nanotubes nanofluids

Simulation of Biomass Air Gasification in a Bubbling Fluidized Bed Using Aspen Plus: A Comprehensive Model Including Tar Production

Jet impingement cooling using shear thinning nanofluid under the combined effects of inclined separated partition at the inlet and magnetic field

Junchao Zhao | Engineering and Technology | Best Researcher Award

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Junchao Zhao | Engineering and Technology | Best Researcher Award

Dr Junchao Zhao, University of Science and Technology of China, China

Dr. Junchao Zhao 🎓 is an outstanding fire safety researcher specializing in lithium-ion battery fire suppression and ultra-fine dry powder extinguishing agents 🔥🧯. He earned his Ph.D. in Safety Science and Engineering from the University of Science and Technology of China (USTC) 🏛️, where he now serves as a postdoctoral fellow at the State Key Laboratory of Fire Science. Guided by leading experts such as Prof. Heping Zhang and Prof. Xisheng Luo 👨‍🔬, Dr. Zhao has led and contributed to numerous national research projects. His innovative work focuses on fire dynamics, suppression technology, and energy storage safety, addressing urgent issues in aviation and electric vehicle fires ✈️🚗. With a rich portfolio of high-impact publications 📚, prestigious awards 🏆, and collaborative projects, Dr. Zhao’s scientific excellence and dedication to fire protection science continue to influence safety engineering globally 🌍.

Publication Profile

Orcid

Education

Dr. Junchao Zhao embarked on his academic journey in Safety Engineering at Henan University of Science and Technology (2013–2017) 🎓. Graduating with honors, he proceeded to pursue a Ph.D. in Safety Science and Engineering at the University of Science and Technology of China (USTC) from 2017 to 2022 🏛️. There, he conducted cutting-edge research at the prestigious State Key Laboratory of Fire Science 🔬. Under the mentorship of Prof. Heping Zhang 👨‍🏫, he focused on novel fire suppression technologies, specifically targeting lithium-ion battery fires and ultra-fine dry powder extinguishing agents 🔥🧯. His academic path has been marked by consistent excellence, demonstrated by numerous national-level scholarships and distinctions 🌟. Dr. Zhao’s rigorous training and specialization in fire safety have built the foundation for his current postdoctoral research, allowing him to contribute significantly to national R&D initiatives and scientific innovation in fire science and engineering.

Research & Academic Experience

Since July 2022, Dr. Junchao Zhao has been serving as a Postdoctoral Fellow at the State Key Laboratory of Fire Science, USTC 🏢. Under the co-supervision of Prof. Xisheng Luo and Prof. Heping Zhang, he leads pioneering research on extinguishing technologies for high-risk environments like aircraft power cabins ✈️🔥. His experience spans key national R&D programs, the China Postdoctoral Science Foundation, and projects funded by the National Natural Science Foundation of China 💰📊. As both principal investigator and research backbone, he has significantly contributed to the development of fire extinguishing mechanisms involving lithium-ion batteries 🔋, energy storage systems, and advanced suppression agents. His academic journey includes collaborations with firefighting institutions, cross-disciplinary innovation, and application-based safety engineering solutions. Dr. Zhao’s hands-on research experience, project leadership, and commitment to safety science make him a vital contributor to fire protection technology and its real-world applications 🚒🔍.

Honors & Scholarships

Dr. Zhao’s academic excellence has been recognized through numerous prestigious honors 🌟. He was awarded the Graduate National Scholarship (Top 2%) in 2019 🥇, and received the National Scholarship (Top 0.3%) in 2015. During his studies at USTC, he earned the School Specialty First-Grade Scholarship for three consecutive years (2017–2019) 🏅. His leadership skills were acknowledged with the Outstanding Student Cadre Award (2018) and Excellent Volunteer Award (2017) 🙌. At Henan University, he received the Excellent Graduate of Henan Province (Top 2%) in 2017 and the National Encouragement Scholarship twice 🧠✨. Further, his active involvement in student governance earned him the Student Union Work Excellence Award and Social Work Excellence Award 🎖️. These accolades reflect his unwavering commitment to academic, research, and social excellence — qualities that firmly establish him as a top candidate for the Best Researcher Award 🏆🔬.

Research Focus

Dr. Zhao’s research focuses on fire safety science, with emphasis on lithium-ion battery thermal runaway, ultrafine dry powder extinguishing agents, and novel suppression technologies 🔥🧯🔋. He investigates extinguishing dynamics in confined and ventilated conditions, particularly in aircraft power cabins and energy storage systems ✈️⚡. His projects explore the design, flow behavior, and minimum extinguishing concentration of advanced agents like KHCO₃ and NaHCO₃. He also studies gas-solid transport and full-flooding spray systems for high-risk applications 💨📈. By integrating material science with fire suppression mechanisms, his work bridges the gap between theory and application, offering real-world safety solutions. Dr. Zhao’s interdisciplinary approach enhances fire protection strategies in aerospace, electric vehicle, and battery storage sectors 🚗🚀. Through national-level collaborations, cutting-edge experiments, and impactful publications, he contributes significantly to the safety and sustainability of next-generation energy technologies 🌱🧪.

Publication Top Notes

  • 🔥 Insights into the particle diameter and base chosen for dry powder fire extinguishing agentsFire and Materials, 2023

  • 🧯 An improved method to determine minimum extinguishing concentrations of ultrafine dry powder agentsProcess Safety and Environmental Protection, 2023

  • 🔋 Comparative study on thermal runaway inhibition of lithium-ion batteries by different extinguishing agentsiScience, 2021

  • 🔥 Experimental study on thermal runaway of 18650 Li-ion battery under enclosed and ventilated conditionsFire Safety Journal, 2021

  • ✈️ Application of ultrafine dry chemicals modified by POTS/OBS for suppressing aviation kerosene pool fireFire Safety Journal, 2020

  • 🌊 Superhydrophobic and oleophobic ultra-fine dry chemical agent with extended fire-protectionJournal of Hazardous Materials, 2019

  • 💧 Experimental study on extinguishing lithium battery box fire using low-pressure water mist systemJournal of Safety and Environment, 2021

  • 🧪 Study on Flowability Enhancement and Performance Testing of Ultrafine Dry Powder Fire Extinguishing AgentsFire, 2024

  • ⚗️ Pyrolysis of a perfluoro copolymer and its HF contributionPolymer Degradation and Stability, 2020

  • 🧂 Preparation of hydrophobic/oleophobic fine NaHCO₃ and enhanced fire performanceMaterials & Design, 2020

 

 

 

Pei Lyu | Engineering and Technology | Best Researcher Award

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Pei Lyu | Engineering and Technology | Best Researcher Award

Mr Pei Lyu, School of Electronic Science and Engineering, Nanjing University, China

Mr. Pei Lyu is a promising young researcher pursuing his Ph.D. in Electronic Science and Technology at Nanjing University, China 🇨🇳. With an M.S. degree in Electronic and Communication Engineering from Nanjing University of Posts and Telecommunications (2021) 📡🎓, he has rapidly advanced in the field of satellite communication. His research delves into downlink scheduling and robust optimization, addressing real-world challenges like uncertainty in space-to-ground communication due to atmospheric interference 🌍🌫️. He has contributed to high-impact national projects funded by the National Natural Science Foundation of China and the Ministry of Education 🔬📊. He has also published notable work in reputed journals and holds innovative patents in blockchain-enabled spectrum sensing and cognitive radio systems 📘🛰️. His pioneering models integrating equipment cost, capacity, and throughput optimization make him a deserving nominee for the Best Researcher Award 🏆🚀.

Publication Profile

Orcid

Education

Mr. Pei Lyu began his academic journey with a Master’s degree in Electronic and Communication Engineering from Nanjing University of Posts and Telecommunications in 2021 📚📡. Demonstrating a strong commitment to innovation, he progressed to pursue a Ph.D. in Electronic Science and Technology at Nanjing University, one of China’s leading institutions in engineering and research 🏛️🔬. His educational path has equipped him with a solid foundation in communication technologies, mathematical optimization, and system design. His current Ph.D. research focuses on satellite communications and downlink scheduling, blending theoretical insight with practical relevance. His academic performance and research innovation have earned him opportunities to work on prestigious national projects and publish internationally, reinforcing his standing as an emerging scholar with a bright future ahead in electronic science and aerospace communication systems 🚀🎓.

Experience

Mr. Pei Lyu is currently engaged as a Ph.D. researcher at Nanjing University, contributing to various high-impact research initiatives in satellite communications 🛰️🔍. He has participated in national-level projects such as the National Natural Science Foundation of China (Grant 62131012) and the Unveiling and Leading Project of Nanjing University Integrated Research and Development Platform of the Ministry of Education 📈🔧. His work bridges academic research with future-forward technology, focusing on practical applications of downlink scheduling under unpredictable environmental conditions like atmospheric turbulence ☁️🌪️. Pei Lyu has also contributed to the development of blockchain-based communication frameworks and game-theoretic models for resource allocation. His hands-on experience with robust system modeling and optimization showcases his technical leadership and problem-solving skills. Although early in his professional journey, his impactful contributions and involvement in cutting-edge projects distinguish him as an innovative force in the field of communication engineering 🌐🛠️.

Awards and Honors

While Mr. Pei Lyu is at an early stage in his research career, his work has already made significant strides within the academic community 🧠📈. His inclusion in funded national projects like the National Natural Science Foundation of China and the Ministry of Education’s strategic R&D platform underscores the national recognition and institutional trust in his research excellence 🌟📊. His pioneering research led to patents involving blockchain-enabled cognitive radio systems, showcasing innovation with real-world impact 🔒📡. The acceptance and publication of his work in high-ranking SCI-indexed journals such as IEEE Communications Letters highlight his academic rigor and contribution to the field. These achievements, along with his trailblazing models that solve real-world satellite communication problems, mark him as a leading young scholar. Mr. Pei Lyu’s body of work is commendable and perfectly aligns with the criteria of the Best Researcher Award 🏅🚀.

Research Focus

Mr. Pei Lyu’s research is centered around satellite communication, with a specific emphasis on downlink scheduling and robust optimization under uncertainty 🛰️📶. He addresses core challenges in space-to-ground data transmission, such as disruptions from cloud cover and atmospheric turbulence ☁️🌪️. One of his major contributions is the development of a throughput-driven joint optimization framework that innovatively combines downlink scheduling with satellite site selection, factoring in cost and capacity constraints 💻📈. His work is the first to incorporate uncertainties in optical communication scheduling, creating solutions to maximize satellite data download performance. Additionally, he explores blockchain-enabled communication frameworks with game-theoretic resource allocation to secure spectrum sensing processes 🔒🎮. Through these efforts, Mr. Lyu is pushing the boundaries of communication system efficiency and reliability. His work contributes significantly to both theoretical foundations and practical solutions in satellite and wireless communications 🚀🧩.

Publication Top Notes

  • 📖 Space-to-Ground Optical Communication Downlink Scheduling Under Uncertainty of Link Availability – IEEE Communications Letters (DOI: 10.1109/LCOMM.2025.3555945)

  • 🧠 A Blockchain-Enabled Spectrum Sensing Framework with Game-Theoretic Resource Allocation – Patent

  • 🔐 Blockchain-Enabled Cognitive Radio System and Method with Sensing Reward Allocation – Patent

Eduardo Garcia Magraner | Engineering and Technology | Best Researcher Award

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Eduardo Garcia Magraner | Engineering and Technology | Best Researcher Award

Dr Eduardo Garcia, Magraner Ford Motor Company, Spain

🔧 Dr. Eduardo García Magraner is a distinguished expert in industrial automation, manufacturing, and occupational safety. With a Ph.D. in Computer Engineering & Industrial Production (Cum Laude, CEU Cardenal Herrera, 2016) 🎓, he has led key roles at Ford Spain 🚗, from Electromechanical Maintenance to Manufacturing Manager. A Lean Six Sigma Black Belt ⚙️, he has earned multiple innovation and safety awards 🏆, including the Henry Ford Technical Award. A sought-after speaker 🎤 and researcher 📖, his contributions span Industry 4.0, predictive maintenance, and AI-driven efficiency. Passionate about smart factories 🏭, he bridges academia and industry for sustainable progress. 🌍

Publication Profile

Orcid

Academic and Professional Background 

Dr. Eduardo Garcia Magraner 🎓⚙️ is an expert in industrial engineering, automation, and occupational safety. His academic journey began with vocational training in electrical and telecommunications, followed by a Ph.D. in Computer Engineering and Industrial Production (2016) 🏅. Certified in Lean Six Sigma (Black Belt) and occupational risk prevention, he has mastered integrated management systems 🏭✅. With expertise in robotics 🤖, energy efficiency 🌱, and human resources 🤝, he has undertaken extensive additional training in automation and safety. His research explores machine deterioration and throughput optimization 📊. A leader in engineering and innovation, he continuously enhances industry standards 🚀.

Experience

Dr. Eduardo Garcia Magraner has built an impressive career at Ford S.L, starting as a First-Class Electromechanical Maintenance Operator (1990-2001) ⚙️. He advanced to Equipment Engineer (2001-2006) and later became a Maintenance Supervisor (2006) 🔩. His expertise led him to roles such as Senior Equipment Engineer in Maintenance & Automation (2007-2012) and Production Supervisor (2012) 🏭. He progressed to Manufacturing Manager for Body & Stamping (2014) and Champion of M.O.S. (2016) 🔧. As SPOC for Cyber Security (2019) and now Manufacturing Manager for Assembly & Battery Plants (2023), he continues shaping Ford’s production excellence ⚡🚗.

Awards and Recognitions 

Dr. Eduardo Garcia Magraner has been recognized for his outstanding contributions to safety, productivity, and innovation at Ford Spain 🚗🏆. His accolades include multiple Maximum Awards for enhancing press line efficiency (1997, 1999, 2002) and the prestigious Henry Ford Technical Award (2019) for IIoT-based predictive maintenance 🔧📊. He received honors for workplace safety (1995, 2010, 2012) and academic mentorship at the Polytechnic University of Valencia (2014) 🎓👏. His work in AI and cybersecurity earned global recognition (2019, 2020) 🤖🔐. A leader in industrial innovation, he continues to push the boundaries of engineering excellence 🚀⚙️.

Academic Impact 

Dr. Eduardo Garcia is a distinguished researcher in automation and smart manufacturing 🤖🏭. Beyond his groundbreaking research, he has delivered keynote presentations at global conferences, sharing insights on smart factories and AI-driven manufacturing 🔍🎤. His expertise has influenced industry advancements, making him a sought-after speaker in the field. In recognition of his contributions, he was honored with the prestigious CEU Ángel Herrera Prize in 2023 🏆🎓, further solidifying his reputation as a leading researcher. Through his work, Dr. Garcia continues to shape the future of industrial automation, bridging innovation and practical applications for smarter, more efficient production systems ⚙️🌍.

Presentation

Dr. Eduardo García is a distinguished expert in industrial robotics and Industry 4.0 🤖🏭, actively contributing to global conferences and forums. He has delivered impactful presentations at events like EVERii2020, PENTEO2020, and INNOVATION TALKS 2020, addressing smart manufacturing and supply chains 🚀📦. A sought-after speaker, he has shared insights at Advanced Factories, the Global Robot Expo, and the International Conference on Big Data, AI, and IoT 🌍📊. As a Master Professor at PEAKS BUSINESS SCHOOL, he fosters innovation in Industry 4.0. In 2023, he received the prestigious CEU Ángel Herrera Prize for outstanding research excellence 🏆📖.

Research Focus

Dr. Eduardo García Magraner’s research focuses on Industrial Internet of Things (IIoT) 🏭📡, smart manufacturing 🤖, and predictive maintenance 🔧⚙️ within Industry 4.0. His work includes real-time condition monitoring 🕒, virtual sensors 📊, and AI-driven automation 🤖🔍 to enhance efficiency in industrial environments. Key contributions involve sub-bottleneck detection 🚀, autonomous mobile warehouses 🚗🏭, and manufacturing process optimization 📈 using big data and simulation tools 📡💡. His research advances smart factory management 🏭💻, ensuring reliability, reducing downtime, and boosting productivity. His innovations drive next-gen industrial automation 🚀🏗️ for intelligent and self-optimizing manufacturing ecosystems.

Publication Top Notes

I3oT (Industrializable Industrial Internet of Things) Tool for Continuous Improvement in Production Line Efficiency by Means of Sub-Bottleneck Detection Method

Survival 1.0: A Novel Autonomous Industrial Mobile Warehouse (AIMW) for Industrial Environments

Virtual Sensor of Gravity Centres for Real-Time Condition Monitoring of an Industrial Stamping Press in the Automotive Industry

Influence of Mechanical Failures of the Welding Gun on the Magnetic Field Generated in the Measurement of Misalignment

Mini-Sym 4.0. a Novel Simulation Tool to Calculate Real-time Production Line Productivity

Miniterm, a Novel Virtual Sensor for Predictive Maintenance for the Industry 4.0 Era

Manufacturing Maps, a Novel Tool for Smart Factory Management Based on Petri Nets and Big Data Mini-Terms

Mona AbouEleaz | Engineering and Technology | Best Researcher Award

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Mona AbouEleaz | Engineering and Technology | Best Researcher Award

Assoc. Prof. Dr Mona AbouEleaz, Mansoura University, Egypt

Assoc. Prof. Dr. Mona AbouEleaz 🌍⚙️ is a distinguished academic in Production Engineering at Mansoura University, Egypt. With a Ph.D. in Production Engineering 🎓, her expertise spans Smart Manufacturing, Industry 4.0, Lean Six Sigma, and Quality Improvement approaches 📊. She has held roles as a postdoctoral researcher in Canada 🇨🇦 and visiting lecturer in the UK 🇬🇧. As the Executive Director of the University Center for Career Development, she fosters student growth 🚀. Dr. AbouEleaz has published extensively 📚, supervised over 35 projects 🛠️, and actively contributes to academic accreditation and international collaborations 🌐. She enjoys reading, drawing, sports, and traveling ✈️🎨.

Publication Profile

Google Scholar

Education

Assoc. Prof. Dr. Mona AbouEleaz holds a Ph.D. in Production Engineering from Mansoura University, Egypt (2010–2015), with a thesis titled “Lean Six Sigma Practices into an Organizational Quality Management System” 🎯📊. She earned her M.Sc. in Industrial Engineering from Alexandria University (2005–2008), focusing on “Hierarchic Framework for Quality Improvement Approaches” ⚙️📈. Dr. AbouEleaz also holds a B.Sc. in Production Engineering & Mechanical Design from Mansoura University, graduating with honors and ranking first in her class 🏅🎓. Her academic journey reflects a strong commitment to quality improvement, engineering excellence, and continuous innovation 🔍💡.

Experience

Assoc. Prof. Dr. Mona AbouEleaz is a distinguished academic with extensive experience in mechanical design and production engineering. She’s a lecturer at Mansoura University, Egypt 🇪🇬, and has served as a visiting lecturer at the University of Central Lancashire, UK 🇬🇧, and a postdoctoral researcher at the University of Calgary, Canada 🇨🇦. Dr. AbouEleaz excels in leadership roles, serving as Executive Director of the University Career Center and coordinating ERASMUS programs 🌍. Her contributions to strategic planning, quality assurance ✅, and international collaboration 🤝 have significantly advanced Mansoura University’s academic landscape.

Research Focus

Assoc. Prof. Dr. Mona AbouEleaz’s research focuses on advanced manufacturing processes, particularly in Wire Electrical Discharge Machining (WEDM) and material performance analysis. Her work explores surface roughness, material removal rates, and optimization of machining parameters for alloys like AISI304 and AISI316. She also delves into roundness measurement techniques, finite element analysis, and the impact of ERP systems on production efficiency. Additionally, her studies address supply chain performance and process improvement strategies in manufacturing. ⚙️🔩📊✨🔍

Research Interest

Assoc. Prof. Dr. Mona AbouEleaz’s research focuses on Smart Manufacturing and Industry 4.0 🚀🏭. She specializes in enhancing the performance of production and service systems through Quality Improvement approaches, including Lean Six Sigma 📊, optimization methods ⚙️, and Response Surface Methodology. Her expertise extends to Uncertainty Analysis, MCDM (Multi-Criteria Decision Making), and Decision Making Under Uncertainty 🤔. Dr. Mona also works on Measurement Uncertainty, Mechanical Testing 🧪, and utilizes tools like Minitab and ANSYS for statistical and engineering analysis. Her research aims to boost efficiency, precision, and decision-making in advanced manufacturing environments 🌟.

Publication Top Notes

Experimental investigation of surface roughness and material removal rate in wire EDM of stainless steel 304

Methods of roundness measurement: An experimental Comparative study

Wire Electrical Discharge Machining of AISI304 and AISI316 Alloys: A Comparative Assessment of Machining Responses, Empirical Modeling and Multi-Objective Optimization

The Impact of Enterprise Resource Planning (ERP) Implementation on Performance of Firms: A Case to Support Production Process Improvement.

A critical review of supply chain performance evaluation

A study of drilling parameter optimization of functionally graded material steel–aluminum alloy using 3D finite element analysis

Automated Classification of Marble Types Using Texture Features and Neural Networks: A Robust Approach for Enhanced Accuracy and Reproducibility

Types Using Texture Features and Neural Networks: A Robust Approach

Investigating the Impact of Cutting Parameters on Roundness and Circular Runout Using Signal-to-noise Ratio Analysis

 

chen yan | Engineering and Technology | Best Researcher Award

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chen yan | Engineering and Technology | Best Researcher Award

Dr chen yan, Shantou Polytechnic, China

Dr. Chen Yan 🎓 is a dedicated researcher in Structural Engineering, holding a Ph.D. from Shantou University 🏗️. Currently a Postdoc at Shantou University and a Lecturer at Shantou Polytechnic 📚, Dr. Chen specializes in foamed concrete modification, geopolymer materials, and building sustainability 🌱. With numerous journal publications 📄, patents ⚙️, and leadership in scientific projects 🔬, he has guided students to win prestigious competitions 🏆. Honored as a “Shantou Youth Skilled Expert” in 2021 🌟, his work bridges academic excellence and practical innovation in civil engineering 🏢.

Publication Profile

Scopus

Education Background 

Dr. Chen Yan 🎓 is a dedicated scholar in Civil and Environmental Engineering. Currently a Postdoctoral Researcher at Shantou University 🏫 (since December 2024), Dr. Yan earned a Ph.D. in Structural Engineering (2015–2024) and a Master’s in the same field (2010–2013) from Shantou University, Guangdong, China 🌏. His academic journey began with a Bachelor’s in Civil Engineering from Hebei Normal University of Science & Technology (2005–2009) 🏗️. With a strong foundation in structural engineering, Dr. Yan focuses on innovative research, contributing to advancements in civil infrastructure and environmental sustainability 🌱🔬.

Experience

Dr. Chen Yan has been a dedicated Lecturer at Shantou Polytechnic, Guangdong, China, since July 2013 📚. She teaches courses like “G101 Flat Method Drawing and Detail Application” and “Building Mechanics and Structure” 🏗️. As a first advisor, she guided students to win prestigious awards, including the Grand Award and “Excellent Advisor Award” at the 15th “Challenge Cup” in 2019 🏆. She also mentored projects under the “Climbing Plan” and secured Innovation Awards in entrepreneurship competitions 💡. Earlier, she served as Assistant Project Manager at Dongguan Fuying Real Estate Co., Ltd. (2009–2010), assisting with construction applications 🏢.

Awards 

Dr. Chen Yan 🏅 was honored with the title of “Shantou Youth Skilled Expert” for the 2020-2021 period in recognition of exceptional expertise and contributions. In July 2023, Dr. Yan successfully presided over the application for the “Off-campus Practical Teaching Demonstration Base for Engineering Cost Major” in collaboration with Jichuanying Ancient Building Construction Co., Ltd. 🏗️ This initiative received official certification from the Guangdong Provincial Department of Education 🎓, highlighting Dr. Yan’s dedication to enhancing practical teaching and promoting academic-industry integration. 🌟

Research Interests 

Dr. Chen Yan specializes in foamed concrete modification research 🧪🏗️, focusing on enhancing the performance of cementitious materials. His work includes the analysis of micro-properties of these materials 🔬, providing insights into their structural behavior. He also utilizes numerical simulation techniques 💻 to predict and optimize the performance of cementitious composites. Dr. Yan’s research extends to innovative geopolymer materials 🌍, promoting eco-friendly construction solutions. Additionally, he is dedicated to advancing building energy efficiency and sustainability 🌱🏢, contributing to greener and more energy-efficient architectural designs. His multidisciplinary approach drives innovation in modern construction technologies. 🚀

Project Leadership

Dr. Chen Yan’s research focuses on material performance improvement and vocational education strategies. 🧪🔬 In the field of materials science, Dr. Chen explores innovative techniques to enhance material durability, efficiency, and sustainability, contributing to advancements in industrial applications. ⚙️🌍 Simultaneously, Dr. Chen is dedicated to improving vocational education, developing strategies to align technical skills with evolving industry demands. 🎓📚 His work bridges the gap between scientific innovation and practical workforce development, ensuring that both materials and human resources achieve optimal performance. 🚀🤝 Through government-funded projects, Dr. Chen fosters growth in both technology and education sectors. 💼🔍

Research Focus

Dr. Chen Yan’s research focuses on materials science and civil engineering 🏗️🔬. Specializing in the preparation and properties of wollastonite-microfiber-modified foamed concrete 🧪🧱, Dr. Yan explores advanced construction materials to enhance mechanical strength, durability, and thermal insulation 🌡️⚡. The work emphasizes optimizing foamed concrete with wollastonite microfibers to improve structural performance, lightweight applications, and eco-efficiency 🌍♻️. This research contributes significantly to sustainable building technologies, offering innovative solutions for modern construction projects 🏢🚀. Dr. Yan’s studies bridge the gap between material innovation and real-world construction needs, promoting resilience and sustainability in infrastructure development 🌆🏞️.

Publication Top Notes

Preparation and properties of wollastonite-microfiber-modified foamed concrete

 

 

Sandeep Jain | Engineering and Technology | Best Researcher Award

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Sandeep Jain | Engineering and Technology | Best Researcher Award

Dr Sandeep Jain, Sungkyunkwan University, Republic of Korea, South Korea

Dr. Sandeep Jain is a metallurgical engineer and researcher with expertise in machine learning applications in alloy design, lightweight materials, and high-entropy alloys. He holds a Ph.D. (2023) and M.Tech. (2017) from IIT Indore and a B.E. in Mechanical Engineering (2013). Currently a Postdoctoral Researcher at Sungkyunkwan University, South Korea, Dr. Jain focuses on designing multicomponent alloys and optimizing manufacturing processes. He has published extensively, including works on machine learning-driven phase prediction and flow stress modeling. Dr. Jain is a guest editor, reviewer for leading journals, and recipient of prestigious awards like the Global Best Achievement Award 2024. 🧪🤖🌍

Publication Profile

Orcid

Education

Dr. Sandeep Jain is a dedicated scholar with a robust academic background in engineering. 🎓 He earned his Ph.D. (2017-2023) and M.Tech (2015-2017) in Metallurgical Engineering and Materials Science from the prestigious Indian Institute of Technology Indore, achieving impressive CGPAs of 8.67 and 8.75, respectively. 📘✨ His journey in engineering began with a B.E. in Mechanical Engineering from MBM Engineering College, Jodhpur (2009-2013), where he secured a commendable 68% score. 🔧📚 Dr. Jain’s academic excellence reflects his passion for materials science and mechanical engineering, laying a solid foundation for impactful contributions to his field. 🚀🔬

Research Experience

Dr. Sandeep Jain, currently a Postdoctoral Researcher at Sungkyunkwan University, South Korea 🇰🇷, specializes in designing lightweight multicomponent alloys and optimizing injection molding processes using machine learning 🤖. As a Research Associate at IIT Delhi 🇮🇳, he analyzed the mechanical and creep behavior of Ni-based superalloys and pioneered sustainable rose gold plating methods 🌟. His tenure at IIT Indore included designing lightweight Ni-based alloys and conducting advanced phase equilibria studies 🔬. Dr. Jain’s expertise extends to simulation tools like ANSYS Fluent, XRD, and EBSD, contributing to innovative and sustainable material development 🌍.

Teaching Experience

Dr. Sandeep Jain has an extensive teaching background in materials science and engineering. As a Teaching Assistant at the Indian Institute of Technology Indore (Dec 2017–Nov 2022 and July 2015–June 2017), he contributed to courses like Solidification and Phase Field Modelling, Computational Methods for Materials, and Physical Metallurgy. His expertise also spans practical modules, including Mechanical Workshop, Casting and Welding Lab. Earlier, he served as a Guest Faculty at Govt. Engineering College, Ajmer (Aug 2013–June 2014), teaching Material Science, Engineering Mechanics, Strength of Materials, and more. Dr. Jain’s dedication to education blends technical knowledge with hands-on experience. 🎓🛠️📚

Awards / Fellowships

Dr. Sandeep Jain has earned prestigious accolades for his outstanding achievements in academia and research. In 2024, he was honored with the Global Best Achievement Awards 🎖️🌟, recognizing his contributions to his field. His academic journey has been supported by prestigious fellowships, including the Ph.D. Fellowship 🧑‍🎓📚 and the M.Tech. Fellowship 🎓🔬, both awarded by the Ministry of Human Resource Development (MHRD), Government of India. These honors highlight his dedication, innovation, and excellence in advancing knowledge and contributing to societal progress. Dr. Jain’s achievements continue to inspire and set benchmarks for aspiring scholars worldwide. 🚀📖

Research Focus

Dr. Sandeep Jain’s research focuses on the development and application of machine learning techniques to predict mechanical properties in lightweight alloys and high entropy alloys. His studies include hardness prediction, flow stress, phase prediction, and the influence of processing methods like friction stir processing. These investigations aim to enhance the performance of advanced materials such as Al-Mg-based alloys and CoCrFeNiV high entropy alloys. His work bridges the gap between experimental studies and computational simulations, contributing valuable insights into alloy design and optimization. 🌟🔍📊

Publication Top Notes

A Machine Learning Perspective on Hardness Prediction in Advanced Multicomponent Al-Mg Based Lightweight Alloys

A Machine learning perspective on hardness prediction in multicomponent Al-Mg based lightweight alloys

Enhancing flow stress predictions in CoCrFeNiV high entropy alloy with conventional and machine learning techniques

Influence of Friction Stir Processing on Novel Designed Aluminium-Based Alloy to Enhance Strength and Ductility

Machine learning-driven insights into phase prediction for high entropy alloys

Effect of Ta on the Evolution of Phases and Mechanical Properties of Novel Seven Components Fe–Co–Ni–Cr–V–Al–Ta Eutectic High Entropy Alloys: Experimental Study and Numerical Simulation

Asparuh Atanasov | Engineering and Technology | Innovative Research Award

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Asparuh Atanasov | Engineering and Technology | Innovative Research Award

Dr Asparuh Atanasov, Technical university Varna, Bulgaria

Dr. Asparuh Atanasov’s qualifications and contributions, he appears to be a suitable candidate for the Research for Innovative Research Award. Here’s an overview of his background and achievements, formatted into distinct sections:

Publication profile

google scholar

Education and Scientific Degrees

  • 2024: ONS Doctor, Technical University of Varna
    • Faculty: Mechanical Technology
    • Dissertation Topic: Investigating the applicability and effectiveness of sensor systems in precision agriculture
  • 2005: Master of Industrial Design, Technical University of Varna

Professional Experience

  • 2019 – Present: Assistant in Applied Mechanics, Dobrudja Technological College, Dobrich
    • Engaged in teaching and research activities within the field of applied mechanics.

Scientific and Teaching Activity

  • Research Projects: Participated in 17 research projects
  • Supervision of Students:
    • Head of Masters: 2 students
    • Doctoral Student Advisor: 1 student

Teaching Subjects

  • Theoretical Mechanics
  • Theory of Mechanisms and Machines
  • Resistance of Materials
  • Machine Elements
  • Fluid Mechanics
  • Interchangeability and Technical Measurements
  • Hydro and Pneumatic Drive in Agriculture
  • Practical Training
  • Agricultural Machinery 1 and 2
  • Livestock Machinery

Publishing Activity

  • Monographs and Books: Author of one monograph and one book
  • Scientific Publications: Author and co-author of 34 publications

Professional Memberships

  • Union of Scientists in Bulgaria: Member of the Dobrich branch

Publication top notes

Observation of the vegetation processes of agricultural crops using small unmanned aerial vehicles in Dobrudja region.

Study of the specifics of the spectral reflections of different varieties of cereals harvest 2021, obtained from the visible and near infrared (NIR) frequency range

Tracking The Development Of Six Wheat Varieties Using Infrared Imaging And Image Processing Algorithms

Applicability and efficiency of remote sensing of agricultural areas.

Cultivator-based soil density measurement method

Investigating the possibility of monitoring the drying in the upper soil layer by means of a drone in the Dobruja region

Applicability and Efficiency of Remote Monitoring of Agricultural Crops

Vegetation data processes, registered by remote sensing with a small aerial vehicle

Conclusion

Dr. Asparuh Atanasov’s extensive academic background, research contributions, and innovative work in the fields of applied mechanics and agricultural technology position him as a strong candidate for the Research for Innovative Research Award. His dedication to advancing precision agriculture through technology aligns with the award’s focus on innovation and research excellence.