Mohammed LOUKILI | Fluid dynamics | Best Researcher Award

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Dr Mohammed LOUKILI | Fluid dynamics | Best Researcher Award

Associate Proffessor, IRENAV, Ecole Navale de Brest, France

Mohammed Loukili is a distinguished researcher in Mécanique-Énergétique, specializing in wave-structure interactions and computational fluid dynamics. He earned his Doctorate from Université Hassan II-Casablanca, focusing on numerical solutions for free-surface problems. His postdoctoral work spans leading institutions, including Avignon University in France and Dalian University of Technology in China, where he contributed to reactive system dynamics and wave-current interactions. His research integrates analytical and numerical modeling to advance fluid mechanics and engineering applications. Loukili has authored numerous impactful publications and actively collaborates on international projects. Currently, he is affiliated with École Navale de Brest, contributing to cutting-edge research in naval hydrodynamics. His work has received significant recognition in the scientific community, cementing his expertise in applied mechanics and energy systems.

PROFESSIONAL PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Strong Academic Background
    • Ph.D. in Mécanique-Énergétique with high distinction.
    • Postdoctoral research experience in France and China in cutting-edge fields of mechanics and energy systems.
  2. Significant Research Contributions
    • Extensive work in wave-structure interactions, free surface flows, and numerical methods in fluid mechanics.
    • Publications in high-impact journals and international conferences, demonstrating broad research impact.
    • Collaboration with renowned researchers and institutions.
  3. Citations & Influence
    • Multiple papers with 10+ citations, indicating high research visibility.
    • Studies on numerical modeling, wave-current interactions, and fluid mechanics have been widely referenced.
  4. Interdisciplinary Impact
    • Contributions in energy systems, environmental mechanics, and computational simulations.
    • Work extends to hydrodynamics, heat transfer, and seismic analysis, making it relevant across various engineering fields.
  5. International Collaboration & Recognition
    • Research affiliations with France, China, and Morocco, showing a global academic footprint.
    • Active participation in international conferences and research groups.

AREAS FOR IMPROVEMENT

  1. Increased Citation Impact
    • Although several papers have good citations, increasing the h-index through more collaborative and high-impact studies can further strengthen his profile.
    • Publishing in more high-ranked Q1 journals will enhance academic recognition.
  2. Leadership & Grants
    • Greater involvement in leading research projects, grants, or supervising Ph.D. candidates would establish him as a key research leader.
    • Securing international research funding would add credibility to his contributions.
  3. Industrial & Practical Applications
    • Bridging research with real-world applications in energy, naval engineering, or environmental science could further elevate his impact.
    • Engaging in patents, industry partnerships, or policy contributions would add practical value.

EDUCATION 🎓

  • Doctorat en Mécanique-Énergétique (2014-2019) – Université Hassan II-Casablanca, Morocco
    Thesis: Contribution Numérique à la Résolution des Problèmes à Surface Libre
  • Master en Énergies Renouvelables et Matériaux (2012-2014) – Université Hassan II-Casablanca, Morocco
  • Licence en Science de la Matière Physique – Option Mécanique (2009-2012) – Université Hassan II-Casablanca, Morocco
  • Baccalauréat en Sciences Expérimentales (2008-2009) – Lycée Ibnou Chouhaid, Casablanca, Morocco

EXPERIENCE 💼

  • Postdoctoral Researcher (2022-2023) – Université d’Avignon, France
    Studied out-of-equilibrium dynamical reactive systems for polymerization and heat flux control.
  • Postdoctoral Researcher (2021-2022) – Dalian University of Technology, China
    Conducted analytical and numerical studies on wave-current interactions and their effects on structures.
  • Affiliation – École Navale de Brest, France
    Current research in naval hydrodynamics and fluid mechanics applications.

AWARDS & HONORS 🏆

  • Recognized for Excellence in Computational Fluid Dynamics Research
  • Best Research Paper Award in Civil and Environmental Engineering (2021)
  • Recipient of International Postdoctoral Fellowship (France & China)
  • Top Contributor in Wave-Structure Interaction Studies
  • Multiple Citations and Recognitions in Peer-Reviewed Journals

RESEARCH FOCUS 🔬

  • Wave-Structure Interactions & Fluid Mechanics 🌊
  • Computational Modeling in Hydrodynamics 💻
  • Absorbing Boundary Conditions in Numerical Simulations 📐
  • Seismic Response of Marine Structures 🌍
  • Reactive System Dynamics & Polymerization Processes ⚛️

PUBLICATION TOP NOTES 📚

  • Numerical Stability Investigations of the Method of Fundamental Solutions Applied to Wave-Current Interactions Using Generating-Absorbing Boundary Conditions ✨
  • Computation of Nonlinear Free-Surface Flows Using the Method of Fundamental Solutions 🌊
  • New Numerical Investigation Using Meshless Methods Applied to Linear Free Surface Water Waves 📊
  • A Generating-Absorbing Boundary Condition Applied to Wave-Current Interactions Using the Method of Fundamental Solutions 🔬
  • Analytical and Numerical Investigations Applied to Study the Reflections and Transmissions of a Rectangular Breakwater Placed at the Bottom of a Wave Tank 🏗️
  • Numerical Analysis of an Absorbing Boundary Condition Applied to Free Surface Water Waves Using the Method of Fundamental Solutions 📈
  • The Seismic Response of Fluid Filling in a Rectangular Reservoir at Nador City, Morocco 🌍
  • New Contribution to Stokes Equations ✏️
  • Computerized Decision Aid Applied to Meshless Method for Wave-Structure Interactions 🤖
  • Efficient Recommendations for Improving Teaching Quality: Face-to-Face, Distance-Learning, and Learners with Disabilities 🎓
  • A Computational Simulation of Steady Natural Convection in an H-Form Cavity 🔥
  • Theoretical Investigation Applied to Scattering Water Waves by Rectangular Submerged Obstacles and Submarine Trenches 🌊
  • Insecticides in Agricultural Groundwater in the Gharb Plain (Morocco): Spatial Distribution and Health Risks 🌱
  • Using Software Applications in Teaching of Slope-Deflection Method in Static Analysis of Constructions 🏗️
  • The Seismic Response of Cylindrical Steel Tanks at Al Hoceïma City in Morocco ⚡
  • Numerical Modeling of Natural Convection in a Cavity with H-Form Containing Two Adiabatic Obstacles 🏢
  • Modélisation de l’Interaction Houle-Marche Rectangulaire Par la Méthode des Solutions Fondamentales 🌊
  • Formulation Semi-Analytique de la Propagation Non Linéaire de la Houle 🔢
  • Wave-Structure Interactions: A Literature Review 📖
  • Numerical Modeling of Jet at the Bottom of a Tank at Moderate Reynolds Number Using Compact Hermitian Finite Differences Method 🔍

CONCLUSION

Mohammed Loukili is a strong candidate for the Best Researcher Award due to his outstanding contributions in fluid mechanics, wave-structure interactions, and numerical modeling. His interdisciplinary research, international collaborations, and consistent publication record make him a valuable asset to the scientific community. Enhancing citation impact, securing leadership roles, and increasing industrial applications would further solidify his case for prestigious awards.

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Zulfiqar Ali | Isogemetirc Analysis | Best Researcher Award

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Dr Zulfiqar Ali | Isogemetirc Analysis | Best Researcher Award

Lecturer, The University of Hong Kong, Hong Kong

Dr. Zulfiqar Ali is a Lecturer in the Mechanical Engineering Department at The University of Hong Kong. He previously held a Joint Postdoctoral Fellowship at The Hong Kong University of Science and Technology and The Chinese University of Hong Kong. He earned his Ph.D. in Mechanical Engineering from the City University of Hong Kong, specializing in isogeometric analysis and 3D printing. His research focuses on computational mechanics, finite element analysis, and heat transfer. He has published extensively in reputed journals and conferences. He is a member of the International Association of Engineers and the Pakistan Engineering Council.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Expertise in Isogeometric Analysis & Computational Methods
    • Dr. Zulfiqar Ali has made significant contributions to isogeometric analysis (IGA), particularly in collocation methods, finite element analysis (FEA), and heat transfer analysis.
    • His research focuses on improving computational efficiency and accuracy in engineering simulations.
  2. High-Impact Publications & Research Contributions
    • Published numerous research articles in reputable journals such as Engineering Analysis with Boundary Elements, Computer Aided Geometric Design, and International Communications in Heat and Mass Transfer.
    • His research on IGA for thermal analysis and pool boiling heat transfer performance demonstrates innovative methodologies.
  3. Academic & Professional Experience
    • Lecturer at The University of Hong Kong, a prestigious institution, showcasing his leadership in academia.
    • Postdoctoral Fellowship at The Hong Kong University of Science and Technology and The Chinese University of Hong Kong, reflecting a strong research background.
    • Research experience in multiple international institutions, including City University of Hong Kong and Bilkent University (Turkey).
  4. Interdisciplinary Research Impact
    • Contributions extend beyond mechanical engineering to additive manufacturing, heat transfer, and disaster resilience.
    • Collaborative work in areas such as catastrophe progression modeling, pool boiling enhancements, and micro-needle fabrication for drug delivery.
  5. Recognized Memberships & Professional Affiliations
    • Member of the International Association of Engineers (IAENG), demonstrating global recognition in engineering.
    • Registered with the Pakistan Engineering Council, ensuring compliance with professional engineering standards.

AREAS FOR IMPROVEMENTS

  1. Grant & Research Funding Acquisition
    • While Dr. Ali has an impressive research portfolio, securing large-scale research grants or funded projects would further strengthen his academic standing.
  2. Industry Collaborations & Technology Transfer
    • More direct applications of his research in industrial R&D, particularly in 3D printing and manufacturing applications, could increase practical impact.
  3. Leadership in Organizing Conferences & Editorial Roles
    • While he has participated in several conferences, taking on editorial roles in high-impact journals or organizing major international conferences could enhance his influence in the field.

EDUCATION 🎓

  • Ph.D. in Mechanical Engineering – City University of Hong Kong (2016-2022)
  • M.S. in Mechanical Engineering – Bilkent University, Turkey (2013-2015)
  • B.S. in Industrial & Manufacturing Engineering – University of Engineering and Technology, Lahore (2007-2011)

EXPERIENCE 💼

  • Lecturer – The University of Hong Kong (2022-Present)
  • Joint Postdoctoral Fellow – HKUST & CUHK (2022)
  • Research Assistant (Full-time) – City University of Hong Kong (2019-2022)
  • Research Assistant – Bilkent University, Turkey (2013-2015)
  • Lab Engineer cum Lecturer – University of Management and Technology, Lahore (2011-2013)

AWARDS & HONORS 🏆

  • Best Researcher Award – Recognized for contributions to isogeometric analysis and finite element modeling
  • Outstanding Paper Award – International Symposium on Isogeometric Analysis
  • Member – International Association of Engineers
  • Member – Pakistan Engineering Council

RESEARCH FOCUS 🔬

Dr. Ali specializes in isogeometric analysis, finite element analysis (FEA), heat transfer analysis, and 3D printing. His work integrates computational mechanics with CAD/CAM techniques, focusing on isogeometric collocation methods and high-accuracy engineering simulations. His research has applications in advanced thermal analysis and manufacturing processes.

PUBLICATION TOP NOTES 📚

  • Isogeometric methods for thermal analysis with spatially varying thermal conductivity – Engineering Analysis with Boundary Elements (2025)
  • Electric field inspired alternating surface wettability for enhancing pool boiling heat transfer – Int. Comm. in Heat and Mass Transfer (2023)
  • Has Pakistan learned from disasters over the decades? Dynamic resilience insights – Natural Hazards (2023)
  • Lithium in breast milk transiently affects the renal electrolytic balance of infants – Bipolar Disorders (2022)
  • On Enhanced GLM-Based Monitoring: An Application to Additive Manufacturing Process – Symmetry (2022)
  • Isogeometric collocation method with intuitive derivative constraints for PDE-based analysis – Computer Aided Geometric Design (2021)
  • PDE-Based and Solution-Dependent Parameterization for Isogeometric Analysis – Numerical Methods and Algorithms in Science and Engineering (2021)
  • Isogeometric simulation based on NURBS collocation and unified Space-Time formulation – IGA 2018, Austin, USA
  • Isogeometric collocation methods for analysis suitable mesh generation – IGA & Mesh 2018, Dalian, China
  • Isogeometric collocation methods for thermal analysis with general internal heating sources – Curves and Surfaces 2018, France
  • Fabrication of Polymer Micro Needles for Transdermal Drug Delivery System – Procedia CIRP (2016)

CONCLUSION

Dr. Zulfiqar Ali is a strong candidate for the Best Researcher Award due to his groundbreaking work in isogeometric analysis, computational mechanics, and thermal analysis. His extensive research publications, interdisciplinary expertise, and teaching contributions place him among the leading researchers in his field. With continued focus on industry collaborations, research funding, and leadership roles, he can further elevate his global impact.

Wei Li | Turbulence | Best Researcher

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Dr Wei Li | Turbulence | Best Researcher Award

PhD, School of Petrochemical Engineering, Lanzhou University of Technology, China

Wei Li is a dedicated PhD candidate at Lanzhou University of Technology, specializing in Chemical Process Machinery. His primary research revolves around the design and development of special valves. Wei has contributed significantly to his field through impactful journal publications and innovative research. His work integrates advanced numerical simulations and machine learning models to enhance the reliability and efficiency of mechanical components. Wei’s expertise and commitment to advancing technology have made him a valuable contributor to academia and engineering research.

PROFILE

ORCID

STRENGTHS FOR THE AWARD

  1. Innovative Research Contributions: Wei Li has demonstrated exceptional expertise in applying advanced numerical simulations and machine learning to solve complex engineering problems, particularly in the design and optimization of special valves.
  2. Impactful Publications: His contributions to high-impact journals such as Journal of Building Engineering, Measurement Science and Technology, and Signal, Image and Video Processing highlight his strong academic presence.
  3. Interdisciplinary Approach: His integration of chemical process machinery with AI-driven techniques showcases his forward-thinking approach and adaptability in solving multidisciplinary challenges.
  4. Relevance to Industry: His focus on predictive maintenance through remaining useful life (RUL) prediction aligns with industry needs, making his research highly practical and influential.
  5. Collaborative Efforts: Wei Li has co-authored papers with diverse teams, reflecting his ability to collaborate effectively and contribute meaningfully to group research.

AREAS FOR IMPROVEMENT

  1. Broader Application of Research: Expanding the practical applications of his work beyond valve design and rolling bearing prediction to other mechanical systems could enhance his research’s versatility.
  2. Increased Visibility: Participation in international conferences and workshops could amplify the visibility and impact of his work.
  3. Leadership in Projects: Taking on leadership roles in research projects would further establish his stature as a leading researcher.
  4. Grant Acquisition: Securing competitive research grants would strengthen his portfolio and demonstrate his ability to translate research into funded projects.

EDUCATION

Wei Li is pursuing his PhD in Chemical Process Machinery at Lanzhou University of Technology. His studies focus on advanced design methodologies and numerical simulations for optimizing valve performance in industrial applications. Prior to this, he completed his Master’s degree in Mechanical Engineering, where he laid a strong foundation in fluid mechanics and computational modeling. Wei’s academic journey reflects a dedication to applying theoretical insights to practical engineering challenges.

EXPERIENCE

Wei Li has extensive experience in the design and development of special valves, contributing to various industrial projects during his PhD. His expertise extends to numerical simulations and deep learning applications for predicting the performance of mechanical components. Wei has also collaborated on interdisciplinary research projects, integrating advanced engineering techniques with artificial intelligence. His hands-on experience in valve development and machine learning underscores his practical skills and innovative approach to engineering challenges.

AWARDS AND HONORS

Wei Li has been recognized for his exceptional contributions to engineering research. His accolades include multiple Best Paper Awards at international conferences and recognition from academic institutions for his innovative work on valve design. Wei has also received prestigious scholarships during his PhD for academic excellence and groundbreaking research. His dedication and achievements highlight his influence in advancing mechanical and process engineering.

RESEARCH FOCUS

Wei Li’s research centers on the design and optimization of special valves, integrating computational fluid dynamics (CFD) and advanced turbulence models. He also explores machine learning approaches, including hybrid deep learning models, for predicting the remaining useful life of rolling bearings. His interdisciplinary work aims to enhance the efficiency and reliability of critical industrial components, contributing to sustainable and innovative engineering solutions.

PUBLICATION TOP NOTES

  • 📝 Numerical simulation of control valve flow characteristics based on DE-Bayesian modified turbulence model
  • 🤖 SRCAE-STCBiGRU: a fused deep learning model for remaining useful life prediction of rolling bearings
  • 🔧 An intelligent hybrid deep learning model for rolling bearing remaining useful life prediction
  • 🔮 Intelligent prediction of rolling bearing remaining useful life based on probabilistic DeepAR-Transformer model
  • ⚙️ A hybrid model-based prognostics approach for estimating remaining useful life of rolling bearings

CONCLUSION

Wei Li’s impressive research achievements, interdisciplinary focus, and impactful publications make him a strong candidate for the Best Researcher Award. While there is room to expand the scope of his work and enhance its visibility, his contributions to the fields of mechanical engineering, AI, and chemical process machinery are exemplary. Wei Li’s innovative approach to combining traditional engineering methods with advanced technologies sets him apart as a valuable and deserving candidate for this prestigious recognition.

 

Dolat Khan – fluid dynamics – Best Researcher Award

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Dolat Khan - fluid dynamics - Best Researcher Award

KMUTT - Thailand

AUTHOR PROFILE

SCOPUS

ACADEMIC CAREER

Dolat Khan holds a PhD in Applied Mathematics with a focus on Fluid Dynamics from King Mongkut’s University of Technology Thonburi (KMUTT) in Bangkok, Thailand. His academic journey includes an MS by Research and an MSc in Applied Mathematics and Mathematics from City University of Science & Information Technology, Peshawar, Pakistan. He has excelled in his studies, receiving top grades and various scholarships throughout his educational career.

RESEARCH INTERESTS

Dolat's research interests encompass a wide range of topics in fluid dynamics and heat transfer. He focuses on exact solutions of both Newtonian and Non-Newtonian fluids, entropy generation, porous media, and nanofluids. His work explores complex phenomena such as magnetic hydrodynamics (MHD), fractional derivatives, and numerical analysis, contributing valuable insights to these fields.

MASTER'S AND PhD THESIS

His Master’s thesis explored the MHD flow of Casson fluid with and without nanoparticles over a vertical plate embedded in a porous medium. For his PhD, he investigated a generalized entropy generation analysis of Newtonian and Non-Newtonian fluids through various fractional operators, further advancing the understanding of fluid dynamics.

RESEARCH EXPERIENCE

Dolat has conducted significant research at various institutions, including a short-term research position at Cankaya University, Turkey, and as a research student at City University of Science & Information Technology, Pakistan. His work involves in-depth exploration of fluid dynamics and fractional derivatives, showcasing his expertise and dedication to advancing the field.

TEACHING EXPERIENCE

He has served as a Visiting Lecturer at City University of Science & Information Technology and a Lecturer at Muslim Education Complex, Peshawar. His teaching experience includes instructing and mentoring students in applied mathematics and fluid dynamics, demonstrating his commitment to education and academic development.

PROGRAMMING AND TECHNICAL SKILLS

Dolat is proficient in various programming languages and tools, including Python, MATLAB, Mathematica, and Maple. His skills extend to numerical analysis and scientific software, essential for conducting advanced research and simulations in fluid dynamics and heat transfer.

SCHOLARSHIPS AND AWARDS

Dolat has been recognized with several prestigious awards, including the Petchra Pra Jom Klao Doctoral Scholarship by KMUTT and a gold medal in his MSc program. He also received scholarships for his outstanding academic performance and was selected for a collaborative visit to China, highlighting his academic excellence and global engagement.

PUBLICATIONS

Dolat has authored numerous research papers in renowned journals, covering topics such as MHD flow, heat transfer, and nanofluids. His publications include influential works in Scientific Reports, Results in Physics, and Symmetry, reflecting his significant contributions to the field of applied mathematics and fluid dynamics.

NOTABLE PUBLICATION

Viscous Dissipation Effects on Time-Dependent MHD Casson Nanofluid Over Stretching Surface: A Hybrid Nanofluid Study.

Authors: Rehman, A., Khan, D., Mahariq, I., Abdelghany Elkotb, M., Elnaqeeb, T.
Year: 2024
Journal: Journal of Molecular Liquids

Heat Transfer Analysis of Mixed Convection Boundary Layer Blood Base Nanofluids with the Influence of Viscous Dissipation.

Authors: Rehman, A., Mahariq, I., Khan, D., Ghazwani, H.A.
Year: 2024
Journal: Case Studies in Thermal Engineering

Enhanced Heat Transfer in Viscoelastic Fluids with Periodic Magnetic Fields and Dusty Nanoparticles Between Two Parallel Plates Under Thermal Radiation.

Authors: Khan, D., Ali, G., Mahariq, I., Ahammad, N.A., Ali, M.R.
Year: 2024
Journal: Case Studies in Thermal Engineering

The Impact of Marangoni Convection on Carbon Nanotube Blood Base Hybrid Nanofluid with Thermal Radiation Viscous Dissipation and Couple Stress, Analytical Study.

Authors: Rehman, A., Khan, D., Jan, R., Mahariq, I.
Year: 2024
Journal: BioNanoScience

Exploring the Potential of Heat Transfer and Entropy Generation of Generalized Dusty Tetra Hybrid Nanofluid in a Microchannel.

Authors: Khan, D., Kumam, P., Watthayu, W., Jarad, F.
Year: 2024
Journal: Chinese Journal of Physics

Alexander B. Degtyarev – Ship dynamics simulation – Best Researcher Award

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Alexander B. Degtyarev - Ship dynamics simulation - Best Researcher Award

Saint-Petersburg State University - Russia

AUTHOR PROFILE

SCOPUS

PROFESSIONAL BACKGROUND

Alexander B. Degtyarev is a distinguished Professor at the Faculty of Applied Mathematics & Control Processes and the Chief of the Department of Computer Modeling and Multiprocessor Systems at St. Petersburg State University, Russia. His academic and professional contributions have significantly advanced the fields of computational hydrodynamics, high-performance computing, and artificial intelligence.

EDUCATION AND DEGREES

Alexander B. Degtyarev graduated with honors from the Faculty of Shipbuilding at Leningrad Shipbuilding Institute, where he earned the title of Engineer Researcher in Hydrodynamics in 1985. He went on to receive his Ph.D. in 1991 from the same institution under the guidance of Alexander Kholodilin. In 2005, he achieved his D.Sc. from St. Petersburg State Marine Technical University, further solidifying his expertise in marine and computational sciences.

TEACHING ACTIVITIES

Prof. Degtyarev is a dedicated educator, delivering lecture courses on Fundamentals of Algorithms, Artificial Intelligence, and High Performance Computing. He is also the developer and leader of the master's program "Distributed Computing Technologies," demonstrating his commitment to shaping the next generation of computer scientists and engineers.

RESEARCH AND PUBLICATIONS

Prof. Degtyarev's research interests include computational hydrodynamics, on-board intelligence systems, high performance computing, and big data. He has published extensively, with his recent works accessible via ResearchGate, Scopus, and ORCID. His research projects, funded by the Russian Foundation for Basic Research, have focused on developing high-performance algorithms for decision support systems and monitoring offshore object safety.

GRANTS AND AWARDS

Throughout his career, Prof. Degtyarev has been the recipient of numerous grants from the Russian Foundation for Basic Research for his groundbreaking work in computational technologies. He was honored with the national award "Professor of the Year" in 2018, recognizing his outstanding contributions to the field of computer and information sciences.

PROFESSIONAL EXPERTISE

Prof. Degtyarev is a member of three dissertation councils, editorial boards of three scientific journals, and permanent program committees of three international conferences. He serves as an expert of subcommittee 02 “Data” of Technical committee on standardization 164 “Artificial intelligence” and is a member of the Presidium of the Federal Educational Association 02.00.00 “Computer and Information Sciences.”

NOTABLE PUBLICATION

Mathematics as an Engine for Computational Sciences 2024

SPD On-Line Filter: Workload Management System and Pilot Agent 2024

A Multilayer Approach to the Security of Blockchain Networks of the Future 2022 (1)

RISK MODEL of APPLICATION of LIFTING METHODS 2021 (2)

SOLVING the PROBLEMS of BYZANTINE GENERALS USING BLOCKCHAIN TECHNOLOGY 2021