Assoc. Prof. Dr. Ehsan Moosavi | Engineering | Best Researcher Award

Published on by Physicist Particle

Assoc. Prof. Dr. Ehsan Moosavi | Engineering | Best Researcher Award

Corresponding author at Islamic Azad University, Iran

Assoc. Prof. Dr. Ehsan Moosavi is a distinguished academic in Mining Engineering whose expertise extends across petroleum engineering, production planning, and artificial intelligence integration. His Engineering background highlights a career focused on mine design, oil well stability, hydraulic fracturing, and drilling optimization. Throughout his Engineering contributions, Dr. Moosavi has advanced innovation by applying artificial intelligence to real-world Engineering problems. He is committed to enhancing academic excellence while leading significant Engineering projects that bridge academia with industry. His Engineering summary demonstrates leadership in mentoring students, publishing influential research, and ensuring the Engineering field continues evolving with innovative solutions.

Professional Profile

ORCID Profile | Google Scholar Profile | Scopus Profile 

Education 

Assoc. Prof. Dr. Ehsan Moosavi pursued extensive education in Mining Engineering, specializing in extraction and advanced Engineering optimization methods. His Engineering studies covered subjects such as production scheduling, drilling, hydraulic fracturing, and open-pit design. Dr. Moosavi’s Engineering journey through bachelor, master, and doctoral programs provided him with strong technical foundations in applied Engineering research. His dissertation focused on optimization models that directly contribute to Mining Engineering efficiency. This Engineering education experience gave him a multi-disciplinary perspective, integrating petroleum applications and artificial intelligence. By completing rigorous Engineering programs, Dr. Moosavi built a career that unites theoretical foundations with practical Engineering applications.

Experience 

Assoc. Prof. Dr. Ehsan Moosavi has extensive professional experience in Mining Engineering, spanning academia and industrial Engineering applications. He has served as an Assistant and Associate Professor, contributing to petroleum and Mining Engineering departments with leadership and curriculum development. His Engineering experience also extends to industry through mine blasting design, production scheduling, and cutoff grade optimization. He has collaborated with Engineering organizations and societies, contributing to technical committees and expert councils. By supervising doctoral and master’s research in Engineering, Dr. Moosavi has strengthened academic-industry collaboration. His Engineering experience demonstrates a balance between teaching, research, consulting, and professional engagement that supports advancements in modern Engineering practices.

Research Interest 

Assoc. Prof. Dr. Ehsan Moosavi’s Engineering research interests are strongly aligned with petroleum and Mining Engineering innovation. He investigates production scheduling in mines, oil well stability, hydraulic fracturing, and drilling operations. His Engineering research incorporates artificial intelligence, probabilistic modeling, and optimization algorithms to address complex challenges. Dr. Moosavi has applied Engineering knowledge to develop sustainable approaches for resource management and environmental protection. His Engineering interests also extend to fluid dynamic modeling, well placement optimization, and numerical simulation of rock mechanics. By focusing on Engineering-driven solutions, his research has contributed to both theoretical advancements and practical Engineering improvements in energy and resource industries.

Award and Honor

Assoc. Prof. Dr. Ehsan Moosavi has received recognition for his Engineering excellence through various awards, honors, and invited conference contributions. His Engineering achievements include significant publications in high-impact journals, showcasing leadership in Mining Engineering research. He has been an invited participant in Engineering congresses, conferences, and workshops that highlight his academic reputation. His Engineering contributions have strengthened collaboration between universities and industries, earning him respect within the Engineering community. By mentoring students and leading projects, Dr. Moosavi’s honors reflect his dedication to developing the next generation of Engineering experts. These recognitions celebrate his commitment to advancing Engineering knowledge and practice.

Research Skill

Assoc. Prof. Dr. Ehsan Moosavi demonstrates advanced Engineering research skills, particularly in mining optimization, drilling operations, and petroleum-related Engineering studies. His skills include computational modeling, artificial intelligence integration, and numerical simulation applied to Engineering problems. Dr. Moosavi utilizes specialized Engineering software for mine planning, drilling fluid analysis, and geomechanical modeling. His Engineering skills extend to supervising multidisciplinary research teams, guiding master’s and doctoral students, and publishing collaborative works. He is proficient in applying Engineering methods for sustainable development and resource management. Through strong technical skills and Engineering problem-solving abilities, he contributes impactful research that bridges theoretical exploration and industrial Engineering solutions.

Publication Top Notes 

Title: Spatial correlation effects on rock mass behavior: insights from stochastic modeling in longwall mining
Authors: Mohammad Reza Soleimanfar; Reza Shirinabadi; Navid Hosseini Alaee; Ehsan Moosavi; Ghodratollah Mohammadi
Journal: International Journal of Geo-Engineering

Title: Cutting transfer modeling of drilling operations based on two-phase computational fluid dynamics to optimize the effective parameters
Authors: Labeeb Fateh Hasan Al-hadeethi; Ehsan Moosavi
Journal: Petroleum Science and Technology

Title: Investigation of time-dependent fracture propagation in viscoelastic formation using numerical simulation
Authors: Parnia Zafari; Ehsan Moosavi
Journal: Geosystem Engineering

Title: Geomechanical modeling for well stability to determining the bottom hole pressure and optimal mud weight using adaptive neuro-fuzzy inference system
Authors: Asaad Sattar Manduf Al- Hasan; Ehsan Moosavi; Reza Shirinabadi
Journal: Modeling Earth Systems and Environment

Title: Stochastic Analysis of Rock Strength Variability in Underground Coal Mining
Authors: Mohammad Reza Soleimanfar; Reza Shirinabadi; Navid Hosseini Alaee; Ehsan Moosavi; Ghodratollah Mohammadi
Journal: Geotechnical and Geological Engineering

Title: Assessment of toxic element dispersal in water, sediments, and soil of gold mining tailing dams due to natural seepage: a case study
Authors: Kamyar Tolouei; Ehsan Moosavi; Mehran Gholinejad
Journal: Arabian Journal of Geosciences

Title: Optimization of the production scheduling problem in open-pit mines to maximize the net present value using the human mental search algorithm
Authors: Kamyar Tolouei; Ehsan Moosavi
Journal: Arabian Journal of Geosciences

Title: Three-Dimensional Probabilistic Analysis of the Surface Settlement Based on Spatial Variability of Soil Properties: Case Study Zarbalizadeh NATM Tunnel
Authors: Ehsan Moosavi; Mohammad Ali Tahmasebi; Reza Shirinabadi; Esmaiel Rahimi; Amir Hossein Bangian Tabrizi
Journal: Geotechnical and Geological Engineering

Title: Effect of Pile Driving on Ground Vibration in Clay Soil: Numerical and Experimental Study
Authors: Ehsan Moosavi; Hirad Shamimi Noori; Reza Shirinabadi; Mehran Gholinejad
Journal: Geotechnical and Geological Engineering

Title: The 3D Probabilistic Analysis of the Effect of Pre-support Systems on the Surface Settlement in Conditions of Spatial Variability of Soil Properties: A Case Study
Authors: Ehsan Moosavi; Mohammad Ali Tahmasebi; Reza Shirinabadi; Esmaiel Rahimi; Amir Hossein Bangian Tabrizi
Journal: Arabian Journal of Geosciences

Title: An effective MIP model based on grey wolf optimizer for lot-sizing LTPSOP in open-pit mines under uncertainty
Authors: Ehsan Moosavi
Journal: Arabian Journal of Geosciences

Title: Application of Distinct Element Method to Analyze the Fracture and In-situ Stress on Wellbore Stability under Triaxial Compression
Authors: Ehsan Moosavi
Journal: Indian Geotechnical Journal

Title: Improving performance of open-pit mine production scheduling problem under grade uncertainty by hybrid algorithms
Authors: Ehsan Moosavi
Journal: Journal of Central South University

Title: Production scheduling problem and solver improvement via integration of the grey wolf optimizer into the augmented Lagrangian relaxation method
Authors: Ehsan Moosavi
Journal: SN Applied Sciences

Title: An optimisation approach for uncertainty-based long-term production scheduling in open-pit mines using meta-heuristic algorithms
Authors: Ehsan Moosavi
Journal: International Journal of Mining, Reclamation and Environment

Title: A Comprehensive Study of Several Meta-Heuristic Algorithms for Open-Pit Mine Production Scheduling Problem Considering Grade Uncertainty
Authors: Ehsan Moosavi
Journal: Journal of Mining and Environment

Title: Evaluation of Compression Strength of Concrete Specimens via Experimental Results and Numerical Simulation
Authors: Ehsan Moosavi
Journal: Strength of Materials

Title: Application of an improved Lagrangian relaxation approach in the constrained long-term production scheduling problem under grade uncertainty
Authors: Ehsan Moosavi
Journal: Engineering Optimization

Title: A 3D Discrete Element Analysis of Failure Mechanism of Shallow Foundations in Rocks
Authors: Ehsan Moosavi
Journal: Journal of Mining and Environment

Title: Optimized algorithm in mine production planning, mined material destination, and ultimate pit limit
Authors: Ehsan Moosavi
Journal: Journal of Central South University

Title: Improvement of Lagrangian relaxation performance for open pit mines constrained long-term production scheduling problem
Authors: Ehsan Moosavi
Journal: Journal of Central South University

Conclusion

Assoc. Prof. Dr. Ehsan Moosavi’s Engineering profile reflects a career dedicated to academic excellence, innovative research, and professional leadership. His Engineering expertise spans petroleum and mining sectors, with contributions to optimization models, drilling advancements, and sustainable Engineering practices. Through his roles in teaching, research, and industry collaboration, Dr. Moosavi has consistently integrated Engineering innovation with education. His Engineering-focused publications and projects highlight a commitment to solving global challenges in resource extraction and energy. The conclusion of his Engineering journey emphasizes continuous development of solutions that shape modern Engineering practices. Dr. Moosavi’s legacy strengthens the link between academia, research, and applied Engineering.

Dr. Ajay Kumar Maurya | Engineering | Best Researcher Award

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Dr. Ajay Kumar Maurya | Engineering | Best Researcher Award

Assistant Professor at Nirma University, India

Dr. Ajay Kumar Maurya has established himself as a dedicated academician in the domain of Electrical and Electronics Engineering. His contributions span across renewable energy systems, ocean wave energy converters, and solar PV integration, making Engineering applications highly impactful for sustainable power generation. With strong academic grounding and professional exposure, his Engineering focus remains on innovation, optimization, and practical implementation of advanced technologies. He combines research excellence with practical Engineering development, ensuring strong relevance to both industry and academia. His professional career demonstrates commitment toward advancing Engineering education and developing real-world solutions that address global energy challenges. Through active teaching, research, and project engagements, Dr. Maurya continues shaping future advancements in Engineering knowledge and practice.

Professional Profile

ORCID Profile | Google Scholar Profile | Scopus Profile 

Education 

Dr. Ajay Kumar Maurya has pursued rigorous academic training in Electrical Engineering, gaining specialization in renewable energy and power systems. His doctoral research focused on hybrid energy systems integrating solar and ocean wave technologies, a milestone in Engineering innovation. With progressive qualifications from leading institutions, his education reflects a consistent dedication to Engineering advancement. His learning journey was marked by specialization in power electronics, converters, and renewable energy, which are vital areas within Engineering applications. He built strong conceptual foundations while also emphasizing practical Engineering implementations. This educational background enables him to contribute significantly to Engineering research and teaching. His academic preparation serves as the cornerstone of his professional accomplishments, strengthening his impact within the Engineering discipline.

Experience 

Dr. Ajay Kumar Maurya has accumulated significant professional experience as an Assistant Professor in reputed universities, where he contributed extensively to Electrical Engineering education. His work emphasized practical Engineering applications, teaching undergraduate and postgraduate courses, while mentoring students in innovative research. He has been actively engaged in developing Engineering laboratories, consultancy projects, and research collaborations. Through diverse academic positions across multiple Engineering institutions, he enhanced the quality of education and research delivery. His consultancy experience in designing linear generators for ocean wave power highlights the applied nature of his Engineering expertise. Each professional role reflects his vision of integrating research with Engineering education. Dr. Maurya’s journey underlines his strong leadership and active participation in shaping Engineering advancements.

Research Interest 

Dr. Ajay Kumar Maurya’s research interests are deeply rooted in Electrical and Electronics Engineering, particularly in renewable energy, solar PV systems, and ocean wave energy converters. He actively explores power electronics, converters, and off-grid systems, strengthening Engineering solutions for sustainable energy challenges. His academic work investigates hybrid renewable systems using MATLAB and hardware prototypes, reflecting advanced Engineering analysis. He has authored multiple journal articles focusing on Engineering innovations in power systems and converters. His research bridges theoretical Engineering models with practical energy applications, aligning with global sustainability goals. By focusing on cutting-edge Engineering concepts, Dr. Maurya contributes to solving pressing issues like grid integration and efficient energy conversion. His research interest continues shaping the Engineering landscape globally.

Award and Honor

Dr. Ajay Kumar Maurya has received multiple recognitions for his outstanding contributions in Engineering. His achievements include session chairing in international conferences, delivering expert talks on renewable energy, and securing prestigious fellowships during his Ph.D. He has also been a member of technical committees in Engineering events organized at reputed institutes. His selection as a key speaker and program chair reflects his respected status in the Engineering community. Dr. Maurya has been recognized for his role in advancing Engineering education, guiding research, and contributing to innovations in renewable energy technologies. These awards and honors reflect his leadership in the Engineering field, where his expertise is valued both nationally and internationally, further affirming his reputation as a distinguished Engineering professional.

Research Skill

Dr. Ajay Kumar Maurya possesses a wide array of research skills in Electrical and Electronics Engineering. His expertise includes MATLAB programming, hardware prototyping, and simulation of power electronics systems. He has mastered Engineering techniques such as inverter design, converter analysis, and renewable energy system development. His skills also extend to fabricating testing laboratories and applying Engineering tools like OPAL-RT simulators and dSPACE platforms. These capabilities empower him to merge theoretical Engineering concepts with practical validations. His technical strength is complemented by his analytical ability to optimize renewable systems. Such Engineering-oriented skills allow him to develop robust solutions for power systems and converters. His proficiency demonstrates his contribution as a well-rounded researcher with impactful Engineering problem-solving abilities.

Publication Top Notes 

Title: Assessment of ocean wave energy converters for Indian Coastal Region
Authors: AK Maurya, SP Singh
Journal: IETE Technical Review

Title: A study on ocean wave power and utilization for Indian coastal region
Authors: A Kumar Maurya, SP Singh
Journal: Asian Conference on Energy, Power and Transportation Electrification

Title: Analysis of cascaded buck–boost inverter for PMLG-based ocean wave energy converter
Authors: AK Maurya, SP Singh
Journal: IETE Journal of Research

Title: Fuel cell integrated with five level VSI for industrial pump applications
Authors: AK Maurya, YK Chauhan, RK Mishra
Journal: International Journal of Renewable Energy Research

Title: Multilevel converter-photovoltaic source based single-phase standalone generating system
Authors: AK Maurya, YK Chauhan
Journal: International Conference on Energy Efficient Technologies

Title: Analysis of Buck-Boost Inverter Installed in Permanent Magnet Linear Generator-based Ocean Wave Energy Converter
Authors: AK Maurya, SP Singh
Journal: IETE Journal of Research

Title: Performance of isolated generating system with multilevel inverter using photovoltaic source
Authors: AK Maurya, YK Chauhan
Journal: Annual International Conference on Emerging Research Areas

Title: Analysis on photovoltaic assisted three phase five level unipolar PWM inverter for induction motor driven water pumping system
Authors: AK Maurya, K Chahar, YK Chauhan
Journal: International Journal of Advanced Computer Research

Title: Performance investigation of ShapeDoKu variant for PV formations under realistic assumptions of shading situations
Authors: AS Yadav, AK Maurya, V Mukherjee
Journal: Optik

Title: Performance Investigation of Physically Relocation Arrangement with Different Associations of Bypass Diode during Shadings
Authors: AS Yadav, AK Maurya, V Mukherjee
Journal: Optik

Title: Direct Drive Ocean Wave Energy Converter Based Off-grid supply System
Authors: AK Maurya, SP Singh, YV Hote
Journal: IEEE Power India International Conference (PIICON)

Title: Performance analysis of fuel cell assisted distributed generation system
Authors: K Chahar, AK Maurya, A Chaturvedi
Journal: International Conference on Contemporary Computing and Informatics

Title: Simplified control algorithm based on irp theory for three phase shunt active power filter
Authors: AK Maurya, YK Chauhan
Journal: International Conference on Heterogeneous Networking for Quality

Title: Application of Generalized Instantaneous Reactive Power Theory for Three-Phase Four-Wire System
Authors: AK Maurya, YK Chauhan
Journal: International Journal of Engineering and Technology

Title: A Comparative Study and Performance Evaluation of Rearranged TCT PV arrangement under Shading Conditions
Authors: VM Anurag Singh Yadav, Ajay Kumar Maurya, Himanshu Shekhar
Journal: Energy

Title: Techno-economic-enviro-socio analysis of autonomous unified distributed generation using load scheduling approach and dispatch strategies
Authors: PK Kushwaha, C Bhattacharjee, AK Maurya
Journal: Electrical Engineering

Title: Design and Development of Emulator for Direct Drive PMLG Based Ocean Wave Energy Converter
Authors: AK Maurya, SP Singh
Journal: IETE Technical Review

Conclusion

Dr. Ajay Kumar Maurya exemplifies dedication to Electrical and Electronics Engineering through his teaching, research, and consultancy engagements. His work integrates renewable energy, power electronics, and hybrid systems, making Engineering impactful for sustainable growth. He continues to lead initiatives that merge innovation with applied Engineering, ensuring his contributions are relevant and forward-looking. His academic journey reflects excellence in Engineering education, while his publications and projects demonstrate applied outcomes in real-world contexts. Recognized with honors and professional responsibilities, he remains a respected figure in the Engineering community. Dr. Maurya’s profile establishes him as a visionary academic committed to advancing Engineering knowledge, inspiring students, and shaping future directions of sustainable Engineering development.

Assoc. Prof. Dr. Surabhi Tiwari | Mathematics | Best Researcher Award

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Assoc. Prof. Dr. Surabhi Tiwari | Mathematics | Best Researcher Award

Associate Professor at Motilal Nehru National Institute of Technology, India

Assoc. Prof. Dr. Surabhi Tiwari is a distinguished academic in Mathematics with expertise spanning topology, rough set theory, and fuzzy systems. Her contributions in Mathematics reflect a deep commitment to advancing research, teaching, and mentoring. Through her work in Mathematics, she has authored numerous high-quality publications in reputed international journals, making significant contributions to applied and theoretical aspects of the subject. Dr. Tiwari has actively participated in Mathematics conferences and workshops, presenting innovative findings that influence global research. Her strong foundation in Mathematics enables her to connect complex theories with real-world applications, fostering an environment of academic excellence. Mathematics remains the central theme of her professional journey, shaping her as an influential researcher and teacher.

Professional Profile

ORCID Profile | Google Scholar Profile | Scopus Profile

Education

Assoc. Prof. Dr. Surabhi Tiwari pursued her higher education in Mathematics, beginning with a strong foundation in the subject and advancing toward specialized research in topology, fuzzy set theory, and computational applications. Her academic qualifications in Mathematics reflect dedication to the discipline and a progressive mastery of concepts. She obtained advanced degrees focusing on Mathematics, which equipped her with analytical skills and research expertise. Her doctoral research in Mathematics emphasized general topology and merotopic structures, showcasing her innovation in theoretical frameworks. Throughout her academic journey, Mathematics has been both a tool and a passion, enabling her to bridge theory and practice. Mathematics education laid the foundation for her professional accomplishments and contributions to global research communities.

Experience

Assoc. Prof. Dr. Surabhi Tiwari has extensive professional experience in Mathematics through her teaching, research, and academic leadership roles. She has served in reputed institutions, teaching Mathematics at various levels while also contributing to curriculum development and program management. Her experience extends beyond teaching, as she has guided doctoral and master’s students in Mathematics, ensuring the growth of future researchers. With active involvement in Mathematics departments, she has also taken up administrative responsibilities, demonstrating leadership and organizational skills. Her professional journey is deeply rooted in Mathematics, from classroom teaching to international collaborations. The emphasis on Mathematics in her career highlights her continuous pursuit of excellence and her commitment to advancing both theoretical and applied aspects of the subject.

Research Interest 

Assoc. Prof. Dr. Surabhi Tiwari research interests are deeply embedded in Mathematics, focusing on general topology, rough set theory, and fuzzy subsets. Mathematics forms the backbone of her scholarly work, with a strong emphasis on extending classical concepts into new domains. Her work on proximity spaces, metric extensions, and fractional models demonstrates the application of Mathematics to diverse scientific challenges. She is also actively engaged in exploring new frameworks within Mathematics that support advanced computation and modeling. Her publications highlight innovative contributions in Mathematics, influencing both pure and applied fields. Driven by curiosity and passion, Dr. Tiwari’s research interests in Mathematics aim to expand understanding, bridge knowledge gaps, and open new directions for future mathematical inquiry.

Award and Honor

Assoc. Prof. Dr. Surabhi Tiwari has received recognition in Mathematics through her contributions as a researcher, teacher, and academic leader. Her active participation in Mathematics societies and conferences has earned her a respected place in scholarly communities. The honors she has gained reflect her influence in advancing Mathematics research and education globally. As a contributor to Mathematics-focused journals, she has been invited as a reviewer, underscoring her expertise and credibility in the discipline. Memberships in Mathematics associations further highlight her recognition within the academic world. These awards and honors affirm her role in strengthening Mathematics through impactful research, knowledge dissemination, and mentorship. Her consistent engagement in Mathematics ensures her place among prominent figures in the field.

Research Skill

Assoc. Prof. Dr. Surabhi Tiwari has developed exceptional research skills in Mathematics, enabling her to approach problems with analytical depth and innovative methods. Her ability to construct frameworks in Mathematics allows her to explore topological structures, fuzzy systems, and differential equations with precision. Proficiency in Mathematics has helped her collaborate with peers and contribute to international journals. She applies rigorous mathematical reasoning to build theories that have practical and computational implications. Mathematics-based skills like logical modeling, abstraction, and problem-solving form the core of her expertise. These research skills in Mathematics have supported her supervision of students and contributions to academic projects. By refining these Mathematics skills, she continues to influence theoretical advancements and practical applications across disciplines.

Publication Top Notes

Title: Numerical simulation of second-order hyperbolic telegraph type equations with variable coefficients
Author: S Pandit, M Kumar, S Tiwari
Journal: Computer Physics Communications

Title: Approach Merotopies and Near Filters Theory and Application
Author: JF Peters, S Tiwari
Journal: Gen

Title: Topological structures in rough set theory: a survey
Author: PK Singh, S Tiwari
Journal: Hacettepe Journal of Mathematics and Statistics

Title: Grill determined L-approach merotopological spaces
Author: M Khare, S Tiwari
Journal: Fundamenta Informaticae

Title: Cech rough proximity spaces
Author: S Tiwari, PK Singh
Journal: Matematicki Vesnik

Title: An initial-value technique to solve third-order reaction–diffusion singularly perturbed boundary-value problems
Author: M Kumar, S Tiwari
Journal: International Journal of Computer Mathematics

Title: L-approach merotopies and their categorical perspective
Author: M Khare, S Tiwari
Journal: Demonstratio Mathematica

Title: An approach of proximity in rough set theory
Author: S Tiwari, PK Singh
Journal: Fundamenta Informaticae

Title: Completing extended metric spaces: an alternative approach
Author: JF Peters, S Tiwari
Journal: Applied Mathematics Letters

Title: Approach merotopological spaces and their completion
Author: M Khare, S Tiwari
Journal: International Journal of Mathematics and Mathematical Sciences

Title: A fixed point theorem in rough semi-linear uniform spaces
Author: PK Singh, S Tiwari
Journal: Theoretical Computer Science

Title: Completion in a common supercategory of Met, UAP, wsAP and Near
Author: M Khare, S Tiwari
Journal: Demonstratio Mathematica

Title: Smirnov type compactification of rough pseudo metric spaces using proximity approach
Author: S Tiwari, PK Singh
Journal: Afrika Matematika

Title: Rough semi-uniform spaces and its image proximities
Author: S Tiwari, PK Singh
Journal: Electronic Research Archive

Title: Proximal groups: Extension of topological groups. Application in the concise representation of Hilbert envelopes on oscillatory motion waveforms
Author: S Tiwari, JF Peters
Journal: Communications in Algebra

Title: Numerical simulation of second-order one dimensional hyperbolic telegraph equation
Author: S Pandit, M Kumar, S Tiwari
Journal: Computer Physics Communications

Title: An initial value technique to solve two-point non-linear singularly perturbed boundary value problems
Author: S Tiwari, M Kumar
Journal: Applied and Computational Mathematics

Title: Ultrafilter completeness in-approach nearness spaces
Author: S Tiwari
Journal: Mathematics in Computer Science

Title: α*-Uniformities and their order structure
Author: S Tiwari
Journal: Afrika Matematika

Title: Approach merotopies and associated near sets
Author: JF Peters, S Tiwari, R Singh
Journal: Theory and Applications of Mathematics & Computer Science

Conclusion

In conclusion, Assoc. Prof. Dr. Surabhi Tiwari has established herself as a leading academic in Mathematics through her teaching, research, and professional service. Her dedication to Mathematics reflects in her education, professional experience, research interests, and publications. By contributing significantly to Mathematics, she continues to inspire students and peers worldwide. Her recognition and honors emphasize the lasting value of her Mathematics contributions. Dr. Tiwari’s journey illustrates how Mathematics can be a transformative force in advancing knowledge and solving complex challenges. With continuous involvement in Mathematics, she is set to expand her impact even further. Mathematics remains central to her legacy, ensuring her role as a significant contributor to the discipline.

Prof. Heshmatollah Yavari | Quantum Science | Best Academic Researcher Award

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Prof. Heshmatollah Yavari | Quantum Science | Best Academic Researcher Award

Researcher at University of Isfahan, Iran

Prof. Heshmatollah Yavari has established himself as a leading figure in Quantum Science, contributing significantly to the understanding of superconductivity, superfluidity, and condensed matter systems. His work consistently integrates Quantum Science with theoretical models and practical applications. Prof. Yavari’s expertise in Quantum Science spans ultracold atomic gases, optical lattices, and neutron star physics, offering deep insights into strongly correlated systems. His pioneering role in Quantum Science research has positioned him among scholars who shape the evolution of modern physics. Prof. Yavari has consistently advanced Quantum Science through publications, collaborations, and innovative teaching. His vision within Quantum Science demonstrates a balance between theoretical foundations and cutting-edge applications, ensuring that Quantum Science remains central to future technological advances.

Professional Profile

ORCID Profile | Scopus Profile

Education 

Prof. Heshmatollah Yavari pursued his academic path with a clear dedication to Quantum Science, beginning with foundational studies in physics and advancing into specialized training in theoretical physics. His academic journey reflects a continuous engagement with Quantum Science, from undergraduate exploration to doctoral research. Prof. Yavari’s academic contributions reveal a strong commitment to Quantum Science, particularly in understanding transport phenomena, superconductors, and superfluids. Through each stage of education, Quantum Science remained the guiding principle of his learning and research. Prof. Yavari developed deep theoretical knowledge of Quantum Science, complemented by practical research projects that reinforced his scholarly standing. This trajectory highlights how Quantum Science shaped his intellectual development and prepared him for a lifetime of contribution to global scientific discovery.

Experience 

Prof. Heshmatollah Yavari’s professional career exemplifies dedication to Quantum Science, demonstrated through decades of teaching, mentoring, and research leadership. His role as professor of physics at the University of Isfahan highlights his continuous contribution to Quantum Science across multiple levels of academia. He has guided numerous students into advanced areas of Quantum Science, fostering innovation and critical thinking. His lectures on advanced quantum mechanics, statistical mechanics, and field theory exemplify the integration of Quantum Science with core theoretical frameworks. As a professional, Prof. Yavari actively collaborates with international scholars, expanding Quantum Science into interdisciplinary domains. His administrative roles and research coordination further underline his commitment to ensuring Quantum Science thrives as both a teaching discipline and a global research frontier.

Research Interest 

Prof. Heshmatollah Yavari’s research interests are firmly grounded in Quantum Science, with a focus on superconductivity, Bose-Einstein condensation, ultracold atomic gases, and topological insulators. His scholarly work connects Quantum Science with the mysteries of neutron stars, strongly correlated systems, and Majorana fermions. Prof. Yavari consistently expands the boundaries of Quantum Science by developing theories and models that address both fundamental and applied physics. Quantum Science drives his investigations into spin transport, optical lattices, and nonlocal effects in superconductors. His work reveals how Quantum Science contributes to understanding universal phenomena, from nanoscale materials to astrophysical systems. By integrating theory with experimental possibilities, Prof. Yavari demonstrates the transformative potential of Quantum Science across diverse scientific landscapes, ensuring it remains vital to modern physics.

Award and Honor

Prof. Heshmatollah Yavari has received recognition for his excellence in Quantum Science, reflecting his significant academic and research achievements. Awards and honors granted to Prof. Yavari underscore his enduring contributions to Quantum Science and theoretical physics. His published works in leading journals highlight the respect he commands in the Quantum Science community. Each accolade represents acknowledgment of his outstanding role in shaping Quantum Science and inspiring future generations of researchers. Honors received are not only a personal achievement but also evidence of his commitment to advancing Quantum Science globally. Through academic excellence and influential publications, Prof. Yavari’s reputation continues to strengthen, ensuring his name remains synonymous with quality and leadership in the growing field of Quantum Science.

Research Skill

Prof. Heshmatollah Yavari demonstrates advanced research skills in Quantum Science, applying both theoretical and computational methods to complex problems in physics. His expertise includes modeling superconductivity, analyzing transport properties, and interpreting Quantum Science phenomena in condensed matter systems. Prof. Yavari has mastered Quantum Science techniques related to ultracold atoms, superfluids, and nanoscale structures. His ability to integrate Quantum Science with interdisciplinary domains makes his skillset unique and impactful. Collaborations with other experts further amplify his Quantum Science research capabilities. His analytical approaches, problem-solving methods, and innovative thinking establish him as a skilled leader in Quantum Science. These research skills ensure that Prof. Yavari continuously contributes new insights and strengthens the foundation of Quantum Science in both academic and applied contexts.

Publication Top Notes 

Title: Purity of entangled photon pairs in a semiconductor–superconductor heterostructure in the presence of both Rashba and Dresselhaus SOCs
Authors: Zahra Saeedi; Heshmatollah Yavari
Journal: Materials Research Bulletin

Title: Effects of Rashba and Dresselhaus spin-orbit couplings on the critical temperature and paramagnetic limiting field of superconductors with broken inversion symmetry
Authors: H. Yavari; M. Tayebantayeba
Journal: Physica C: Superconductivity and its Applications

Title: Impurity and hybridization effects on the symmetry classification and magnetic response function of a two-band superconductor with interband pairing order
Authors: F Aghamohammadi Renani; H Yavari
Journal: Progress of Theoretical and Experimental Physics

Title: Three-body and Coulomb interactions in a quasi-two-dimensional dipolar Bose-condensed gas
Authors: Heshmatollah Yavari
Journal: Annals of Physics

Title: Effects of hybridization and spin–orbit coupling to induce odd-frequency pairing in two-band superconductors
Authors: Heshmatollah Yavari
Journal: The European Physical Journal Plus

Title: Shear viscosity in the strong interaction regime of a p-wave superfluid Fermi gas
Authors: Heshmatollah Yavari
Journal: Physics Letters A

Title: Anomalous viscosity of a chiral two-orbital superconductor in tight-binding model
Authors: Heshmatollah Yavari
Journal: The European Physical Journal Plus

Title: Progress in the development and construction of high temperature superconducting magnets
Authors: Heshmatollah Yavari
Journal: Superconductor Science and Technology

Title: On the Properties of Novel Superconductors
Authors: Heshmatollah Yavari
Journal: IntechOpen

Title: Effects of Thermally Induced Roton‐Like Excitation on the Superfluid Density of a Quasi‐2D Dipolar Bose Condensed Gas
Authors: Heshmatollah Yavari
Journal: Annalen der Physik

Title: Effect of long-range 1/r interaction on thermal and quantum depletion of a dipolar quasi-two-dimensional Bose gas
Authors: Heshmatollah Yavari
Journal: Low Temperature Physics

Title: Phase-dependent heat current of granular Josephson junction for different geometries
Authors: Heshmatollah Yavari
Journal: Physics Letters A

Title: Edge currents as a probe of the strongly spin-polarized topological noncentrosymmetric superconductors
Authors: Heshmatollah Yavari
Journal: Physical Review B

Title: Hall viscosity of a chiral two-orbital superconductor at finite temperatures
Authors: Heshmatollah Yavari
Journal: Physica C: Superconductivity and its Applications

Title: Temperature Dependence of the Thermal Conductivity of a Trapped Dipolar Bose-Condensed Gas
Authors: Heshmatollah Yavari
Journal: Brazilian Journal of Physics

Title: Low-Temperature Dependence of the Shear Viscosity in Superconductor S r 2 R u O 4
Authors: Heshmatollah Yavari
Journal: Journal of Superconductivity and Novel Magnetism

Title: Effect of nonlinearity, magnetic and nonmagnetic impurities, and spin-orbit scattering on the nonlocal microwave response of ad-wave superconductor
Authors: Heshmatollah Yavari
Journal: Low Temperature Physics

Title: Landau damping in a dipolar Bose–Fermi mixture in the Bose–Einstein condensation (BEC) limit
Authors: Heshmatollah Yavari
Journal: Chinese Physics B

Title: Depletion of the condensate in a dipolar Bose condensed gas in the presence of impurities
Authors: Heshmatollah Yavari
Journal: The European Physical Journal Plus

Title: Low temperatures shear viscosity of a two-component dipolar Fermi gas with unequal population
Authors: Heshmatollah Yavari
Journal: Annals of Physics

Conclusion

Prof. Heshmatollah Yavari’s career is a testament to the power of Quantum Science in shaping both knowledge and technology. His lifelong dedication to Quantum Science demonstrates how deep theoretical inquiry can lead to transformative discoveries. Prof. Yavari’s role as a professor, researcher, and author illustrates his enduring influence on Quantum Science. By nurturing students, publishing extensively, and advancing new ideas, he ensures that Quantum Science remains dynamic and progressive. His contributions prove that Quantum Science is not only central to academic inquiry but also critical for global innovation. In conclusion, Prof. Yavari embodies excellence in Quantum Science, representing a model scholar whose legacy will continue to inspire future advancements in the ever-expanding universe of Quantum Science.

Dr. Lijuan Li | Artificial Intelligence | Best Researcher Award

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Dr. Lijuan Li | Artificial Intelligence | Best Researcher Award

Deputy Director of Academic Affairs Office at Nanjing Tech University, China

Dr. Lijuan Li is a distinguished professional whose career embodies excellence in automation, engineering, and artificial intelligence. Her contributions extend across teaching, research, and leadership, demonstrating a commitment to advancing knowledge in artificial intelligence. She integrates artificial intelligence into modeling, optimization, and process control, shaping the direction of modern automation. Through her academic and professional efforts, Dr. Li enhances the global understanding of artificial intelligence. She emphasizes innovation and collaboration in artificial intelligence, ensuring sustainable growth in her research. With dedication to academic leadership and artificial intelligence applications, she serves as a role model. Her work consistently reflects the transformative role of artificial intelligence in engineering, research, and advanced automation systems.

Professional Profile

Scopus Profile

Education 

Dr. Lijuan Li has established a strong educational foundation that has supported her professional journey in artificial intelligence. Her academic background demonstrates a thorough engagement with control science, engineering, and artificial intelligence. Through her advanced studies, Dr. Li developed expertise in artificial intelligence methodologies, modeling, and optimization. Education played a central role in shaping her vision, allowing her to expand artificial intelligence applications across multiple disciplines. She integrated artificial intelligence in both theoretical frameworks and practical experiments, enhancing the impact of her academic growth. Dr. Li emphasizes the essential role of artificial intelligence in research and teaching. Her education reflects a structured pathway where artificial intelligence consistently supported her achievements. With a robust educational background, she continuously fosters innovation and builds meaningful contributions through artificial intelligence.

Experience 

Dr. Lijuan Li has cultivated a broad professional experience that centers on artificial intelligence applications in automation and engineering. Her role as Professor and Director allows her to expand artificial intelligence within research and academic leadership. She has guided multiple research initiatives where artificial intelligence shaped outcomes in modeling, process design, and optimization. Through professional roles, she integrates artificial intelligence to strengthen collaborations and inspire colleagues. Artificial intelligence remains a consistent theme in her professional journey, supporting innovation in automation. She applies artificial intelligence in research projects and administrative leadership. As a professional leader, she builds institutional strategies that align with artificial intelligence-driven advancements. Her professional experience reflects her dedication to artificial intelligence as a core element. By integrating artificial intelligence across academic and applied domains, Dr. Li continues to influence automation research.

Research Interest 

Dr. Lijuan Li research interests are centered on artificial intelligence with emphasis on automation, process modeling, and optimization. She explores artificial intelligence for improving industrial systems and control performance evaluation. Her research applies artificial intelligence across process engineering, enhancing efficiency and sustainability. With focus on artificial intelligence, she builds methodologies that integrate innovation and practical applications. She actively investigates artificial intelligence for complex system management. Artificial intelligence serves as the foundation of her interdisciplinary research projects. Her interests combine automation, engineering, and artificial intelligence to improve real-world outcomes. She highlights artificial intelligence as the driver of progress in process industries. Dr. Li’s work demonstrates how artificial intelligence fosters adaptability in automation. Her research interests continually evolve with artificial intelligence, addressing both theoretical development and practical impact in automation.

Award and Honor

Dr. Lijuan Li has earned recognition through awards and honors that celebrate her expertise in artificial intelligence. Her achievements highlight how artificial intelligence advances contribute to automation and research leadership. Awards demonstrate the value of integrating artificial intelligence into engineering and academic fields. Honors reflect her dedication to artificial intelligence innovations and their societal impact. She consistently promotes artificial intelligence as a transformative tool in academia. Recognitions validate her ability to advance artificial intelligence knowledge and its applications. Each award highlights her strong commitment to artificial intelligence excellence. Her honors emphasize leadership in research and teaching where artificial intelligence remains central. The impact of artificial intelligence in her achievements underscores her pioneering contributions. Through these recognitions, Dr. Li’s role in promoting artificial intelligence within academia and research is continually reinforced.

Research Skill

Dr. Lijuan Li possesses advanced research skills with deep expertise in artificial intelligence. Her skills include modeling, simulation, optimization, and performance evaluation driven by artificial intelligence. She demonstrates the capacity to apply artificial intelligence across interdisciplinary projects. Her research skills extend to developing methodologies where artificial intelligence supports process innovation. Artificial intelligence plays a consistent role in her experiments, data analysis, and optimization strategies. She uses artificial intelligence to design frameworks that enhance automation. With research skills grounded in artificial intelligence, she contributes to advancing industrial applications. Her expertise ensures innovation in artificial intelligence for automation systems. Dr. Li’s research skills emphasize adaptability, precision, and creative integration of artificial intelligence. Through these capabilities, she continues to strengthen the scientific community’s reliance on artificial intelligence as a key research driver.

Publication Top Notes 

Title: Real-time prediction of temperature field during welding by data-mechanism driving 
Journal: Journal of Manufacturing Processes
Year : 2025

Title: A new method of simulation and optimization in biogas high-pressure water scrubbing process based on surrogate model
Journal: Separation Science and Technology Philadelphia
Year : 2025

Title: Factor Graph Optimization Localization Method Based on GNSS Performance Evaluation and Prediction in Complex Urban Environment  
Journal: IEEE Sensors Journal
Year : 2025

Title: Digital twin for weld pool evolution by data-physics integrated driving 
Journal: Journal of Manufacturing Processes
Year : 2024

Title: Kinetic parameter identification in the residue hydro refining reaction using a novel optimizer: IAC-SCA
Journal: Chemical Engineering Science
Year : 2024

Title: A method for predicting methane production from anaerobic digestion of kitchen waste under small sample conditions
Journal: Environmental Science and Pollution Research
Year : 2024

Conclusion

Dr. Lijuan Li career demonstrates excellence in artificial intelligence, automation, and engineering. She highlights artificial intelligence as a transformative power in education, research, and professional leadership. Her journey illustrates how artificial intelligence enriches scientific contributions and technological applications. She applies artificial intelligence consistently across teaching, research, and management. Artificial intelligence remains the foundation of her innovation strategies and academic vision. Through leadership, she integrates artificial intelligence in advancing automation fields. Dr. Li’s conclusion underscores her dedication to artificial intelligence in academia and industry. Her career is a testament to the enduring relevance of artificial intelligence. She inspires peers by demonstrating the potential of artificial intelligence for global progress. In conclusion, her professional path reflects a strong and lasting commitment to artificial intelligence across disciplines.

Assist. Prof. Dr. Somayeh Khademloo | Mathematics | Best Researcher Award

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Assist. Prof. Dr. Somayeh Khademloo | Mathematics | Best Researcher Award

Assistant proffessor at Babol Noshirvani University of Technology, Iran

Assist. Prof. Dr. Somayeh Khademloo has established herself as a distinguished academic in Mathematics, with extensive contributions to Mathematics education, Mathematics research, and Mathematics problem-solving. Her career demonstrates a profound dedication to Mathematics by merging theoretical Mathematics with applied Mathematics approaches. The expertise of Dr. Khademloo in Mathematics reflects a long-standing commitment to Mathematics advancement, where Mathematics knowledge is expanded through publications, Mathematics lectures, and Mathematics collaborations. She is recognized for achievements in Mathematics analysis and Mathematics teaching, consistently excelling in Mathematics projects. The foundation of her work remains Mathematics, where Mathematics methods and Mathematics innovations are emphasized. She continues to expand the horizons of Mathematics, enriching Mathematics communities and strengthening global appreciation of Mathematics in both academic and practical Mathematics contexts.

Professional Profile

ORCID Profile | Google Scholar Profile

Education 

Assist. Prof. Dr. Somayeh Khademloo pursued her academic journey through institutions of excellence, focusing deeply on Mathematics at every level. Her education in Mathematics includes undergraduate Mathematics, graduate Mathematics, and doctoral Mathematics, all strengthening her ability to apply Mathematics to advanced problems. From early Mathematics training to specialized Mathematics research, she excelled in Mathematics topics such as nonlinear analysis and Mathematics-based applications for solving equations. This academic foundation in Mathematics shaped her teaching and Mathematics writing, allowing her to develop critical expertise in Mathematics analysis. She became proficient in Mathematics methods, Mathematics tools, and Mathematics applications, building a solid base for Mathematics teaching and Mathematics innovation. Her educational path highlights strong Mathematics excellence, Mathematics leadership, and Mathematics progress through comprehensive Mathematics learning.

Experience 

Assist. Prof. Dr. Somayeh Khademloo has developed extensive professional experience in Mathematics through years of teaching, Mathematics mentoring, and Mathematics publication. She has taught various Mathematics courses, ranging from introductory Mathematics to advanced Mathematics, emphasizing the importance of Mathematics understanding. Her professional role as Assistant Professor of Mathematics demonstrates her dedication to Mathematics progress in academic institutions. She has participated in Mathematics conferences, Mathematics collaborations, and Mathematics curriculum development. By focusing on Mathematics challenges and Mathematics solutions, she has strengthened her professional impact in Mathematics. Her teaching includes subjects such as applied Mathematics, theoretical Mathematics, and functional Mathematics, all rooted in Mathematics excellence. Her professional journey reflects sustained contributions to Mathematics education and Mathematics scholarship, advancing Mathematics knowledge for both students and colleagues within Mathematics communities.

Research Interest 

Assist. Prof. Dr. Somayeh Khademloo’s research interests are firmly anchored in Mathematics, covering topics such as functional Mathematics, nonlinear Mathematics, and boundary Mathematics problems. She explores Mathematics solutions for partial differential equations, applies Mathematics to variational methods, and investigates Mathematics free boundary problems. Her work extends to Mathematics numerical analysis and the integration of Mathematics with deep neural networks. These Mathematics-based explorations highlight her commitment to Mathematics innovation and Mathematics application. Through Mathematics publications and Mathematics collaborations, she contributes to solving fundamental Mathematics questions. Her Mathematics research not only strengthens Mathematics theories but also develops new Mathematics techniques. She emphasizes the importance of Mathematics in understanding complex phenomena, and her dedication ensures Mathematics continues to evolve. Her Mathematics expertise inspires students and enriches Mathematics communities globally.

Award and Honor

Assist. Prof. Dr. Somayeh Khademloo has received multiple awards and honors that reflect her outstanding role in Mathematics. Recognitions include top Mathematics researcher, best Mathematics lecturer, and author of widely used Mathematics books, each underlining her excellence in Mathematics contributions. She has been consistently acknowledged for leadership in Mathematics and achievements in Mathematics innovation. These Mathematics awards showcase her consistent impact in Mathematics and her reputation in Mathematics institutions. Each Mathematics recognition strengthens her influence in Mathematics, proving her dedication to Mathematics excellence. By earning awards for Mathematics teaching and Mathematics writing, she demonstrates an ability to combine Mathematics expertise with Mathematics communication. Her honors validate years of Mathematics work, and they highlight her as a leading figure in Mathematics, inspiring future Mathematics scholars with her success.

Research Skill

Assist. Prof. Dr. Somayeh Khademloo possesses extensive research skills in Mathematics, allowing her to address complex Mathematics questions with precision. She has mastered Mathematics methodologies including numerical Mathematics, functional Mathematics, and applied Mathematics analysis. Her research skills extend to Mathematics computations, Mathematics modeling, and Mathematics simulations. She excels in connecting theoretical Mathematics with practical Mathematics solutions, enhancing Mathematics research output. Her proficiency in Mathematics enables her to design Mathematics studies, interpret Mathematics results, and publish Mathematics findings. She has built strong Mathematics collaborations, applying Mathematics to solve scientific and engineering problems. These Mathematics research skills ensure she remains a leader in Mathematics, contributing innovative Mathematics perspectives. By integrating Mathematics theories with Mathematics practices, her skills demonstrate exceptional capacity to expand Mathematics knowledge and develop pioneering Mathematics approaches.

Publication Top Notes

Title: Multiplicity results for perturbed fourth-order Kirchhoff type elliptic problems
Authors: M Ferrara, S Khademloo, S Heidarkhani
Journal: Applied Mathematics and Computation

Title: Nontrivial solutions for one-dimensional fourth-order Kirchhoff-type equations
Authors: S Heidarkhani, M Ferrara, S Khademloo
Journal: Mediterranean Journal of Mathematics

Title: Multiple solutions for a perturbed fourth-order Kirchhoff type elliptic problem
Authors: S Heidarkhani, S Khademloo, A Solimaninia
Journal: Portugaliae Mathematica

Title: On Adomian decomposition method for solving reaction diffusion equation
Authors: GA Afrouzi, S Khademloo
Journal: International Journal of Nonlinear Science

Title: Existence of Sign-Changing Solutions for a Nonlocal Problem of p-Kirchhoff Type
Authors: SH Rasouli, H Fani, S Khademloo
Journal: Mediterranean Journal of Mathematics

Title: Infinitely many solutions for anisotropic variable exponent problems
Authors: S Khademloo, GA Afrouzi, TN Ghara
Journal: Complex Variables and Elliptic Equations

Title: A numerical method to find positive solution of semilinear elliptic Dirichlet problems
Authors: GA Afrouzi, S Khademloo
Journal: Applied Mathematics and Computation

Title: The Nehari manifold for a class of indefinite weight semilinear elliptic equations
Authors: GA Afrouzi, S Khademloo
Journal: Bulletin of the Iranian Mathematical Society

Title: Some numerical results on a convex nonlinear elliptic problem
Authors: GA Afrouzi, S Khademloo
Journal: Applied Mathematics and Computation

Title: Eigenvalue problems for the p-Laplace operator with nonlinear boundary condition
Authors: S Khademloo
Journal: Australian Journal of Basic and Applied Sciences

Title: A two-phase free boundary with a logarithmic term
Authors: M Fotouhi, S Khademloo
Journal: Interfaces and Free Boundaries

Title: Variational approaches for Lagrangian discrete nonlinear systems
Authors: AAH Alkhalidi, GA Afrouzi, S Khademloo
Journal: Mathematics

Title: Multiplicity of Positive Solutions for a Second-Order Elliptic System of Kirchhoff Type
Authors: S Khademloo, E Valipour, A Babakhani
Journal: Abstract and Applied Analysis

Title: The nehari manifold for semilinear equation with Dirichlet boundary condition
Authors: S Khademloo, GA Afrouzi, M Kardoost
Journal: International Journal of Nonlinear Science

Title: Numerical solutions of diffusive logistic equation
Authors: GA Afrouzi, S Khademloo
Journal: Chaos, Solitons & Fractals

Title: Principal eigenvalues of the p-Laplacian with the boundary condition involving indefinite weight
Authors: GA Afrouzi, S Khademloo
Journal: Wor. J. Mod. Sim

Title: On numerical results of an elliptic boundary value problem
Authors: GA Afrouzi, S Khademloo
Journal: International Journal of Nonlinear Science

Title: Existence of weak solutions for second-order boundary-value problems of Kirchhoff-type with variable exponents
Authors: IE Eskandarkolaei, S Khademloo, GA Afrouzi
Journal: Differential Equations

Title: Existence and multiplicity of solutions for a quasilinear elliptic system on unbounded domains involving nonlinear boundary conditions
Authors: S Khademloo, GA Afrouzi, J Xu
Journal: Journal of Applied Analysis & Computation

Title: On the existence of multiple solutions for a three-point nonlinear boundary value problem of p-Laplacian type
Authors: S Abaspour, S Khademloo, SH Rasouli
Journal: Afrika Matematika

Conclusion

 Assist. Prof. Dr. Somayeh Khademloo represents excellence in Mathematics through her career, education, and publications. Her achievements in Mathematics teaching, Mathematics research, and Mathematics writing underline her dedication to Mathematics. She continues to inspire through Mathematics leadership, applying Mathematics methods and advancing Mathematics theories. The recognition she has earned in Mathematics confirms her role as a leading Mathematics academic. Her lifelong commitment to Mathematics demonstrates passion and resilience in Mathematics scholarship. Through professional engagement in Mathematics, she ensures Mathematics remains central to scientific and educational advancement. By expanding Mathematics understanding and promoting Mathematics applications, her work strengthens Mathematics communities globally. Ultimately, her contributions to Mathematics reflect unwavering dedication to the field, ensuring Mathematics development for future generations in Mathematics.

Dr. Apratim Chakraborty | Engineering | Best Researcher Award

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Dr. Apratim Chakraborty | Engineering | Best Researcher Award

Postdoctoral Research Fellow at University of Michigan Dearborn, United States

Dr. Apratim Chakraborty is a distinguished researcher in Engineering, recognized for his advanced contributions to Engineering fields such as materials science, metallurgy, and additive manufacturing within Engineering. His profile demonstrates extensive involvement in Engineering research that integrates microstructure characterization, failure analysis, and optimization of complex Engineering processes. With publications in high-impact journals, Dr. Chakraborty has solidified his role in advancing Engineering knowledge and developing solutions to Engineering challenges. His experience reflects a professional journey in Engineering that combines academic rigor, industrial collaboration, and Engineering innovation. By driving forward projects in Engineering that address thin-wall components, superalloys, and sustainable approaches, Dr. Chakraborty embodies Engineering leadership and Engineering excellence across diverse domains of Engineering.

Professional Profile

Google Scholar Profile 

Education 

Dr. Apratim Chakraborty’s educational foundation is rooted in Engineering, having pursued advanced degrees in Engineering that highlight his specialization in mechanical and mechatronics Engineering. His academic trajectory has consistently reflected dedication to Engineering methodologies and Engineering applications, with doctoral-level research addressing additive manufacturing in Engineering contexts. Through rigorous research training in Engineering, he mastered areas such as superalloys, actuators, and thin-wall part fabrication, all contributing to Engineering innovation. His studies blended theoretical Engineering with applied Engineering, making his expertise comprehensive and impactful in Engineering. This progression underscores how his educational background in Engineering fosters continuous contributions to Engineering, ensuring his knowledge serves as a basis for future advancements in Engineering.

Experience 

Dr. Apratim Chakraborty’s professional experience centers on Engineering, showcasing positions that leverage Engineering research and Engineering practice across institutions in Engineering. His work as a postdoctoral fellow involved Engineering problem-solving in additive manufacturing and Engineering approaches to microstructural characterization. Industry engagements further emphasized Engineering solutions through consultancy and Engineering collaborations in R&D. He contributed to Engineering projects involving advanced alloys, powder characterization, and sustainable Engineering methods. By managing projects, mentoring students, and implementing Engineering strategies, Dr. Chakraborty’s career reflects the application of Engineering knowledge to real-world Engineering challenges. His experience highlights Engineering leadership, cross-disciplinary Engineering applications, and transformative Engineering outcomes that strengthen his professional presence in Engineering.

Research Interest 

Dr. Apratim Chakraborty’s research interests reflect a deep commitment to Engineering. His focus on Engineering encompasses additive manufacturing, alloy microstructures, thin-wall part fabrication, and sustainable Engineering approaches. He consistently explores Engineering pathways to improve failure analysis, process optimization, and material performance, reinforcing Engineering progress in industry and academia. His projects address Engineering challenges such as micro-cracking in alloys, advanced imaging techniques, and innovative design methodologies in Engineering. By integrating numerical modeling and experimental approaches, his Engineering research extends into practical domains of Engineering manufacturing and reliability studies. These interests illustrate his broad yet targeted dedication to Engineering, ensuring his work advances both theoretical Engineering and applied Engineering innovation.

Award and Honor

Dr. Apratim Chakraborty has earned recognition in Engineering through awards and honors that emphasize his Engineering achievements. His contributions to Engineering research, including impactful publications and Engineering innovations, reflect consistent excellence in Engineering. He has received citations and acknowledgment within Engineering communities, reinforcing his reputation as an Engineering leader. The honors signify his role in advancing Engineering by addressing critical Engineering issues such as additive manufacturing and metallurgical Engineering challenges. Each recognition reflects not only personal achievement but also the progress of Engineering fields through his dedication. The awards serve as validation of his Engineering expertise and Engineering impact, further solidifying his role in international Engineering research.

Research Skill

Dr. Apratim Chakraborty demonstrates extensive Engineering skills essential for advancing Engineering. His Engineering expertise includes additive manufacturing, metallurgical analysis, advanced microscopy, and Engineering-focused process optimization. He possesses Engineering problem-solving skills that address thin-wall fabrication, microstructure failures, and sustainable Engineering methodologies. His Engineering capabilities extend to teamwork, communication, and Engineering project management, which strengthen his role in collaborative Engineering research. By applying Engineering skills to both academic and industrial projects, he continuously enhances Engineering processes. His training in Engineering software, such as SolidWorks, complements his practical Engineering abilities, making his Engineering skill set diverse and impactful. These Engineering proficiencies define his contribution to Engineering research and Engineering practice.

Publication Top Notes 

Title: In-process failure analysis of thin-wall structures made by laser powder bed fusion additive manufacturing
Authors: A Chakraborty, R Tangestani, R Batmaz, W Muhammad, P Plamondon, ...
Journal: Journal of Materials Science & Technology

Title: Role of alloy composition on micro-cracking mechanisms in additively manufactured Ni-based superalloys
Authors: A Chakraborty, W Muhammad, JP Masse, R Tangestani, ...
Journal: Acta Materialia

Title: Processability and characterization of A20X aluminum alloy fabricated by laser powder bed fusion
Authors: M Ghasri-Khouzani, H Karimialavijeh, M Pröbstle, R Batmaz, ...
Journal: Materials Today Communications

Title: An efficient track-scale model for laser powder bed fusion additive manufacturing: part 1-thermal model
Authors: R Tangestani, T Sabiston, A Chakraborty, W Muhammad, L Yuan, ...
Journal: Frontiers in Materials

Title: An efficient track-scale model for laser powder bed fusion additive manufacturing: part 2—mechanical model
Authors: R Tangestani, T Sabiston, A Chakraborty, L Yuan, N Krutz, É Martin
Journal: Frontiers in Materials

Title: Micro-cracking mechanism of RENÉ 108 thin-wall components built by laser powder bed fusion additive manufacturing
Authors: A Chakraborty, R Tangestani, W Muhammad, T Sabiston, JP Masse, ...
Journal: Materials Today Communications

Title: Multi-scale model to simulate stress directionality in laser powder bed fusion: application to thin-wall part failure
Authors: R Tangestani, A Chakraborty, T Sabiston, L Yuan, M Ghasri-Khouzani, ...
Journal: Materials & Design

Title: An investigation into sinterability improvements of 316L binder jet printed parts
Authors: R Batmaz, A Zardoshtian, TD Sabiston, R Tangestani, A Chakraborty, ...
Journal: Metallurgical and Materials Transactions A

Title: Evaluation of different sintering agents for binder jetting of aluminum alloy
Authors: S Im, M Ghasri-Khouzani, W Muhammad, R Batmaz, K Esmati, ...
Journal: Journal of Materials Engineering and Performance

Title: Mitigating inherent micro-cracking in laser additively manufactured RENÉ 108 thin-wall components
Authors: A Chakraborty, R Tangestani, K Esmati, T Sabiston, L Yuan, É Martin
Journal: Thin-Walled Structures

Title: Direct aging of additively manufactured A20X aluminum alloy
Authors: H Karimialavijeh, M Ghasri-Khouzani, A Chakraborty, M Pröbstle, É Martin
Journal: Journal of Alloys and Compounds

Title: Comparison of additively manufactured and cast aluminum A205 alloy
Authors: H Karimialavijeh, M Ghasri-Khouzani, A Chakraborty, JP Harvey, É Martin
Journal: TMS Annual Meeting & Exhibition

Title: Anisotropic sintering behavior of stainless steel 316L printed by binder jetting additive manufacturing
Authors: K Esmati, A Chakraborty, S Pendurti, A Natarajan, É Martin
Journal: Materials Today Communications

Title: Effect of build height on micro-cracking of additively manufactured superalloy RENÉ 108 thin-wall components
Authors: A Chakraborty, R Tangestani, T Sabiston, N Krutz, L Yuan, É Martin
Journal: TMS Annual Meeting & Exhibition Supplemental Proceedings

Title: Design and characterization of self-biasing NiTi spring actuator
Authors: A Chakraborty
Journal: University of Waterloo

Title: Comparative assessment of Ti‐6Al‐4 V titanium alloy fatigue life improvement by vibratory peening, shot peening, and vibratory finishing
Authors: M Paques, A Chakraborty, B Changeux, HY Miao, W Muhammad, ...
Journal: Fatigue & Fracture of Engineering Materials & Structures

Title: Effect of precipitation hardening on the microstructure, mechanical, and corrosion properties of additively manufactured A20X aluminum alloy
Authors: H Karimialavijeh, A Chakraborty, M Azzi, M Proebstle, E Martin
Journal: Materials Science and Engineering: A

Title: Influence of Temperature and Print Orientation on Anisotropic Sintering in Binder Jet SS316L
Authors: K Esmati, A Chakraborty, S Pendurti, A Natarajan, É Martin
Journal: TMS Annual Meeting & Exhibition

Title: Effect of Shot Peening on Fatigue Properties of A20X Fabricated by Laser Powder Bed Fusion
Authors: H Karimialavijeh, A Chakraborty, M Proebstle, E Martin
Journal: TMS Annual Meeting & Exhibition

Title: Heat Treatment of A20X Alloy Manufactured Using Laser Powder Bed Fusion
Authors: H Karimialavijeh, A Chakraborty, M Proebstle, K Oishi, JP Harvey, ...
Journal: TMS Annual Meeting & Exhibition

Conclusion

In conclusion, Dr. Apratim Chakraborty exemplifies Engineering dedication through his journey in Engineering research, Engineering education, and Engineering practice. His expertise across Engineering domains such as additive manufacturing, material characterization, and process optimization reflects commitment to Engineering advancement. With recognition in Engineering, impactful Engineering publications, and innovative Engineering contributions, he stands as a role model in Engineering. His educational background in Engineering, coupled with professional experiences in Engineering academia and industry, ensures his lasting impact on Engineering. The culmination of his work demonstrates a holistic vision of Engineering that continues to inspire progress, innovation, and excellence within the global Engineering community through Engineering knowledge and Engineering leadership.

Assoc. Prof. Dr. Mohammad Hadi Fattahi | Earth | Best Researcher Award

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Assoc. Prof. Dr. Mohammad Hadi Fattahi | Earth | Best Researcher Award

Faculty Member at Islamic Azad University, Iran

Assoc. Prof. Dr. Mohammad Hadi Fattahi is a distinguished scholar whose contributions reflect a deep connection with Earth, integrating Earth sciences, Earth hydrology, Earth climate change, and Earth environmental systems into civil engineering practices. His professional journey highlights a constant dedication to Earth sustainability, Earth resilience, and Earth water resources management. Dr. Fattahi has built a reputation for merging theory with practice, creating models that address Earth drought, Earth hydrological dynamics, and Earth river systems. The essence of his work connects human development with Earth conservation. Through consistent Earth-focused studies, his contributions continue to shape academic and applied frameworks that bring innovative solutions to Earth challenges, placing Earth-centered engineering and Earth resilience at the forefront of his professional identity.

Professional Profile

ORCID Profile | Google Scholar Profile

Education 

Assoc. Prof. Dr. Mohammad Hadi Fattahi pursued education that reflects an enduring commitment to Earth and Earth-centered knowledge. His academic journey in civil engineering centered around Earth hydrology, Earth water resources, and Earth hydraulic structures, emphasizing the integration of Earth environmental systems. Each stage of his education deepened his understanding of Earth sustainability and Earth modeling, enabling him to explore Earth fractals, Earth chaotic analysis, and Earth drought management. By focusing on Earth systems during his higher education, he cultivated expertise linking Earth theory and Earth application. His studies consistently revolved around Earth change, Earth risk management, and Earth resources, empowering him to generate insights into Earth complexities and Earth environmental challenges with an academic foundation rooted in Earth priorities.

Experience 

Assoc. Prof. Dr. Mohammad Hadi Fattahi has accumulated vast professional experience aligned with Earth, ensuring Earth knowledge translates into practical outcomes. His academic and research activities consistently integrate Earth water systems, Earth hydrological risks, Earth environmental modeling, and Earth civil engineering structures. In his role as an educator, he trains future engineers with Earth-focused methodologies, connecting Earth learning with real-world Earth solutions. His supervision of projects incorporates Earth resilience, Earth adaptation, and Earth sustainability approaches. Professional engagements involve collaborations on Earth environmental systems, Earth river basin management, and Earth hydraulic applications. His work highlights Earth awareness in urban planning and Earth resilience in infrastructure, ensuring that Earth concerns remain central to his professional contributions across teaching and research practices.

Research Interest 

Assoc. Prof. Dr. Mohammad Hadi Fattahi’s research interests strongly emphasize Earth systems and Earth applications in civil engineering. He explores Earth hydrology, Earth climate change, Earth drought, Earth rainfall, and Earth streamflow predictability. His studies use Earth fractal analysis, Earth chaotic models, and Earth nonlinear dynamics to uncover patterns in Earth environmental data. By applying innovative Earth modeling, he addresses Earth landslides, Earth floods, and Earth urban resilience. His research integrates Earth sustainability, Earth ecosystems, and Earth hydraulic analysis with multidisciplinary methods. These interests position him as a leading figure exploring Earth challenges with advanced analytical tools, ensuring Earth knowledge translates into impactful outcomes that safeguard Earth resources and enhance understanding of Earth’s environmental complexities through civil engineering insights.

Award and Honor

Assoc. Prof. Dr. Mohammad Hadi Fattahi has received awards and honors that reflect his dedication to Earth, showcasing excellence in Earth-focused research and Earth civil engineering. His recognition as a leading researcher stems from contributions advancing Earth hydrology, Earth drought resilience, and Earth hydraulic modeling. These awards underline his impact on Earth knowledge, Earth sustainability, and Earth environmental systems. Honors validate his work on Earth fractal analysis, Earth water resources, and Earth climate change, all essential to Earth adaptation strategies. His acknowledgment by institutions strengthens his role as a pioneer who transforms Earth challenges into Earth solutions. Each honor reaffirms his continuous devotion to Earth-focused scholarship, placing Earth at the core of his achievements, accomplishments, and ongoing Earth-centered vision.

Research Skill

Assoc. Prof. Dr. Mohammad Hadi Fattahi possesses strong research skills directed toward Earth challenges, blending Earth hydrology, Earth modeling, and Earth environmental analysis. His expertise includes Earth fractal methods, Earth chaotic analysis, Earth hydraulic simulations, and Earth drought prediction. These skills allow him to decode Earth systems, evaluate Earth rainfall extremes, and predict Earth resilience under environmental stress. His analytical strength involves using Earth computational tools to model Earth flow patterns and Earth vegetation effects. Earth cross-correlation, Earth multifractal applications, and Earth nonlinear dynamics further expand his toolkit. These research skills showcase his ability to bridge Earth theory with Earth practice, consistently addressing Earth complexities and producing impactful Earth-based insights applicable to academic and real-world Earth issues.

Publication Top Notes

Title: A multifractal cross-correlation investigation into sensitivity and dependence of meteorological and hydrological droughts on precipitation and temperature
Author: F Rahmani, MH Fattahi
Journal: Natural Hazards

Title: Investigation of alterations in droughts and floods patterns induced by climate change
Author: F Rahmani, MH Fattahi
Journal: Acta Geophysica

Title: Climate change-induced influences on the nonlinear dynamic patterns of precipitation and temperatures (case study: Central England)
Author: F Rahmani, M Fattahi
Journal: Theoretical and Applied Climatology

Title: Association between forecasting models’ precision and nonlinear patterns of daily river flow time series
Author: F Rahmani, MH Fattahi
Journal: Modeling Earth Systems and Environment

Title: The robust fractal analysis of time series: concerning signal class and data length
Author: MH Fattahi, N Talebbeydokhti, GR Rakhshandehroo, A Shamsai, ...
Journal: Fractals

Title: Prediction of surface and subsurface flow in catchments using the GIUH
Author: T Sabzevari, MH Fattahi, R Mohammadpour, S Noroozpour
Journal: Journal of Flood Risk Management

Title: Exploring the association between anomalies and multifractality variations in river flow time series
Author: F Rahmani, MH Fattahi
Journal: Hydrological Sciences Journal

Title: Long-term evaluation of land use/land cover and hydrological drought patterns alteration consequences on river water quality
Author: F Rahmani, M Fattahi
Journal: Environment, Development and Sustainability

Title: Phase space mapping of pivotal climatic and non-climatic elements affecting basin’drought
Author: F Rahmani, MH Fattahi
Journal: Arabian Journal of Geosciences

Title: The relationship between watershed compactness coefficient and the fractal characteristics
Author: MH Fattahi, Z Talebzadeh
Journal: Iran-Water Resources Research

Title: Revealing the chaotic nature of river flow
Author: MH Fattahi, N Talebbeydokhti, H Moradkhani, E Nikooee
Journal: Iranian Journal of Science and Technology. Transactions of Civil Engineering

Title: Evaluation of nonlinear dynamic patterns of extreme precipitation and temperatures in central England during 1931–2019
Author: F Rahmani, MH Fattahi
Journal: Journal of Water and Climate Change

Title: Nonlinear dynamic analysis of the fault activities induced by groundwater level variations
Author: F Rahmani, MH Fattahi
Journal: Groundwater for Sustainable Development

Title: The influence of rainfall time series fractality on forecasting models’ efficiency
Author: F Rahmani, MH Fattahi
Journal: Acta Geophysica

Title: Investigation of denoising effects on forecasting models by statistical and nonlinear dynamic analysis
Author: F Rahmani, MH Fattahi
Journal: Journal of Water and Climate Change

Title: Fractal assessment of wavelet based techniques for improving the predictions of the artificial neural network
Author: MH Fattahi, N Talebbeydokhti, GR Rakhshandehroo, A Shamsai, ...
Journal: Journal of Food, Agriculture & Environment

Title: Exploring the sensitivity of river flow patterns to meteorological drought using multifractal and cross-correlation applications
Author: F Rahmani, MH Fattahi
Journal: Journal of Water and Climate Change

Title: Spatial–temporal analysis of landslides in complex hillslopes of catchments using Dynamic Topmodel
Author: F Bahmani, MH Fattahi, T Sabzevari, AT Haghighi, A Talebi
Journal: Acta Geophysica

Title: Assessment of Seismic Resilience in Urban Water Distribution Network Considering Hydraulic Indices
Author: A Nariman, MH Fattahi, N Talebbeydokhti, MS Sadeghian
Journal: International Journal of Science and Technology, Transaction B, Engineering

Title: Estimating runoff in ungauged catchments by Nash-GIUH model using image processing and fractal analysis
Author: M Tarahi, T Sabzevari, MH Fattahi, T Derikvand
Journal: Stochastic Environmental Research and Risk Assessment

Conclusion

Assoc. Prof. Dr. Mohammad Hadi Fattahi’s career demonstrates a profound alignment with Earth, integrating Earth civil engineering, Earth hydrology, and Earth environmental resilience. His contributions place Earth at the center of academic research, Earth-focused teaching, and Earth professional practices. By merging Earth theory with Earth applications, he ensures Earth challenges are addressed with innovative approaches. His awards validate his Earth-centered excellence, and his publications strengthen Earth knowledge globally. The conclusion of his academic journey remains ongoing, as Earth continues to inspire his work. Through teaching, research, and applied projects, his vision reinforces Earth sustainability, Earth adaptation, and Earth resilience, ensuring Earth remains protected and enriched through science-driven solutions.

Dr. Derya Bayril Aykut | Mathematics | Best Researcher Award

Published on by Physicist Particle

Dr. Derya Bayril Aykut | Mathematics | Best Researcher Award

Research Assistant at Dokuz Eylül University, Turkey

Dr. Derya Bayril Aykut has a distinguished academic profile rooted deeply in Mathematics, contributing significantly to advanced Mathematics research. Her expertise spans pure Mathematics, applied Mathematics, and innovative Mathematics-based methodologies. She has developed original Mathematics theories in geometry and kinematics while applying Mathematics to interdisciplinary fields. Mathematics is central to her academic publications, presentations, and teaching philosophy. With Mathematics as a core foundation, she actively engages in Mathematics communities, contributing to Mathematics conferences, Mathematics seminars, and Mathematics collaborations. Mathematics informs every stage of her scholarly work, from problem formulation to solution development. Her commitment to Mathematics extends beyond research, integrating Mathematics into student mentorship and academic service, reflecting a career entirely shaped by Mathematics excellence.

Professional Profile

Google Scholar

Education 

Dr. Derya Bayril Aykut’s educational journey is firmly anchored in Mathematics, with a doctoral degree in Mathematics and postgraduate specialization in Mathematics. She pursued Mathematics studies at renowned institutions, advancing her understanding of Mathematics theories, Mathematics applications, and Mathematics research techniques. Her doctoral work focused on the application of Mathematics to Lie group analysis and kinematics, demonstrating a mastery of Mathematics problem-solving. Through her education, Mathematics became the framework for her intellectual growth, allowing her to explore both theoretical Mathematics and applied Mathematics. Her continuous academic involvement in Mathematics ensures she stays updated on global Mathematics advancements. Education in Mathematics not only shaped her expertise but also reinforced her dedication to promoting Mathematics in teaching and scholarly projects.

Experience 

Dr. Derya Bayril Aykut’s professional experience reflects a continuous engagement with Mathematics in academia and research. She has taught Mathematics courses, including Calculus I and Calculus II, introducing students to foundational Mathematics concepts and advanced Mathematics techniques. Her professional contributions involve presenting Mathematics research at conferences, publishing Mathematics articles, and participating in Mathematics-focused scientific organizations. Mathematics informs her approach to problem-solving, enabling her to address complex challenges through Mathematics models. She collaborates internationally with Mathematics scholars to expand Mathematics knowledge and practical applications. Her career trajectory demonstrates a seamless integration of Mathematics in teaching, research, and service, ensuring Mathematics remains at the center of her professional identity, inspiring future Mathematics scholars through her academic contributions.

Research Interest 

Dr. Derya Bayril Aykut’s research interests lie within advanced Mathematics, including geometry, kinematics, and applications of Mathematics to physical systems. She investigates Mathematics frameworks for rigid-body motions, Lie group theory, and space kinematics, demonstrating the versatility of Mathematics in addressing real-world and abstract problems. Her work explores Mathematics methods in both theoretical Mathematics and applied Mathematics contexts, bridging pure Mathematics research with interdisciplinary studies. She emphasizes the role of Mathematics in modeling, simulation, and computational problem-solving. Her publications showcase Mathematics innovations that contribute to global Mathematics discourse. She is dedicated to exploring new Mathematics perspectives, ensuring her research remains relevant and impactful within the evolving landscape of Mathematics sciences and applications.

Award and Honor

Dr. Derya Bayril Aykut has received recognition for her contributions to Mathematics, reflecting her commitment to Mathematics advancement. Her achievements in Mathematics include publishing impactful Mathematics research, presenting Mathematics findings at prestigious Mathematics conferences, and receiving honors for excellence in Mathematics education and scholarship. Memberships in Mathematics associations further underline her leadership within the Mathematics community. She has been part of collaborative Mathematics projects recognized nationally and internationally. These awards and honors acknowledge her dedication to Mathematics progress and the dissemination of Mathematics knowledge. Each recognition strengthens her resolve to further integrate Mathematics into academia, research, and professional service, ensuring Mathematics remains a driving force in her academic career.

Research Skill

Dr. Derya Bayril Aykut possesses a broad range of Mathematics research skills, including theoretical Mathematics analysis, applied Mathematics modeling, and computational Mathematics simulations. She excels in Mathematics problem formulation, solution optimization using Mathematics techniques, and interpretation of Mathematics results. Her proficiency in advanced Mathematics tools and programming enhances her ability to work on complex Mathematics challenges. Skilled in both pure Mathematics and applied Mathematics, she bridges the gap between Mathematics theory and practice. Her expertise extends to writing Mathematics research papers, delivering Mathematics presentations, and leading Mathematics collaborations. These Mathematics skills allow her to contribute meaningfully to academic Mathematics discussions, producing high-quality Mathematics outputs recognized in the global Mathematics community.

Publication Top Notes

Title: On plane-symmetric rigid-body motions
Author: D Bayril, JM Selig
Journal: Journal of Geometry

Title: The geometry of line-symmetric rigid-body motions
Author: D Bayril, JM Selig
Journal: Differential Geometry and its Applications

Title: Lie Algebra Contributions to Instantaneous Plane Kinematics
Author: İ Karakılıç, DB Aykut
Journal: Ikonion Journal of Mathematics

Conclusion

Dr. Derya Bayril Aykut’s career is a testament to the transformative power of Mathematics, as every stage of her academic and professional life has been guided by Mathematics principles. From her Mathematics education to her Mathematics research, teaching, and publications, Mathematics serves as the foundation of her contributions to academia. Her dedication to Mathematics excellence is evident in her achievements, skills, and collaborations, all of which enhance the global Mathematics landscape. She continues to promote Mathematics through active participation in Mathematics communities and projects. Her legacy in Mathematics will inspire future generations of Mathematics scholars to embrace Mathematics as both a discipline and a lifelong pursuit.

Dr. Claudia Colaiacomo | Experimental Methods | Young Scientist Award

Published on by Physicist Particle

Dr. Claudia Colaiacomo | Experimental Methods | Young Scientist Award

Ph.D. student at Università Campus Bio-Medico di Roma, Italy

Dr. Claudia Colaiacomo has developed a strong expertise in biomedical sciences through her academic and research journey, with a special focus on Experimental Methods. Her career demonstrates a consistent commitment to Experimental Methods in biomedical engineering, regenerative orthopaedics, and bioartificial systems. She has actively participated in innovative projects where Experimental Methods guided the design, testing, and validation of complex biomedical solutions. With deep skills in cell culture, advanced laboratory techniques, and microfluidic device fabrication, Dr. Claudia Colaiacomo’s work integrates Experimental Methods across all stages of scientific inquiry. Her professional vision is rooted in applying Experimental Methods to improve healthcare outcomes, advance tissue regeneration strategies, and develop new technologies that merge engineering with medicine.

Professional Profile

ORCID Profile

Education 

Dr. Claudia Colaiacomo’s academic background combines engineering knowledge with a mastery of Experimental Methods. She completed advanced degrees in biomedical engineering with a curriculum emphasizing nanotecnologies and tissue regeneration, where Experimental Methods played a central role. Her thesis projects involved the synthesis, characterization, and biological testing of nanomaterials, showcasing her ability to apply Experimental Methods in both static and dynamic environments. Throughout her education, Experimental Methods were applied to microfluidic systems, organ-on-chip devices, and nanogel analysis. Laboratory coursework and research modules continuously refined her understanding of Experimental Methods, enabling her to connect theoretical foundations with practical biomedical applications. This integration of engineering principles with Experimental Methods has shaped her ability to contribute effectively to multidisciplinary research environments.

Experience 

Dr. Claudia Colaiacomo’s professional journey is distinguished by positions that required precision, adaptability, and consistent application of Experimental Methods. She has contributed as a Ph.D. student, research fellow, and tutor, all while leveraging Experimental Methods to advance projects in orthopaedic regeneration, spine care, and cellular analysis. Her roles included developing protocols, managing teams, and preparing scientific reports, each relying on Experimental Methods for data accuracy and reproducibility. In clinical and laboratory contexts, she applied Experimental Methods to evaluate biomaterials, optimize cell viability, and perform advanced imaging. Collaborative work with multidisciplinary teams further enhanced her ability to adapt Experimental Methods for both academic research and translational medical innovations, ensuring results met rigorous scientific and ethical standards.

Research Interest 

Dr. Claudia Colaiacomo’s research interests are rooted in advancing biomedical technologies through innovative Experimental Methods. She focuses on applying Experimental Methods to tissue engineering, regenerative orthopaedics, and bioartificial systems. Her work investigates how Experimental Methods can be optimized for nanomaterial design, microfluidic devices, and cell culture systems. She is particularly interested in Experimental Methods that bridge engineering with medical sciences to develop patient-specific solutions. Her projects often explore new Experimental Methods for cellular response analysis, material biocompatibility, and therapeutic delivery mechanisms. By continuously refining Experimental Methods, she aims to contribute to breakthroughs in personalised medicine, disease modelling, and advanced biomedical devices, ensuring that each innovation is grounded in reliable and reproducible scientific processes.

Award and Honor

Dr. Claudia Colaiacomo has received recognition for her contributions to biomedical engineering, where Experimental Methods were at the core of her achievements. These awards and honors reflect her dedication to advancing research using Experimental Methods in multidisciplinary contexts. Each recognition underscores her ability to design and implement Experimental Methods that generate high-impact results, whether in laboratory settings or collaborative projects. Through these accolades, Dr. Claudia Colaiacomo has demonstrated that excellence in Experimental Methods can drive significant progress in biomedical research and technology development. Her honors celebrate both her technical expertise and her commitment to ensuring that Experimental Methods maintain the highest standards of accuracy and innovation.

Research Skill

Dr. Claudia Colaiacomo possesses extensive research skills, with a strong emphasis on Experimental Methods in biomedical applications. She is proficient in Experimental Methods for cell culture, viability assays, cytotoxicity analysis, molecular biology protocols, and advanced imaging. Her skillset also covers Experimental Methods in microfabrication, organ-on-chip development, and biomechanical modelling. She integrates Experimental Methods with computational tools such as COMSOL Multiphysics, MATLAB, and Python for data analysis and simulation. These abilities allow her to design, execute, and evaluate complex biomedical experiments with precision. Her continuous application of Experimental Methods ensures that research outcomes are both reproducible and impactful, strengthening the connection between laboratory findings and real-world biomedical challenges.

Publication Top Notes 

Title: Existence of One Solution to a Complete Second Order Discrete Problem of Neural Type with Possibly Negative Coefficients

Authors: Eleonora Amoroso; Claudia Colaiacomo; Giuseppina D’Aguì; Pierandrea Vergallo

 Journal: Mediterranean Journal of Mathematics

Title: Whole-Body Electromyostimulation Coupled with Aerobic Exercise Boosts Serum Irisin Levels in Healthy Individuals: A Pilot Study

Authors: Claudia Colaiacomo

 Journal: Journal of Functional Morphology and Kinesiology

Title: A second order Hamiltonian neural model

Authors: E. Amoroso; C. Colaiacomo; G. D’Aguì; P. Vergallo

 Journal: Applied Mathematics Letters

Conclusion

Dr. Claudia Colaiacomo’s career illustrates how consistent dedication to Experimental Methods can lead to meaningful advancements in biomedical science and engineering. Her expertise in Experimental Methods extends across education, professional practice, and research, forming a cohesive approach to solving complex healthcare challenges. She applies Experimental Methods not only as technical procedures but also as strategic tools for innovation, collaboration, and knowledge creation. Her achievements demonstrate that well-designed Experimental Methods are the foundation of reliable scientific discovery. By continuing to develop and refine Experimental Methods, Dr. Claudia Colaiacomo is well-positioned to make enduring contributions to regenerative medicine, nanotechnology, and biomedical device development.