Mandli Rami Reddy | Mathematical Engineering | India

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Assist. Prof. Dr. Mandli Rami Reddy | Mathematical Engineering | India

Assistant Professor at Srinivasa Ramanujan Institute of Technology, India

Assist. Prof. Dr. Mandli Rami Reddy is a distinguished academic and researcher with over 18 years of teaching and research experience in Electronics and Communication Engineering, specializing in Wireless Sensor Networks, Wireless Communications, and IoT. He earned his B.Tech from SVCET, M.Tech in Communication and Signal Processing from GPREC, and is currently pursuing his Ph.D. at JNTUA, Anantapur. He has published numerous impactful papers in SCIE and Scopus-indexed journals and international conferences, along with four published patents in advanced wireless, AI, and IoT technologies. Beyond research, he actively contributes as a reviewer for reputed journals and is a life member of professional bodies including ISTE, IE(I), and IETE. His innovative research, academic leadership, and community involvement mark him as a promising scholar with strong future potential.

Professional Profile

Google Scholar | ORCID Profile 

Education

Assist. Prof. Dr. Mandli Rami Reddy has pursued a strong academic foundation in Electronics and Communication Engineering. He completed his Bachelor of Technology (B.Tech) in Electronics and Communication Engineering from SVCET, Chittoor, affiliated with JNTU Hyderabad. He later obtained his Master of Technology (M.Tech) in Communication and Signal Processing from GPREC, Kurnool, Andhra Pradesh. With a strong interest in advanced research, he is currently pursuing his Ph.D. at Jawaharlal Nehru Technological University Anantapur (JNTUA), Andhra Pradesh, India. His academic journey reflects a continuous pursuit of knowledge and innovation, with a focus on wireless sensor networks and communication systems. His educational background equips him with both theoretical expertise and practical insights into the evolving field of communication engineering, laying the groundwork for impactful research and teaching contributions.

Experience

Dr. Mandli Rami Reddy has more than eighteen years of academic and research experience, primarily as an Assistant Professor in Electronics and Communication Engineering. Over the years, he has served in several reputed engineering institutions across Andhra Pradesh and Telangana before joining Srinivasa Ramanujan Institute of Technology, Anantapur, where he continues to contribute actively. His teaching spans a wide range of subjects in communication and electronics, nurturing young engineers with strong technical skills and research-oriented thinking. With his expertise, he has mentored students in academic projects, research publications, and technology-driven innovations. In addition to teaching, he has established himself as a productive researcher with a series of published papers, patents, and international collaborations, thus balancing both academic and professional contributions effectively throughout his career.

Research Interest

The primary research interests of Dr. Mandli Rami Reddy focus on Wireless Sensor Networks, Wireless Communications, and Internet of Things (IoT). His studies emphasize enhancing localization techniques, improving network coverage, and optimizing energy efficiency in sensor networks using advanced algorithms. He has applied methods such as Particle Swarm Optimization, Genetic Algorithms, and Grey Wolf Optimization to develop robust solutions for network performance challenges. Furthermore, his research extends to the design of intelligent IoT devices, AI-based tools for optical communication, and sustainable applications like smart waste management systems. His publications in leading SCIE and Scopus-indexed journals demonstrate his commitment to addressing real-world technological issues. Through these research pursuits, he aims to contribute solutions that not only advance the field of communication engineering but also benefit industrial applications and societal needs.

Award and Honor

Throughout his career, Dr. Mandli Rami Reddy has been recognized for his contributions to research and academia. He has successfully published four patents in areas spanning wireless sensor networks, AI-based communication devices, and IoT-driven applications, demonstrating his innovation and problem-solving abilities. His academic publications in prestigious journals such as Applied Sciences, Wireless Networks, Computers, and SN Computer Science reflect his scholarly impact. He also contributes as a reviewer for reputed journals like the American Journal of Applied Scientific Research, showcasing his professional recognition within the research community. In addition, his memberships with professional organizations such as ISTE, IEI, IETE, IAENG, and SDIWC highlight his active engagement in professional networks. These honors collectively underline his dedication, innovation, and leadership in engineering research and education.

Research Skill

Dr. Mandli Rami Reddy possesses diverse research skills spanning algorithm development, wireless network optimization, and IoT device innovation. His expertise lies in improving accuracy in localization algorithms such as DV-Hop by integrating metaheuristic techniques including Particle Swarm Optimization and Genetic Algorithms. He has also worked extensively on energy-efficient protocols for wireless networks and smart device integration for sustainable applications. His ability to file patents demonstrates not only research competence but also practical application of technology to real-world challenges. Proficiency in academic writing, data analysis, and project execution further strengthen his profile as a capable researcher. Additionally, his collaborative approach and reviewing experience enhance his ability to critically assess and contribute to the scientific community. These combined skills enable him to create impactful and innovative research outcomes with academic and industrial relevance.

Publication Top Notes

  • Title: Energy-Efficient Cluster Head Selection in Wireless Sensor Networks Using an Improved Grey Wolf Optimization Algorithm
    Authors: M. R. Reddy, M. L. R. Chandra, P. Venkatramana, R. Dilli
    Year: 2023
    Citations: 122

  • Title: High Speed, Low Matchline Voltage Swing and Search Line Activity TCAM Cell Array Design in 14 nm FinFET Technology
    Authors: Ravindra Kumar
    Year: 2020
    Citations: 9*

  • Title: An improved 3D-DV-hop localization algorithm to improve accuracy for 3D wireless sensor networks
    Authors: M. R. Reddy, M. L. R. Chandra
    Year: 2024
    Citations: 5

  • Title: An enhanced 3D-DV-hop localisation algorithm for 3D wireless sensor networks
    Authors: M. R. Reddy, M. L. Ravi Chandra
    Year: 2024
    Citations: 3

  • Title: System Identification Using an Affine Combination of Two LMS Adaptive Filters
    Authors: P. Nagarjuna, M. Rami Reddy
    Year: 2012
    Citations: 1

  • Title: Enhanced Cuckoo Search Optimization with Opposition-Based Learning for the Optimal Placement of Sensor Nodes and Enhanced Network Coverage in Wireless Sensor Networks
    Authors: M. R. Reddy, M. L. R. Chandra, R. Dilli
    Year: 2025

  • Title: A Simplified Approach of Correlated Rician Fading Channel Estimation in Multi-User Ultra-Massive MIMO RIS-assisted Narrow Band Wireless Systems
    Authors: R. R. Mandli, M. L. R. Chandra, R. Dilli
    Year: 2024

  • Title: Optimal Node Deployment and Coverage in Next Generation Wireless Sensor Networks Applications
    Authors: R. R. Mandli, M. L. R. Chandra, R. Dilli
    Year: 2024

  • Title: Gaussian-Newton Localization Through Multilateration Algorithm for Wireless Sensor Networks
    Authors: M. R. Reddy, M. L. R. Chandra
    Year: 2023

  • Title: Design of 6G Communication System at THz Frequency Bands
    Authors: R. Dilli, R. C. M. L., R. R. Mandli
    Year: 2021

  • Title: Optimization Algorithm for Noise Cancellation Using Adaptive Estimator
    Authors: T. K. P. Mandli Rami Reddy, C. Thippeswamy
    Year: 2020

  • Title: A Nature Based Computing Technique for Image Watermarking using Bacterial Foraging Optimization, Wavelet and Cosine Transform
    Authors: M. L. R. C. Alam Siva Sankar, Mandli Rami Reddy
    Year: 2020

Conclusion

Assist. Prof. Dr. Mandli Rami Reddy stands out as a dedicated academician, researcher, and innovator with nearly two decades of impactful contributions in teaching and research. His educational background, research achievements, patents, and professional involvement position him as a strong contributor to the fields of communication engineering and IoT. With publications in reputed journals, successful patents, and active participation in professional societies, he continues to inspire students and peers alike. His balanced expertise in both theory and application reflects his commitment to bridging academic research with practical innovations. Looking ahead, his strong foundation, research skills, and leadership potential will enable him to expand international collaborations, publish in top-tier journals, and contribute further to advancing technology and benefiting society.

Anita Tomar | Pure Mathematics | Excellence in Research

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Prof. Anita Tomar | Pure Mathematics | Excellence in Research

Professor and Head at Pt. L. M. S. Campus, Sri Dev Suman Uttarakhand University, Rishikesh, India

Professor Anita Tomar is a distinguished academic with over 25 years of experience in mathematics. Currently serving as the Head of the Department of Mathematics at Sri Dev Suman Uttarakhand University, she specializes in Fixed Point Theory, Fractals, and Nonlinear Functional Analysis. With a Ph.D. in Mathematics and more than 95 publications, including 10 book chapters and one edited book, she has made significant contributions to the field. She has earned numerous accolades, including the “Excellence in Research Award 2023” and the “Chief Minister Excellence and Good Governance Award 2020-21.” 🌟📚 Prof. Tomar has collaborated internationally with experts from various countries and played a key role in developing syllabi under NEP 2020 for multiple institutions. 🌍 Her research includes groundbreaking work on fixed points, fractals, and their applications in science and technology. 🧮🔬 As a renowned educator and researcher, she continues to inspire the academic community.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

Education 📖🎓

Professor Anita Tomar’s educational journey is a testament to her dedication to mathematics. She holds a Ph.D. in Mathematics, having earned it through years of rigorous research and exploration of specialized mathematical fields. Her academic foundation also includes a Master’s in Mathematics, which she completed with distinction. 📖🎓 Her deep understanding of mathematical concepts is reflected in her research and teaching, where she has inspired numerous students to pursue advanced studies in the field. Her education has paved the way for a successful career, allowing her to contribute significantly to the advancement of mathematical knowledge. 🌟

Professional Experience 👩‍🏫✨

With over 25 years of teaching experience, Professor Anita Tomar is a highly respected academic leader. 🌱 She has served as the Head of the Department of Mathematics at Sri Dev Suman Uttarakhand University, where she has shaped the curriculum and mentored students. 🏫 Her professional journey also includes teaching at prestigious institutions and guiding students at all levels, from undergraduate to Ph.D. Her expertise spans both theoretical and applied mathematics, and she has contributed to the development of new academic programs under India’s NEP 2020. Her leadership continues to influence the future of mathematics education. 👩‍🏫✨

Research Interests 🧮

Professor Anita Tomar’s research is centered on Fixed Point Theory, Nonlinear Functional Analysis, and Fractals. 🧮 Her work on the applications of these mathematical concepts to real-world problems, such as drug diffusion and tumor micro-environments, has established her as a leader in interdisciplinary mathematical research. 🔬 Her extensive publication record, which includes 95 papers and 10 book chapters, showcases the breadth and depth of her contributions. 🌍📚 She is passionate about advancing mathematical theories and exploring their applications in areas like physics, biology, and engineering. Her innovative research continues to push the boundaries of mathematical science. 🌟

Awards and Honors 🏆

Throughout her career, Professor Anita Tomar has received numerous prestigious awards and honors that recognize her exceptional contributions to mathematics. 🏆 These accolades include the “Excellence in Research Award 2023” and the “Chief Minister Excellence and Good Governance Award 2020-21,” underscoring her impact in both academic and societal contexts. 🌟 Her accolades reflect her ongoing commitment to advancing mathematical research and education. As a respected figure in her field, she continues to inspire and lead through both her scholarly work and her mentoring of the next generation of mathematicians. 🌟📜

Conclusion🌍📚

Professor Anita Tomar’s career is a shining example of excellence in mathematics. With a rich educational background, decades of professional experience, and a strong research record, she has made invaluable contributions to the mathematical community. 🌍📚 Her dedication to education, research, and interdisciplinary applications of mathematics has earned her widespread recognition. Through her awards, leadership roles, and collaborative work with international researchers, Professor Tomar continues to inspire both her peers and students. 🌟 As a researcher and educator, her passion for mathematics is unmatched, and she remains an influential figure in her field. 🌟

Publications Top Notes

🌀 Fractal Generation via Generalized Fibonacci–Mann Iteration with S-Convexity
Authors: S. Antal, N. Özgür, A. Tomar, K. Gdawiec
Year: 2024
Citation: Indian Journal of Pure and Applied Mathematics, 1-15
Source: Indian Journal of Pure and Applied Mathematics 🧮🔢

📊 Best Proximant for Set-Valued Maps via Proximal Relations
Authors: S. Petwal, A. Tomar, M. Joshi
Year: 2023
Citation: International Journal of Nonlinear Analysis and Applications, 14(1), 1237-1247
Source: International Journal of Nonlinear Analysis and Applications 📊📈

✍️ On Solutions to Open Problems and Volterra-Hammerstein Non-linear Integral Equation
Authors: S. Beloul, A. Tomar, M. Joshi
Year: 2022
Citation: Applied Mathematics E-Notes, 22, 692-711
Source: Applied Mathematics E-Notes ✍️📚

🔄 Fixed Point on Complete M-Metric Spaces via F(ψ, φ)- Contraction Mappings and Application to Periodic Differential Equation
Authors: S. Petwal, A. Tomar, M. Joshi
Year: 2021
Citation: Azerbaijan J. Math., 11(2 special issue), 29-48
Source: Azerbaijan Journal of Mathematics 🔄🌀

📐 Results in Strongly Minihedral Cone and Scalar Weighted Cone Metric Spaces and Applications
Authors: A. Tomar, M. Joshi
Year: 2021
Citation: Annales Mathematicae Silesianae, DOI: 10.2478/amsil-2021-0009
Source: Annales Mathematicae Silesianae 📐🔺

🧩 Existence of Coincidence and Common Fixed Points for Weakly Compatible Mappings in Symmetric Spaces
Authors: S. Manro, A. Tomar, S. M. Kang
Year: 2015
Citation: Bangmod Int. J. Math. & Comp. Sci., 1(01), 19-31
Source: Bangmod International Journal of Mathematics & Computer Science 🧩💡

💻 A Common Fixed Point Theorem in Non-Archimedean Menger PM-Space
Authors: S. Chauhan, B.D. Pant, S. Kumar, A. Tomar
Year: 2013
Citation: Analele Universitatii Oradea Fasc. Matematica, 20(02), 75-84
Source: Analele Universitatii Oradea 📚💻

Positive Solutions of Discrete Fractional Sturm–Liouville Problems
Authors: J.M. Jonnalagadda, A. Tomar
Year: 2025
Citation: Journal of Mathematical Sciences, 1-14
Source: Journal of Mathematical Sciences 🧮✨

🔬 Non-Contractive Mappings and Application to a Drug Diffusion Problem
Authors: R.P. Pant, A. Tomar, M. Joshi
Year: 2025
Citation: Applied General Topology, 26(1), 221-240
Source: Applied General Topology 🔬💊

🌌 On the Evolution and Importance of the Fibonacci Sequence in Visualization of Fractals
Authors: S. Sharma, A. Tomar, S.K. Padaliya
Year: 2025
Citation: Chaos, Solitons & Fractals, 191, 115851
Source: Chaos, Solitons & Fractals 🔢🌌

🌊 An Effective Iterative Process Utilizing Transcendental Sine Functions for the Generation of Julia and Mandelbrot Sets
Authors: K.H. Alam, Y. Rohen, A. Tomar, N. Saleem, M. Aphane, A. Razzaque
Year: 2025
Citation: Fractal and Fractional, 9(1), 40
Source: Fractal and Fractional 🌊📉

🌍 Assessment and Study of Four Major Air Pollutants in Three Main Garhwal Region in Uttarakhand
Authors: A. Tomar, V. Kumar, P.P. Pathak, F.S. Gill
Year: 2025
Citation: Challenges in Information, Communication and Computing Technology, 286-291
Source: Challenges in Information, Communication and Computing Technology 🌍🌀

🚀 A New Extended Metric Space and Solution of Rocket’s Ascending Motion
Authors: A. Tomar
Year: 2025
Citation: Asian-European Journal of Mathematics, 2550001, 18
Source: Asian-European Journal of Mathematics 🚀📐

💡 Resolving Elliptic Boundary Value Problem and Integral Equation in Relational Partial Metric Space
Authors: M. Joshi, A. Tomar, M. Sajid, S.K. Padaliya
Year: 2024
Citation: Heliyon, 10(23)
Source: Heliyon 💡🌍

🔍 On Set-Valued Fixed Points, Their Geometry, and Solution of Boundary Value Problem for a Differential Inclusion
Authors: M. Joshi, A. Tomar
Year: 2024
Citation: Indian Journal of Pure and Applied Mathematics, 1-16
Source: Indian Journal of Pure and Applied Mathematics 🧮🔍

📈 Asymptotic Behavior of Generalized CR− Iteration Algorithm and Application to Common Zeros of Accretive Operators
Authors: A. Mushtaq, K. Moinuddin, N. Sharma, A. Tomar
Year: 2024
Citation: MATHEMATICA, 399
Source: MATHEMATICA 📈🔄

🗣️ International Symposium on Recent Progress in Fixed Point Theory
Author: A. Tomar
Year: 2023
Citation: Ege University
Source: Ege University 🗣️🔢

Daniel Condurache | Mathematical Engineering | Outstanding Contribution Award

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Prof. Daniel Condurache | Mathematical Engineering | Outstanding Contribution Award

Professor at Technical University of Iasi, Romania

Prof. Daniel Condurache is a distinguished researcher and academic leader specializing in theoretical mechanics, robotics, orbital mechanics, and mathematical modeling. A Professor and PhD Supervisor at Gheorghe Asachi Technical University of Iași, he has held key leadership positions, including Vice-Rector and Head of Department. He is a Corresponding Member of the Romanian Academy and a Senior Member of IEEE, AIAA, AMS, ASME, and AAS, reflecting his international recognition. With over 100 research articles published in prestigious journals, his work spans integral transformations, Lie algebra, and spaceflight mechanics, earning him H-index scores of 12-18 across research databases. He also serves as an editor and reviewer for multiple scientific journals. His contributions to mechanical engineering, mechatronics, and robotics have shaped both academic and industrial research. While already a leading figure, increased international collaborations and industry applications could further enhance his impact. He is an outstanding candidate for the Best Researcher Award.

Professional Profile

Google Scholar
Scopus Profile
ORCID Profile

Education

Prof. Daniel Condurache holds a Ph.D. in Mechanical Engineering (Magna Cum Laude) from Gheorghe Asachi Technical University of Iași, Romania. He also earned an Engineering degree from the Polytechnic Institute of Iași, Faculty of Electronics and Telecommunications. Additionally, he pursued studies in Mathematics at Alexandru Ioan Cuza University of Iași, Romania, further enhancing his analytical skills. His strong academic foundation in mechanical engineering, robotics, and applied mathematics has significantly contributed to his expertise in kinematics, dynamics, and theoretical mechanics. Over the years, he has continued his research in advanced mathematical modeling, integral transformations, and Lie algebra applications in mechanics. His interdisciplinary education has allowed him to bridge gaps between engineering, physics, and mathematics, leading to groundbreaking contributions in robotics, orbital mechanics, and rigid body dynamics. His academic journey reflects a commitment to continuous learning and innovation in theoretical and applied mechanics.

Professional Experience

Prof. Condurache has had a distinguished academic career spanning over four decades at Gheorghe Asachi Technical University of Iași. He has held multiple leadership positions, including Vice-Rector, Head of the Department of Theoretical Mechanics, and Professor. His teaching portfolio includes Theoretical Mechanics, Modeling and Simulation of Mechanical Systems, and Mathematical Foundations of Robotics. Beyond academia, he has contributed as a Ph.D. supervisor in mechanical engineering, mentoring the next generation of researchers. He has also played a vital role in Romania’s academic and research policies as a member of CNATDCU (Mechanical Engineering, Mechatronics, and Robotics) and CCCDI (Ministry of Research, Innovation, and Digitalization). Additionally, he has served as an editor for academic journals and conference proceedings, reinforcing his influence in the field. His extensive experience across teaching, research, and administration highlights his dedication to advancing both academia and engineering innovation.

Research Interests

Prof. Condurache’s research focuses on higher-order kinematics, rigid body dynamics, orbital mechanics, robotics, and Lie algebra applications in engineering. His work integrates mathematics, physics, and engineering principles to develop innovative models for spacecraft dynamics, robotic manipulators, and multibody systems. He specializes in algebraic and geometric methods in dynamical systems, astrodynamics, dual quaternions, integral transformations, and wavelet analysis. His contributions to rigid body motion parameterization using dual tensors and Cayley transforms have been widely recognized in the academic community. His recent publications explore higher-order kinematics of multibody systems and gravitational interactions in non-inertial reference frames, with applications in celestial mechanics, robotics, and spaceflight mechanics. His interdisciplinary research has significantly advanced the understanding of complex mechanical systems and influenced fields such as aerospace engineering, automation, and computational kinematics.

Awards and Honors

Prof. Condurache’s achievements have earned him numerous accolades, including his election as a Corresponding Member of the Romanian Academy and the Academy of Technical Sciences in Romania. He is a Senior Member of IEEE, AIAA (American Institute of Aeronautics and Astronautics), ASME (American Society of Mechanical Engineers), and AMS (American Mathematical Society), demonstrating his global recognition in the scientific community. He is also a founding member of the Romanian Society of Theoretical and Applied Mechanics and has received multiple awards for his research contributions in mechanical engineering and robotics. His extensive publication record, with over 100 research papers in ISI-indexed journals, and an H-index reflecting significant citations, underscores his influence in the field. His impact extends beyond Romania, with collaborations in international research projects and editorial roles in prestigious scientific journals.

Conclusion

Prof. Daniel Condurache is a highly accomplished researcher, educator, and academic leader with an extensive career in mechanical engineering, robotics, and theoretical mechanics. His contributions to kinematics, multibody systems, and rigid body dynamics have significantly influenced both academic research and industrial applications. As a respected professor and Ph.D. supervisor, he has mentored numerous scholars, shaping the future of mechanical engineering and robotics. His global recognition through memberships in prestigious organizations and editorial contributions reflects his commitment to advancing scientific knowledge. With over four decades of experience, multiple leadership roles, and groundbreaking research, Prof. Condurache stands as a leading figure in modern engineering and applied mathematics. His work continues to push the boundaries of kinematic modeling, spaceflight mechanics, and robotic control, ensuring his lasting impact on both theoretical and applied sciences.

Publications Top Noted

  1. Title: Orthogonal Dual Tensor Method for Solving the AX=XB Sensor Calibration Problem

    • Authors: D. Condurache, A. Burlacu

    • Year: 2016

    • Citations: 107

    • Source: Mechanism and Machine Theory, Vol. 104, pp. 382-404

  2. Title: Dual Tensors-Based Solutions for Rigid Body Motion Parameterization

    • Authors: D. Condurache, A. Burlacu

    • Year: 2014

    • Citations: 74

    • Source: Mechanism and Machine Theory, Vol. 74, pp. 390-412

  3. Title: Relative Spacecraft Motion in a Central Force Field

    • Authors: D. Condurache, V. Martinuşi

    • Year: 2007

    • Citations: 48

    • Source: Journal of Guidance, Control, and Dynamics, Vol. 30 (3), pp. 873-876

  4. Title: Resistivity and Curie Point of Li‐Zn Ferrites

    • Authors: N. Rezlescu, D. Condurache, P. Petrariu, E. Luca

    • Year: 1974

    • Citations: 47

    • Source: Journal of the American Ceramic Society, Vol. 57 (1), pp. 40-40

  5. Title: Foucault Pendulum-Like Problems: A Tensorial Approach

    • Authors: D. Condurache, V. Martinuşi

    • Year: 2008

    • Citations: 45

    • Source: International Journal of Non-Linear Mechanics, Vol. 43 (8), pp. 743-760

  6. Title: Left Atrial Structure and Function are Associated with Cardiovascular Outcomes Independent of Left Ventricular Measures: A UK Biobank CMR Study

    • Authors: Z. Raisi-Estabragh, C. McCracken, D. Condurache, N. Aung, J.D. Vargas, et al.

    • Year: 2022

    • Citations: 41

    • Source: European Heart Journal – Cardiovascular Imaging, Vol. 23 (9), pp. 1191-1200

  7. Title: A Minimal Parameterization of Rigid Body Displacement and Motion Using a Higher-Order Cayley Map by Dual Quaternions

    • Authors: D. Condurache, I. Popa

    • Year: 2023

    • Citations: 2

    • Source: Symmetry, Vol. 15 (11), 2011

  8. Title: An Analysis of Higher-Order Kinematics Formalisms for an Innovative Surgical Parallel Robot

    • Authors: C. Vaida, I. Birlescu, B. Gherman, D. Condurache, D. Chablat, D. Pisla

    • Year: 2025

    • Citations: [Not available]

    • Source: Mechanism and Machine Theory, Vol. 209, 105986

  9. Title: An Overview of Higher-Order Kinematics of Rigid Body and Multibody Systems with Nilpotent Algebra

    • Authors: D. Condurache

    • Year: 2025

    • Citations: [Not available]

    • Source: Mechanism and Machine Theory, Vol. 209, 105959

  10. Title: About a Classical Gravitational Interaction in a General Non-Inertial Reference Frame: Applications on Celestial Mechanics and Astrodynamics

    • Authors: D. Condurache, M. Cojocari, I. Popa

    • Year: 2025

    • Citations: [Not available]

    • Source: Symmetry, Vol. 17 (3), 368

  11. Title: A Closed Form of Higher-Order Cayley Transforms and Generalized Rodrigues Vectors Parameterization of Rigid Motion

    • Authors: D. Condurache, M. Cojocari, I.A. Ciureanu

    • Year: 2024

    • Citations: [Not available]

    • Source: Mathematics, Vol. 13 (1), 114

  1. Title: Dual Lie Algebra Representations of the Rigid Body Motion

    • Authors: D. Condurache, A. Burlacu

    • Year: 2014

    • Citations: 35

    • Source: AIAA/AAS Astrodynamics Specialist Conference, 4347

  1. Title: Advances in Robot Kinematics

    • Authors: J. Lenarcic, C. Galletti

    • Year: 2004

    • Citations: 39

    • Source: Kluwer Academic

 

 

Leonid Litinskii | Applied Mathematics | Best Researcher Award

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Dr. Leonid Litinskii | Applied Mathematics | Best Researcher Award

Retired at Scientific Research Institute for System Analysis (formerly), Russia

Dr. Leonid Litinskii is a retired principal research scientist with an extensive academic and professional background in mathematical methods and statistical physics. He graduated from Kharkiv State University, Ukraine, and held prominent positions at the Institute for High Pressure Physics, Russian Academy of Sciences, and the Scientific Research Institute for System Analysis. With over 50 years of research experience, Dr. Litinskii is known for his pioneering work in developing the theory of vector neuron networks and the n-vicinity method for calculating the partition function in the Ising model. He has published around 100 papers in renowned scientific journals and contributed to the study of eigenvalues in the Ising model’s connection matrix. Additionally, Dr. Litinskii has made significant contributions to the analysis of quadratic functionals in large binary variable systems. A member of the European Neural Networks Society, he has left a lasting impact on the fields of mathematics and neural networks.

Professional Profile 

Scopus Profile
ORCID Profile

Education

Dr. Leonid Litinskii completed his education at Kharkiv State University (now V. N. Karazin Kharkiv National University) in Ukraine, where he studied mathematics from 1966 to 1971. This solid foundation in mathematics paved the way for his distinguished career as a scientific researcher. His academic journey has always been focused on applying mathematical methods to complex scientific problems, particularly in statistical physics and neural networks. His studies and early research experiences contributed significantly to his future breakthroughs in these fields.

Professional Experience

Dr. Litinskii’s professional career spans over five decades, with notable research positions at esteemed institutions. He began his career as a scientific researcher at the Institute for High Pressure Physics of the Russian Academy of Sciences from 1973 to 2001. From 2001 to 2023, he worked as a Principal Research Scientist at the Scientific Research Institute for System Analysis, also within the Russian Academy of Sciences. Throughout his career, Dr. Litinskii has contributed extensively to the fields of mathematical physics and neural networks.

Research Interest

Dr. Litinskii’s research interests are primarily centered around mathematical methods in statistical physics and their application to neural networks. He has developed the theory of vector neuron networks and formulated the n-vicinity method for calculating the partition function of the Ising model. His work on the properties of eigenvalues in the Ising model’s connection matrix has been a significant contribution to the field of computational physics. Additionally, Dr. Litinskii has focused on the study of quadratic functionals in large binary variable systems, advancing mathematical modeling techniques.

Award and Honor

Throughout his career, Dr. Litinskii has earned recognition for his groundbreaking work in neural networks and statistical physics. While the details of specific awards and honors are not provided, his long tenure as a Principal Research Scientist and his role in advancing the fields of mathematics and neural networks have earned him respect and recognition in the scientific community. He is a member of the European Neural Networks Society, further emphasizing his distinguished position in the research community.

Conclusion

Dr. Leonid Litinskii’s career is a testament to dedication, innovation, and scholarly excellence. With over 50 years of research experience, his contributions to mathematical physics, neural networks, and statistical physics have been substantial. His work in developing the theory of vector neuron networks and the n-vicinity method has had a lasting impact on these fields. Though he has not yet focused on patents or practical applications, his theoretical contributions remain foundational. Dr. Litinskii’s legacy is one of a leading thinker who has shaped the advancement of mathematical and physical sciences.

Publications Top Noted