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.

Ashot Gevorkyan | Applied Mathematics | Pioneer Researcher Award

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Prof. Ashot Gevorkyan | Applied Mathematics | Pioneer Researcher Award

Dr.Sci. at Institute for Informatics and Automation Problems NAS of Republic of Armenia

Professor Ashot Sergei Gevorkyan is a distinguished theoretical physicist and mathematician specializing in quantum physics, mathematical modeling, and complex dynamical systems. Serving as Head of Scientific Direction for Modeling of Multiscale Physical-Chemical Processes, he has significantly contributed to foundational quantum mechanics, quantum chaos, stochastic systems, and spin dynamics. With a PhD from Leningrad State University and a Doctor of Sciences from St. Petersburg State University, his career spans prestigious institutions across Armenia and Russia. Prof. Gevorkyan has led numerous international research projects, including INTAS and ISTC grants, and developed high-performance parallel algorithms for quantum simulations. His prolific publication record in leading journals like Foundations of Physics, Physics of Atomic Nuclei, and Particles highlights groundbreaking work on quantum vacuum, three-body systems, and self-organizing processes. A former editorial board member of the Journal of Computational Science (Elsevier), he continues to push the boundaries of quantum theory and computational modeling with remarkable depth and innovation.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

Education

Professor Ashot Gevorkyan earned his foundational education in theoretical physics and mathematics at the Leningrad State University, where he received his PhD in Physics and Mathematics in 1978. His doctoral work focused on nonlinear dynamical systems and quantum mechanics. He later earned the prestigious Doctor of Sciences degree in 1990 from the renowned St. Petersburg State University, cementing his expertise in the fields of quantum physics and applied mathematics. Throughout his academic journey, Prof. Gevorkyan has continually integrated rigorous mathematical frameworks with physical theory, demonstrating a strong interdisciplinary foundation. His academic background set the stage for decades of pioneering research at the interface of theoretical physics, stochastic dynamics, and computational modeling. In addition to his formal degrees, Prof. Gevorkyan has participated in numerous international workshops, advanced courses, and research collaborations, enriching his academic repertoire and keeping him at the forefront of contemporary physics and mathematical innovation.

Professional Experience

Prof. Ashot Gevorkyan has held a variety of prominent academic and research roles throughout his distinguished career. He began as a researcher at the Yerevan Physics Institute and later joined the Institute for Informatics and Automation Problems of the National Academy of Sciences of Armenia, where he led groundbreaking work in theoretical modeling and computational physics. He also served as a professor at the State Engineering University of Armenia and collaborated internationally with institutions in Russia and across Europe. Currently, he is Head of the Scientific Direction for Modeling of Multiscale Physical-Chemical Processes. Prof. Gevorkyan has been a principal investigator in multiple large-scale international research projects under the auspices of INTAS, ISTC, and other funding bodies, focusing on quantum chaos, complex systems, and nonlinear dynamics. His leadership in scientific modeling and computational theory has earned him a reputation as a trailblazer in both academic and applied physics communities.

Research Interest

Prof. Ashot Gevorkyan’s research interests lie at the intersection of theoretical physics, quantum mechanics, and complex dynamical systems. He is particularly renowned for his work in quantum chaos, stochastic dynamics, and modeling of multiscale systems. His investigations explore the nature of quantum vacuum, self-organizing processes in quantum systems, and nonlinear spin dynamics in stochastic fields. He has also made notable advances in mathematical modeling using high-performance parallel computing to simulate many-body quantum systems and dissipative environments. His work often combines mathematical rigor with physical intuition, producing results that influence both theory and practical applications. Prof. Gevorkyan’s research portfolio extends to optical turbulence, quantum three-body problems, and fractal structures in open quantum systems. His cross-disciplinary approach has fostered collaborations across mathematics, physics, and computer science, contributing significantly to our understanding of complex physical phenomena and enabling new computational techniques in modern physics.

Award and Honor

Throughout his career, Prof. Ashot Gevorkyan has received numerous awards and honors recognizing his exceptional contributions to science. He has been honored by leading scientific institutions for his pioneering work in quantum theory and mathematical modeling. His projects have received support and recognition from international research programs such as INTAS (International Association for the promotion of cooperation with scientists from the New Independent States of the former Soviet Union) and ISTC (International Science and Technology Center), reflecting the global impact of his research. He has been invited to serve as a keynote speaker and visiting scientist at several prominent international conferences and workshops. Prof. Gevorkyan also served on the editorial board of the Journal of Computational Science (Elsevier), a role that underscores his status as a leading voice in the computational physics community. These accolades affirm his influence in shaping contemporary research across theoretical and applied physics.

Conclusion

Professor Ashot Gevorkyan stands as a luminary in the fields of theoretical physics and computational mathematics. His deep expertise in quantum systems, chaotic dynamics, and complex modeling has not only advanced fundamental science but also provided new computational tools for understanding nature’s most intricate processes. With a career spanning over four decades, he has demonstrated an unwavering commitment to scientific excellence through research, teaching, and international collaboration. His interdisciplinary work bridges theoretical insights with practical innovations, setting a high standard in modern scientific inquiry. Recognized both nationally and internationally, Prof. Gevorkyan continues to inspire the global scientific community through his profound intellect, visionary ideas, and groundbreaking publications. His legacy is defined by a lifelong pursuit of knowledge and a passion for decoding the complexities of the universe through mathematics and physics.

Publications Top Notes

  • Title: General Three-Body Problem in Conformal-Euclidean Space: New Properties of a Low-Dimensional Dynamical System
    Authors: A.S. Gevorkyan, A.V. Bogdanov, V.V. Mareev
    Year: 2024
    Source: Particles, 2024

  • Title: Quantum Chromodynamics of the Nucleon in Terms of Complex Probabilistic Processes
    Authors: A.S. Gevorkyan, A.V. Bogdanov
    Year: 2024
    Citations: 1
    Source: Symmetry, 2024

  • Title: Time-Dependent 4D Quantum Harmonic Oscillator and Reacting Hydrogen Atom
    Authors: A.S. Gevorkyan, A.V. Bogdanov
    Year: 2023
    Citations: 1
    Source: Symmetry, 2023

  • Title: Theoretical and Numerical Study of Self-Organizing Processes in a Closed System Classical Oscillator and Random Environment
    Authors: A.S. Gevorkyan, A.V. Bogdanov, V.V. Mareev, K.A. Movsesyan
    Year: 2022
    Citations: 2
    Source: Mathematics, 2022

  • Title: Hidden Dynamical Symmetry and Quantum Thermodynamics from the First Principles: Quantized Small Environment
    Authors: A.S. Gevorkyan, A.V. Bogdanov, V.V. Mareev
    Year: 2021
    Citations: 3
    Source: Symmetry, 2021

  • Title: Gamma Radiation Production Using Channeled Positron Annihilation in Crystals
    Authors: A.S. Gevorkyan, K.B. Oganesyan, Y.V. Rostovtsev, G. Kurizki
    Year: 2015
    Citations: 61
    Source: Laser Physics Letters, 12(7), 076002

  • Title: Dielectric Permittivity Superlattice Formation
    Authors: G.A. Amatuni, A.S. Gevorkyan, S.G. Gevorkian, A.A. Hakobyan, K.B. Oganesyan, et al.
    Year: 2008
    Citations: 60
    Source: Laser Physics, 18, 608–620

  • Title: Statistical Properties of Random Environment of 1D Quantum N-Particles System in External Field
    Authors: A.S. Gevorkyan, A.A. Gevorkyan, K.B. Oganesyan
    Year: 2010
    Citations: 45
    Source: Physics of Atomic Nuclei, 73, 320–325

  • Title: A Disordered 1D Quantum N-Particle System in an Environment under the Influence of an External Field
    Authors: A.S. Gevorkyan, A.A. Gevorkyan, K.B. Oganesyan, G.O. Sargsyan, et al.
    Year: 2010
    Citations: 44
    Source: Physica Scripta, 2010 (T140), 014045

  • Title: Quantum-Mechanical Channel of Interactions Between Macroscopic Systems
    Authors: R.S. Sargsyan, G.G. Karamyana, A.S. Gevorkyan, A.Y. Khrennikov
    Year: 2010
    Citations: 22
    Source: AIP Conference Proceedings, 1232(1), 267

  • Title: Random Motion of Quantum Harmonic Oscillator – Thermodynamics of Nonrelativistic Vacuum
    Authors: A.V. Bogdanov, A.S. Gevorkyan, A.G. Grigoryan
    Year: 1999
    Citations: 20
    Source: AMS IP Studies in Advanced Mathematics, 13, 81–112

  • Title: Bioscope: New Sensor for Remote Evaluation of the Physiological State of Biological Systems
    Authors: R.S. Sargsyan, A.S. Gevorkyan, G.G. Karamyan, V.T. Vardanyan, et al.
    Year: 2011
    Citations: 15
    Source: Physical Properties of Nanosystems, 299–309

  • Title: Three Body Multichannel Scattering as a Model of Irreversible Quantum Mechanics
    Authors: A.V. Bogdanov, A.S. Gevorkyan
    Year: 1997
    Citations: 13
    Source: arXiv preprint, quant-ph/9712022

  • Title: Nonrelativistic Quantum Mechanics with Fundamental Environment
    Author: A.S. Gevorkyan
    Year: 2012
    Citations: 12
    Source: Theoretical Concepts of Quantum Mechanics, 161–187

  • Title: Retracted: New Mathematical Conception and Computation Algorithm for Study of Quantum 3D Disordered Spin System under the Influence of External Field
    Authors: A.S. Gevorkyan, C.K. Hu, S. Flach
    Year: 2010
    Citations: 12
    Source: Transactions on Computational Science VII, E1–E1

  • Title: Regular and Chaotic Quantum Dynamics in Atom-Diatom Reactive Collisions
    Authors: A.S. Gevorkyan, A.V. Bogdanov, G. Nyman
    Year: 2008
    Citations: 12
    Source: Physics of Atomic Nuclei, 71, 876–883

  • Title: Exactly Solvable Models of Stochastic Quantum Mechanics within the Framework of Langevin-Schroedinger Type Equations
    Author: A.S. Gevorkyan
    Year: 2004
    Citations: 11
    Source: Topics in Analysis and its Applications, 415–442

  • Title: A New Parallel Algorithm for Simulation of a Spin-Glass System on Scales of Space-Time Periods of an External Field
    Authors: A.S. Gevorkyan, A.G. Abadzhyan, G.S. Sukiasyan
    Year: 2011
    Citations: 10
    Source: Lab. of Information Technologies