Thoraya Alharthi | Dynamical Systems | Best Researcher Award

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Dr. Thoraya Alharthi | Dynamical Systems | Best Researcher Award

University of Bisha, Saudi Arabia

Dr. Thoraya Namesh Alharthi is an accomplished mathematician with over 11 years of academic and research experience, currently serving as an Assistant Professor at Bisha University, Saudi Arabia. She holds a Ph.D. in Mathematics from the University of Exeter (2023), a Master’s degree with honors from Taif University (2016), and a Bachelor’s degree with honors from King Khalid University (2011). Her research focuses on nonlinear dynamical systems, bifurcation theory, chaotic dynamics, and tipping points in forced systems—areas with significant theoretical and applied relevance. Dr. Alharthi has actively participated in prestigious international conferences across the UK, France, and the USA, presenting her work and engaging with the global research community. She is known for her creativity, commitment to continuous development, and dedication to volunteering. With strong academic credentials, international exposure, and a passion for innovative mathematics, Dr. Alharthi represents a promising researcher making meaningful contributions to the field.

Professional Profile 

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Education

Dr. Thoraya Namesh Alharthi has pursued an exemplary academic journey marked by distinction and dedication to mathematics. She earned her Ph.D. in Mathematics in 2023 from the University of Exeter, United Kingdom, where she deepened her expertise in nonlinear dynamical systems and related fields. Prior to her doctoral studies, she completed her Master’s degree in Mathematics with Excellent with Honors in 2016 at Taif University, Saudi Arabia. Her academic journey began with a Bachelor’s degree in Mathematics from King Khalid University in 2011, where she also graduated with Excellent with Honors. Her consistent academic excellence across all levels reflects her commitment to mastering mathematical theory and its applications. Dr. Alharthi’s education spans both national and international institutions, equipping her with a broad, interdisciplinary, and global perspective that enriches her research and teaching endeavors in the field of mathematics.

Professional Experience

Dr. Alharthi brings over 11 years of professional experience in higher education, holding various academic positions across prominent Saudi institutions. She is currently serving as an Assistant Professor of Mathematics at Bisha University, where she contributes to both teaching and research in advanced mathematical topics. Prior to her current role, she worked as a Lecturer and Teaching Assistant at King Khalid University and later at Bisha University. Her professional trajectory demonstrates a progressive rise through academic ranks, showcasing her ability to balance instructional duties with research activities. She is recognized for her effective teaching methodologies, mentorship, and dedication to student development. In addition to her university roles, Dr. Alharthi has actively participated in workshops and seminars to enhance her academic and pedagogical skills. Her professional experience reflects a deep commitment to mathematics education, continuous learning, and fostering academic excellence in her students and peers alike.

Research Interest

Dr. Thoraya Alharthi’s research interests lie at the forefront of theoretical and applied mathematics. Her primary focus is on nonlinear dynamical systems, with special emphasis on bifurcation theory, chaotic dynamics, and nonautonomous systems. She is particularly interested in the mathematical modeling of real-world phenomena, including tipping points in forced systems, a concept relevant to climate science, ecological transitions, and engineering systems. Dr. Alharthi investigates the behavior of complex systems under various conditions, aiming to uncover the underlying structures and instabilities that lead to qualitative shifts in system dynamics. Her work incorporates both analytical and numerical approaches, demonstrating a balance of theoretical rigor and computational modeling. Through her active participation in international conferences and seminars, she continues to engage with current developments in the global research landscape. Her research contributes meaningfully to understanding critical transitions in nonlinear systems, an area with broad interdisciplinary and practical implications.

Awards and Honors

Throughout her academic career, Dr. Thoraya Alharthi has consistently demonstrated excellence, earning recognition and honors that reflect her outstanding contributions. While specific named awards are not detailed in the provided information, her academic achievements speak volumes—graduating with Excellent with Honors in both her Bachelor’s and Master’s programs highlights her intellectual rigor and commitment. Her successful admission and completion of a Ph.D. program at the University of Exeter, a globally respected institution, further illustrates her exceptional academic capability and research potential. Moreover, her participation in prestigious international conferences, including Dynamics Days (UK, France, USA), BMC-BAMC in Glasgow, and other specialized mathematical workshops, positions her as a globally engaged researcher. These platforms are competitive and academically demanding, signifying peer recognition of her research. Her commitment to professional development, continuous learning, and global academic exchange further underscores her status as a rising scholar in mathematics.

Conclusion

Dr. Thoraya Namesh Alharthi is a dedicated and forward-thinking mathematician with a strong academic foundation, extensive teaching experience, and an active research portfolio. Her work in nonlinear dynamical systems and bifurcation theory holds significance for both pure and applied mathematics. With over a decade of academic service, she has built a reputation for intellectual rigor, collaborative spirit, and a passion for continuous development. Her active engagement in international academic forums enhances the visibility and impact of her work, while her personal values—volunteering, perseverance, and creativity—add depth to her professional identity. Although further documentation of her publications and awards would bolster her academic profile, Dr. Alharthi’s trajectory suggests a promising future. She stands as a strong candidate for recognition through prestigious awards such as the Best Researcher Award, symbolizing the next generation of scholars committed to advancing mathematical knowledge and contributing to global scientific challenges.

Publications Top Notes

  • “Hidden-like Attractors in a Class of Discontinuous Dynamical Systems”

    • Authors: Hany A. Hosham, Mashael A. Aljohani, Eman D. Abou Elela, Nada A. Almuallem, Thoraya N. AlharthiMDPI+1AIMS Press+1

    • Year: 2024MDPI

    • Citation: Hosham, H.A., Aljohani, M.A., Abou Elela, E.D., Almuallem, N.A., & Alharthi, T.N. (2024). Hidden-like Attractors in a Class of Discontinuous Dynamical Systems. Mathematics, 12(23), 3784.MDPI

    • Source: https://www.mdpi.com/2227-7390/12/23/3784

  • “A Class of Discontinuous Systems Exhibit Perturbed Period Doubling Bifurcation”

    • Authors: Hany A. Hosham, Alaa A. Alzulaibani, Tarek Sellami, Khaled Sioud, Thoraya N. AlharthiAIMS Press

    • Year: 2024

    • Citation: Hosham, H.A., Alzulaibani, A.A., Sellami, T., Sioud, K., & Alharthi, T.N. (2024). A Class of Discontinuous Systems Exhibit Perturbed Period Doubling Bifurcation. AIMS Mathematics, 9(9), 25098-25113.

    • Source: https://www.aimspress.com/article/doi/10.3934/math.20241223

  • “Vaccination Strategies in a Stochastic SIVR Epidemic Model”

  • “A Study of Dynamical Features and Novel Soliton Structures of Complex-Coupled Maccari’s System”

    • Authors: N. Abbas, A. Hussain, M. Bakouri, T.N. Alharthi, I. Khan

    • Year: 2025

    • Citation: Abbas, N., Hussain, A., Bakouri, M., Alharthi, T.N., & Khan, I. (2025). A Study of Dynamical Features and Novel Soliton Structures of Complex-Coupled Maccari’s System. AIMS Mathematics, 10(2), 3025-3040.

    • Source: https://www.aimspress.com/article/doi/10.3934/math.2025204

  • “Bifurcation and Chaos in Simple Discontinuous Systems Separated by a Hypersurface”

 

 

 

Vincent Ademola Adeyemi | Dynamical Systems | Best Researcher Award

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Dr. Vincent Ademola Adeyemi | Dynamical Systems | Best Researcher Award

Researcher Associate at CITEDI-Instituto Politécnico Nacional, Mexico

Dr. Vincent Ademola Adeyemi is a distinguished researcher specializing in digital image processing, cryptography, data encryption, secure communication systems, and FPGA-based implementations. He holds a Doctorate in Science (DSc) in Digital Systems from Instituto Politécnico Nacional (IPN), Mexico, alongside advanced degrees in computer science. His research focuses on nonlinear dynamics, chaos control, and optimization, contributing significantly to the fields of mathematical modeling and secure data transmission. With numerous publications in high-impact, peer-reviewed journals such as Scientific Reports, Sensors, Electronics, and Mathematical Problems in Engineering, he has made notable advancements in secure image encryption and chaos-based cryptographic systems. Dr. Adeyemi collaborates internationally, demonstrating a strong interdisciplinary approach. His work has practical applications in cybersecurity and digital communication. A dedicated academic, he continues to push the boundaries of innovation in applied mathematics and computer science, making him a strong contender for prestigious research awards.

Professional Profile

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Education

Dr. Vincent Ademola Adeyemi has an extensive academic background in computer science and digital systems. He earned his Doctorate in Science (DSc) in Digital Systems from Instituto Politécnico Nacional (IPN), Mexico (2018–2022), where he focused on FPGA-based implementations and secure communication systems. Prior to this, he obtained a Master of Science (MSc) in Computer Science from the University of Ibadan, Nigeria (2005–2007), and a Bachelor of Science (BSc) in Computer Science from the University of Ado-Ekiti (now Ekiti State University), Nigeria (1998–2002). He also holds a National Diploma in Computer Science from the Federal Polytechnic, Ado-Ekiti, Nigeria (1995–1997). His academic journey reflects a strong foundation in computational theory, digital systems, and cryptography, shaping his expertise in cybersecurity, mathematical modeling, and nonlinear dynamics. Through these qualifications, Dr. Adeyemi has developed a profound understanding of cutting-edge technologies, enabling him to contribute significantly to applied research and innovation.

Professional Experience

Dr. Vincent Ademola Adeyemi has accumulated vast experience in academia and research, focusing on applied mathematics, cryptography, and secure digital communication. He has held research and teaching positions at reputable institutions, engaging in high-level research on FPGA-based systems, data encryption, and chaotic system modeling. His work has involved international collaborations with leading experts in mathematical modeling and digital security, particularly in Mexico and Nigeria. He has played a pivotal role in developing innovative encryption techniques and optimizing chaotic systems for secure communications. As a researcher, he has contributed to peer-reviewed international journals and awards, ensuring the real-world applicability of his findings. His professional engagements also include mentoring students, supervising research projects, and participating in interdisciplinary teams working on cybersecurity solutions. With a strong academic-industrial interface, Dr. Adeyemi continues to advance the frontiers of digital systems, positioning himself as a thought leader in applied cryptography and chaos-based communications.

Research Interest

Dr. Vincent Ademola Adeyemi’s research interests lie in digital image processing, cryptography, data encryption, secure communication systems, nonlinear dynamics, and FPGA-based system design. He specializes in chaos theory applications, particularly in the modeling, control, and synchronization of chaotic systems, which have extensive applications in secure data transmission. His work integrates mathematical modeling with computational techniques to optimize cryptographic algorithms for enhanced security and performance. A significant aspect of his research involves implementing encryption methods on FPGA platforms, ensuring high-speed and energy-efficient solutions for real-time security applications. Additionally, he explores evolutionary algorithms for optimizing chaotic systems, contributing to advances in cyber-physical security. His interdisciplinary approach bridges applied mathematics, digital engineering, and computer science, offering innovative solutions to modern cybersecurity challenges. Through his groundbreaking research, Dr. Adeyemi aims to enhance secure communications, data privacy, and information security in emerging technological landscapes.

Awards and Honors

Dr. Vincent Ademola Adeyemi has received numerous recognitions for his contributions to applied cryptography, secure digital systems, and nonlinear dynamics. His research has been published in high-impact journals such as Scientific Reports, Sensors, Electronics, Fractal and Fractional, and Mathematical Problems in Engineering, reflecting his influence in the scientific community. He has been an active participant in international awards, where his work on FPGA-based encryption and chaos theory has been widely acknowledged. Additionally, his collaborative projects with leading researchers have resulted in technological advancements in secure image transmission and optimization of chaotic systems. His contributions to applied mathematics and computer science have positioned him as a promising candidate for prestigious research awards. Through his academic excellence, Dr. Adeyemi has built a strong reputation in the field, inspiring future researchers and pushing the boundaries of digital security innovations.

Conclusion

Dr. Vincent Ademola Adeyemi is a highly accomplished researcher in digital systems, cryptography, and secure communication. His extensive education, professional experience, and pioneering research in chaos-based encryption and FPGA systems make him a leading figure in applied mathematics and cybersecurity. With a strong publication record in peer-reviewed journals and active participation in international awards, he has contributed significantly to digital security advancements. His work in nonlinear dynamics, optimization, and secure data transmission has practical applications in cybersecurity, digital communication, and mathematical modeling. Recognized for his innovative research, he continues to push technological boundaries in secure digital systems. Through his dedication to academic excellence and interdisciplinary research, Dr. Adeyemi is a valuable contributor to the global scientific community, making him a strong candidate for prestigious research awards and honors. His work not only enhances cybersecurity but also paves the way for future advancements in secure information processing and transmission.

Publications Top Noted

  • Maximizing the chaotic behavior of fractional order Chen system by evolutionary algorithms
    Authors: JC Nuñez-Perez, VA Adeyemi, Y Sandoval-Ibarra, FJ Perez-Pinal, …
    Year: 2021
    Citations: 20
    Source: Mathematics 9 (11), 1194

  • FPGA realization of spherical chaotic system with application in image transmission
    Authors: JC Nuñez-Perez, VA Adeyemi, Y Sandoval-Ibarra, FJ Pérez-Pinal, …
    Year: 2021
    Citations: 13
    Source: Mathematical Problems in Engineering 2021 (1), 5532106

  • FPGA realization of the parameter-switching method in the Chen oscillator and application in image transmission
    Authors: VA Adeyemi, JC Nuñez-Perez, Y Sandoval Ibarra, FJ Perez-Pinal, …
    Year: 2021
    Citations: 10
    Source: Symmetry 13 (6), 923

  • Optimizing the maximum Lyapunov exponent of fractional order chaotic spherical system by evolutionary algorithms
    Authors: VA Adeyemi, E Tlelo-Cuautle, FJ Perez-Pinal, JC Nuñez-Perez
    Year: 2022
    Citations: 8
    Source: Fractal and Fractional 6 (8), 448

  • FPGA realization of an image encryption system using the DCSK-CDMA technique
    Authors: MA Estudillo-Valdez, VA Adeyemi, JC Nuñez-Perez
    Year: 2024
    Citations: 4
    Source: Integration 96, 102157

  • FPGA Implementation of Parameter-Switching Scheme to Stabilize Chaos in Fractional Spherical Systems and Usage in Secure Image Transmission
    Authors: VA Adeyemi, E Tlelo-Cuautle, Y Sandoval-Ibarra, JC Nuñez-Perez
    Year: 2023
    Citations: 4
    Source: Fractal and Fractional 7 (6), 31

  • FPGA realization of four chaotic interference cases in a terrestrial trajectory model and application in image transmission
    Authors: MA Estudillo-Valdez, VA Adeyemi, E Tlelo-Cuautle, Y Sandoval-Ibarra, …
    Year: 2023
    Citations: 3
    Source: Scientific Reports 13 (1), 12969

  • Secure communication system based on synchronized 3D spherical chaotic systems
    Authors: JCN Pérez, VA Adeyemi, SEG Osuna, YS Ibarra, ET Cuautle
    Year: 2020
    Citations: 3
    Source: 2020 IEEE International Conference on Engineering Veracruz (ICEV), 1-8

  • Mathematical and numerical analysis of the dynamical behavior of Chen oscillator
    Authors: JC Nuñez-Perez, VA Adeyemi, Y Sandoval-Ibarra, RY Serrato-Andrade, …
    Year: 2020
    Citations: 3
    Source: International Journal of Dynamics and Control 8, 386-395

  • FPGA Realization of an Image Encryption System Using a 16-CPSK Modulation Technique
    Authors: JC Nuñez-Perez, MA Estudillo-Valdez, Y Sandoval-Ibarra, VA Adeyemi
    Year: 2024
    Citations: 1
    Source: Electronics 13 (22), 4337

  • Chaos control and anti-control in fractional order Rössler system by parameter switching method
    Authors: VA Adeyemi
    Year: 2020
    Citations: 1
    Source: Revista Aristas, 166-171