Highly accomplished Applied Mathematician and Faculty Member with 15 years of academic experience, specializing in mathematical modeling and stability analysis of epidemic diseases. Currently a Ph.D. candidate at Shiraz University of Technology, with a thesis defense scheduled within three months, focusing on advanced solutions for public health challenges. Proven expertise in research, mentorship, and instruction across diverse mathematical and engineering disciplines, preparing the next generation of scientists.
Faculty Member (Instructor) of Applied Mathematics
Zabol, Sistan and Baluchestan Province, Iran (Islamic Republic of)
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Summary
Led academic instruction and research initiatives within the Department of Mathematics, fostering student development and contributing to applied mathematical research for over 13 years.
Highlights
Delivered comprehensive instruction across 9 distinct undergraduate courses, including Calculus I & II, PDEs, ODEs, Numerical Analysis, and Linear Algebra, to diverse student cohorts.
Mentored and guided numerous undergraduate students in basic sciences, mathematics, and engineering disciplines, fostering academic growth and research engagement.
Actively engaged in research focusing on biomathematics, applied mathematics, and dynamical systems, contributing to significant advancements in epidemic disease modeling.
Developed and implemented curricula for core mathematics courses, enhancing student understanding of complex mathematical concepts and software applications like MATLAB and Maple.
Authored and co-authored 13 selected journal publications and 2 conference papers, with additional works currently under peer review, demonstrating consistent research output and scholarly contribution.
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Ph.D. Candidate
Applied Mathematics
Courses
Mathematical Modeling of Epidemic Diseases
Stability Analysis
Numerical Methods for Ordinary Differential Equations
Numerical Methods for Partial Differential Equations
Dynamical Systems
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M.Sc.
Applied Mathematics (Numerical Analysis)
Courses
Meshless Methods
Radial Basis Functions
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B.Sc.
Applied Mathematics
Published by
The 56th Annual Iranian Mathematics Conference, Vali Asr University, Rafsanjan, Iran
Summary
Stability analysis of a mathematical modeling for cholera disease using real-world data.
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Results in Physics
Summary
Studying the stability of the cholera fractional model and its simulation using generalized hat basis functions.
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Communications in Statistics-Theory and Methods
Summary
Stochastic comparisons of parallel systems with starting devices.
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Communications in Statistics-Theory and Methods
Summary
Likelihood ratio and dispersive orders of parallel and series systems consisting of dependent multiple-outlier components.
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Communications in Statistics-Theory and Methods
Summary
Usual stochastic and reversed hazard orders of parallel systems with independent heterogeneous components.
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Statistics
Summary
Ordering fail-safe systems having dependent components with Archimedean copula and exponentiated location-scale distributions.
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Probability in the Engineering and Informational Sciences
Summary
Orderings of finite mixture models with location-scale distributed components.
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Statistics & Probability Letters
Summary
On stochastic comparisons of finite a-mixture models.
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Mathematics
Summary
Comparisons of parallel systems with components having proportional reversed hazard rates and starting devices.
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Journal of Statistical Theory and Applications
Summary
A modified negative binomial distribution: properties, overdispersion and underdispersion.
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Mathematical Methods of Statistics
Summary
On joint weak reversed hazard rate order under symmetric copulas.
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International Journal of Mathematical Modelling & Computations
Summary
Using Chebyshev polynomial's zeros as point grid for numerical solution of nonlinear PDEs by differential quadrature-based radial basis functions.
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SeMA Journal
Summary
A new method for solving of Darboux problem with Haar Wavelet.
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Applied Mathematics and Computation
Summary
A super-fast tri-parametric iterative method with memory.
Published by
The 46th Annual Iranian Mathematics Conference, Yazd University, Yazd, Iran
Summary
Using Chebyshev polynomials zeros as mesh points for numerical solution of linear and nonlinear PDEs by differential quadrature method-based RBFs.
Epidemic Disease Modeling, Cholera Modeling, Ebola Modeling, Fractional-Order Mathematical Modeling, Stability Analysis, Dynamical Systems, Theoretical Ecology, Computational Biology.
Numerical Analysis, Numerical Linear Algebra, Numerical Computations, Ordinary Differential Equations (ODEs), Partial Differential Equations (PDEs), Meshless Methods, Radial Basis Functions, Chebyshev Polynomials, Differential Quadrature Method.
MATLAB, Maple, C, C++, Statistical Analysis.
Research, Mentorship, Curriculum Development, Academic Instruction, Scientific Publication, Statistical Theory, Probability.
Mathematical modeling of epidemic diseases, Stability analysis of epidemic diseases, Fractional-order mathematical modeling, Computational biology, Theoretical ecology.
Numerical analysis, Numerical methods for ODEs, Numerical methods for PDEs, Dynamical systems.