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CV (pdf):    

• NEW: As a result of a rather long-time research started in 2016, I could establish a theory called "Least p-Variances theory" whose structure is based on a fixed variable and an algebraic inequality and improves and somehow generalizes the well-known least squares theory. This work is now available in Math arXiv:
  
                            https://doi.org/10.48550/arXiv.2310.14046

 

Selected Papers:

● M. Masjed-Jamei, Least P-Variances Theory (85 pages), arXiv:2310.14046v1 [math.ST] and [math.NA]

● M. Masjed-Jamei, Biorthogonal exponential sequences with weight function exp(ax^2+ibx) on the real line and an orthogonal sequence of trigonometric functions, Proceedings of the American Mathematical Society, 136 (2008) 409-417.

● M. Masjed-Jamei, W. Koepf, Two classes of special functions using Fourier transforms of generalized ultraspherical and generalized Hermite polynomials, Proceedings of the American Mathematical Society, 140 (2012) 2053-2063.

● M. Masjed-Jamei, W. Koepf, Symbolic computation of some power-trigonometric series, Journal of Symbolic Computation, 80 (2017) 273-284.

● M. Masjed-Jamei, G. V. Milovanović, An extension of Pochhammer's symbol and its application to hypergeometric functions, Filomat, 31 (2017) 207-215.

● M. Masjed-Jamei, G. V. Milovanović, Weighted Hermite quadrature rules, Electronic Transactions on Numerical Analysis, 45 (2016) 476-498.

● M. Masjed-Jamei, A functional generalization of the Cauchy–Schwarz inequality and some subclasses, Applied Mathematics Letters, 22 (2009) 1335-1339.

● M. Masjed-Jamei, Unified error bounds for all Newton-Cotes quadrature rules, Journal of Numerical Mathematics, 23 (2015) 67-80.

● M. Masjed-Jamei, A linear constructive approximation for integrable functions and a parametric quadrature model based on a generalization of Ostrowski-Grüss type inequalities, Electronic Transactions on Numerical Analysis, 38 (2011) 218-232.

● M. Masjed-Jamei, A basic class of symmetric orthogonal polynomials using the extended Sturm–Liouville theorem for symmetric functions, Journal of Mathematical Analysis and Applications, 325 (2007) 753-775.

● M. Masjed-Jamei, A Main inequality for several special functions, Computers and Mathematics with Applications, 60 (2010) 1280-1289.

● M. Masjed-Jamei, A basic class of symmetric orthogonal functions with six free parameters, Journal of Computational and Applied Mathematics, 234 (2010) 283-296.

● M. Masjed-Jamei, A generalization of classical symmetric orthogonal functions using a symmetric generalization of Sturm-Liouville problems, Integral Transforms and Special Functions, 18 (2007) 871-883.

● M. Masjed-Jamei, On constructing new expansions of functions using linear operators, Journal of Computational and Applied Mathematics, 234 (2010) 365-374.

● M. Masjed-Jamei, A certain class of weighted approximations for integrable functions and applications, Numerical Functional Analysis and Optimization, 34(2013) 1224-1244.

● M. Masjed-Jamei, On constructing new interpolation formulas using linear operators and an operator type of quadrature rules, Journal of Computational and Applied Mathematics, 216 (2008) 307-318.

● M. Masjed-Jamei, Error control process in function interpolation using statistical spline Model, Mathematical and Computer Modelling, 49 (2009) 1483-1493.

● M. Masjed-Jamei, Classical orthogonal polynomials with a generalized T distribution weight function and a generalization of T and F distributions, Integral Transforms and Special Functions, 15 (2004) 137-153.

● M. Masjed-Jamei, A new type of weighted quadrature rules and its relation with orthogonal polynomials, Applied Mathematics and Computation, 188 (2007) 154-165.

● M. Masjed-Jamei, Three finite classes of hypergeometric orthogonal polynomials and their application in functions approximation, Integral Transforms and Special Functions, 13 (2002) 169-190.

● M. Masjed-Jamei, S. S. Dragomir, A Generalization of the Ostrowski-Grüss Inequality, Analysis and Applications, 12 (2014) 117–130.

● M. Masjed-Jamei, I. Area, A basic class of symmetric orthogonal polynomials of a discrete variable, Journal of Mathematical Analysis and Applications,399(2013)291-305.

● M. Masjed-Jamei, I. Area, A Symmetric Generalization of Sturm-Liouville Problems in Discrete Spaces, Journal of Difference Equations and Applications,19(2013) 1544–1562.


 

Awards: Research Scholar of the Alexander von Humboldt Foundation, Germany- Kassel University (2017-2019).

• Book:  Special Functions and Generalized Sturm-Liouville Problems (Springer)

                     

•                  https://link.springer.com/book/10.1007/978-3-030-32820-7

E-mails: mmjamei@kntu.ac.ir , mmjamei@yahoo.com , mmjamei@gmail.com

Phone: +98 21 23064336 (ext.000)
Fax:     +98 21 22853650

Last modification: 2024-10-3