Dr. Nasser Aghazadeh
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Dr. Nasser Aghazadeh

Professor
Department of Applied Mathematics, Azarbaijan Shahid Madani University Tabriz, Iran

Highest Degree
Ph.D. in Applied Mathematics from Iran University of Science and Technology, Iran

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Biography

I was born in Heris, a city in East Azerbaijan, Iran, on February 9, 1976. Heris is very well-known for its perfect handmade carpets worldwide. After finishing high school (Mathematics & Physics) at Heris on June 1994, I entered “University of Tabriz” and began studying Applied Mathematics as a BSc student in September 1994 and graduated in September 1998.

I entered “Iran University of Science & Technology” and began studying Applied Mathematics (Numerical Analysis) as a M.Sc. student in September 1998. I got my M.Sc. in Applied Mathematics (Numerical Analysis) from “Iran University of Science & Technology” under supervision of Professor Dr. “Khosrow Maleknejad” in November 2000. The title of my MSc dissertation was “Modified Taylor Series Expansion Method for a Class of Second Kind Integral Equations”.

I entered “Iran University of Science & Technology” and began studying Applied Mathematics as a PhD student in September 2003. I got my PhD in Applied Mathematics from” Iran University of Science & Technology” under supervision of Professor Dr. “Khosrow Maleknejad” in June 2007. The title of my PhD thesis was “Numerical Solution of Integral Equations of the First and Second kind by Using Wavelets”. I began teaching and researching as an assistant professor at Department of Applied Mathematics, Azarbaijan Shahid Madani University (ASMU), Tabriz, Iran in June 2007. On Feb 5, 2013, I became an associate professor there. At the present, I am a professor of applied mathematics at “Azarbaijan Shahid Madani University” (from 5 February 2018). I am very much interested in nature, mathematics, computer, and literature.

Area of Interest:

Mathematics
100%
Mathematical Modelling
62%
Applied Mechanics
90%
Numerical Analysis
75%
Computational Mathematics
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
40
Abstracts
14

Selected Publications

  1. Rabbani, M., R. Arab, B. Hazarika and N. Aghazadeh, 2022. Existence of solution of functional integral equations by measure of noncompactness and sinc interpolation to find solution. Fixed Point Theory, 23: 331-350.
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  2. Mohammadi, A., G. Ahmadnezhad and N. Aghazadeh, 2022. Chebyshev-quasilinearization method for solving fractional singular nonlinear Lane-Emden equations. Commun. Math., 30: 201-228.
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  3. Aghazadeh, N., A. Mohammadi and G. Tanoglu, 2022. Taylor wavelets collocation technique for solving fractional nonlinear singular PDEs. Math. Sci., 10.1007/s40096-022-00483-z.
    CrossRef  |  Direct Link  |  
  4. Mirzafam, M. and N. Aghazadeh, 2021. A three-stage shearlet-based algorithm for vessel segmentation in medical imaging. Pattern Anal. Appl., 24: 591-610.
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  5. Aghazadeh, N., A. Mohammadi, G. Ahmadnezhad and S. Rezapour, 2021. Solving partial fractional differential equations by using the Laguerre wavelet-Adomian method. Adv. Differ. Equations, Vol. 2021. 10.1186/s13662-021-03388-8.
    CrossRef  |  Direct Link  |  
  6. Mohammadimajd, E., I. Lotfinia, Z. Salahzadeh, N. Aghazadeh and P. Noras et al., 2020. Comparison of lumbar segmental stabilization and general exercises on clinical and radiologic criteria in grade-I spondylolisthesis patients: A double‐blind randomized controlled trial. Physiother. Res. Int., Vol. 25. 10.1002/PRI.1843.
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  7. Mohammadi, A., N. Aghazadeh and S. Rezapour, 2020. Wavelet-picard iterative method for solving singular fractional nonlinear partial differential equations with initial and boundary conditions. Comput. Methods Differ. Equations, 8: 610-638.
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  8. Ahmadnezhad, G., N. Aghazadeh and S. Rezapour, 2020. Haar wavelet iteration method for solving time fractional Fisher's equation. Comput. Methods Differ. Equations, 8: 505-522.
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  9. Siadat, M., N. Aghazadeh, F. Akbarifard, H. Brismar and O. Oktem, 2019. Joint image deconvolution and separation using mixed dictionaries. IEEE Trans. Image Process., 28: 3936-3945.
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  10. Mohammadi, A., N. Aghazadeh and S. Rezapour, 2019. Haar wavelet collocation method for solving singular and nonlinear fractional time-dependent Emden-Fowler equations with initial and boundary conditions. Math. Sci., 13: 255-265.
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  11. Moftian, N., P.R. Hachesu, H.H. Pourfeizi, T. Samad-Soltani, N. Aghazadeh, M. Poureisa and Z. Salahzadeh, 2019. Newfangled procedures using X-ray to determine the cobb angle in patients with scoliosis: An updated systematic review. Curr. Med. Imaging, 15: 922-932.
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  12. Aghazadeh, N., E. Ravash and S.H. Rezapour, 2019. Existence results and numerical solutions for a multi-term fractional integro-differential equation. Kragujevac J. Math., 43: 413-426.
    Direct Link  |  
  13. Siadat, M., N. Aghazadeh and O. ktem, 2018. Reordering for improving global Arnoldi-Tikhonov method in image restoration problems. Signal Image Video Process., 12: 497-504.
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  14. Noras, P. and N. Aghazadeh, 2018. Directional schemes for edge detection based on B-spline wavelets. Circuits Syst. Signal Process., 37: 3973-3994.
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  15. Noras, P. and N. Aghazadeh , 2018. New denoising and edge detection scheme based on rationalized haar functions. J. Mach. Vision Image Process., 5: 99-111.
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  16. Cigaroudy, L.S. and N. Aghazadeh, 2017. A new multiphase segmentation method using eigenvectors based on K real numbers. Circuits Syst. Signal Process., 36: 1445-1454.
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  17. Cigaroudy, L.S. and N. Aghazadeh, 2017. A multiphase segmentation method based on binary segmentation method for Gaussian noisy image. Signal Image Video Process., 11: 825-831.
    CrossRef  |  Direct Link  |  
  18. Aghazadeh, N., F. Akbarifard and L.S. Cigaroudy, 2016. A restoration-segmentation algorithm based on flexible arnoldi-tikhonov method and curvelet denoising. Signal Image Video Process., 10: 935-942.
    CrossRef  |  Direct Link  |  
  19. Aghazadeh, N., D.K. Salkuyeh and M. Bastani, 2016. Two-parameter generalized Hermitian and skew-Hermitian splitting iteration method. Int. J. Comput. Math., 93: 1119-1139.
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  20. Aghazadeh, N. and S. Fathi, 2016. Convergence of an approach for solving fredholm functional integral equations. Iran. J. Math. Sci. Inf., 11: 35-46.
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  21. Aghazadeh, N. and F. Akbarifard, 2016. Combining compact finite difference schemes with filters for image restoration. Comput. Math. Model., 27: 206-216.
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  22. Cigaroudy L.S. and N. Aghazadeh, 2015. A binary-segmentation algorithm based on shearlet transform and eigenvectors. 2nd International Conference on Pattern Recognition and Image Analysis (IPRIA), 11-03-2015 Institute Electrical Electronics Engineers, 1-8.
    CrossRef  |  Direct Link  |  
  23. Aghazadeh, N., M. Bastani and D.K. Salkuyeh, 2015. Generalized Hermitian and skew-Hermitian splitting iterative method for image restoration. Appl. Math. Modell., 39: 6126-6138.
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  24. Aghazadeh, N. and Y.G. Atani, 2015. Edge detection with hessian matrix property based on wavelet transform. J. Sci. Islamic Republic Iran, 26: 163-170.
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  25. Aghazadeh, N. and M. Siadat, 2015. Projection methods for solving Urysohn integral equations with multiwavelet bases. Malays. J. Math. Sci., 9: 111-125.
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  26. Aghazadeh, N., Y.G. Atani and P. Noras, 2014. The legendre wavelet method for solving singular integro-differential equations. Comput. Methods Differ Equations, 2: 62-68.
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  27. Aghazadeh, N. and A.A. Khajehnasiri, 2013. Solving nonlinear two-dimensional Volterra integro-differential equations by block-pulse functions. Math. Sci., Vol. 7. 10.1186/2251-7456-7-3.
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  28. Mesgarani, H., N. Aghazadeh and P. Parmour, 2010. Aitken extrapolation and epsilon algorithm for an accelerated solution of weakly singular nonlinear Volterra integral equations. Phys. Scr., Vol. 81. 10.1088/0031-8949/81/02/025006.
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  29. Maleknejad, K., M. Rabbani, N. Aghazadeh and M. Karami, 2009. A wavelet Petrov-Galerkin method for solving integro-differential equations. Int. J. Comput. Math., 86: 1572-1590.
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  30. Rabbani, M., K. Maleknejad, N. Aghazadeh and R. Mollapourasl, 2007. Computational projection methods for solving fredholm integral equation. Appl. Math. Comput., 191: 140-143.
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  31. Rabbani, M., K. Maleknejad and N. Aghazadeh, 2007. Numerical computational solution of the Volterra integral equations system of the second kind by using an expansion method. Appl. Math. Comput., 187: 1143-1146.
    CrossRef  |  Direct Link  |  
  32. Maleknejad, K., N. Aghazadeh and R. Mollapourasl, 2006. Numerical solution of fredholm integral equation of the first kind with collocation method and estimation of error bound. Appl. Math. Comput., 179: 352-359.
    CrossRef  |  Direct Link  |  
  33. Maleknejad, K., N. Aghazadeh and M. Rabbani, 2006. Numerical solution of second kind fredholm integral equations system by using a Taylor-series expansion method. Appl. Math. Comput., 175: 1229-1234.
    CrossRef  |  Direct Link  |  
  34. Maleknejad, K., M. Karami and N. Aghazadeh, 2005. Numerical solution of Hammerstein equations via an interpolation method. Appl. Math. Comput., 168: 141-145.
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  35. Maleknejad, K. and N. Aghazadeh, 2005. Numerical solution of Volterra integral equations of the second kind with convolution kernel by using taylor-series expansion method. Appl. Math. Comput., 161: 915-922.
    CrossRef  |  Direct Link  |  

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