Languages
Ruzhansky, Michael.
Overview
Works: | 6 works in 7 publications in 1 languages |
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Titles
Analytic Methods in Interdisciplinary Applications
by:
Mityushev, Vladimir V.; Ruzhansky, Michael.; SpringerLink (Online service)
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/edt]
Analysis of Infectious Disease Problems (Covid-19) and Their Global Impact
by:
Torres, Delfim F. M.; Nieto, Juan J.; SpringerLink (Online service); Ruzhansky, Michael.; Agarwal, Praveen.
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/edt]
Methods of Fourier Analysis and Approximation Theory
by:
Tikhonov, Sergey.; SpringerLink (Online service); Ruzhansky, Michael.
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/edt]
Progress in partial differential equations = asymptotic profiles, regularity and well-posedness /
by:
Ruzhansky, Michael.; Reissig, Michael.; SpringerLink (Online service)
(Language materials, printed)
Nonlinear Analysis: Problems, Applications and Computational Methods
by:
Dutta, Hemen.; Hammouch, Zakia.; Melliani, Said.; Ruzhansky, Michael.; SpringerLink (Online service)
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/edt]
Modern aspects of the theory of partial differential equations
by:
SpringerLink (Online service); Ruzhansky, Michael.; Wirth, Jens.
(Language materials, printed)
Advances in real and complex analysis with applications
by:
Ruzhansky, Michael.; SpringerLink (Online service)
(Language materials, printed)
Fourier analysis = pseudo-differential operators, time-frequency analysis and partial differential equations /
by:
Ruzhansky, Michael.; Turunen, Ville.; SpringerLink (Online service)
(Language materials, printed)
Quantization on Nilpotent lie groups
by:
Fischer, Veronique.; SpringerLink (Online service); Ruzhansky, Michael.
(Language materials, printed)
Evolution equations of hyperbolic and schrodinger type = asymptotics, estimates and nonlinearities /
by:
Sugimoto, Mitsuru.; SpringerLink (Online service); Ruzhansky, Michael.; Wirth, Jens.
(Language materials, printed)
Analytic methods in interdisciplinary applications
by:
Mityushev, Vladimir V.; Ruzhansky, Michael.; SpringerLink (Online service)
(Language materials, printed)
Advances in Harmonic Analysis and Partial Differential Equations
by:
SpringerLink (Online service); Ruzhansky, Michael.; Ozawa, Tohru.; Wirth, Jens.; Georgiev, Vladimir.
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/edt]
Methods of Fourier analysis and approximation theory
by:
SpringerLink (Online service); Ruzhansky, Michael.; Tikhonov, Sergey.
(Language materials, printed)
Analysis and Partial Differential Equations: Perspectives from Developing Countries = Imperial College London, UK, 2016 /
by:
Delgado, Julio.; SpringerLink (Online service); Ruzhansky, Michael.
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/edt]
Hardy Inequalities on Homogeneous Groups = 100 Years of Hardy Inequalities /
by:
Suragan, Durvudkhan.; Ruzhansky, Michael.; SpringerLink (Online service)
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/aut]
Quantization on Nilpotent Lie Groups
by:
SpringerLink (Online service); Ruzhansky, Michael.; Fischer, Veronique.
(Language materials, printed)
, [http://id.loc.gov/vocabulary/relators/aut]
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Subjects
Health promotion.
Evolution equations.
Mathematical Applications in the Physical Sciences.
Numerical analysis.
Fourier Analysis.
Nilpotent Lie groups.
Differential equations, Hyperbolic.
Schrodinger equation.
Harmonic analysis.
Abstract Harmonic Analysis.
Topological Groups, Lie Groups.
Complexity.
Numbers, Complex.
Partial Differential Equations.
Sequences, Series, Summability.
Mathematical Physics.
Approximation theory.
Partial differential equations.
Data Engineering.
Ordinary Differential Equations.
Potential Theory.
Operator theory.
Mathematics.
Computational complexity.
Analysis.
Computational Intelligence.
Potential theory (Mathematics).
Mathematical analysis.
Differential equations, Partial.
Fourier analysis.
Functional analysis.
Real Functions.
Differential geometry.
Calculus of Variations and Optimal Control; Optimization.
Mathematical models.
Lie groups.
Operator Theory.
Health Promotion and Disease Prevention.
Functional Analysis.
Differential Geometry.
Dynamical Systems and Ergodic Theory.
Topological groups.
Mathematical Modeling and Industrial Mathematics.
Engineering—Data processing.
Numerical Analysis.
Analysis (Mathematics).
Mathematical physics.
Global Analysis and Analysis on Manifolds.
Computational intelligence.