Orthogonal polynomials.
Totik, Vilmos (2005)
Surveys in Approximation Theory (SAT)[electronic only]
Similarity:
Totik, Vilmos (2005)
Surveys in Approximation Theory (SAT)[electronic only]
Similarity:
Michał Góra (2007)
Control and Cybernetics
Similarity:
Almira, J.M. (2007)
Surveys in Approximation Theory (SAT)[electronic only]
Similarity:
Dunkl, Charles F. (2008)
SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]
Similarity:
Zagorodnyuk, Sergey M. (2011)
SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]
Similarity:
Anatoliy Samoilenko, Yarema Prykarpatsky, Anatoliy Prykarpatsky (2005)
Open Mathematics
Similarity:
The differential-geometric and topological structure of Delsarte transmutation operators and their associated Gelfand-Levitan-Marchenko type eqautions are studied along with classical Dirac type operator and its multidimensional affine extension, related with selfdual Yang-Mills eqautions. The construction of soliton-like solutions to the related set of nonlinear dynamical system is discussed.
Ditzian, Z. (2007)
Surveys in Approximation Theory (SAT)[electronic only]
Similarity:
Bucur, Amelia (2006)
General Mathematics
Similarity:
Akhiev, S.S. (2010)
Electronic Journal of Qualitative Theory of Differential Equations [electronic only]
Similarity:
Zagorodniuk, S. (1998)
Serdica Mathematical Journal
Similarity:
∗ Partially supported by Grant MM-428/94 of MESC. Systems of orthogonal polynomials on the real line play an important role in the theory of special functions [1]. They find applications in numerous problems of mathematical physics and classical analysis. It is known, that classical polynomials have a number of properties, which uniquely define them.
Langer, Andreas, Zink, Thomas (2007)
Documenta Mathematica
Similarity:
Ormerod, Christopher M. (2011)
SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]
Similarity: