St. Petersburg Mathematical Journal, 18. cilt,511-1027. sayfalarAmerican Mathematical Society, 2007 |
Kitabın içinden
52 sonuçtan 1-3 arası sonuçlar
Sayfa 607
... FACTORIZATION OF 2 - BLOCK TOEPLITZ MATRICES AND REFINEMENT EQUATIONS V. YU . PROTASOV ABSTRACT . Pairs of 2 - block Toeplitz ( N × N ) -matrices ( Ts ) ; j = P2i - j + s − 1 , s = 0 , 1 , i , j Є { 1 , ... , N } , are considered for ...
... FACTORIZATION OF 2 - BLOCK TOEPLITZ MATRICES AND REFINEMENT EQUATIONS V. YU . PROTASOV ABSTRACT . Pairs of 2 - block Toeplitz ( N × N ) -matrices ( Ts ) ; j = P2i - j + s − 1 , s = 0 , 1 , i , j Є { 1 , ... , N } , are considered for ...
Sayfa 634
... factorization m ( 2 ) = ( z + 1 ) ( 0.82 +0.2 ) it follows that T ( 1 ) = 0.2 and T ( 1 ) = 0.8 ( both operators are one - dimensional ) . We have pp = ( 0.89 +0.2 ) 1 / P and = Рос 0.778 . = 0.8 . Thus , V∞ = - log2 0.8 0.3219 ...
... factorization m ( 2 ) = ( z + 1 ) ( 0.82 +0.2 ) it follows that T ( 1 ) = 0.2 and T ( 1 ) = 0.8 ( both operators are one - dimensional ) . We have pp = ( 0.89 +0.2 ) 1 / P and = Рос 0.778 . = 0.8 . Thus , V∞ = - log2 0.8 0.3219 ...
Sayfa 930
... factorization appropriate for our goals . Now we describe this fac- torization . Let M ( k ) be the operators in L2 ... factorization : ( 19.9 ) M = ( ( x ) * ) ̄1D * g ( x ) D ( ( ( x ) ) − 1 . Relation ( 19.9 ) is similar to the ...
... factorization appropriate for our goals . Now we describe this fac- torization . Let M ( k ) be the operators in L2 ... factorization : ( 19.9 ) M = ( ( x ) * ) ̄1D * g ( x ) D ( ( ( x ) ) − 1 . Relation ( 19.9 ) is similar to the ...
İçindekiler
Asekritova and N Kruglyak Interpolation of Besov spaces in the nondiagonal | 511 |
N Belousov and A A Makhnev On edgeregular graphs with k 3b₁ 3 | 517 |
Generalov and N Yu Kosovskaya Hochschild cohomology of the Liu | 539 |
Telif Hakkı | |
36 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
Abelian group Abelian variety adjacent Alexander polynomial algebra ú assume assumptions of Theorem b₁ BR(TO Branges space BSu2 C₁ Cartier modules cascade algorithm chain complex coefficients cohomology common invariant subspaces commutative constant contains convergence Corollary corrector corresponding defined definition denote elements English transl entire functions epimorphism estimate exists extension finite height Fitting invariants formal group formula graph group G group scheme H¹(M homomorphism ideal implies inequality integral invariant subspaces isomorphic K₁ Lemma Lie bialgebra linear Math Mathematical matrix multiplicity norm obtain operator parameters Proof Proposition proved pseudorational quantization quotient R-module refinable function refinement equation result Riemann-Roch theorem right representation ring satisfies sequence solution Subsection Suppose symbol symmetric zeros T₁ theory Toeplitz operators trivial twisted Alexander polynomial twisted Novikov homology vector vertex vertices