St. Petersburg Mathematical Journal, 18. cilt,511-1027. sayfalarAmerican Mathematical Society, 2007 |
Kitabın içinden
19 sonuçtan 1-3 arası sonuçlar
Sayfa 512
... collection ( 1 : ( A ) , 1 ( A1 ) , ... , ( An ) ) ; as a consequence , we shall be able to interpolate collections of Besov and Sobolev spaces in the nondiagonal case . = = §1 . BASIC DEFINITIONS As usual , we denote by Rņ the set of n ...
... collection ( 1 : ( A ) , 1 ( A1 ) , ... , ( An ) ) ; as a consequence , we shall be able to interpolate collections of Besov and Sobolev spaces in the nondiagonal case . = = §1 . BASIC DEFINITIONS As usual , we denote by Rņ the set of n ...
Sayfa 512
... collection = ( 1 % ( Ao ) , 11 ( A1 ) , ... , län ( An ) ) ; 91 In as a consequence , we shall be able to interpolate collections of Besov and Sobolev spaces in the nondiagonal case . §1 . BASIC DEFINITIONS As usual , we denote by Rn ...
... collection = ( 1 % ( Ao ) , 11 ( A1 ) , ... , län ( An ) ) ; 91 In as a consequence , we shall be able to interpolate collections of Besov and Sobolev spaces in the nondiagonal case . §1 . BASIC DEFINITIONS As usual , we denote by Rn ...
Sayfa 514
... collection ( 2.11 ) treated in Lemma 1 . Ž = ( lačo ( Xo ) , laē1 ( X1 ) , ... , laēm + 1 ( X1 ) ) , For this , we choose a sufficiently large number a ( a > maxi = 0 , n vectors á = ( X , ... , Xm + 1 ) , i = 0 , 1 , ... , n , in the ...
... collection ( 2.11 ) treated in Lemma 1 . Ž = ( lačo ( Xo ) , laē1 ( X1 ) , ... , laēm + 1 ( X1 ) ) , For this , we choose a sufficiently large number a ( a > maxi = 0 , n vectors á = ( X , ... , Xm + 1 ) , i = 0 , 1 , ... , n , in 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 3b13 | 517 |
Generalov and N Yu Kosovskaya Hochschild cohomology of the Liu | 539 |
Telif Hakkı | |
27 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
adjacent algebra algorithm apply approximation assume assumptions of Theorem b₁ bounded called closed coefficients commutative complex consider constant constructed contains continuous convergence Corollary corresponding cycle defined definition denote depends domain elements entire equal equation equivalent estimate example exists extension fact factorization field finite formal formula function given graph Hence ideal implies inequality integral invariant isomorphic lattice Lemma Math Mathematical matrix means module multiplicity norm Note obtain operator parameters polynomial positive present problem Proof properties Proposition proved reduces refinable regularity relations Remark representation respectively result ring root satisfies scheme sequence solution space statement Subsection subspace suffices Suppose symbol symmetric Theorem theory twisted vector vertex vertices zero