建立了一个二变量的和差分不等式,该不等式不仅右端和号外的项是非常数项,而且包含k项未知函数和非线性函数的复合函数;运用单调化技巧和强单调概念给出了不等式中未知函数的上界估计;所得结果可以用来估计Cheung W S(2006)和王五生(20...建立了一个二变量的和差分不等式,该不等式不仅右端和号外的项是非常数项,而且包含k项未知函数和非线性函数的复合函数;运用单调化技巧和强单调概念给出了不等式中未知函数的上界估计;所得结果可以用来估计Cheung W S(2006)和王五生(2008)所研究的不等式中的未知函数;最后,用研究不等式得到的结果研究二变量差分方程初边值问题的有界性、唯一性和连续依赖性.展开更多
A general approach to transference principles for discrete and continuous sequence of operators (semi) groups is described. This allows one to recover the classical transference results of Calderon, Coifman and Weiss ...A general approach to transference principles for discrete and continuous sequence of operators (semi) groups is described. This allows one to recover the classical transference results of Calderon, Coifman and Weiss and of Berkson, Gilleppie and Muhly and the more recent one of the author. The method is applied to derive a new transference principle for (discrete and continuous) the sequence of operators semigroups that need not be grouped. As an application, functional calculus estimates for bounded sequence of operators with at most polynomially growing powers are derived, leading to a new proof of classical results by Peller from 1982. The method allows for a generalization of his results away from Hilbert spaces to -spaces and—involving the concept of γ-boundedness—to general spaces. Analogous results for strongly-continuous one-parameter (semi) groups are presented as well by Markus Haase [1]. Finally, an application is given to singular integrals for one-parameter semigroups.展开更多
文摘建立了一个二变量的和差分不等式,该不等式不仅右端和号外的项是非常数项,而且包含k项未知函数和非线性函数的复合函数;运用单调化技巧和强单调概念给出了不等式中未知函数的上界估计;所得结果可以用来估计Cheung W S(2006)和王五生(2008)所研究的不等式中的未知函数;最后,用研究不等式得到的结果研究二变量差分方程初边值问题的有界性、唯一性和连续依赖性.
文摘A general approach to transference principles for discrete and continuous sequence of operators (semi) groups is described. This allows one to recover the classical transference results of Calderon, Coifman and Weiss and of Berkson, Gilleppie and Muhly and the more recent one of the author. The method is applied to derive a new transference principle for (discrete and continuous) the sequence of operators semigroups that need not be grouped. As an application, functional calculus estimates for bounded sequence of operators with at most polynomially growing powers are derived, leading to a new proof of classical results by Peller from 1982. The method allows for a generalization of his results away from Hilbert spaces to -spaces and—involving the concept of γ-boundedness—to general spaces. Analogous results for strongly-continuous one-parameter (semi) groups are presented as well by Markus Haase [1]. Finally, an application is given to singular integrals for one-parameter semigroups.