Two Kinds of Boundary Value Problems for the First Order Systems of Nonlinear Elliptic Partial Differential Equations

In this paper we establish the esxistence and uniqueness theorems of a solution of the problem P(|z|=1,Re[z^-nw_z]=0) and H(|z|=1,Re[z^-nw]=0) for the nonlinear system (A):w_{\bar z}=g(z,w,w_z),|g(z,w,w_z^1)-g(z,w,w_z^2)| \leq q_0|w_z^1-w_z^2|,q_0=const.<1,z \in G={|z|<1}.for the problem P,where w(z) \in C_\alpha^1(\bar G),let C_\alpha(g(z,w,t)-g(z,w_1,t_1),\bar G) \leq H_3C_\alpha(w-w_1,\bar G)+H_4C_\alpha(t-t_1,\bar G),H_3,H_4 and C_\alpha(g(z,0,0),\bar G)be the suitable small constants.For the problem H,where w(z) \inW_p^(1)(\bar G),p>2,let |g(z,w,0)| \leq A(z,w)|w|^m+B(z,w),m>1,A(z,w) \in L_p(\bar G) and ||B(z,w)||_{L_p(\bar G)} be the suitable small.     

Free Boundary Value Problems for Abstract Elliptic Equations and Applications

The free boundary value problems for elliptic differential-operator equations are studied. Several conditions for the uniform maximal regularity with respect to boundary parameters and the Fredholmness in abstract L _p -spaces are given. In application, the nonlocal free boundary problems for finite or infinite systems of elliptic and anisotropic type equations are studied.     

Boundary Value Problems for Composite Type Systems of Second Order Partial Differential Equations

Doundary value problems for composite systems of partial differential equations are investigated in this paper. The uniqueness and existence of claasical solutions and generalized solutions are studied.     

Antiperiodic Boundary Value Problems for Functional Differential Equations

In this paper, the method of quasilinearization has been extended to antiperiodic boundary value problems of nonlinear functional differential equations. It is shown that iterations converge to the unique solution and this convergence is semi-superlinear.     

带滞后项的非线性微分方程的周期边值问题

The periodic boundary value problems for nonlinear functional differential equa-tions was discussed.The existence of maximal and minimal solutions was obtained when the lower and upper solutions satisfied the formal or reverse order.     

非线性椭圆型复方程组的一类边值问题

本文讨论了一阶非线性椭圆型复方程组于平面多连通区域上的一类复合边值问题解的先验估计及可解性.     

模糊积分方程及模糊微分方程边值问题

讨论模糊积分方程在紧和无界区间上的存在性以及解集的性质 ,并将这些结果用于研究某些模糊边值问题。     

高阶泛函偏微分程边值问题的强迫振动

本文研究一类高阶泛函偏微分方程边值问题的强迫振动性．主要工具是平均技巧，利用它将问题归结于相应的泛函微分不等式的振动性的研究．     

Boundary Value Problems for First Order Stochastic Differential Equations

In this paper, we present a new technique to study nonlinear stochastic differential equations with periodic boundary value condition （in the sense of expectation）. Our main idea is to decompose the stochastic process into a deterministic term and a new stochastic term with zero mean value. Then by using the contraction mapping principle and Leray-Schauder fixed point theorem, we obtain the existence theorem. Finally, we explain our main results by an elementary example.     

高阶半线性椭圆型方程奇摄动边值问题

本文研究了一类高阶半线性椭圆型方程奇摄动边值问题,利用比较定理,证明了渐近解的一致有效性。     

Boundary Value Problems for Third-Order Nonlinear Ordinary Differential Equations

In this paper, we describe how to analyze boundary value problems for third-order nonlinear ordinary differential equations over an infinite interval. Several physical problems of interest are governed by such systems. The seminumerical schemes described here offer some advantages over solutions obtained by using traditional methods such as finite differences, shooting method, etc. These techniques also reveal the analytic structure of the solution function. For illustrative purposes, several physical problems, mainly drawn from fluid mechanics, are considered; they clearly demonstrate the efficiency of the techniques presented here.     

Boundary Value Problems for Singular Second-Order Functional Differential Equations

Abstract Positive solutions to the boundary value problem, y'=-f(x,y(w(x)) 0相似文献   

n阶脉冲微分方程边值问题

本文利用微分不等式原理及脉冲微分方程初值问题基本理论研究了ｎ类ｎ阶脉冲微 分方程边值问题,得到了该边值问题解的存在性及解的存在唯一性的新的结果．     

一阶随机微分方程的边值问题

In this paper,we present a new technique to study nonlinear stochastic differential equations with periodic boundary value condition (in the sense of expectation).Our main idea is to decompose the stochastic process into a deterministic term and a new stochastic term with zero mean value.Then by using the contraction mapping principle and Leray-Schauder fixed point theorem,we obtain the existence theorem.Finally,we explain our main results by an elementary example.     

Boundary Value Problems for Systems of Functional Differential Equations

Algorithms for finding an approximate solution of boundary value problems for systems of functional ordinary differential equations are studied. Sufficient conditions for consistency and convergence of these methods are given. In the last section, a construction of methods of arbitrary order is presented.