一类带有分数阶积分边值条件的分数阶微分方程的可解性(英文)

本文研究下面一类带有分数阶积分边值条件的分数阶微分方程cDα0+u(t)=f(t,u(t),cDβ0+u(t)),0相似文献   

一个分数阶微分方程四点边值问题正解的存在性

本文研究下面的分数阶微分方程四点边值问题Dα0+u(t)+f(t,u(t))=0,0相似文献   

非线性分数阶微分方程非奇异边值问题的多重正解

通过研究非线性分数阶微分方程边值问题D_(0+)~αu(t)+y(t,u(t))=0,0相似文献   

分数阶趋化模型在临界Besov空间中解的整体存在性北大核心CSCD

该文主要研究如下的分数阶趋化模型:{■_(t)+(-△)^(α/2)=▽·(u▽v)(x,t)∈R^(n)×(0,∞),ε■_(t)v+(-△)^(β/2)v=u,(x,t)∈R^(n)×(0,∞),u(x,0)=u_(0)(x),v(x,0)=v_(0)(x),x∈R^(n)其中α∈[1,2],β∈(0,2],ε≥0.基于分数阶耗散方程在Chemin-Lerner混合时空空间中的线性估计和Fourier局部化方法,作者得到了如下结果:(1)当ε=0时,建立了次临界情形1<α≤2下该模型在Besov空间中的局部适定性和小初值问题的整体适定性,优化了[陈化,吕文斌,吴少华.分数阶趋化模型在Besov空间中解的存在性.中国科学:数学,2019,49(12):1-17]所得适定性结果中正则性和可积性指标的范围.并且还建立了临界情形α=1下该模型在Besov空间中小初值问题的整体适定性;(2)当ε>0时,利用特殊的迭代技巧,作者分别建立了次临界情形1<α≤2和临界情形α=1下该模型在Besov空间中的局部适定性和小初值问题的整体适定性.进一步,利用模型所特有的代数结构,作者还证明了对初值v0无小性条件下解的整体存在性.     

带有Riemann-Liouville分数阶导数的边值问题多正解的存在性(英文)

本文运用Avery-Peterson不动点定理研究以下分数阶边值问题Dα0+Dα0+u=f(t,u,u′,-Dα0+u,-Dα+10+u),t∈[0,1],u(0)=u′(0)=u′(1)=Dα0+u(0)=Dα+10+u(0)=Dα+10+u(1)={0至少三个正解的存在性,其中α∈(2,3]是一实数,Dα0+是α阶Riemann-Liouville分数阶导数.文章最后提供一个具体的例子来说明所得到的结论.     

变时间分数阶扩散方程的非一致时间网格有限差分方法

本文在非一致时间网格上,使用有限差分方法求解变时间分数阶扩散方程?α(x,t)u(x,t)/tα(x,t)-2u(x,t)/x2=f(x,t),0α(x,t)q≤1,证明了该方法在最大范数下的稳定性与收敛性,收敛阶为C(Δt2-q+h2).数值实例验证了理论分析的结果.     

Poisson和公式在分数阶热方程中的应用

本文利用Poisson和公式,证明了如下分数阶热方程(D_t~αlu=D_x~2u u(x1 0)=f(x))当f分别为周期函数和f∈S(■)时(速降函数空间),它们的热核满足关系H_t~α(x)=∑n=-∞H_t~α(x+n)进一步,我们把结论推广到更一般的分数阶微分方程和高维情形     

一类非线性分数阶微分方程边值问题的正解

讨论以下非线性分数阶边值问题:^cD_(0+)cD_(0+)^αu(t)+λa(t)f(u(t))=0,0cD_(0+)cD_(0+)^α是Caputo导数,λ>0.利用Krasnoselskiis不动点定理,得到其正解存在与不存在的充分条件,最后给出一个例子验证我们的结论.     

抽象多项Riemann-Liouville分数阶微分方程

该文研究如下抽象多项分数阶微分方程D_t~(α_n)u(t)+(Σ)_(j=1)~(n-1)A_jD_t~(uj)u(t)=AD_t~αu(t)+f(t).t∈(0.τ),(0.1)其中n∈N\{1},算子A,A1,…,A_(n-1)为复Banach空间E上的闭线性算子,0≤α_1…α_n,0≤αα_n,0τ≤∞,f(t)为E-值函数,D_t~α表示α阶Riemann—Liouville分数阶导数~([5]).延续着作者先前在文献[22,24 25]和[34]中的研究工作,该文引入并系统分析了方程(0.1)的若干类新的k-正则(C_1,C_2)-存在和唯一(生成)族,并对抽象的理论性结果给出了丰富的例子来阐明.     

非线性四阶周期边值问题多个正解的存在性

利用不动点和度理论,证明了四阶周期边值问题u(4)(t)-βu″(t)+αu(t)=λf(t,u(t)),0≤t≤1,u(i)(0)=u(i)(1),i=0,1,2,3,至少存在两个正解,其中β>-2π2,0<α<(1/2β+2π2)2,α/π4+β/π2+1>0,f:[0,1]×[0,+∞)→[0,+∞)是连续函数,λ>0是常数.     

关于分数k-因子临界图与分数k-可扩图的若干结果

一个简单图G,如果对于V(G)的任意k元子集S,子图G-S都包含分数完美匹配,那么称G为分数后-因子临界图.如果图G的每个k-匹配M都包含在一个分数完美匹配中,那么称图G为分数k-可扩图.给出一个图是分数k-因子临界图和分数k-可扩图的充分条件,并给出一个图是分数k-因子临界图的充分必要条件.     

Dual characterization of fractional capacity via solution of fractional p-Laplace equation

In terms of weak solutions of the fractional p-Laplace equation with measure data, this paper offers a dual characterization for the fractional Sobolev capacity on bounded domain. In addition, two further results are given: one is an equivalent estimate for the fractional Sobolev capacity; the other is the removability of sets of zero capacity and its relation to solutions of the fractional p-Laplace equation.     

Existence of fractional differential chains and factorizations based on transformations

In this work, we deal with the existence of the fractional integrable equations involving two generalized symmetries compatible with nonlinear systems. The method used is based on the Bä cklund transformation or B‐transformation. Furthermore, we shall factorize the fractional heat operator in order to yield the fractional Riccati equation. This is done by utilizing matrix transform Miura type and matrix operators, that is, matrices whose entries are differential operators of fractional order. The fractional differential operator is taken in the sense of Riemann–Liouville calculus. Copyright © 2014 John Wiley & Sons, Ltd.     

SOME PROBLEMS OF FRACTIONAL PARTIAL DIFFERENCE DIFFUSION EQUATIONS

This paper mainly discusses the problems of fractional variational problems and fractional diffusion problems using fractional difference and summation. Through the Euler finite difference method we get a variational formulation of the variation problem and the discrete solution to the time-fractional and space-fractional difference equation using separating variables method and two-side Z-transform method.     

A fractional partial differential equation based multiscale denoising model for texture image

Traditional integer‐order partial differential equation based image denoising approach can easily lead edge and complex texture detail blur, thus its denoising effect for texture image is always not well. To solve the problem, we propose to implement a fractional partial differential equation (FPDE) based denoising model for texture image by applying a novel mathematical method—fractional calculus to image processing from the view of system evolution. Previous studies show that fractional calculus has some unique properties that it can nonlinearly enhance complex texture detail in digital image processing, which is obvious different with integer‐order differential calculus. The goal of the modeling is to overcome the problems of the existed denoising approaches by utilizing the aforementioned properties of fractional differential calculus. Using classic definition and property of fractional differential calculus, we extend integer‐order steepest descent approach to fractional field to implement fractional steepest descent approach. Then, based on the earlier fractional formulas, a FPDE based multiscale denoising model for texture image is proposed and further analyze optimal parameters value for FPDE based denoising model. The experimental results prove that the ability for preserving high‐frequency edge and complex texture information of the proposed fractional denoising model are obviously superior to traditional integral based algorithms, as for texture detail rich images. Copyright © 2013 John Wiley & Sons, Ltd.     

分数阶微分方程的比较定理

本文给出了非线性Riemann—Liouville分数阶微分方程和Caputo分数阶微分方程与相应的非线性Volterra积分方程的等价性,并在此基础上建立了分数阶微分方程的比较定理．     

分数k-因子临界图的条件

设G是-个连通简单无向图,如果删去G的任意k个项点后的图有分数完美匹配,则称G是分数k-因子临界图．给出了G是分数k-因子临界图的韧度充分条件与度和充分条件,这些条件中的界是可达的,并给出G是分数k-因子临界图的一个关于分数匹配数的充分必要条件．     

Caputo–Hadamard Fractional Derivatives of Variable Order

In this article, we present three types of Caputo–Hadamard derivatives of variable fractional order and study the relations between them. An approximation formula for each fractional operator, using integer-order derivatives only, is obtained and an estimation for the error is given. At the end, we compare the exact fractional derivative of a concrete example with some numerical approximations.     

分数阶尺度函数的分解与重构算法

引入分数阶多分辨分析与分数阶尺度函数的概念.运用时频分析方法与分数阶小波变换,研究了分数阶正交小波的构造方法,得到分数阶正交小波存在的充要条件.给出分数阶尺度函数与小波的分解与重构算法,算法比经典的尺度函数与小波的分解与重构算法更具有一般性.     

New approach to a generalized fractional integral

The paper presents a new fractional integration, which generalizes the Riemann-Liouville and Hadamard fractional integrals into a single form. Conditions are given for such a fractional integration operator to be bounded in an extended Lebesgue measurable space. Semigroup property for the above operator is also proved. We give a general definition of the fractional derivatives and give some examples.