伪双曲型方程的一个H1-Galerkin非协调混合元格式

讨论了一类伪双曲型方程的一个H1-Galerkin非协调混合有限元方法.利用插值算子的特殊性质,在半离散和全离散格式下,得到了与传统混合有限元相同的误差估计且不需要满足LBB条件.     

Sobolev 方程的$H^1$-Galerkin混合有限元方法

对Sobolev方程采用H1-Galerkin混合有限元方法进行数值模拟．给出了一维空间中该方法的半离散和全离散格式及其最优误差估计;并将该方法推广到二维和三维空间．与H1-Galerkin有限元方法相比,该方法不仅降低了对有限元空间的连续性要求;而且与传统的混合有限元方法具有相同的收敛阶,但其有限元空间的选取却不需要满足LBB相容条件．数值例子将进一步说明该方法的可行性与有效性．     

阻尼Sine-Gordon方程的H1-Galerkin混合元方法数值解

利用H1-Galerkin混合有限元方法讨论阻尼Sine-Gordon方程,得到一维情况下半离散和全离散格式的最优阶误差估计,并且推广应用到二维和三维情况,而且不用验证LBB相容性条件.     

非线性抛物型偏积分微分方程的H1-Galerkin 混合有限元方法

收稿给出一类非线性抛物型偏积分微分方程的H1-Galerkin混合有限元方法.给出了一维空间的半离散、全离散格式及最优阶误差估计,并将该方法推广到二维和三维空间.     

Sobolev方程一个新的H~1-Galerkin混合有限元分析

研究了Sobolev方程的H~1-Galerkin混合有限元方法.利用不完全双二次元Q_2~-和一阶BDFM元,建立了一个新的混合元模式,通过Bramble-Hilbert引理,证明了单元对应的插值算子具有的高精度结果.进一步,对于半离散和向后欧拉全离散格式,分别导出了原始变量u在H~1-模和中间变量p在H(div)-模意义下的超逼近性质.     

拟线性粘弹性方程新H~1-Galerkin最低阶混合元格式的高精度分析

利用双线性元和零阶Raviart-Thomas元,针对拟线性粘弹性方程建立新的H~1-Galerkin混合元逼近格式.在半离散格式下,给出原始变量u的H~1模和应力=?ut的H(div;?)模的超逼近性和超收敛结果.同时,导出向后欧拉格式和Crank-Nicolson-Galerkin格式的最优误差估计.最后,通过数值算例表明逼近格式是有效的.     

四阶强阻尼波方程的新混合元方法

构造半线性四阶强阻尼波动方程的新H1-Galerkin混合有限元方法,得到一维情况下半离散和全离散格式最优收敛阶误差估计,并且推广到二维和三维情况,不用验证LBB相容性条件.     

电报方程的H~1-Galerkin非协调混合有限元逼近

在几乎均匀矩形剖分下取双线性Q_(11)元和类Wilson元为逼近空间,研究了一类电报方程的H~1-Galerkin非协调混合有限元方法.利用单元的特殊性质,积分恒等式和平均值技巧,在不需要验证LBB相容性条件及抛弃传统的Ritz投影的情形下,得到了半离散和全离散格式下原始变量及流量分别在H~1模和H(div,Ω)模意义下的超逼近性质.进一步地,借助插值后处理技术,导出了相应的整体超收敛结果.     

一类非线性抛物方程H~1-Galerkin混合有限元方法的高精度分析

研究了非线性抛物方程的H~1-Galerkin混合有限元方法.利用双线性元及零阶RaviartThomas元,在不提高原始解正则性的前提下,创新性的使用分裂技巧等讨论了半离散格式下和Euler全离散格式下的关于原始变量u的H~1(Ω)模及流量p=▽u的H(div;Ω)模的超逼近性质.数值算例证明了理论的正确性.     

拟线性双相滞热传导方程的一个H~1-Galerkin混合有限元方法分析

利用不完全双二次元Q_2~-和一阶BDFM元,对拟线性双相滞热传导方程构造了一个新的H~1-Galerkin混合元格式.在不借助投影算子的条件下,直接利用单元插值算子的特殊性质,对于半离散和全离散格式,分别给出了原始变量在H~1-模及流量在H(div)-模下的具有O(h~3)及O(h~3+(△t)~2)阶的超逼近估计.     

A weak Galerkin mixed finite element method for the Helmholtz equation with large wave numbers

In this article, a new weak Galerkin mixed finite element method is introduced and analyzed for the Helmholtz equation with large wave numbers. The stability and well‐posedness of the method are established for any wave number k without mesh size constraint. Allowing the use of discontinuous approximating functions makes weak Galerkin mixed method highly flexible in term of little restrictions on approximations and meshes. In the weak Galerkin mixed finite element formulation, approximation functions can be piecewise polynomials with different degrees on different elements and meshes can consist elements with different shapes. Suboptimal order error estimates in both discrete H¹ and L² norms are established for the weak Galerkin mixed finite element solutions. Numerical examples are tested to support the theory.     

A review of the Local Discontinuous Galerkin (LDG) method applied to elliptic problems

This paper presents a review of the so-called Local Discontinuous Galerkin (LDG) method applied to elliptic problems. The method is presented using a mixed formulation similar to that of the classical mixed finite element method. A summary of the convergence properties is presented. Preliminary theoretical results on super-convergent points are discussed. Numerical experiments of a gradient recovering technique are presented.     

H1‐Galerkin expanded mixed finite element methods for nonlinear pseudo‐parabolic integro‐differential equations

H¹‐Galerkin mixed finite element method combined with expanded mixed element method is discussed for nonlinear pseudo‐parabolic integro‐differential equations. We conduct theoretical analysis to study the existence and uniqueness of numerical solutions to the discrete scheme. A priori error estimates are derived for the unknown function, gradient function, and flux. Numerical example is presented to illustrate the effectiveness of the proposed scheme. © 2012 Wiley Periodicals, Inc. Numer Methods Partial Differential Eq, 2013     

线性对流占优扩散方程的扩展特征混合有限元法

本文针对线性对流占优扩散方程提出了一种新型数值模拟方法一扩展特征混合有限元法,即对对流部分沿特征线方向离散,而对扩散部分采用扩展混合有限元方法,同时高精度逼近未知函数,未知函数的梯度及伴随向量函数,通过严格的数值分析,得到其最优L^2模误差估计。     

非定常的热传导-对流问题的非线性Galerkin混合元法(Ⅱ):向后一步的Euler全离散化格式

1．引言本文的工作主要是讨论非定常的热传导一对流问题的向后一步的Euler全离散化的非线性Galerkin混合元解的存在性及其误差估计．该工作是对山中的同一问题研究的第二部分．在第一部分［1］，我们已经讨论了此问题的半离散化的情形．由于所研究的目标都是非定常的热传导一对流问题，其背景是相同的，在此将不重复了，请参考［1］．本文的安排如下，52先回顾非定常的热传导一对流问题的混合元解的经典性质．53回顾半离散化的非线性Galerkin混合元解的性质，并导出后续讨论需要的一些关于时间导数的估计．54讨论向后一步的Euler全离散化…     

A New Hybridized Mixed Weak Galerkin Method for Second-Order Elliptic Problems

In this paper, a new hybridized mixed formulation of weak Galerkin method is studied for a second order elliptic problem. This method is designed by approximate some operators with discontinuous piecewise polynomials in a shape regular finite element partition. Some discrete inequalities are presented on discontinuous spaces and optimal order error estimations are established. Some numerical results are reported to show super convergence and confirm the theory of the mixed weak Galerkin method.     

拟线性对流占优扩散方程的扩展特征混合有限元方法数值模拟

讨论了拟线性对流占优扩散问题的数值模拟.对对流部分采用特征线格式进行离散,以消除流动锋线前沿的数值弥散现象,保证格式的稳定性;而对扩散部分采用扩展混合有限元方法,同时逼近未知函数,未知函数的梯度及伴随向量函数.理论分析和数值算例表明,此方法是稳定的,具有最优L2逼近精度.     

非定常的热传导-对流问题的非线性Galerkin混合元法(Ⅱ):向后一步的Euler全离散化格式

In this paper, a fully discrete format of nonlinear Galerkin mixed element method with backward one-step Euler discretization of time for the non stationary conduction-convection problems is presented. The scheme is based on two finite element spaces XH and Xh for the approximation of the velocity, defined respectively on a coarse grid with grids size H and another fine grid with grid size h<< H, a finite element space Mh for the approximation of the pressure and two finite element spaces AH and Wh, for the approximation of the temperature,also defined respectivply on the coarse grid with grid size H and another fine grid with grid size h. The existence and the convergence of the fully discrete mixed element solution are shown. The scheme consists in using standard backward one step Euler-Galerkin fully discrete format at first L0 steps (L0 2) on fine grid with grid size h, but using nonlinear Galerkin mixed element method of backward one step Euler-Galerkin fully discrete format through L0 + 1 step to end step. We have proved that the fully discrete nonlinear Galerkin mixed element procedure with respect to the coarse grid spaces with grid size H holds superconvergence.     

A mixed finite element method for the Stokes equations

A new mixed finite element for the Stokes equations is considered. This new finite element is based on a mixed formulation of the Stokes problem in which the gradient of the velocity is introduced and the velocity is approximated by the Raviart-Thomas element [1]. Optimal error estimates are derived. The number of degrees of freedom, for this element, is the lowest possible, and the local conservation of the mass is assured. A hybrid version of the mixed method is also considered. Finally, some numerical results for the incompressible Navier-Stokes equations are presented. © 1994 John Wiley & Sons, Inc.