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Quarkonial frames with compression properties (2016)

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Publication Date: 2016-12-15

Description: In the spirit of subatomic or quarkonial decomposition of function spaces (Triebel in Fractals and spectra related to fourier analysis and function spaces. Birkhäuser, Boston, 1997 ), we construct compactly supported, piecewise polynomial functions whose properly weighted dilates and translates generate frames for Sobolev spaces on the real line. All frame elements except for those on the coarsest level have vanishing moment properties. As a consequence, the matrix representation of certain elliptic operators in frame coordinates is compressible, i.e., well-approximable by sparse submatrices.

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Electronic ISSN: 1126-5434

Topics: Mathematics

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Analysis of mixed finite element methods for the standard linear solid model in viscoelasticity (2016)

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Publication Date: 2016-12-01

Description: We propose mixed finite element methods for the standard linear solid model in viscoelasticity and prove a priori error estimates. In our mixed formulation the governing equations of the problem become a symmetric hyperbolic system, so we can use standard techniques for a priori error estimates and time discretization. Numerical results illustrating our theoretical analysis are included.

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Topics: Mathematics

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B $$_\pi ^R$$ π R -matrices and error bounds for linear complementarity problems (2016)

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Publication Date: 2016-11-10

Description: B -matrices form a subclass of P -matrices for which error bounds for the linear complementarity problem are known. It is proved that a bound involved in such problems is asymptotically optimal. $B_\pi ^R$ -matrices form a subclass of P -matrices containing B -matrices. For the $B_\pi ^R$ -matrices, error bounds for the linear complementarity problem are obtained. We also include illustrative examples showing the sharpness of these bounds.

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Topics: Mathematics

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A new class of nonmonotone adaptive trust-region methods for nonlinear equations with box constraints (2016)

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Publication Date: 2016-11-01

Description: A nonmonotone trust-region method for the solution of nonlinear systems of equations with box constraints is considered. The method differs from existing trust-region methods both in using a new nonmonotonicity strategy in order to accept the current step and a new updating technique for the trust-region-radius. The overall method is shown to be globally convergent. Moreover, when combined with suitable Newton-type search directions, the method preserves the local fast convergence. Numerical results indicate that the new approach is more effective than existing trust-region algorithms.

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Topics: Mathematics

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A high-order compact finite difference method and its extrapolation for fractional mobile/immobile convection–diffusion equations (2016)

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Publication Date: 2016-11-01

Description: This paper is concerned with high-order numerical methods for a class of fractional mobile/immobile convection–diffusion equations. The convection coefficient of the equation may be spatially variable. In order to overcome the difficulty caused by variable coefficient problems, we first transform the original equation into a special and equivalent form, which is then discretized by a fourth-order compact finite difference approximation for the spatial derivative and a second-order difference approximation for the time first derivative and the Caputo time fractional derivative. The local truncation error and the solvability of the resulting scheme are discussed in detail. The (almost) unconditional stability and convergence of the method are proved using a discrete energy analysis method. A Richardson extrapolation algorithm is presented to enhance the temporal accuracy of the computed solution from the second-order to the third-order. Applications using two model problems give numerical results that demonstrate the accuracy of the new method and the high efficiency of the Richardson extrapolation algorithm.

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The block Lanczos algorithm for linear ill-posed problems (2016)

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Publication Date: 2016-09-17

Description: In the present paper, we propose a new method to inexpensively determine a suitable value of the regularization parameter and an associated approximate solution, when solving ill-conditioned linear system of equations with multiple right-hand sides contaminated by errors. The proposed method is based on the symmetric block Lanczos algorithm, in connection with block Gauss quadrature rules to inexpensively approximate matrix-valued function of the form $W^Tf(A)W$ , where $W\in {\mathbb {R}}^{n\times k}$ , $k\ll n$ , and $A\in {\mathbb {R}}^{n\times n}$ is a symmetric matrix.

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Topics: Mathematics

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Backward difference formulae for Kuramoto–Sivashinsky type equations (2016)

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Publication Date: 2016-09-11

Description: We analyze the discretization of the periodic initial value problem for Kuramoto–Sivashinsky type equations with Burgers nonlinearity by implicit–explicit backward difference formula (BDF) methods, establish stability and derive optimal order error estimates. We also study discretization in space by spectral methods.

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Square roots of $${3\times 3}$$ 3 × 3 matrices (2016)

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Publication Date: 2016-08-20

Description: We find square roots of a complex-valued matrix $A_{3 \times 3}$ using equation $B^{2}=A$ . The proposed method is faster than Higham’s method and provides up to 8 square roots with less relative residual and error.

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A note on a norm-preserving continuous Galerkin time stepping scheme (2016)

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Publication Date: 2016-08-20

Description: In this note we shall devise a variable-order continuous Galerkin time stepping method which is especially geared towards norm-preserving dynamical systems. In addition, we will provide an a posteriori estimate for the $L^\infty $ -error.

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A Nyström method for a class of Fredholm integral equations on the real semiaxis (2016)

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Publication Date: 2016-08-20

Description: A class of Fredholm integral equations of the second kind, with respect to the exponential weight function $w(x)=\exp (-(x^{-\alpha }+x^\beta ))$ , $\alpha 〉0$ , $\beta 〉1$ , on $(0,+\infty )$ , is considered. The kernel k ( x , y ) and the function g ( x ) in such kind of equations, $$\begin{aligned} f(x)-\mu \int _0^{+\infty }k(x,y)f(y)w(y)\mathrm {d}y =g(x),\quad x\in (0,+\infty ), \end{aligned}$$ can grow exponentially with respect to their arguments, when they approach to $0^+$ and/or $+\infty $ . We propose a simple and suitable Nyström-type method for solving these equations. The study of the stability and the convergence of this numerical method in based on our results on weighted polynomial approximation and “truncated” Gaussian rules, recently published in Mastroianni and Notarangelo (Acta Math Hung, 142:167–198, 2014 ), and Mastroianni, Milovanović and Notarangelo (IMA J Numer Anal 34:1654–1685, 2014 ) respectively. Moreover, we prove a priori error estimates and give some numerical examples. A comparison with other Nyström methods is also included.

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Topics: Mathematics

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