Abstract
An important problem that arises in different areas of science and engineering is that of computing the limits of sequences of vectors , where , N being very large. Such sequences arise, for example, in the solution of systems of linear or nonlinear equations by fixed-point iterative methods, and are simply the required solutions. In most cases of interest, however, these sequences converge to their limits extremely slowly. One practical way to make the sequences converge more quickly is to apply to them vector extrapolation methods. Two types of methods exist in the literature: polynomial type methods and epsilon algorithms. In most applications, the polynomial type methods have proved to be superior convergence accelerators. Three polynomial type methods are known, and these are the minimal polynomial extrapolation (MPE), the reduced rank extrapolation (RRE), and the modified minimal polynomial extrapolation (MMPE). In this work, we develop yet another polynomial type method, which is based on the singular value decomposition, as well as the ideas that lead to MPE. We denote this new method by SVD-MPE. We also design a numerically stable algorithm for its implementation, whose computational cost and storage requirements are minimal. Finally, we illustrate the use of SVD-MPE with numerical examples.
Highlights
Introduction and BackgroundAn important problem that arises in different areas of science and engineering is that of computing limits ofHow to cite this paper: Sidi, A. (2016) singular value decomposition (SVD)-minimal polynomial extrapolation (MPE): An SVD-Based Vector Extrapolation Method of Polynomial Type
Three polynomial type methods are known, and these are the minimal polynomial extrapolation (MPE), the reduced rank extrapolation (RRE), and the modified minimal polynomial extrapolation (MMPE). We develop yet another polynomial type method, which is based on the singular value decomposition, as well as the ideas that lead to MPE
For the convergence properties and error analyses of MPE, RRE, MMPE, and topological epsilon algorithm (TEA), as these are applied to vector sequences generated by fixed-point iterative methods from linear systems, see the works by Sidi
Summary
How to cite this paper: Sidi, A. (2016) SVD-MPE: An SVD-Based Vector Extrapolation Method of Polynomial Type. For the convergence properties and error analyses of MPE, RRE, MMPE, and TEA, as these are applied to vector sequences generated by fixed-point iterative methods from linear systems, see the works by Sidi [16]-[18], Sidi, Ford, and Smith [7], Sidi and Bridger [19], and Sidi and Shapira [20] [21].
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
