Error Estimations in an Approximation on a Compact Interval with a Wavelet Bases

Authors

  • Schuchmann M Hochschule Darmstadt
  • Rasguljajew M Hochschule Darmstadt

Keywords:

component, formatting

Abstract

By an approximation with a wavelet base we have in practice not only an error if the function y is not in Vj. There we have a second error because we do not use all bases functions. If the wavelet has a compact support we have no error by using only a part of all basis function. If we need an approximation on a compact interval I (which we can do even if y is not quadratic integrable on R, because in that case it must only be quadratic integrable on I) leads to worse approximations if we calculate an orthogonal projection from 1Iy  in Vj. We can get much better approximations, if we apply a least square approximation with points in I. Here we will see, that this approximation can be much better than a orthogonal projection form y or 1I y in Vj. With the Shannon wavelet, which has no compact support, we saw in many simulations, that a least square approximation can lead to much better results than with well known wavelets with compact support. So in that article we do an error estimation for the Shannon wavelet, if we use not all bases coefficients.

References

M. Schuchmann, M. Rasguljajew, 2013. "Error Estimation of an Approximation in a Wavelet Collocation Method". Journal of Applied Computer Science & Mathematics, No. 14 (7) / 2013, Suceava. (http://jacs.usv.ro/index.php?pag=showcontent&issue=14&year=2013).

M. Schuchmann, M. Rasguljajew, 2013. "Error Estimation and Assessment of an Approximation in a Wavelet Collocation Method". American Journal of Computational Mathematics, Vol.3, No.2, June 2013.

M. Schuchmann, M. Rasguljajew, 2013. "An Approximation on a Compact Interval Calculated with a Wavelet Collocation Method can Lead to Much Better Results than other Methods". Journal of Approximation Theory and Applied Mathematics, Vol. 1.

M. Schuchmann, M. Rasguljajew, 2013. "Extrapolation and Approximation with a Wavelet Collocation Method for ODEs". Journal of Approximation Theory and Applied Mathematics, Vol. 1.

M. Schuchmann, M. Rasguljajew, 2013. "Determination of Optimal Parameters in a Wavelet Collocation Method". International Journal of Emerging Technology and Advanced Engineering, Vol. 3, Issue 5, May 2013. http://www.ijetae.com/files/Volume3Issue5/IJETAE_0513_01.pdf

M. Schuchmann, M. Rasguljajew, 2013. "Approximation of Non L2(R) Functions on a Compact Interval with a Wavelet Base". Journal of Approximation Theory and Applied Mathematics, Vol. 2.

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Published

2024-02-26

How to Cite

Schuchmann, M., & Rasguljajew, M. (2024). Error Estimations in an Approximation on a Compact Interval with a Wavelet Bases. COMPUSOFT: An International Journal of Advanced Computer Technology, 2(11), 340–349. Retrieved from https://ijact.in/index.php/j/article/view/60

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Original Research Article