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We address the problem of reconstructing a class of sampled signals which is a member of shift-invariant spaces. In the traditional method, the reconstruction was obtained by first processing the samples by a digital correction filter, then forming linear combinations of generated functions shifted with period T. In order to eliminate the digital correction filter, we propose a computational approach to the reconstruction function. The reconstruction was directly acquired by forming linear combinations of a set of reconstruction functions. The key idea is to obtain a matrix equation by means of oblique frame theory. The reconstruction functions are obtained by solving the matrix equation. Finally, the computational approach is applied, respectively, to reconstruction of a digitizer which samples the signal by derivative sampling or periodically non-uniform sampling technology. The results show that the method is effective.
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Czasopismo
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Tom
Strony
535--544
Opis fizyczny
Bibliogr. 14 poz., rys., wykr., wzory
Twórcy
autor
autor
autor
- University of Electronic Science and Technology of China, The College of Automation Engineering, Chengdu, Sichuan, 611731, China, zhaoxuanzhu@uestc.edu.cn
Bibliografia
- [1] A. Aldroubi, K. Grochenig: “Nonuniform sampling and reconstruction in shift-invariant spaces”. SIAM, vol. 43, no. 4, 2001, pp. 585-620.
- [2] A. Aldroubi, Qiyu Sun, Wai-Shing Tang: Nonuniform average sampling and reconstruction in multiply generated shift-invariant spaces. Springer Verlag, New York, 2003.
- [3] M. Unser, A. Aldroubi: “A general sampling theory for nonideal acquisition devices”. IEEE Trans. Signal Process., vol. 42, 1994, pp. 2915-2925.
- [4] Ch.E. Shin, M.B. Lee, K. S. Rim: “Nonuniform Sampling of Bandlimited Functions”. IEEE Transactions on Information Theory, vol. 54, no. 7, 2008, pp. 3814-3819.
- [5] Y.C. Eldar, M. Unser: “Non-ideal sampling and interpolation from noisy observations in shift-invariant spaces”. IEEE Trans. Signal Process., vol. 54, no. 7, 2006, pp. 2636-2651.
- [6] M. Unser: “Sampling - 50 years after Shannon”. IEEE Proc., vol. 88, Apr. 2000, pp. 569-587.
- [7] I.J. Schoenberg: Cardinal Spline Interpolation. Philadelphia, PA: SIAM, 1973.
- [8] Y.P. Lin, P.P. Vaidyanathan: “Periodically nonuniform sampling of bandpass signals”. IEEE Trans. Circuits Syst. II, vol. 45, no. 3, Mar. 1998, pp. 340-351.
- [9] C. Herley, P.W. Wong: “Minimum rate sampling and reconstruction of signals with arbitrary frequency support”. IEEE Trans. Inform. Theory, vol. 45, no. 5, Jul. 1999, pp. 1555-1564.
- [10] R. Venkataramani, Y. Bresler: “Perfect reconstruction formulas and bounds on aliasing error in sub-nyquist nonuniform sampling of multiband signals”. IEEE Trans. Inform. Theory, vol. 46, no. 6, Sep. 2000, pp. 2173-2183.
- [11] I. Djokovic, P.P. Vaidyanathan: “Generalized sampling theorems in multiresolution subspaces”. IEEE Trans. Signal Process., vol. 45, Mar. 1997, pp. 583-599.
- [12] Y.C. Eldar: “Sampling without input constraints: Consistent reconstruction in arbitrary spaces” in Sampling, Wavelets and Tomography, A.I. Zayed and J. J. Benedetto, Eds. Boston, MA: Birkhauser, 2004, pp.33-60.
- [13] S. Remani, M. Unser: “Nonideal Sampling and Regularization Theory”. IEEE Trans. Signal Process., vol. 56, no. 3, 2008, pp. 1055-1070.
- [14] Y.M. Lu, M.N. Do: “A Theory for Sampling Signals From a Union of Subspaces”. IEEE Trans. Signal Process., vol. 56, no. 6, 2008, pp. 2334-2345.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BSW1-0062-0001