Abstract
In this paper we have introduced new, efficient algorithms for computing one- and two-dimensional Daubechies wavelet transforms of any order, with application to signal processing. These algorithms has been constructed by transforming Daubechies wavelet filters into weighted sum of trivial filters. The theoretical computational complexity of the algorithms has been evaluated and compared to pyramidal and ladder ones. In order to prove the correctness of the theoretical estimation of computational complexity of the algorithms, sample implementations has been supplied. We have proved that the algorithms introduced here are the most robust of all class of Daubechies transforms in terms of computational complexity, especially in two dimensional case.
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References
Ayman, A., et al.: Mammogram Image Size Reduction Using 16-8 bit Conversion Technique. International Journal Of Biomedical Sciences 1(2) (2006)
Mallat, S.: A Wavelet Tour of Signal Processing. Academic Press, London (1988)
Vishwanath, M.: The recursive pyramid algorithm for the discrete wavelet transform. IEEE Trans. Signal Process. 42(3), 673–677 (1994)
Chakrabarti, C., Vishwanath, M.: Efficient Realizations of the Discrete and Continuous Wavelet Transforms: From Single Chip Implementations to Mappings on SIMD Array Computers. IEEE Transactions On Signal Processing 43(3) (1995)
Sweldens, W.: The lifting scheme: A construction of second generation wavelets. SIAM Journal on Mathematical Analysis 29(2), 511–546 (1998)
Holschneider, M., Kronland-Martinet, R., Morlet, J.: A Real-Time Algorithms for Signal Analysis with the Help of the Wavelet Transform. In: Wavelets, Time-Frequency Methods and Phase Space, pp. 289–297. Springer, Berlin (1989)
Vishwanath, M., Owens, R.M., Irwin, M.J.: VLSI Architectures for the Discrete Wavelet Transform. IEEE Transactions On Circuits And Systems-11: Analog And Digital Signal Processing 42(5) (1995)
Mao, J.S., Chan, S.C., Liu, W., Ho, K.L.: Design and multiplierless implementation of a class of two-channel PR FIR filterbanks and wavelets with low system delay. IEEE Trans. Signal Processing 48, 3379–3394 (2000)
Akansu, A.N.: Multiplierless PR quadrature mirror filters for subband image coding. IEEE Trans. Image Processing 5, 1359–1363 (1996)
Kotteri, K.A., Bell, A.E., Carletta, J.E.: Design of Multiplierless, High-Performance, Wavelet Filter Banks With Image Compression Applications. IEEE Transactions On Circuits And Systems I: Regular Papers 51(3) (2004)
Bayoumi, M.A.: Three-Dimensional Discrete Wavelet Transform Architectures Michael Weeks. IEEE Transactions On Signal Processing 50(8) (2002)
Baruaa, S., Carlettaa, J.E., Kotterib, K.A.: An efficient architecture for lifting-based two-dimensional discrete wavelet transforms. Integration, The Vlsi Journal 38, 341–352 (2005)
Daubechies, I.: Ten Lectures on Wavelets, pp. 357–367. SIAM, Philadelphia (1992)
Kuduvalli, G.R., Rangayyan, R.M.: Performance analysis of reversible image compression techniques for high resolution digital teleradiology. IEEE Trans. Med. Imag. 11, 430–445 (1992)
Lina, J.M.: Image Processing with Complex Daubechies Wavelets. Journal of Mathematical Imaging and Vision 7, 211–223 (1997)
Patnaik, L.M.: Daubechies 4 wavelet with a support vector machine as an efficient method for classification of brain images. Journal of Electronic Imaging 14(1) (2005)
Lipiński, P.: Fast Algorithm For Daubechies Discrete Wavelet Transform Computation. Nacjonalna Akademia Nauk Ukrainy, Modelowanie i Technologie Informacyjne, Zbiór prac naukowych, Kiev, No. 19, 178–183 (2002)
Lipiński, P.: Optimized 1-D Daubechies 6 Wavelet Transform. Information Technologies and Systems 6(1-2), 94–98 (2003)
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Lipinski, P., Yatsymirskyy, M. (2007). Efficient 1D and 2D Daubechies Wavelet Transforms with Application to Signal Processing. In: Beliczynski, B., Dzielinski, A., Iwanowski, M., Ribeiro, B. (eds) Adaptive and Natural Computing Algorithms. ICANNGA 2007. Lecture Notes in Computer Science, vol 4432. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-71629-7_44
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DOI: https://doi.org/10.1007/978-3-540-71629-7_44
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-71590-0
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