Efficient Algorithms for Discrete Wavelet Transform

With Applications to Denoising and Fuzzy Inference Systems

Efficient Algorithms for Discrete Wavelet Tra ...
K. K. Shukla, K. K. Shukla, Ar ...
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October 5, 2021 | History

Efficient Algorithms for Discrete Wavelet Transform

With Applications to Denoising and Fuzzy Inference Systems

Transforms are an important part of an engineer’s toolkit for solving signal processing and polynomial computation problems. In contrast to the Fourier transform-based approaches where a fixed window is used uniformly for a range of frequencies, the wavelet transform uses short windows at high frequencies and long windows at low frequencies. This way, the characteristics of non-stationary disturbances can be more closely monitored. In other words, both time and frequency information can be obtained by wavelet transform. Instead of transforming a pure time description into a pure frequency description, the wavelet transform finds a good promise in a time-frequency description.

Due to its inherent time-scale locality characteristics, the discrete wavelet transform (DWT) has received considerable attention in digital signal processing (speech and image processing), communication, computer science and mathematics.^ Wavelet transforms are known to have excellent energy compaction characteristics and are able to provide perfect reconstruction. Therefore, they are ideal for signal/image processing. The shifting (or translation) and scaling (or dilation) are unique to wavelets. Orthogonality of wavelets with respect to dilations leads to multigrid representation.

The nature of wavelet computation forces us to carefully examine the implementation methodologies. As the computation of DWT involves filtering, an efficient filtering process is essential in DWT hardware implementation. In the multistage DWT, coefficients are calculated recursively, and in addition to the wavelet decomposition stage, extra space is required to store the intermediate coefficients.^ Hence, the overall performance depends significantly on the precision of the intermediate DWT coefficients.

This work presents new implementation techniques of DWT, that are efficient in terms of computation requirement, storage requirement, and with better signal-to-noise ratio in the reconstructed signal.
Publish Date
Language
English
Pages
91

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Cover of: Efficient Algorithms for Discrete Wavelet Transform
Efficient Algorithms for Discrete Wavelet Transform: With Applications to Denoising and Fuzzy Inference Systems
2013, Springer London, Imprint: Springer
electronic resource : in English
Cover of: Efficient Algorithms for Discrete Wavelet Transform

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Book Details


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Library of Congress
QA75.5-76.95

The Physical Object

Number of pages
91
Weight
1.708

ID Numbers

Open Library
OL34482526M
ISBN 13
9781447149408

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Better World Books record

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October 5, 2021 Created by ImportBot Imported from Better World Books record