Compression of digital holograms of three-dimensional objects using the wavelet transform

Alison E. Shortt; Thomas J. Naughton; Bahram Javidi

doi:10.1117/12.618394

10 September 2005 Compression of digital holograms of three-dimensional objects using the wavelet transform

Alison E. Shortt, Thomas J. Naughton, Bahram Javidi

Proceedings Volume 5908, Optical Information Systems III; 590804 (2005) https://doi.org/10.1117/12.618394
Event: Optics and Photonics 2005, 2005, San Diego, California, United States

Abstract

Wavelets are used extensively in image processing due to the localized frequency information that can be conveyed by the wavelet transform. This and other characteristics of wavelet transforms can be exploited very effectively for the compression of images. We apply the wavelet transform to digital holograms of three-dimensional objects. Our digital holograms are complex-valued signals captured using phase-shift interferometry. Speckle gives them a white noise-like appearance with little correlation between neighboring pixels. In our analyses we concentrate on the discrete wavelet transform and Haar dyadic bases. We achieve compression through quantization of the wavelet transform coefficients. We quantize the discrete wavelet coefficients in each of the subbands depending on the dynamic range of the coefficients in that subband. Finally, we losslessly encode these subbands to quantify the high compression ratios achieved. We outline the three issues that need to be dealt with in order to improve the compression ratio of wavelet based techniques for particular applications as (i) determining a good criterion for ascertaining the coefficients that have to be retained, (ii) determining a quantization strategy and quantization error appropriate to one's particular application, and (iii) compression of the bookkeeping data.

Citation Download Citation

Alison E. Shortt, Thomas J. Naughton, and Bahram Javidi "Compression of digital holograms of three-dimensional objects using the wavelet transform", Proc. SPIE 5908, Optical Information Systems III, 590804 (10 September 2005); https://doi.org/10.1117/12.618394

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