Rohini S. Asamwar, Kishor M. Bhurchandi and Abhay S. Gandhi. Interpolation of Images Using Discrete Wavelet Transform to Simulate Image Resizing as in Human Vision. International Journal of Automation and Computing, vol. 7, no. 1, pp. 9-16, 2010. DOI: 10.1007/s11633-010-0009-7
Citation: Rohini S. Asamwar, Kishor M. Bhurchandi and Abhay S. Gandhi. Interpolation of Images Using Discrete Wavelet Transform to Simulate Image Resizing as in Human Vision. International Journal of Automation and Computing, vol. 7, no. 1, pp. 9-16, 2010. DOI: 10.1007/s11633-010-0009-7

Interpolation of Images Using Discrete Wavelet Transform to Simulate Image Resizing as in Human Vision

  • This paper presents discrete wavelet transform (DWT) and its inverse (IDWT) with Haar wavelets as tools to compute the variable size interpolated versions of an image at optimum computational load. As a human observer moves closer to or farther from a scene, the retinal image of the scene zooms in or out, respectively. This zooming in or out can be modeled using variable scale interpolation. The paper proposes a novel way of applying DWT and IDWT in a piecewise manner by non-uniform down-or up-sampling of the images to achieve partially sampled versions of the images. The partially sampled versions are then aggregated to achieve the final variable scale interpolated images. The non-uniform down-or up-sampling here is a function of the required scale of interpolation. Appropriate zero padding is used to make the images suitable for the required non-uniform sampling and the subsequent interpolation to the required scale. The concept of zeroeth level DWT is introduced here, which works as the basis for interpolating the images to achieve bigger size than the original one. The main emphasis here is on the computation of variable size images at less computational load, without compromise of quality of images. The interpolated images to different sizes and the reconstructed images are benchmarked using the statistical parameters and visual comparison. It has been found that the proposed approach performs better as compared to bilinear and bicubic interpolation techniques.
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