Keywords: lossy image compression, singular value decomposition, wavelet difference reduction, stationary wavelet transform, discrete wavelet transform, image super resolution.

Abstract: In this paper we propose a new lossy image compression technique which uses Singular value decomposition (SVD) and wavelet difference reduction (WDR) technique followed by resolution enhancement using discrete wavelet transform (DWT) and stationary wavelet transform (SWT). The input image is decomposed into four different frequency subbands by using DWT. The low frequency subband is the being compressed by using DWR and in parallel the high frequency subbands are being compressed by using SVD which reduces the rank by ignoring small singular values. The compression ratio is obtained by dividing the total number of bits required to represent the input image over the total bit numbers obtain by WDR and SVD. Reconstruction is carried out by using inverse of WDR to obtained low frequency subband and reconstructing the high frequency subbands by using matrix multiplications. The high frequency subbands are being enhanced by incorporating the high frequency subbands obtained by applying SWT on the reconstructed low frequency subband. The reconstructed low frequency subband and enhanced high frequency subbands are being used to generate the reconstructed image by using inverse DWT. The visual and quantitative experimental results of the proposed image compression technique are shown and also compared with those of the WDR with arithmetic coding technique and JPEG2000. From the results of the comparison, the proposed image compression technique outperforms the WDR-AC and JPEG2000 techniques.

Download Paper

Share this page