Title :
On-board satellite image compression using the Fourier transform and Huffman coding
Author :
Sahnoun, Khaled ; Benabadji, Noureddine
Author_Institution :
Dept. of Phys., Univ. of Sci. & Technol. of Oran (USTOMB), El M´nouar, Algeria
Abstract :
The need to transmit or store satellite images is growing rapidly with the development of modern communications and new imaging systems. The goal of compression is to facilitate the storage and transmission of large images on the ground with high compression ratios and minimum distortion. In this work, we present a new coding scheme for satellite images. At first, the image will be downloaded followed by a fast Fourier transform FFT. The result obtained after FFT processing undergoes a scalar quantization (SQ). The results obtained after the quantization phase are encoded using entropy encoding. This approach has been tested on satellite image and Lena picture. After decompression, the images were reconstructed faithfully and memory space required for storage has been reduced by more than 80%.
Keywords :
Huffman codes; data compression; entropy; fast Fourier transforms; image coding; quantisation (signal); FFT; Huffman coding; Lena picture; SQ; compression ratios; entropy encoding; fast Fourier transform; imaging systems; minimum distortion; modern communications systems; on-board satellite image compression; scalar quantization; Educational institutions; Entropy; Fourier transforms; Image coding; Image reconstruction; Quantization (signal); Satellites; Compression; Encoding Entropy; FFT; Satellite; Scalar Quantization;
Conference_Titel :
Computer and Information Technology (WCCIT), 2013 World Congress on
Conference_Location :
Sousse
Print_ISBN :
978-1-4799-0460-0
DOI :
10.1109/WCCIT.2013.6618754
