We present a method for compressing binary images via monochromatic pattern substitution. Such method has no relevant loss of compression effectiveness if the image is partitioned into up to a thousand blocks, approximately, and each block is compressed independently. Therefore, it can be implemented on a distributed system with no interprocessor communication. In the theoretical context of unbounded parallelism, interprocessor communication is needed. Compression effectiveness has a bell-shaped behaviour which is again competitive with the sequential performance when the highest degree of parallelism is reached. Finally, the method has a speed-up if applied sequentially to an image partitioned into up to 256 blocks. It follows that such speed-up can be applied to a parallel implementation on a small scale system. © 2013 Springer Basel.
Binary Image Compression via Monochromatic Pattern Substitution: Sequential and Parallel Implementations / Cinque, Luigi; DE AGOSTINO, Sergio; Luca, Lombardi. - In: MATHEMATICS IN COMPUTER SCIENCE. - ISSN 1661-8270. - STAMPA. - 7:2(2013), pp. 155-166. [10.1007/s11786-013-0153-x]
Binary Image Compression via Monochromatic Pattern Substitution: Sequential and Parallel Implementations
CINQUE, LUIGI;DE AGOSTINO, Sergio;
2013
Abstract
We present a method for compressing binary images via monochromatic pattern substitution. Such method has no relevant loss of compression effectiveness if the image is partitioned into up to a thousand blocks, approximately, and each block is compressed independently. Therefore, it can be implemented on a distributed system with no interprocessor communication. In the theoretical context of unbounded parallelism, interprocessor communication is needed. Compression effectiveness has a bell-shaped behaviour which is again competitive with the sequential performance when the highest degree of parallelism is reached. Finally, the method has a speed-up if applied sequentially to an image partitioned into up to 256 blocks. It follows that such speed-up can be applied to a parallel implementation on a small scale system. © 2013 Springer Basel.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
