Coding and Decoding Stereoscopic Film Compression by Multiwavelet Transform

This paper proposes a Multiwavelet Transform Algorithm (MWT) to fully utilize the spectral and spatial correlation in the 3D spectroscopic film [1]. A practical lossy compression concept and corresponding compression ratio and quality requirements are submitted to the multiple bands of the frames to construct the film [2]. The MLWT bands image compression technique depend on the contour and edge feature of the multiple band images in the same district [3]. The removal correlation method of the multiple band images contour features is a coding method for the multiple band images [4]. The MWT analysis is discussed and the fast-algorithmic model is designed. The compression and reconstruction the procedure results are the 16-band images that may obtain a compression ratio over the lossy requirements [5]. This compression method has enhanced the quality of reconstruction frames to the requirement of lossy with the high compression ratio [5]. Consequently, the proposed coding and decoding compression technique is achieved efficient transmission for minimum bandwidth usage as well as for the storage usage reduction of 3D stereoscopic film down to 38.19% with dimension [1812,1080] frame.