In this paper we introduce an approach moving from the concept of spatial MDC and introducing some algorithms to obtain 3D sub-streams that are more efficient by exploiting some form of scalability. The starting point to code the 3D video sequence is the depth image-based rendering (DIBR). In these algorithms, we first generate four 3D subsequences by sub-sampling, then two of these subsequences are jointly used to form each of the two descriptions. For each description, one of the original subsequences is predicted from the other one via some scalable algorithms, focusing on the inter layer prediction scheme. Two different approaches are considered, prediction of the depth maps from the corresponding color images, or prediction of a color or depth data from color or depth data, respectively. The proposed algorithm has been implemented as pre- and post- processing of the standard H.264/SVC coder. The experimental results are presented and we show it provides excellent results.
A scalable multiple descriptions scheme for 3D video coding based on the inter layer prediction structure
FAVALLI, LORENZO;FOLLI, MARCO
2010-01-01
Abstract
In this paper we introduce an approach moving from the concept of spatial MDC and introducing some algorithms to obtain 3D sub-streams that are more efficient by exploiting some form of scalability. The starting point to code the 3D video sequence is the depth image-based rendering (DIBR). In these algorithms, we first generate four 3D subsequences by sub-sampling, then two of these subsequences are jointly used to form each of the two descriptions. For each description, one of the original subsequences is predicted from the other one via some scalable algorithms, focusing on the inter layer prediction scheme. Two different approaches are considered, prediction of the depth maps from the corresponding color images, or prediction of a color or depth data from color or depth data, respectively. The proposed algorithm has been implemented as pre- and post- processing of the standard H.264/SVC coder. The experimental results are presented and we show it provides excellent results.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.