Adaptive multiview video delivery using hybrid networking

Abstract

Multiview entertainment is the next step in 3D immersive media networking owing to its improved depth perception and free-viewpoint viewing capability whereby users can observe the scene from the desired viewpoint. This paper outlines a delivery system for multiview plus depth video, combining the broadcast and broadband networks. The digital video broadcast (DVB) network is used along with adaptive peer-to-peer (P2P) distribution over the Internet to deliver high-volume multimedia to users. The DVB network has been used to deliver part of the 3D service, owing to its robustness and wide availability, as a mechanism to guarantee the minimum 3D quality of experience. The developed system brings key contributions in the P2P transport for real-time multimedia delivery, including a user preference-aware adaptation mechanism, adaptive redundant chunk scheduling for robustness, incentives to decrease the load on the content server for improved system scalability, and resynchronization capability with the DVB transmission. The introduced features are compared with those of some other well-known P2P solutions to highlight the quantitative gains. A subjective testing campaign has also been organized on the developed hybrid platform, which proves the effectiveness of user-aware adaptation over network-based adaptation on a mean opinion score scale.