ABSTRACT
Hence, efficient coding techniques for MV video have been extensively researched in recent years but it is still an open area for research. Therefore, the industry keeps looking for the global benchmark for video compression which is ITU and its partners since ITU-T H.264 has underpinned expansion and rapid progress. HEVC or ITU-T H.265 was jointly developed to double the video data compression ratio as compared to its predecessor ITU-T H.264 / MPEG-4 Part 10 - Advanced Video Coding-(AVC) at the same level of video quality even better. HEVC opens the future door for video transmission only using half of the bandwidth (bit rate) compared to its predecessor, which currently accounts over 80 percent of all web video. H.265/HEVC, the further advance video coding is emerged as video coding standard and 3D video coding serving multimedia communications. The rest of the paper is organized as follows: Section (2) contains the Literature work explaining recent relevant IPTV research papers. Section (3) shows
1 INTRODUCTION
Generally, Digital Generation represents the state of the art of modern television technology, defeating analogue TV with its quality. Moreover, Internet TV entertainment achieves a realized progress that’s why the most common entertainment Internet TV is IPTV. IPTV is a very stringent QoS and QoE technology since video contents are delivered over dedicated private and secured fixed geographical area networks (ITU-IPTV FG 2008). Lossy compression can be used for audio/video AV in which it approximates the media data rate dramatically. H.264/AVC technology is considered the most popular and dominant lossy compression method used by commercial IPTV providers. Typically, MV contains two views of a video taken from different perspectives, whereby each view consists of a sequence of video frames (pictures). These two different views could be displayed to give viewers the perception of depth. This commonly refers to Three-Dimensional (3D) video; to provide 3D video services over transport networks, it is required to have efficient video compression (coding) techniques and sufficient transport mecha-
required IPTV nodes and main architecture elements for implementation of IPTV network. Section (4) elaborates different networking statistics that will be included. Section (5) shows scenarios and results. Section (6) draws the conclusion. Section illustrates helpful references.
