Title :
New MPEG Transport Standard for Next Generation Hybrid Broadcasting System With IP
Author :
Youngkwon Lim ; Aoki, Shigehisa ; Bouazizi, Imed ; Jaeyeon Song
Author_Institution :
Samsung R&D Inst. of America, Richardson, TX, USA
Abstract :
MPEG-2 transport system (TS) and ISO base media file format (ISOBFF) standards developed by MPEG have been widely used by various industries and applications including digital broadcasting systems. Recently MPEG has developed a new standard, MPEG Media Transport or MMT, for next generation broadcasting system considering the emerging convergence of digital broadcasting network and the Internet. MMT assumes HTML5 and Internet protocol (IP) as deployment environment and inherits major features of MPEG-2 TS while simplifying unnecessary complicated features in IP environments. It also considers hybrid delivery of multi-screen services. MMT defines an application layer protocol enabling packetization of opaque objects or files without considering the structure of data and media processing unit (MPU) format specific packetization. Synchronization technology of MMT providing flexible synchronization of multimedia components delivered through hybrid environment over multiple devices is built on top of HTML5.
Keywords :
access protocols; digital multimedia broadcasting; hypermedia markup languages; image coding; next generation networks; synchronisation; HTML5; IP environments; ISO base media file format standards; ISOBFF standards developed; Internet protocol; MPEG media transport; MPEG transport standard; MPEG-2 transport system; MPU; application layer protocol; digital broadcasting network; digital broadcasting systems; format specific packetization; hybrid delivery; media processing unit; multimedia components; multiscreen services; next generation hybrid broadcasting system; synchronization technology; Digital multimedia broadcasting; Media; Multimedia communication; Next generation networking; Protocols; Transform coding; Digital broadcasting system; HTML5; MPEG; MPEG.; multimedia synchronization; multimedia transport protocols;
Journal_Title :
Broadcasting, IEEE Transactions on
DOI :
10.1109/TBC.2014.2315472
