See the blog of the organizer.
Additionally, new emerging multimedia services are being introduced. These developments in the multimedia arena mean that various content and services will be delivered over different networks, and the users expect to consume these services using those networks, depending on the availability and reach of the network at the time of consumption. This massive heterogeneity in terms of terminal/network capabilities and user expectations requires efficient solutions for the transport of modern media in an interoperable and universal fashion. In particular, in recent years, the Internet has become an important channel for the delivery of multimedia. The Hypertext Transfer Protocol (HTTP) is widely used on the Internet and it has also become a primary protocol for the delivery of multimedia content.
Additionally, standards developing organizations (SDOs) such as MPEG have developed various technologies for multimedia transport and
encapsulation, e.g., MPEG2-TS (Transport Stream) and MPEG4 file format. These technologies have been widely adopted and are
heavily deployed by various providers and in different applications and services, such as digital broadcasting, audio and video transport over
he Internet and streaming to mobile phones, etc. At the same time, many other SDOs such as the IETF, IEEE, and 3GPP have provided various
protocols to deliver multimedia content packetized or packaged by such MPEG transport technologies.
This special issue solicits novel contributions and breaking results on
all aspects of Adaptive Streaming of Multimedia. The main objectives of
this special issue are (but not limited to):
- Efficient delivery of multimedia content in an adaptive, progressive download/streaming fashion (incl. over HTTP);
- Support for streaming of live multimedia, to mobile users, low-capacity channels, bandwidth variations, as well as multipoint streaming over heterogeneous channels or paths;
- Efficient and ease of use of existing content distribution infrastructure components such as CDNs, proxies, caches, NATs and firewalls;
- Efficient content generation (encoding) techniques for content delivery (e.g., segmentation);
- Detailed performance analyses of deployed standard technologies or that uncover and rectify major problems in the behavior of such technologies;
- Measurement techniques for collecting consumption data (both application and transport-level performance metrics, viewer behavior, etc.) in content delivery;
- The effects of adaptation techniques on the end-user quality of experience;
- Viewer experiences from large-scale experiments and events (such as Olympics, World Cup, etc.).
Submission Procedure
====================
Prospective authors should prepare their submissions in accordance with the rules specified in the 'Information for Authors' section of the JSAC guidelines (http://www.jsac.ucsd.edu/Guidelines/info.html). Papers should be submitted through EDAS (http://www.edas.info). Prior to submitting their papers for review, authors should make sure that they understand and agree to adhere to the over-length page charge policy presented in the JSAC guidelines.
Important Dates
===============
1st Submission: Apr 1, 2013
Reviews Available: Jul 1, 2013
2nd Submission: Aug 31, 2013
Final Acceptance Decision: Oct 31, 2013
Camera-ready: Dec 1, 2013
Publication: 2nd quarter 2014
Guest Editors
=============
Christian Timmerer, Alpen-Adria-Universität Klagenfurt, Austria Ali C.
Begen, CISCO, Canada Thomas Stockhammer, QUALCOMM, USA Carsten Griwodz,
Simula Research Laboratory, Norway Bernd Girod, Stanford University, USA
Contact: Christian Timmerer, christian.timmerer@itec.aau.at,
http://research.timmerer.com
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