secure media streaming & secure adaptation for non-scalable video

Two important capabilities in media streaming are (1) adapting the media for the time-varying available network bandwidth and diverse client capabilities, and (2) protecting the security of the media. Providing both end-to-end security and adapting at a (potentially untrusted) sender or mid-network...

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1. Verfasser:	Apostolopoulos, J.G.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Applied sciences Artificial intelligence Automatic voltage control Bandwidth Computer science control theory systems Computer systems and distributed systems. User interface Cryptography Exact sciences and technology Gain Network servers Pattern recognition. Digital image processing. Computational geometry Protection Security Software Streaming media Time varying systems Transcoding
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creator	Apostolopoulos, J.G.
description	Two important capabilities in media streaming are (1) adapting the media for the time-varying available network bandwidth and diverse client capabilities, and (2) protecting the security of the media. Providing both end-to-end security and adapting at a (potentially untrusted) sender or mid-network node or proxy can be solved via a framework called secure scalable streaming (SSS) which provides the ability to transcode the content without requiring decryption. In addition, this enables secure transcoding to be performed in a R-D optimized manner. The original SSS work was performed for scalably coded media. This paper examines its potential application to non-scalable media. Specifically, we examine the problems of how to scale non-scalable H.264/MPEG-4 AVC video and how to do it securely. We first show, perhaps surprisingly, (hat the importance of different P-frames in a sequence can vary by two orders of magnitude. Then we propose two approaches for securely streaming and adapting encrypted H.264 video streams in an R-D optimized manner using (1) secure-media R-D hint tracks, and (2) secure scalable packets. While we can not scale the bit rate of encrypted non-scalable H.264 to the same extent possible for scalably coded media, our method does provide some scaling capability and more importantly provides 4-8 dB gain compared to conventional approaches.
doi_str_mv	10.1109/ICIP.2004.1421415
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User interface</topic><topic>Cryptography</topic><topic>Exact sciences and technology</topic><topic>Gain</topic><topic>Network servers</topic><topic>Pattern recognition. Digital image processing. 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Applied sciences Artificial intelligence Automatic voltage control Bandwidth Computer science control theory systems Computer systems and distributed systems. User interface Cryptography Exact sciences and technology Gain Network servers Pattern recognition. Digital image processing. Computational geometry Protection Security Software Streaming media Time varying systems Transcoding
title	secure media streaming & secure adaptation for non-scalable video
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