Handbook of Applied Cryptography
Handbook of Applied Cryptography
SPARK: A High-Lev l Synthesis Framework For Applying Parallelizing Compiler Transformations
VLSID '03 Proceedings of the 16th International Conference on VLSI Design
UML-based multiprocessor SoC design framework
ACM Transactions on Embedded Computing Systems (TECS)
PeaCE: A hardware-software codesign environment for multimedia embedded systems
ACM Transactions on Design Automation of Electronic Systems (TODAES)
A framework for rapid system-level exploration, synthesis, and programming of multimedia MP-SoCs
CODES+ISSS '07 Proceedings of the 5th IEEE/ACM international conference on Hardware/software codesign and system synthesis
Bridging the gap between symbolic and efficient AES implementations
Proceedings of the 2010 ACM SIGPLAN workshop on Partial evaluation and program manipulation
Cryptol: high assurance, retargetable crypto development and validation
MILCOM'03 Proceedings of the 2003 IEEE conference on Military communications - Volume II
Modeling DV/DVCPRO standards on reconfigurable video coding framework
Journal of Electrical and Computer Engineering
CAL Dataflow Components for an MPEG RVC AVC Baseline Encoder
Journal of Signal Processing Systems
Synthesizing Hardware from Dataflow Programs
Journal of Signal Processing Systems
Overview of the MPEG Reconfigurable Video Coding Framework
Journal of Signal Processing Systems
Secure computing with the MPEG RVC framework
Image Communication
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Although used by most of system developers, imperative languages are known for not being able to provide easily reconfigurable, platform independent and strictly modular applications. ISO/IEC has recently developed a new video coding standard called Reconfigurable Video Coding (RVC), with the objective of providing modular and concurrent specifications of complex video codecs that constitute a better starting point for implementation of applications using video compression. Multimedia security applications are traditionally developed in imperative languages mainly because the required multimedia codecs were only available in specification and implementations based on imperative languages. Therefore, aside from the technical challenges inherited from multimedia codecs, multimedia security applications also face a number of other challenges which are only specific to them. Since a number of multimedia codecs are already available in the RVC framework, multimedia security applications can now also be developed using this new development framework. This paper explains why the RVC framework approach can be used to efficiently overcome those technical challenges better than existing imperative languages. In addition, the paper demonstrates how the RVC framework can be used to quickly develop multimedia security applications by presenting some examples including a joint H.264/AVC video encryption-encoding system, a joint JPEG image encryption-encoding system and a image watermarking system in JPEG compressed-domain.