J. Nesvadba, P. Fonseca, A. Sinitsyn, F. D. Lange, Martijn Thijssen, P. Kaam, Hong Liu, Rien van Leeuwen, J. Lukkien, A. Korostelev, Jan Ypma, B. Kroon, H. Celik, A. Hanjalic, S. U. Naci, J. Benois-Pineau, P. D. With, Jungong Han
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引用次数: 17
Abstract
The ever-increasing complexity of generic multimedia-content-analysis-based (MCA) solutions, their processing power demanding nature and the need to prototype and assess solutions in a fast and cost-saving manner motivated the development of the Cassandra framework. The combination of state-of-the-art network and grid-computing solutions and recently standardized interfaces facilitated the set-up of this framework, forming the basis for multiple cross-domain and cross-organizational collaborations. It enables distributed computing scenario simulations for e.g. distributed content analysis (DCA) across consumer electronics (CE) in-home networks, but also the rapid development and assessment of complex multi-MCA-algorithm-based applications and system solutions. Furthermore, the framework's modular nature-logical MCA units are wrapped into so-called service units (SU)-ease the split between system-architecture- and algorithmic-related work and additionally facilitate reusability, extensibility and upgrade ability of those SUs
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