Abstract :
The following topics are dealt with: real-time chain-structured synchronous dataflow; memory requirement formal determination; linear singular descriptor differential system; execution-optimized paths; greedy strategy; load trend evaluation; self-managed P2P streaming; context-aware ambient assisted living application; self-adaptive distributed model; autonomic systems; wireless sensor networks; topology control; learning based method; self-recovery method; mobile data sharing; heterogeneous QoS resource manager; component-based self-healing; NGN mobility; interactive user activity; .NET Windows service agent technology; agent based Web browser; resource-definition policies; autonomic computing; autonomic system administration; automatic database performance tuning; knowledge management; adaptive reinforcement learning; VoIP services; autonomic RSS: distributed virtual reality simulations; virtual machines resources allocation; multi-lier distributed systems; network I/O extensibility; virtual keyboards; self-configuring smart homes; legged underwater vehicles; particle filters; reusable semantic components; multi-agent systems; fixed-wing unmanned aerial vehicles; fuzzy inference system; robot swarms; mobile robots; optimization architecture; autonomous unmanned helicopter landing system design; heterogeneous multi-database environments; autonomic software license management system; Web server crashes prediction; laser range finder; video quality; wireless networks; ITU-T G.1030; open IMS core; context-aware data mining methodology; supply chain finance cooperative systems; autonomous pervasive environments; distributed generic stress tool; dynamic adaptive systems; multisensory media effects and user preference.
Keywords :
Internet; Internet telephony; aircraft landing guidance; data flow computing; data mining; financial management; fuzzy set theory; greedy algorithms; helicopters; home computing; inference mechanisms; keyboards; knowledge management; laser ranging; learning (artificial intelligence); mobile computing; mobile robots; multi-agent systems; multi-robot systems; online front-ends; optimisation; peer-to-peer computing; quality of service; remotely operated vehicles; resource allocation; software fault tolerance; software management; supply chain management; telecommunication network topology; underwater vehicles; virtual machines; virtual reality; wireless sensor networks; .NET Windows service agent technology; ITU-T G.1030; NGN mobility; VoIP services; Web server crashes prediction; adaptive reinforcement learning; agent based Web browser; automatic database performance tuning; autonomic RSS; autonomic computing; autonomic software license management system; autonomic system administration; autonomic systems; autonomous pervasive environments; autonomous unmanned helicopter landing system design; component-based self-healing; context-aware ambient assisted living application; context-aware data mining methodology; distributed generic stress tool; distributed virtual reality simulations; dynamic adaptive systems; execution-optimized paths; fixed-wing unmanned aerial vehicles; fuzzy inference system; greedy strategy; heterogeneous QoS resource manager; heterogeneous multi-database environments; interactive user activity; knowledge management; laser range finder; learning based method; legged underwater vehicles; linear singular descriptor differential system; load trend evaluation; memory requirement formal determination; mobile data sharing; mobile robots; multi-agent systems; multi-lier distributed systems; multisensory media effects; network I/O extensibility; open IMS core; optimization architecture; particle filters; real-time chain-structured synchronous dataflow; resource-definition policies; reusable semantic components; robot swarms; self-adaptive distributed model; self-configuring smart homes; self-managed P2P streaming; self-recovery method; supply chain finance cooperative systems; topology control; user preference; video quality; virtual keyboards; virtual machines resources allocation; wireless networks; wireless sensor networks;
Conference_Titel :
Autonomic and Autonomous Systems, 2009. ICAS '09. Fifth International Conference on
Conference_Location :
Valencia
Print_ISBN :
978-1-4244-3684-2
DOI :
10.1109/ICAS.2009.2
