Signal processing, protocols and standardization-Standardization (IEEE 802.17, Policy Models, Etc.); IEEE 802.11 engineering; Telecommunications protocol engineering; Future networks: protocol and standards; Standardization (IEEE 802.15, IEEE 802.16); Communication theory, signal processing, Ad hoc, autonomic and sensor networks-Autonomic home networking; Sensor, mesh, and Ad hoc networks; Programmable networks; Active networks; Self-organization and network reconfiguration; Partial and intermittent resources and services; Unicast and multicast routing;-Wireless technologies-3G And 4G Mobile communications services; Evolution from 2G To 2.5G, 3G and beyond; Wireless multimedia and networks and systems; Cellular and Ad hoc networks; Mobile broadband technologies;
Mobile software (agents); Wireless access; Management, operation and control networks Monitoring telecommunications systems; Network. management contingency challenges; Real-time traffic and QoS; Performance and QoS, traffic engineering (MPLS, Diffserv, Intserv, Etc.); Core technologies and access technologies and networks; Wireless-fiber convergence; Metro/Access networks; Broadband access networks and services; Next Generation Networks and technologies; Future Internet; Future applications and services Service-oriented architectures; E-Learning and mobile learning on telecommunications; SOHO (Small Offices/Home Offices; Emerging telecommunications software tools; Object and component technologies in telecommunication software; Optical Technologies-Optical internetworking architectures; Novel architectures for optical routers and switches; Optical packet / burst switching; Optical multi-wave length label switching; Optical network performance modeling; Optical network control and management; Measurement, monitoring and supervision techniques; Security and privacy in optical networks; Optical access networks designs and protocols; High speed optical LANs and gigabit Ethernet; Cognitive radio-Cognitive radio technologies and opportunistic spectrum utilization; Spectrum sensing technologies; Dynamic spectrum access; Information theory and performance limits of dynamic spectrum access; Distributed algorithms for spectrum detection and cooperative spectrum sensing; Inter- and Intra- standards interoperability; Cross-layer algorithms based on spectrum sensing techniques; Teletraffic modeling and management Traffic and performance measurements; Traffic characterization and modeling; Trends and patterns; Scaling phenomena; Packet and flow level models; Traffic control and QosS; Queuing theory and queuing networks; Performance evaluation; Scheduling and admission control; Reservation and priority mechanisms; Overload control; E-Learning and telecommunications .Architecture of learning technology systems; Advanced uses of multimedia and hypermedia; Integrated learning and educational environments; National and international projects on e-learning and telecommunications; Remote and wireless teaching technologies.
|