Abstract :
The following topics are dealt with: MIMO-OFDM signal processing; 802.11 MAC; wireless transmission enhancements; CDMA link design; multiuser DS-CDMA; iterative multiuser receivers; 3G networks; MIMO coding; MIMO transceiver designs; wireless circuits; mobile ad-hoc networks; wireless MAC protocols; wireless MAC analysis; coexistence and spectrum utilization; UWB; communications signal processing; diversity; communication systems performance analysis; wireless channel models; multiuser communications; coding principles; communication theory; 4G wireless networks concepts; wireless network optimization; wireless security; scheduling; quality of service; call admission control; cellular network performance; radio resource management; multimedia over wireless networks; location management and paging; handoff management; IP mobility; IPv6 mobility; wireless metropolitan area networks; satellite networks; TCP over wireless; wireless network security; multihop and ad hoc WLANs; mobility over WLANs; WLAN deployment; real-time traffic over WLAN; WLAN performance; mobility models and effects; experimental evaluations; cellular-WLAN interworking; cellular network engineering; end-to-end performance; wireless network performance; sensor network design, protocols, node placement, node localization, energy efficiency, and security; MANET routing, power efficient broadcasting, key management, security, fairness, multicast routing, cross-layer design, connectivity, service provisioning, architecture and performance; voice over IP; traffic engineering; network architecture design; service accountability; cellular system services; personal and indoor services; wireless services; location and mobility tracking.
Keywords :
3G mobile communication; 4G mobile communication; MIMO systems; OFDM modulation; access protocols; ad hoc networks; cellular radio; code division multiple access; diversity reception; encoding; indoor radio; internetworking; iterative methods; metropolitan area networks; mobility management (mobile radio); multicast communication; multimedia communication; multiuser channels; personal communication networks; quality of service; radio receivers; resource allocation; satellite communication; scheduling; security of data; signal processing; spread spectrum communication; telecommunication congestion control; telecommunication network planning; telecommunication network routing; telecommunication security; telecommunication traffic; transceivers; transport protocols; ultra wideband technology; wireless LAN; wireless sensor networks; 3G networks; 4G wireless networks concepts; 802.11 MAC; CDMA link design; IP mobility; IPv6 mobility; MANET architecture; MANET connectivity; MANET routing; MIMO coding; MIMO transceiver design; MIMO-OFDM signal processing; TCP over wireless; UWB; WLAN mobility; call admission control; cellular network engineering; cellular network performance; cellular-WLAN interworking; coding principles; coexistence; communication systems performance analysis; communication theory; communications signal processing; cross-layer design; diversity; energy efficiency; experimental evaluations; handoff management; indoor services; iterative multiuser receivers; key management; location management; location tracking; mobile ad-hoc networks; mobility tracking; multicast routing; multimedia; multiuser DS-CDMA; multiuser communications; paging; power efficient broadcasting; quality of service; radio resource management; satellite networks; scheduling; sensor networks; service accountability; service provisioning; spectrum utilization; traffic engineering; voice over IP; wireless MAC analysis; wireless MAC protocols; wireless channel models; wireless circuits; wireless metropolitan area networks; wireless network optimization; wireless network performance; wireless network security; wireless security; wireless transmission enhancements;
