Title :
4MORE system level performance
Author :
Rodriguez, J. ; Monteiro, V. ; Gameiro, A. ; Legouable, R. ; Ibrahim, N. ; Shateri, M.
Author_Institution :
Inst. de Telecomunicacoes, Aveiro
Abstract :
While the third generation terrestrial mobile system (UMTS-UTRA) is currently being deployed, there is already a significant research activity towards what is called B3G systems. The vision for this new generation includes provision of a broadband component for which various implementation technologies are being considered, one of them being MC-CDMA. The 4MORE project focuses at the system concept on techniques believed to be crucial to reach the broadband capabilities envisioned, namely Multiple Transmit Multiple Receive (MTMR) antennas and cross-layer design (LI and L2). Specifically, the joint application of dynamic resource allocation with double Alamouti encoding is considered to ensure seamless IP packet transport with broadband capabilities. The simulation results have shown that the 4MORE system can match the anticipated throughputs required for the cellular component of B3G systems.
Keywords :
3G mobile communication; antenna arrays; broadband networks; cellular radio; 4MORE project; IP packet transport; broadband cellular component; cross-layer design; double Alamouti encoding; dynamic resource allocation; multi carrier code division multiple access; multiple transmit multiple receive antenna; third generation terrestrial mobile system; Broadband antennas; Cross layer design; MIMO; Multicarrier code division multiple access; OFDM; Physical layer; Resource management; System-on-a-chip; Throughput; Vehicle dynamics; 4MORE; Alamouti; Dynamic Resource Allocation; MC-CDMA; MIMO;
Conference_Titel :
Telecommunications Symposium, 2006 International
Conference_Location :
Fortaleza, Ceara
Print_ISBN :
978-85-89748-04-9
Electronic_ISBN :
978-85-89748-04-9
DOI :
10.1109/ITS.2006.4433412
