Title :
A MIMO-OFDM prototype for next-generation wireless WANs
Author :
Dubuc, Christian ; Starks, David ; Creasy, Tim ; Hou, Yong
Author_Institution :
Nortel Networks, Ont., Canada
Abstract :
Coupled with a robust and efficient OFDM air interface, MIMO technologies lead to a very compelling high-speed data downlink solution for future wireless systems. This article presents Nortel Networks´ MIMO-OFDM concept prototype and measured performance results. This prototype has been developed in the framework of a Nortel Networks system concept for 3G evolution systems and next-generation wide area wireless networks. The prototype is based on a shared access MIMO-OFDM physical layer in the downlink, supporting adaptive modulation and coding, with peak rates up to 37 Mb/s. The uplink is based on an enhanced UMTS WCDMA physical layer. Performance for the high-speed downlink has been measured under various emulated fading conditions. The measured performance illustrates the robustness of OFDM in frequency-selective channels and high-speed mobility channels, supporting speeds as high as 200 km/h. The prototype can also be used for over-the-air assessment of the technology.
Keywords :
3G mobile communication; MIMO systems; OFDM modulation; cellular radio; code division multiple access; data communication; dispersive channels; radio links; wide area networks; 3G evolution system; MIMO-OFDM prototype; OFDM air interface; UMTS WCDMA physical layer; adaptive coding; adaptive modulation; data downlink; fading channel; frequency-selective channel; macrocellular wireless network; mobility channel; next-generation wireless WAN; wide area wireless network; 3G mobile communication; Downlink; MIMO; Modulation coding; Next generation networking; OFDM modulation; Physical layer; Prototypes; Robustness; Wireless networks;
Journal_Title :
Communications Magazine, IEEE
DOI :
10.1109/MCOM.2004.1367559
