DocumentCode :
1016086
Title :
Interference Coordination in Cellular OFDMA Networks
Author :
Necker, Marc C.
Author_Institution :
Univ. of Stuttgart, Stuttgart
Volume :
22
Issue :
6
fYear :
2008
Firstpage :
12
Lastpage :
19
Abstract :
Orthogonal frequency division multiple access is the basis for several emerging mobile communication systems. Prominent examples are the 3GPP long term evolution as the successor of UMTS high-speed packet access and the IEEE 802.16 system, advanced by the WiMax forum. On a system level, OFDMA is basically a combination of time and frequency division multiple access. In cellular TDM/FDM systems, inter-cell interference is a major issue that traditionally has been solved by avoiding the use of the same frequency bands in adjacent cells. However, this solution incurs a waste of precious frequency resources. An attractive alternative is the use of beamforming antennas in combination with interference coordination mechanisms, where the transmission of adjacent base stations is coordinated to minimize inter-cell interference. Interference coordination is an important aspect of the system level, which influences many other issues, such as network planning or scheduling mechanisms. In this article, we give an overview of interference coordination as it would apply, for example, to IEEE 802.16e and review the relevant literature. We also discuss and compare interference coordination algorithms, which can be based either on global system knowledge or purely on local system knowledge.
Keywords :
OFDM modulation; cellular radio; frequency division multiple access; radiofrequency interference; time division multiple access; time division multiplexing; 3GPP long term evolution; FDM; IEEE 802.16e system; TDM; UMTS high-speed packet access; WiMax; beamforming antenna; cellular OFDMA network; inter-cell interference; interference coordination mechanism; mobile communication system; orthogonal frequency division multiple access; time division multiple access; 3G mobile communication; Array signal processing; Cellular networks; Frequency conversion; Interference; Long Term Evolution; Mobile communication; Time division multiplexing; Transmitting antennas; WiMAX;
fLanguage :
English
Journal_Title :
Network, IEEE
Publisher :
ieee
ISSN :
0890-8044
Type :
jour
DOI :
10.1109/MNET.2008.4694169
Filename :
4694169
Link To Document :
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