DocumentCode :
961791
Title :
Capacity scaling laws in MIMO relay networks
Author :
Bölcskei, Helmut ; Nabar, Rohit U. ; Oyman, Özgür ; Paulraj, Arogyaswami J.
Author_Institution :
Lab. of Commun. Technol., ETH Zurich
Volume :
5
Issue :
6
fYear :
2006
fDate :
6/1/2006 12:00:00 AM
Firstpage :
1433
Lastpage :
1444
Abstract :
The use of multiple antennas at both ends of a wireless link, popularly known as multiple-input multiple-output (MIMO) wireless, has been shown to offer significant improvements in spectral efficiency and link reliability through spatial multiplexing and space-time coding, respectively. This paper demonstrates that similar performance gains can be obtained in wireless relay networks employing terminals with MIMO capability. We consider a setup where a designated source terminal communicates with a designated destination terminal, both equipped with M antennas, assisted by K single-antenna or multiple-antenna relay terminals using a half-duplex protocol. Assuming perfect channel state information (CSI) at the destination and the relay terminals and no CSI at the source, we show that the corresponding network capacity scales as C = (M/2) log(K) + O(1) for fixed M, arbitrary (but fixed) number of (transmit and receive) antennas N at each of the relay terminals, and K rarr infin. We propose a protocol that assigns each relay terminal to one of the multiplexed data streams forwarded in a "doubly coherent" fashion (through matched filtering) to the destination terminal. It is shown that this protocol achieves the cut-set upper bound on network capacity for fixed M and K rarr infin (up to an O(1)-term) by employing independent stream decoding at the destination terminal. Our protocol performs inter-stream interference cancellation in a completely decentralized fashion, thereby orthogonalizing the effective MIMO channel between source and destination terminals. Finally, we discuss the case where the relay terminals do not have CSI and show that simple amplify-and-forward relaying, asymptotically in K, for fixed M and fixed N ges 1, turns the relay network into a point-to-point MIMO link with high-SNR capacity C = (M/2) log(SNR) + O(1), demonstrating that the use of relays as active scatterers can recover spatial multiplexing gain in poor scattering environments
Keywords :
MIMO systems; antenna arrays; interference suppression; matched filters; multiplexing; protocols; radio links; radio networks; space-time codes; wireless channels; MIMO relay networks; capacity scaling laws; channel state information; half-duplex protocol; inter-stream interference cancellation; link reliability; matched filtering; multiple antennas; multiple-antenna relay terminals; multiple-input multiple-output; network capacity; single-antenna; space-time coding; spatial multiplexing; spectral efficiency; stream decoding; wireless link; Channel state information; MIMO; Matched filters; Performance gain; Protocols; Receiving antennas; Relays; Scattering; Telecommunication network reliability; Transmitting antennas;
fLanguage :
English
Journal_Title :
Wireless Communications, IEEE Transactions on
Publisher :
ieee
ISSN :
1536-1276
Type :
jour
DOI :
10.1109/TWC.2006.1638664
Filename :
1638664
Link To Document :
بازگشت