Block diagonalization for multi-user MIMO with other-cell interference. Shim, S., Kwak, J., Heath Jr., R., & Andrews, J. IEEE Transactions on Wireless Communications, 2008.
abstract   bibtex   
Block diagonalization is one approach for linear preceding in the multiple-input multiple-output broadcast channel that sends multiple interference free data streams to different users in the same cell. Unfortunately, block diagonalization neglects other-cell interference (OCI), which limits the performance of users at the edge of the cell. This paper presents an OCI-aware enhancement to block diagonalization that uses a whitening Alter for interference suppression at the receiver and a novel precoder using the interference-plus-noise covariance matrix for each user at the transmitter. For complex Gaussian matrix channels, the asymptotic sum rate of the proposed system is analyzed under a large antenna assumption for isotropic inputs and compared to conventional block diagonalization. The capacity loss due to OCI is quantified in terms of results from single-user MIMO capacity. Several numerical examples compare achievable sum rates, the proposed asymptotic rates, and the capacity loss, in low and high interference regimes. ? 2008 IEEE.
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 title = {Block diagonalization for multi-user MIMO with other-cell interference},
 type = {article},
 year = {2008},
 identifiers = {[object Object]},
 keywords = {[Broadcast channels, Interference suppression, MIM},
 volume = {7},
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 abstract = {Block diagonalization is one approach for linear preceding in the multiple-input multiple-output broadcast channel that sends multiple interference free data streams to different users in the same cell. Unfortunately, block diagonalization neglects other-cell interference (OCI), which limits the performance of users at the edge of the cell. This paper presents an OCI-aware enhancement to block diagonalization that uses a whitening Alter for interference suppression at the receiver and a novel precoder using the interference-plus-noise covariance matrix for each user at the transmitter. For complex Gaussian matrix channels, the asymptotic sum rate of the proposed system is analyzed under a large antenna assumption for isotropic inputs and compared to conventional block diagonalization. The capacity loss due to OCI is quantified in terms of results from single-user MIMO capacity. Several numerical examples compare achievable sum rates, the proposed asymptotic rates, and the capacity loss, in low and high interference regimes. ? 2008 IEEE.},
 bibtype = {article},
 author = {Shim, S. and Kwak, J.S. and Heath Jr., R.W. and Andrews, J.G.},
 journal = {IEEE Transactions on Wireless Communications},
 number = {7}
}
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