Downlink Macro-Diversity in Cellular Networks
Jing, Sheng
Tse, David N. C.
Soriaga, Joseph B.
Hou, Jilei
Smee, John E.
Padovani, Roberto
Laboratory for Information & Decision Systems (LIDS), MIT, Cambridge, MA, Email: sjing@mit.edu;
This paper appears in: Information Theory, 2007. ISIT 2007. IEEE International Symposium on
Publication Date: 24-29 June 2007
On page(s): 1-5
Location: Nice,
ISBN: 978-1-4244-1397-3
Digital Object Identifier: 10.1109/ISIT.2007.4557076
Current Version Published: 2008-07-09
Abstract
In this paper, we study the potential benefit of base-station (BS) cooperation for downlink transmission in a modified Wyner-type multicell model. Besides the Dirty-Paper-Coding (DPC) precoder, we also analyze several linear precoding schemes, including co-phasing, zero-forcing (ZF) and MMSE precoders. For the nonfading case, analytical sum rate expression is obtained for each scheme. In networks of a large number N of cells, a high signal-to-noise-ratio (SNR) asymptotic gap is shown between the sum rate performances of DPC and ZF precoders. Moreover, the MMSE precoder sum rate expression in large networks indicates different behaviors of MMSE precoder in different SNR regimes: in the SNR ≫ N2 regime, it coincides with the ZF precoder, while, in the SNR ≪ N2 regime, it coincides with the co-phasing precoder. For the Rayleigh fading case, Monte-Carlo simulations demonstrate the effectiveness of linear precoding schemes with the proposed user selection criterion.
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