Abstract
It is one of the biggest challenges of distributed cooperative antenna (COOPA) systems to provide base stations (BSs) with downlink channel information for transmit filtering (precoding). In this paper, we propose a novel feedback scheme via a subspace-based channel quantization method. The proposed scheme adopts the chordal distance as a channel quantizer criterion so as to capture channel characteristics represented by subspaces spanned by the channel matrix. We also propose a combined feedback scheme which is based on the hierarchical codebook construction method in an effort to reduce the feedback overhead by exploiting the temporal correlation of the channel. The proposed methods are tested for distributed COOPA systems in terms of simulations. Simulation results show that the proposed subspace-based channel quantization method outperforms the analog pilot retransmission method, and the combined feedback scheme performs as well as the permanent full-feedback scheme with a much smaller amount of uplink resources.
Highlights
Cooperative antenna (COOPA) systems have recently become a hot research topic, as they promise significantly higher spectral efficiency than conventional cellular systems [1]
The extended 3GPP spatial channel model (SCM) is used for the simulations; and the proposed methods are tested for an urban macro channel with a mobile speed of 10 m/s. (The MATLAB code provided in [25] supports a channel matrix generation function for links between multiple base stations (BSs) and multiple mobile stations (MSs).) The system performance is evaluated in terms of the received SINR at the MS
OFDMA is assumed as the data transmission scheme and we focus on one subcarrier
Summary
Cooperative antenna (COOPA) systems have recently become a hot research topic, as they promise significantly higher spectral efficiency than conventional cellular systems [1]. An improvement factor of more than 5 in spectral efficiency is observed for COOPAsystems with an antenna arrangement of 4 transmit antennas per base station and 4 receive antennas per user, compared with uncoordinated cellular systems [2]. COOPA systems have advantageous features compared with conventional cellular systems, for example, increased degrees of freedom, better ICI cancelation performance, the rank enhancement effect of the channel matrix, and so forth, [1]. JT/JD algorithms of COOPA systems calculate a common weighting matrix for all BSs, cancel ICI, and allow the system to serve multiple MSs at the same time and frequency resource. This leads to a real-frequency reuse equal or close to 1
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