Computer Science – Information Theory
Scientific paper
2009-09-07
Computer Science
Information Theory
Scientific paper
Link adaptation is a crucial part of many modern communications systems, allowing the system to adapt the transmission and reception strategies to changes in channel conditions. One of the fundamental components of the link adaptation mechanism is signal to noise ratio (SNR) estimation, measuring the instantaneous (mostly post processing) SNR at the receiver. That is, the SNR at the decoder input, which is an important metric for the prediction of decoder performance. In linearly decoded MIMO, which is the common MIMO decoding strategy, the post processing SNR is well defined. However, this is not the case in optimal maximum likelihood (ML) decoding applied to spatial multiplexing (SM). This gap is interesting since ML decoded SM is gaining ever growing interest in recent research and practice due to the rapid increase in computation power, and available near optimal low complexity schemes. In this paper we close the gap and provide SNR estimation schemes for ML decoded SM, which are based on various approximations of the "per stream" error probability. The proposed methods are applicable for both horizonal and vertical decoding. Moreover, we propose a very low complexity implementation for the SNR estimation mechanism employing the ML decoder itself with negligible overhead.
Ezri Doron
Redlich Oded
Wulich Dov
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