DocumentCode
64572
Title
Multilevel Coding Schemes for Compute-and-Forward With Flexible Decoding
Author
Hern, Brett ; Narayanan, Krishna R.
Author_Institution
Dept. of Electr. & Comput. Eng., Texas A&M Univ., College Station, TX, USA
Volume
59
Issue
11
fYear
2013
fDate
Nov. 2013
Firstpage
7613
Lastpage
7631
Abstract
We consider the design of coding schemes for the wireless two-way relaying channel when there is no channel state information at the transmitter. In the spirit of the compute-and-forward paradigm, we present a multilevel coding scheme that permits reliable computation (or, decoding) of a class of functions at the relay. The function to be computed (or decoded) is then chosen depending on the channel realization. We define such a class of functions which can be decoded at the relay using the proposed coding scheme and derive rates that are universally achievable over a set of channel gains when this class of functions is used at the relay. We develop our framework with general modulation formats in mind, but numerical results are presented for the case where each node transmits using 4-ary and 8-ary modulation schemes. Numerical results demonstrate that the flexibility afforded by our proposed scheme results in substantially higher rates than those achievable by always using a fixed function or considering only linear functions over higher order fields.
Keywords
channel coding; decode and forward communication; decoding; radio transmitters; relay networks (telecommunication); wireless channels; 4-ary modulation schemes; 8-ary modulation schemes; channel gains; channel realization; compute-and-forward scheme; flexible decoding; linear functions; modulation formats; multilevel coding schemes; transmitter; two-way relaying channel; Decoding; Lattices; Linear code; Relays; Reliability; Transmitters; Compute-and-forward (CF); decode-and-forward; multilevel coding; network coding; two-way relaying;
fLanguage
English
Journal_Title
Information Theory, IEEE Transactions on
Publisher
ieee
ISSN
0018-9448
Type
jour
DOI
10.1109/TIT.2013.2271771
Filename
6572809
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