DocumentCode
1525206
Title
Communication by Energy Modulation: The Additive Exponential Noise Channel
Author
Martinez, Alfonso
Author_Institution
Tech. Univ. Eindhoven, Eindhoven, Netherlands
Volume
57
Issue
6
fYear
2011
fDate
6/1/2011 12:00:00 AM
Firstpage
3333
Lastpage
3351
Abstract
Communication across an additive exponential noise (AEN) channel is studied. The AEN channel is derived from a continuous-time Gaussian channel by assuming decoherence between the signal and noise components. Decoherence renders impossible the use of the complex amplitude and information is transmitted by modulating the signal energy. The AEN channel is shown to perform closely - in terms of channel, information rate, and error probability of binary codes, including the use of bit-interleaved coded modulation - to an equivalent discrete-time Gaussian channel of identical signal-to-noise ratio. Constellations are designed for low signal-to-noise ratios, where the minimum energy per bit is not universally attained by all modulations, and for high signal-to-noise ratios, where an equiprobable nonuniform constellation 0.76 dB away from capacity is described. The multiple-access AEN channel is also considered: its capacity region coincides with that of the Gaussian equivalent; feedback does not, however, enlarge the capacity region.
Keywords
Gaussian channels; error statistics; modulation; additive exponential noise channel; binary codes; bit-interleaved coded modulation; continuous-time Gaussian channel; discrete-time Gaussian channel; energy modulation; error probability; information rate; multiple-access AEN channel; signal-to-noise ratio; AWGN channels; Decoding; Entropy; Modulation; Phase noise; Signal to noise ratio; AWGN channel; bit-interleaved coded modulation; coded modulation; exponential noise; multiple-access channel; photon gas;
fLanguage
English
Journal_Title
Information Theory, IEEE Transactions on
Publisher
ieee
ISSN
0018-9448
Type
jour
DOI
10.1109/TIT.2011.2136850
Filename
5773040
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