A Refined Analysis of the Poisson Channel in the High-Photon-Efficiency Regime

Author

Ligong Wang ; Wornell, Gregory W.

Author_Institution

Massachusetts Inst. of Technol., Cambridge, MA, USA

Volume

60

Issue

7

fYear

2014

fDate

41821

Firstpage

4299

Lastpage

4311

Abstract

We study the discrete-time Poisson channel under the constraint that its average input power (in photons per channel use) must not exceed some constant ε. We consider the wideband, high-photon-efficiency extreme where ε approaches zero, and where the channel´s dark current approaches zero proportionally with ε. Improving over a previously obtained first-order capacity approximation, we derive a refined approximation, which includes the exact characterization of the second-order term, as well as an asymptotic characterization of the third-order term with respect to the dark current. We also show that pulse-position modulation is nearly optimal in this regime.

Keywords

Poisson distribution; approximation theory; optical communication; optical modulation; pulse position modulation; stochastic processes; Poisson distribution; channel dark current approach; discrete-time Poisson channel; first-order capacity approximation; high-photon-efficiency regime; optical communication; pulse-position modulation; second-order capacity approximation; Approximation methods; Dark current; Modulation; Optical transmitters; Photonics; Receivers; Wideband; Optical communication; Poisson channel; channel capacity; low SNR; wideband;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2014.2320718

Filename

6807737