Title :
Fundamental limits on optical pulse detection and digital communication
Author :
Hollenhorst, James N.
Author_Institution :
Hewlett-Packard Co., Palo Alto, CA, USA
fDate :
6/1/1995 12:00:00 AM
Abstract :
In this paper, the techniques of statistical decision theory are applied to direct detection of optical pulses. A realistic and general model of a classical photodetector/amplifier receiver is considered. Optimum decision strategies and corresponding receiver sensitivities are derived both for single-pulse detection and for continuous digital communication in which the intersymbol interference is constrained to be zero. A comparison is made to the classic work of Personick and Smith. Their results are shown to be remarkably close to the fundamental limits at high bit rates. At low bit rates, the optimal filter for small duty-cycle pulses gives much better performance than the filters analyzed by Personick and Smith. Optimum values for the Personick integrals are also given. Results are given for a number of cases of practical importance including a photodiode/FET receiver
Keywords :
decision theory; digital communication; fibre lasers; intersymbol interference; modelling; optical noise; optical receivers; photodetectors; photodiodes; sensitivity; statistical analysis; Personick integrals; continuous digital communication; digital communication; direct detection; fundamental limits; high bit rates; intersymbol interference; optical pulse detection; optical pulses; optimal filter; optimum decision strategies; photodetector/amplifier receiver; photodiode/FET receiver; receiver sensitivities; single-pulse detection; small duty-cycle pulses; statistical decision theory; Bit rate; Decision theory; Digital communication; Filters; Optical amplifiers; Optical detectors; Optical pulses; Optical receivers; Photodetectors; Pulse amplifiers;
Journal_Title :
Lightwave Technology, Journal of
