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M-ary Poisson Detection and Optical Communications
R. Gagliardi,S. Karp +1 more
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In this paper, the authors investigated the problem of maximum likelihood detection of one of M Poisson processes in a background of additive Poisson noise in a coherent M-ary optical communication system using photon counters in the presence of background radiation.Abstract:
This paper presents an investigation of the problem of maximum likelihood detection of one of M Poisson processes in a background of additive Poisson noise. When the observables correspond to counts of emitted photoelectrons, the problem models a discrete version of a coherent M -ary optical communication system using photon counters in the presence of background radiation. Consideration is given to an average distance and a detection probability criterion. The advantages of an M -ary pulsed intensity set (Poisson intensities wholly concentrated in a single counting interval) are demonstrated. The performance of such intensity sets is exhibited in terms of error probabilities, pulse widths, signal-tonoise ratio, and channel capacity. Behavior as a function of number M of intensities is also discussed. By appropriate conversion these results may be used for determining power requirements in an optical pulse position modulation system.read more
Citations
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Optical Communication in Space: Challenges and Mitigation Techniques
Hemani Kaushal,Georges Kaddoum +1 more
TL;DR: This survey provides the reader with comprehensive details on the use of space-based optical backhaul links in order to provide high capacity and low cost backhaul solutions.
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Optical Communication in Space: Challenges and Mitigation Techniques
Hemani Kaushal,Georges Kaddoum +1 more
TL;DR: In this article, the authors present a comprehensive survey on various challenges faced by free space optical communication (FSO) communication system for ground-to-satellite (G2S) or satellite-toground (S2G) and inter-Satellite (I2I) links.
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Free-space optical MIMO transmission with Q-ary PPM
TL;DR: The use of multiple laser transmitters combined with multiple photodetectors (PDs) is studied for terrestrial, line-of-sight optical communication, and the modulation format is repetition Q-ary PPM across lasers, with intensity modulation.
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Free-space laser communication performance in the atmospheric channel
TL;DR: Statistical estimation and computation of communication parameters presented in this chapter will be useful in designing and optimizing lasercom systems that are reliable under all weather conditions.
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Wireless Optical Communication Systems
TL;DR: The author provides a unifying framework for signalling design which allows the channel constraints to be represented geometrically and permits the use of modem design principles from electrical channels.
References
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TL;DR: This partly tutorial paper compares the properties of an often used measure, the divergence, with a new measure that is often easier to evaluate, called the Bhattacharyya distance, which gives results that are at least as good and often better than those given by the divergence.
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An optimum demodulator for poisson processes: Photon source detectors
B. Reiffen,H. Sherman +1 more
TL;DR: In this article, the authors derived the optimum demodulator for time-varying Poisson processes from consideration of the likelihood ratio, and showed that the optimum signal processing is cross-correlation.
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Optimum photon detection (Corresp.)
TL;DR: The purpose of this correspondence is to prove that the condition of high background radiation is unnecessary for the derivation of the result and the same result is derived for an arbitrary input signal-to-noise ratio.
Journal ArticleDOI
Binary Detection in an Optical Polarization Modulation Communication Channel
TL;DR: In this paper, an exact derivation for the binary detection probability for an optical polarization modulation communication system was presented, and a Gaussian approximation to this formulation was developed and compared to the original derivation.