论文信息 - Signal intensity estimators for free-space optical communications through turbulent atmosphere

Signal intensity estimators for free-space optical communications through turbulent atmosphere

Estimators which are motivated by the minimum mean-square error estimation criterion are proposed for the estimation of optical signal intensity in free-space optical communication systems impaired by atmospheric-induced scintillation. It is assumed that the received signal is detected using a p-i-n photodiode and that the receiver operates under a shot-noise-limited condition. The optical channel is modeled using a log-normal distribution for the received signal intensity for low (<0.75) scintillation indexes, whereas for the fully developed speckle case, a negative exponential probability density function is used to model the received signal intensity. With the aid of simulation, it is shown that the proposed estimators outperform maximum likelihood estimators for small scintillation indexes.

K. Kiasaleh | M. Cole

[1] Malvin C. Teich,et al. Photodetection of Low-Level Radiation through the Turbulent Atmosphere* , 1970 .

[2] Donald L. Snyder,et al. Filtering and detection for doubly stochastic Poisson processes , 1972, IEEE Trans. Inf. Theory.

[3] R. S. Iyer,et al. Estimation of optical field mean intensities from photocount correlations. , 1974, Applied optics.

[4] J. Woods,et al. Probability and Random Processes with Applications to Signal Processing , 2001 .

[5] Kamran Kiasaleh. Performance analysis of free-space on-off-keying optical communication systems impaired by turbulence , 2002, SPIE LASE.

[6] Meera Srinivasan,et al. Adaptive detector arrays for optical communications receivers , 2000, IEEE Trans. Commun..