Direct detection of digital optical communication through the atmosphere /

Chang, David F.

January 1974

Thesis (M.S.)--Oregon Graduate Center, 1974.

Laser communication systems.

Direct detection of digital optical communication through the atmosphere

Chang, David F.

January 1974

M.S. / Applied Physics / Not available.

Laser communication systems

Pulse-position modulation of laser light using the Kerr electro- optical effect

Rosbeck, Joseph Paul, 1949-

January 1972

No description available.

Laser communication systems.

Photocounting statistics of superposed coherent and thermal light and performance of pulse delay binary laser communication systems

Irshid, Mansour I.

January 1978

Thesis (M.S.)--Wisconsin. / Bibliography; leaf 61.

Laser communication systems.

The log-amplitude mean value for laser beam propagation in the atmosphere, with applications for optical communications /

Gebhardt, Frederick George

January 1968

No description available.

Engineering

Laser communication systems

Application of spatial diversity to atmospheric optical line-of-sight communication systems /

Brackey, Thomas Allen

January 1969

No description available.

Engineering

Laser communication systems

Simulation of a Fiber-optical Communication System

Scheffel, Patricia Kay

01 January 1977

The feasibility of analyzing an optical communication system using standard electronic circuit analysis programs such as SCEPTRE and ASTAP is demonstrated in this thesis. The transmitter (laser and modulator) and receiver (detector and amplifier) are modelled using equivalent circuits for the various components. The transmission medium (optical fiber) is modelled using an impulse response function. Two fibers are investigated--a step-index fiber and a square-law (parabolic index) fiber.

Laser communication systems

Engineering

Statistical Fading of a Plane Optical Wave in Atmospheric Turbulence

O'Hara, John F.

01 January 1980

A formula for the average fade time of the intensity of a plane optical wave traveling through atmospheric turbulence is developed. The model employed involves isotropic, homogeneous statistics using a lognormal distribution for the channel. The analysis is based on the fact that the logarithm of the irradiance is normally distributed and uses the work of S. O. Rice who developed such an expression for a zero mean, Gaussian process. The analysis employs the covariance function and the Taylor frozen turbulence hypothesis which results in an expression for the autocorrelation function.

Laser communication systems

Engineering

Fade Time Statistics of Laser Light Propagating Through Turbulent Atmosphere

Belkerdid, Madjid A.

01 January 1980

The average fade time of the fluctuations in the intensity of laser light propagation in the atmosphere is analyzed. Experimental results show that the average fade time for a propagation distance of 208 meters, in the weak turbulence regime, is well described by formulas developed from a Log-Normal distribution. A circuit that calculates real time statistics of fade time is designed, then validated using a sine wave input whose fade time statistics are predetermined. The experimental signal is then tested for stationarity, and the average fade time is measured. A curve fitting is then performed for the experimental data and compared theoretical results.

Laser communication systems

Engineering

New generation of gimbals systems for aerospace applications

Sofka, Jozef.

January 2007

Thesis (Ph. D.)--State University of New York at Binghamton, Dept. of Electrical and Computer Engineering, 2007. / Includes bibliographical references.