Laser Information Systems: Developing a Statistical Theory
Abstract
Purpose: The goal of the paper is summarizing and developing the results in formation of statistical radio-optics which is a unified statistical theory of laser information systems and radio-optical methods of receiving, transformation, transmission and processing of information. Results: The main problems and the contradictory nature of radio-optics have been discussed. A generalized model is proposed for radio-optical information processing. A general principle of statistical radio-optics is substantiated. The fundamental accuracy limits associated with quantum effects when registrating optical radiation are discussed. The impact of an open atmospheric channel on laser information exchange systems is analyzed. Practical relevance: The development of the statistical theory of laser information systems allows us to optimize the existing algorithms and to synthesize completely new algorithms of radio-optical information processing for the systems of laser communication, location, navigation and control.Published
2015-10-20
How to Cite
Khimenko, V. (2015). Laser Information Systems: Developing a Statistical Theory. Information and Control Systems, (5), 43-54. https://doi.org/10.15217/issn1684-8853.2015.5.43
Issue
Section
Information and control systems