Add to ORKGThe design of an optical communication link must plan for the random effects of atmospheric turbulence. This study analyses data from an experiment which transmitted from a laser located 8 meters above ground over a 13 Km range to coherent detection devices approximately 162 meters above ground. The effects of a fading and surging beam wave were considered in regards to code techniques for error correction, amplitude modulation and hardware architecture schemes. This study simulated the use of arrays and large apertures for the receiving devices, and compared the resultant scintillation index with the theoretical calculations
Even after several decades of study, inconsistencies remain in the application of atmospheric turbul...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Near-the-ground laser communication systems must operate in the presence of strong atmospheric turbu...
Free-Space Optical (FSO) communication through the terrestrial atmospheric channel offers many benef...
Laser communication systems offer several advantages over conventional radio frequency (RF) systems ...
The purpose of this research is to evaluate scintillation fluctuations on optical communication lase...
Free space optical (FSO) communication systems offer several advantages over conventional radio freq...
Abstract—Atmospheric effects can signicantly degrade the reliability of free-space optical communica...
Atmospheric effects can significantly degrade the reliability of free-space optical communications. ...
Abstract — Free Space Optics (FSO) or optical wireless communication is a promising solution for the...
Even after several decades of study, inconsistencies remain in the application of atmospheric turbul...
The theoretical advantages of ground-satellite optical communication systems can only be exploited, ...
This paper reports experimental results for the performance of an free space optical (FSO) communica...
Near the ground laser communication systems must operate in the presence of strong atmospheric turbu...
So-called "free-space" laser communication systems working near the surface of the Earth must operat...
Even after several decades of study, inconsistencies remain in the application of atmospheric turbul...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Near-the-ground laser communication systems must operate in the presence of strong atmospheric turbu...
Free-Space Optical (FSO) communication through the terrestrial atmospheric channel offers many benef...
Laser communication systems offer several advantages over conventional radio frequency (RF) systems ...
The purpose of this research is to evaluate scintillation fluctuations on optical communication lase...
Free space optical (FSO) communication systems offer several advantages over conventional radio freq...
Abstract—Atmospheric effects can signicantly degrade the reliability of free-space optical communica...
Atmospheric effects can significantly degrade the reliability of free-space optical communications. ...
Abstract — Free Space Optics (FSO) or optical wireless communication is a promising solution for the...
Even after several decades of study, inconsistencies remain in the application of atmospheric turbul...
The theoretical advantages of ground-satellite optical communication systems can only be exploited, ...
This paper reports experimental results for the performance of an free space optical (FSO) communica...
Near the ground laser communication systems must operate in the presence of strong atmospheric turbu...
So-called "free-space" laser communication systems working near the surface of the Earth must operat...
Even after several decades of study, inconsistencies remain in the application of atmospheric turbul...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Near-the-ground laser communication systems must operate in the presence of strong atmospheric turbu...