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Modeling of aerial-to-aerial short-distance free-space optical links

Increased RF noise floor, crowded and scarce wireless spectrum, and security are issues challenging present-day aerial wireless communication. Optical wireless (or free-space optical (FSO)) is an alternative communication system applicable to air-to-air (A2A) or air-to-ground (A2G) applications. An...

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Main Authors:	Kaadan, A., Dayong Zhou, Refai, H. H., LoPresti, P. G.
Format:	Conference Proceeding
Language:	English
Subjects:	Optical fiber communication Optical fiber sensors Optical fibers Optical receivers Optical transmitters
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creator	Kaadan, A. Dayong Zhou Refai, H. H. LoPresti, P. G.
description	Increased RF noise floor, crowded and scarce wireless spectrum, and security are issues challenging present-day aerial wireless communication. Optical wireless (or free-space optical (FSO)) is an alternative communication system applicable to air-to-air (A2A) or air-to-ground (A2G) applications. An FSO link is able to provide high bandwidth, low-power, and secure communication for various unmanned aerial systems (UASs) and ground nodes, including mobile and fixed stations. However, unlike RF, optical communication is highly sensitive to misalignment and platform instability that causes unavoidable communication interruptions. Developing aerial optical wireless communication systems requires modeling the effects of UAS instability on the FSO system performance, including FSO link throughput. This work aims to develop a rigid and simple modeling framework for A2A FSO communication links. The framework is abstract, general, and platform-independent. The model relates instability to averaged percentage alignment (APA), which can be used to predict throughput and other performance-related parameters. A planer arrays of optical transmitters and receivers is used and proposed as a promising technology for FSO communication with large field-of-view and diversity-ready performance. Also, a novel alignment model using geometric intersection is developed and analyzed against simulated and real multi-rotor platforms.
doi_str_mv	10.1109/ICNSurv.2013.6548513
format	conference_proceeding
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G.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Modeling of aerial-to-aerial short-distance free-space optical links</atitle><btitle>2013 Integrated Communications, Navigation and Surveillance Conference (ICNS)</btitle><stitle>ICNSurv</stitle><date>2013-04</date><risdate>2013</risdate><spage>1</spage><epage>12</epage><pages>1-12</pages><issn>2155-4943</issn><eissn>2155-4951</eissn><isbn>9781467362511</isbn><isbn>1467362514</isbn><eisbn>1467362522</eisbn><eisbn>9781467362528</eisbn><eisbn>1467362530</eisbn><eisbn>9781467362535</eisbn><abstract>Increased RF noise floor, crowded and scarce wireless spectrum, and security are issues challenging present-day aerial wireless communication. Optical wireless (or free-space optical (FSO)) is an alternative communication system applicable to air-to-air (A2A) or air-to-ground (A2G) applications. 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Optical fiber communication Optical fiber sensors Optical fibers Optical receivers Optical transmitters
title	Modeling of aerial-to-aerial short-distance free-space optical links
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