Optical Communication in Space: Challenges and Mitigation Techniques
Hemani Kaushal, Georges Kaddoum

TL;DR
This paper surveys the challenges faced by free space optical (FSO) communication in space, focusing on atmospheric impairments and mitigation techniques, including novel use of orbital angular momentum for high-capacity links.
Contribution
It provides a comprehensive review of atmospheric challenges and mitigation strategies for space optical communication, highlighting a new technique using orbital angular momentum.
Findings
Atmospheric effects significantly impair FSO link performance.
Various physical and network layer mitigation techniques improve link reliability.
Orbital angular momentum offers a promising high-capacity communication method.
Abstract
In recent years, free space optical communication has gained significant importance owing to its unique features: large bandwidth, license-free spectrum, high data rate, easy and quick deployability, less power and low mass requirements. FSO communication uses the optical carrier in the near infrared band to establish either terrestrial links within the Earth's atmosphere or inter-satellite or deep space links or ground-to-satellite or satellite-to-ground links. However, despite the great potential of FSO communication, its performance is limited by the adverse effects viz., absorption, scattering, and turbulence of the atmospheric channel. This paper presents a comprehensive survey on various challenges faced by FSO communication system for ground-to-satellite or satellite-to-ground and inter-satellite links. It also provides details of various performance mitigation techniques in…
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See pages - of kaushal2016.pdf
