Title :
Optical Communications for High-Altitude Platforms
Author :
Fidler, Franz ; Knapek, Markus ; Horwath, Joachim ; Leeb, Walter R.
Author_Institution :
Inst. of Commun. & Radio-Freq. Eng., Vienna Univ. of Technol., Vienna, Austria
Abstract :
This paper contains a review of technologies, theoretical studies, and experimental field trials for optical communications from and to high-altitude platforms (HAPs). We discuss the pointing, acquisition, and tracking of laser terminals and describe how laser beams with low divergence can be used to transmit data at multi-Gigabits per second. Investigating the influence of the atmosphere, background light, and flight qualification requirements on system design, we explain why the data rates in free-space optical communications are still significantly below those possible in today´s terrestrial fiber-based systems. Techniques like forward-error correction, adaptive optics, and diversity reception are discussed. Such measures help to increase the data rate or link distance while keeping the bit error ratio and outage probability of the optical HAP communication system low.
Keywords :
data communication; diversity reception; high altitude stratospheric platforms; laser beam applications; optical communication equipment; optical fibre communication; optical links; data transmission; diversity reception; forward-error correction; free-space optical communication; high-altitude platform; laser beam; laser terminal; multiGigabits per second; optical component; terrestrial fiber-based system; Adaptive optics; Atmosphere; Atmospheric measurements; Communication systems; Diversity reception; Fiber lasers; Laser beams; Laser theory; Optical fiber communication; Qualifications; Free-space optical (FSO) communication; high-altitude platform (HAP); laser beams; optical components; system analysis and design; terrestrial atmosphere;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2010.2047382
