tetox Posted July 24, 2019 Share #1 Posted July 24, 2019 (edited) Hidden Content Give reaction to this post to see the hidden content. Book: Principles and Applications of Free Space Optical Communications Author(s): Arun K. Majumdar, Zabih Ghassemlooy, Arockia Bazil Raj Publisher: The Institution of Engineering and Technology Tags: Telecommunications, Space Optical Communication. Year: 1st Edition (July 18, 2019) Print Length: 496 pages Format: PDF Language: English ISBN-10: 1785614150 ISBN-13: 9781785614156 Size: 24.0 MB (RAR) Book Description: Free Space Optical (FSO) Communication uses light propagation in free space (air, outer space, and vacuum) to wirelessly transmit data for telecommunications and communication networking. FSO Communication is a key wireless and high-bandwidth technology for high speed large-capacity terrestrial and aerospace communications, which is often chosen as a complement or alternative to radio frequency communication. The propagating optical wave can be influenced negatively by random atmospheric changes such as wind speed, temperature, relative humidity, and pressure, thermal expansion, earthquakes, and high-rise buildings. This edited book covers the principles, challenges, methodologies, techniques, and applications of Free Space Optical Communication for an audience of engineers, researchers, scientists, designers, and advanced students. Developed by an international team of experts, this book covers free space optical (FSO) communication technologies for realising high speed large-capacity terrestrial and aerospace communications. Contents: Chapter 1: Introduction to free space optical (FSO) communications Chapter 2: Free-space optical communication over strong atmospheric turbulence channels Chapter 3: Performance analysis and mitigation of turbulence effects using spatial diversity techniques in FSO systems over combined channel Chapter 4: Link budget for a terrestrial FSO link and performance of space time block codes over FSO channels Chapter 5: FSO channel-atmospheric attenuation and refractive index (Cn2) modeling as the function of local weather data Chapter 6: Spectral analysis and mitigation of beam wandering using optical spatial filtering technique in FSO communication Chapter 7: Characterization of atmospheric turbulence effects and their mitigation using wavelet-based signal processing Chapter 8: All-optical relay-assisted FSO systems Chapter 9: Optical spatial diversity for FSO communications Chapter 10: Analysis of the effects of aperture averaging and beam width on a partially coherent Gaussian beam over free-space optical communication links Chapter 11: Relaying techniques for free space optical communications Chapter 12: Experimental test of maximum likelihood thresholds based on Kalman filter estimates in on-off keyed laser communications in atmospheric turbulence Chapter 13: Signal encryption strategies based on acousto-optic chaos and mitigation of phase turbulence using encrypted chaos propagation Chapter 14: Distributed sensing with free space optics Chapter 15: Quantum-based satellite free space optical communication and microwave photonics Hidden Content Give reaction to this post to see the hidden content. Credits to the one who initially shared the file. Edited February 21, 2020 by Bad Karma Dead links removed Link to comment
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