Near-Earth Laser Communications, Second Edition  book cover
SAVE
$45.99
2nd Edition

Near-Earth Laser Communications, Second Edition



  • Available for pre-order. Item will ship after September 21, 2020
ISBN 9781498777407
September 21, 2020 Forthcoming by CRC Press
448 Pages - 15 Color & 189 B/W Illustrations

 
SAVE ~ $45.99
was $229.95
USD $183.96

Prices & shipping based on shipping country


Preview

Book Description

This reference provides an overview of near-Earth laser communication theory developments including component and subsystem technologies, fundamental limitations, and approaches to reach those limits. It covers basic concepts and state-of-the-art technologies, emphasizing device technology, implementation techniques, and system trades. The authors discuss hardware technologies and their applications, and also explore ongoing research activities and those planned for the near future. This new edition includes major to minor revisions with technology updates on nearly all chapters.

Table of Contents

Introduction. Systems Engineering and Design Drivers. Pointing, Acquisition, and Tracking. Laser Transmitters: Coherent and Direct Detections. Flight Optomechanical Assembly. Coding and Modulation for Free-Space Optical
Communications. Photodetectors and Receivers. Atmospheric Channel. Optical Ground Station: Requirements and Design, Bidirectional Link Model and Performance. Reliability and Flight Qualification. Optical Satellite Networking: The Concept of a Global Satellite Optical Transport Network. Future Directions. Index.

...
View More

Editor(s)

Biography

Hamid Hemmati is an Engineering Director at Facebook Inc. Prior to that he was with the JPL-NASA-Caltech for 28 years working primarily on satellite laser communications technology. From 1983 to 1986 he worked at the NASA Godard Space Flight Center on the COBE spacecraft and on free-space laser communications. As a post-doctoral fellow at NIST – University of Colorado (Boulder, 1981-83), Dr. Hemmati worked on ultra-stable atomic clocks based on laser-cooled trapped ions.