TY - BOOK AU - Zhang,Jianjun AU - Li,Jing ED - SpringerLink (Online service) TI - Satellite Photoelectric Sensing Technology: Communication, Navigation and Reconnaissance SN - 9783030898434 AV - TL796 PY - 2022/// CY - Cham PB - Springer International Publishing, Imprint: Springer KW - Telecommunication KW - Photonics KW - Optical engineering KW - Optical communications KW - Aerospace engineering KW - Astronautics KW - Microwaves, RF Engineering and Optical Communications KW - Photonics and Optical Engineering KW - Optical Communications KW - Aerospace Technology and Astronautics KW - Artificial satellites -- Equipment and supplies KW - Optical detectors KW - Electromagnetic interference N1 - Introduction -- Microwave Photonics -- Spacecraft Systems -- Overall Technology of Communication Satellite -- Satellite System Spectrum Sensing -- RF Channelization Technology -- The Basis of RF Photonic Channelization Technology -- Optical Frequency Comb Generation Mechanism and Its Application -- Channelized Receiving Technology Based on Optical Frequency Comb -- Channelized Link Distortion Compensation Based on Digital Signal Processing N2 - This book helps to solve the problems and challenges of satellite sensing in the current environment of increasing communications bandwidths and multiplicity of electromagnetic signals. It presents technology that makes full use of the broadband low-loss advantages of optoelectronic technology and research into new broadband radio-frequency channelization and receiving technology based on photoelectric sensing. The methods presented allow improvements in system performance in terms of receiving bandwidth, frequency-sensing accuracy, channel equalization, adjacent channel crosstalk, dynamic range, and complexity of the system structure. In addressing the difficulty of satellite spectrum control, including the issue of high-precision and real-time wide-spectrum sensing not being able to be obtained simultaneously, the book solves the problem of accurate and parallel-decomposition sensing technology using the dual-phase optical frequency comb. This method avoids the involvement of fine filtering and does not require fine alignment between the source and the filter but achieves high perceptual accuracy. Satellite Photoelectric Sensing Technology explores the research background, significance, and current challenges associated with the technology, making it relevant and interesting to academics, practitioners, and postgraduate students in this field UR - https://doi.org/10.1007/978-3-030-89843-4 ER -