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LDR08262cmm u2200601 i 4500
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008221201s2023 njua ob 001 0 eng
010 ▼a 2022055445
019 ▼a 1355509966
020 ▼a 1119910730 ▼q electronic book
020 ▼a 9781119910725 ▼q electronic book
020 ▼a 1119910722 ▼q electronic book
020 ▼a 9781119910749 ▼q electronic book
020 ▼a 1119910749 ▼q electronic book
020 ▼a 9781119910732 ▼q (electronic bk.)
020 ▼z 9781119910718 ▼q hardcover
020 ▼z 1119910714
0247 ▼a 10.1002/9781119910749 ▼2 doi
035 ▼a 3500873 ▼b (N$T)
035 ▼a (OCoLC)1353818556 ▼z (OCoLC)1355509966
037 ▼a 9987438 ▼b IEEE
040 ▼a DLC ▼b eng ▼e rda ▼c DLC ▼d YDX ▼d IEEEE ▼d YDX ▼d OCLCQ ▼d OCLCF ▼d DG1 ▼d N$T ▼d OCLCO ▼d 248032
042 ▼a pcc
049 ▼a MAIN
05004 ▼a TL796 ▼b .Z43 2023
08200 ▼a 629.46 ▼2 23/eng/20221206
1001 ▼a Zhang, Jianjun, ▼c (Writer on artificial satellites), ▼e author.
24510 ▼a Laser inter-satellite links technology / ▼c Jianjun Zhang, Jing Li.
260 ▼a Hoboken, New Jersey : ▼b John Wiley & Sons, Inc., ▼c [2023]
300 ▼a 1 online resource (xiv, 188 pages) : ▼b illustrations (chiefly color)
336 ▼a text ▼b txt ▼2 rdacontent
337 ▼a computer ▼b c ▼2 rdamedia
338 ▼a online resource ▼b cr ▼2 rdacarrier
504 ▼a Includes bibliographical references and index.
5050 ▼a Laser Inter-Satellite Links Technology -- Chapter 1 Introduction -- 1.1 Connotation of inter-satellite link -- 1.2 Types of inter-satellite links -- 1.3 Inter-satellite link frequency band selection -- 1.3.1 Selection of link band -- 1.3.2 Selection of working frequency -- 1.4 Microwave inter-satellite link -- 1.4.1 Frequency selection -- 1.4.2 Microwave inter-satellite link data transmission system -- 1.5 Laser inter-satellite link -- 1.5.1 Technical characteristics of laser inter-satellite links -- 1.5.2 Future requirements for laser inter-satellite links -- 1.5.3 The development trend of laser inter-satellite links -- References -- Chapter 2 Development History of Laser Inter-satellite Link -- 2.1 Laser inter-satellite link development stage -- 2.2 The development status of laser inter-satellite link technology in various countries -- 2.2.1 United States -- 2.2.2 Europe -- 2.2.3 Japan -- 2.3 Experience and inspiration -- References -- Chapter 3 Spacecraft Orbit and Application -- 3.1 Overview -- 3.2 Kepler's law -- 3.3 Two-body motion and orbital parameters -- 3.4 Near-Earth Space Orbits and Applications -- References -- Chapter 4 The basic model of constellation inter-satellite link networking -- 4.1 Application requirements for satellite navigation inter-satellite links -- 4.1.1 Constellation precise orbit determination and time synchronization -- 4.1.2 Data communication -- 4.1.3 Autonomous operation -- 4.1.4 Extended Service -- 4.2 Basic demand model of inter-satellite link network application -- 4.2.1 Basic configuration of constellations -- 4.2.2 Inter-satellite transmission network based on STDMA -- 4.2.3 Antenna solution -- 4.2.4 Inter-satellite link application mode -- 4.3 Inter-satellite link network chain topology model -- 4.3.1 Analysis of topological attributes of inter-satellite links -- 4.3.2 Inter-satellite visibility analysis -- 4.3.3 Inter-satellite link topology cost -- 4.4 Inter-satellite link network protocol model -- 4.4.1 Inter-satellite network protocol model -- 4.4.2 Transport layer protocol -- References -- Chapter 5 Principles of Laser Inter-satellite Ranging -- 5.1 Principle of inter-satellite ranging -- 5.2 Inter-satellite ranging accuracy -- 5.3 Principle of microwave inter-satellite ranging -- 5.3.1 Principle of pseudo-range two-way ranging -- 5.3.2 Analysis of Microwave Ranging Error Source -- 5.4 Principle of laser inter-satellite ranging -- 5.4.1 Principle of Laser Pulse Ranging -- 5.4.2 Analysis of Error Sources in Laser Ranging -- References -- Chapter 6 Composition of Laser Inter-satellite Link -- 6.1 Basic structure of laser inter-satellite link -- 6.2 Work flow of laser inter-satellite link -- 6.3 Constraints -- 6.3.1 Satellite orbit -- 6.3.2 Satellite attitude -- 6.3.3 Uncertain angle of pre-cover -- 6.3.4 Satellite vibration problem -- 6.3.5 Dynamic coupling problem -- 6.3.6 Influence of background stray light -- 6.4 Transmitter design -- 6.4.1 Choice of laser -- 6.4.2 Wavelength selection -- 6.4.3 Selection of the diameter of the transmitting antenna -- 6.4.4 Calculation of transmitting antenna gain -- 6.5 Receiver design -- 6.5.1 Selection of receiving detector -- 6.5.2 Selection of receiving antenna aperture -- 6.5.3 Calculation of receiving antenna gain -- 6.5.4 Calculation of received power -- References -- Chapter 7 Inter-satellite Laser Capture, Aiming and Tracking System -- 7.1 Acquisition -- 7.1.1 Capture Scheme -- 7.1.2 Capture Path -- 7.2 Pointing -- 7.3 Tracking -- 7.3.1 Analysis of tracking system beacon beam divergence -- 7.3.2 The role of the tracking system in the APT system -- 7.4 APT system terminal structure -- 7.4.1 Coarse sighting subsystem design -- 7.4.2 Design of precision sighting subsystem -- References -- Chapter 8 Inter-satellite laser link tracking error -- 8.1 Definition of alignment error -- 8.2 Alignment error model and analysis of factors -- 8.2.1 Mathematical modeling of alignment errors -- 8.2.2 Factors causing alignment errors -- 8.2.3 The effect of tracking error on the beam distribution at the receiving end -- 8.2.4 The influence of tracking and pointing error on communication error rate -- 8.3 Analysis of tracking and pointing error sources of inter-satellite laser communication system -- 8.3.1 Satellite platform vibration -- 8.3.2 Detector noise -- 8.4 Satellite platform vibration suppression scheme -- 8.4.1 Satellite platform vibration suppression scheme -- 8.4.2 Feedforward vibration suppression algorithm -- References -- Chapter 9 Inter-satellite Link Laser Modulation Mode -- 9.1 Block diagram of inter-satellite link optical communication system -- 9.2 Typical incoherent optical modulation mode (IM/DD) -- 9.2.1 On-off key control (OOK) -- 9.2.2 Pulse position modulation (PPM) -- 9.2.3 Differential Pulse Position Modulation (DPPM) -- 9.2.4 Digital Pulse Interval Modulation (DPIM) -- 9.2.5 Double-head pulse interval modulation (DH-PIM) -- 9.3 Coherent optical communication modulator and modulation principle -- 9.3.1 Optical modulator -- 9.3.2 Coherent optical communication modulation format -- 9.4 Comparison of communication performance of laser modulation schemes -- 9.4.1 Average transmit power -- 9.4.2 Transmission bandwidth -- 9.4.3 Bit Error Rate -- 9.4.4 Summary -- References -- --.
520 ▼a "After two phases of single-satellite application and constellation application, the satellite field has gradually moved towards networking. The networking between satellites requires the information and data between the satellites to be interconnected. Considering factors such as security and national strategy, the number of satellite ground stations that can be established is very limited, and most of them are limited domestically. Under the condition that the ground station is strictly limited, the establishment of inter-satellite links has become one of the most necessary conditions for inter-satellite networking."-- ▼c Provided by publisher.
588 ▼a Description based on online resource; title from digital title page (viewed on December 22, 2022).
590 ▼a Added to collection customer.56279.3
650 0 ▼a Satellite constellations.
650 0 ▼a Laser communication systems.
650 6 ▼a Syste?mes de communication a? laser.
650 7 ▼a Laser communication systems ▼2 fast
650 7 ▼a Satellite constellations ▼2 fast
7001 ▼a Li, Jing, ▼d 1982-, ▼e author.
77608 ▼i Print version: ▼a Zhang, Jianjun ▼t Laser inter-satellite links technology ▼d Hoboken, New Jersey : Wiley, [2023] ▼z 9781119910718 ▼w (DLC) 2022055444
85640 ▼3 EBSCOhost ▼u https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=3500873
938 ▼a YBP Library Services ▼b YANK ▼n 303466772
938 ▼a EBSCOhost ▼b EBSC ▼n 3500873
990 ▼a 관리자
994 ▼a 92 ▼b N$T