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Advances in Communications Satellite Systems: Proceedings of the 37th International Communications Satellite Systems Conference (ICSSC-2019)

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image of Advances in Communications Satellite Systems: Proceedings of the 37th International Communications Satellite Systems Conference (ICSSC-2019)
Editors: Ifiok Otung 1 ; Thomas Butash 2 ; Tetsushi Ikegami 3
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Publication Year: 2021

The International Communications Satellite Systems Conference (ICSSC) is the oldest and one of the most influential technical conferences in the field. The 37th edition was held from 29 Oct - 1 Nov 2019 in Okinawa, Japan. These proceedings present a broad spectrum of space communications contributions from the conference, with highlights including high speed optical communications and feeder links, advanced digital payloads, broadband satellite communication architectures and applications. Subjects covered include integrated applications and architectures for vessels and IoT; DTN and HTS technologies; new satellite system architectures and components; high speed optical communications and feeder links; advanced digital payloads and components; satellite antenna technologies; propagation and modelling for satellite communications; future technologies for 5G and beyond; flexible HTS systems and advanced digital payloads; satellite networks design challenges and applications; new satellite components and transmitter and modem technologies; NGSO constellations and 5G integration; and NGSO and GSO system issues and interference mitigation techniques. Offering a wide range of expert perspectives on communications satellite systems, these proceedings will be of interest to engineers and researchers in academia and industry working on satellite, digital, and wireless communications and networks, as well as advanced students, policy makers and stakeholders in the field.

Inspec keywords: optical communication; Long Term Evolution; tracking; reflector antenna feeds; Internet of Things; quality of service; meteorology; telecommunication network reliability; laser beam applications; delay tolerant networks; III-V semiconductors; cognitive radio; OFDM modulation; telecommunication terminals; energy conservation; wide band gap semiconductors; electromagnetic wave propagation; MIMO communication; distortion; precoding; adaptive codes; adaptive modulation; Earth orbit; private key cryptography; electromagnetic coupling; interference suppression; telecommunication power management; synchronisation; switching networks; transportation; radionavigation; satellite communication; test equipment; antenna radiation patterns; signal detection; emergency management; marine communication; 5G mobile communication; transponders; vegetation mapping; phase noise; UHF devices; marine robots; telecommunication links; adaptive optics; data communication; software radio; clouds; interference; frequency control; radiofrequency identification; radio spectrum management; modems; power control; radio transceivers; gallium compounds; artificial satellites; earthquakes; telecommunication channels; frequency division multiple access; oscillators; atmospheric turbulence; optimisation; MMIC; telecommunication security; measurement errors; array signal processing; millimetre wave power amplifiers; reflectarray antennas; calibration; decoding; broadband networks

Other keywords: integrated space-enabled hybrid 5G-V2X communications; laser communication infrastructure; International Communications Satellite Systems Conference; propagation direction estimation; interference mitigation techniques; return link; laser beam transmission; NICT; DBF antenna; ground station performance; ASCENT project; PAPR reduction; satellite communications propagation; engineering test satellite-9; turbulence impact; ACM; mega-constellations; satellite communications modeling; microsatellite body-pointing; timing drift estimation; high-speed tracking system; disaster countermeasure experiments; WINDS experiments; optical ground station; commercial communications satellites; broadband land mobile satellite communication systems; Ka-band satellite communications system; link characterization; advanced digital payloads; software-defined radio implementation; multibeam satellite communication systems; end-to-end data flows; self-calibration method; high-speed laser communication; external interference; RISESAT; measurement point reduction; autonomous shipping; site diversity; Ka-band mobile satellite communication; Ka-band on-the-move terminals; IoT; link budget design; hybrid analog-digital precoding design; integrated 5G-LEO communication; data transmission; digital predistortion; antenna pattern evaluation; time 40 year; VSOTA; graveyard orbits; carrier phase recovery; DVB-RCS2 satellite system; gallium nitride; mega-constellation design; DTN technologies; high-speed feeder links; small satellites; satellite integrated communication system; GNSS-assisted acquisition technique; 5G services; secret key agreement; reliable RF transceiver; optical observations; spectrum sharing schemes; cognitive communications; OFDMA; engineering test satellite 9; satellite-ground optical communications; UHF RFID tags; NASA Artemis 1 mission; marine robots operations; power control scheme; beam pattern optimization; beam-hopping system configuration; very high throughput satellites; 5G integration; ICSSC-2019; antenna propagation models; flexible HTS systems; MMIC power amplifier; seasonal vegetation changes; cloud blockage mitigation; frequency utilization efficiency; low earth orbit; long term ground meteorological observation data; downlink information; JAXA Uchinoura station; adaptive coding and modulation; decoding strategies; enterprise Ethereum blockchain; satellite MIMO system; integrated satellite-terrestrial network; optical intersatellite links; channel state modeling; LEO-based AIS; spectrum prediction; precoding performance; secure spacecraft tasking; channel capacity analysis; multibeam multicast satellite precoding systems; frequency flexibility; satellite transmitter; Ka-band transceiver sensitivity modeling; optimization tool; HICALI mission; performance evaluation; mutual coupling; optical communication experiment; RF optical transformation function; WINDS satellite; nonoperational satellites; secure spacecraft control; Japan; orbital altitude; Ka-band HTS applications; automatic identification system; interference detection; realistic payload characteristics; NGSO system; calibration method; high-throughput satellites; NGSO satellite network; satellite uplink asynchronous random access channels; maritime broadband communications; user terminal wideband modem; Kumamoto earthquakes; network switching controls; land broadband communications; differential oscillator phase noise; trunking systems; GaN; Satcom R&D; licensed shared access testbed; satellite laser communications; Australia; satellite antenna technologies; integrated satellite-terrestrial communications; bit rate 3.2 Gbit/s; LEO-to-ground links; HTS technologies; gating process; VL SNR channel; K-band transceiver sensitivity modeling; channel phase effects; DVB-S2x standard; NR-based NTN system; information rate; broadband satellite communication architectures; uplink information; optical ground systems; energy-efficient user terminals; digital satellite payloads; array antenna; systematic errors; communications link modeling; 5G Internet of things application; ETS-IX; mobile satellite communications; satellite experiments; GEO-to-ground links; NASA space systems; high-speed pixelated acquisition; hardware precoding demonstration; satellite base stations; high-rate delay-tolerant networking; high-performance V-band GaN MMIC HPA; Ka-band digital beam forming antenna payload; GEO system; direct spectrum division transmission; array-fed reflector configuration; multibeam UHTS communications; satellite communications systems; terminal synchronization; DVB-S2X; satellite networks design; reconfigurable antennas; digital beam forming receiving calibration; timing drift compensation; QVlift project; NGSO constellations; multiple transponders; 5G waveforms; quality of service; cloud climatological study; high-speed optical communications; space optical direct communications; fixed satellite services; fan-fold Ka-band large reflector; LTE over satellite; adaptive optics

Subjects: Radio links and equipment; Measurement standards and calibration; Optical communication; Optimisation techniques; Electromagnetic compatibility and interference; Computer communications; Frequency control; Instrumentation and techniques for geophysical, hydrospheric and lower atmosphere research; Oscillators; Energy utilisation; Instrumentation and measurement systems; Metrology; Emergency management; Digital signal processing; Other topics in Earth sciences; Laser applications; Conference proceedings; Data security; Optimisation techniques; Mobile, ubiquitous and pervasive computing; Mobile robots; Antennas; Lower atmosphere; General and management topics; Modulation and coding methods; Solid Earth physics; Stations and subscriber equipment; Control applications in telecommunications; Power and energy control; Optical materials and devices; Aerospace; Optics; General electrical engineering topics; Convection, diffusion, mixing, and turbulence in the upper atmosphere; Computer networks and techniques; Microwave integrated circuits; Amplifiers; Antenna theory; Testing equipment; Transportation system control; Radionavigation and direction finding; Communication system theory; Signal detection

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