2019
DOI: 10.3390/s19040831
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SatEC: A 5G Satellite Edge Computing Framework Based on Microservice Architecture

Abstract: As outlined in the 3Gpp Release 16, 5G satellite access is important for 5G network development in the future. A terrestrial-satellite network integrated with 5G has the characteristics of low delay, high bandwidth, and ubiquitous coverage. A few researchers have proposed integrated schemes for such a network; however, these schemes do not consider the possibility of achieving optimization of the delay characteristic by changing the computing mode of the 5G satellite network. We propose a 5G satellite edge com… Show more

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Cited by 59 publications
(27 citation statements)
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References 41 publications
(45 reference statements)
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“…Thanks to the wide coverage, satellites can be used for task off-loading from mobile users which are out of range from terrestrial MEC servers. It is shown in [277], [278] that with a proper network virtualization algorithm, a satellite MEC can significantly reduce latency and improve the energy efficiency compared to a stand-alone 5G terrestrial network.…”
Section: B Caching Over Satellitementioning
confidence: 99%
“…Thanks to the wide coverage, satellites can be used for task off-loading from mobile users which are out of range from terrestrial MEC servers. It is shown in [277], [278] that with a proper network virtualization algorithm, a satellite MEC can significantly reduce latency and improve the energy efficiency compared to a stand-alone 5G terrestrial network.…”
Section: B Caching Over Satellitementioning
confidence: 99%
“…In this section, we show illustrative results to demonstrate the performance of the proposed algorithm. In the simulation, the task generation rate λ i = 0.15 + 0.0075(i − 1) tasks/second, the average number of computing resourcesc i = 1+0.5(i−1) billion cycles, the second moments c 2 i = 1.6c 2 i , the average size of taskd i = 1+0.1(i − 1) MB, the second moments [11], [23]. We choose the Iridium constellation as the satellite system in the simulation.…”
Section: Simulation a Parameter Settingmentioning
confidence: 99%
“…Therefore, it has recently been widely used in both industry and academia [8]- [10]. Recently, some studies have combined satellite with edge computing to deploy MEC servers on satellites for lower latency and more generalpurpose applications [11]- [15]. Satellite edge computing is becoming an emerging topic and technology.…”
Section: Introductionmentioning
confidence: 99%
“…The mobile EC (MEC) distributes part of the computing resources to the edge of the network, thus saving bandwidth and reducing delay. For further improvements, a 5G satellite EC framework has been proposed [353] in addition to existing EC for terrestrial 5G communication. In addition to EC’s potential to overcome the problems anticipated for cloud computing, further capabilities may be created by exploiting quantum effects that drastically boost satellite communication, as evident from a recent report, where teleportation of single-photon qubits was employed for ground-to-satellite communication [349].…”
Section: Nanosystems and Nanoscience: From Edge Sensing To Edge Comentioning
confidence: 99%