Orbital Edge Computing

Denby, Bradley; Lucia, Brandon

doi:10.1145/3373376.3378473

Cited by 147 publications

(21 citation statements)

References 40 publications

(34 reference statements)

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“…The wide availability of satellite services has resulted in a significant surge in the amount of data stored onboard. The amount of data generated by remote sensing satellites worldwide far exceeds the capacity for timely downloading at present [2]. Even with the use of a higher frequency Ku/Ka band for downloading, it is impossible to complete the download of all data within a single satellite transit window.…”

Section: Introductionmentioning

confidence: 99%

“…Bhattacherjee et al [10] initiated a scholarly discourse on the concept of satellite edge computing, exploring potential applications that could leverage this paradigm as well as identifying factors that could hinder its implementation. Denby et al [11] proposed using the nanosatellite orbital edge computing to tackle limitations of the "bent-pipe" architecture. Driven by remote sensing services, the authors presented a working mode of computational nanosatellite pipeline to eliminate the problem of single satellite energy constraints.…”

Section: Introductionmentioning

confidence: 99%

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Beijing Language and Culture University, China

Wang¹

2022

The Experience of Examining the PhD

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In the study of network synchronization, an outstanding question of both theoretical and practical significance is how to allocate a given set of heterogenous oscillators on a complex network in order for improving the synchronization performance. Whereas methods have been proposed to address this question in literature, the methods are based on accurate models describing the system dynamics, which, however, are normally unavailable in realistic situations. Here we show that this question can be addressed by the model-free technique of feed-forward neural network (FNN) in machine learning. Specifically, we measure the synchronization performance of a number of allocation schemes and use the measured data to train a machine. It is found that the trained machine is able to not only infer the synchronization performance of any new allocation scheme, but also find from a huge amount of candidates the optimal allocation scheme for synchronization.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Beijing Language and Culture University, China

Wang¹

2022

The Experience of Examining the PhD

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“…From satellite perspective, there are two options of integrating edge computing in this pipeline: at the IoT nodes, or in orbit, at the satellite. For example, satellite constellations be thought operating as computational pipelines: studies in [103] for camera equipped satellites sensing the Earth show advantages both in terms of architecture infrastructure and in processing latency for this approach. But the edge computing paradigm does not only shift processing nearer to the location where the data is generated and/or consumed, but also introduce the application virtualization paradigm in, thus pushing the technology towards more standardized approaches.…”

Section: A Innovative Approaches To Tackle Technical Challengesmentioning

confidence: 99%

A Survey on Technologies, Standards and Open Challenges in Satellite IoT

Centenaro¹,

Costa

Granelli

et al. 2021

IEEE Commun. Surv. Tutorials

194

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The Internet of Things (IoT) is expected to bring new opportunities for improving several services for the Society, from transportation to agriculture, from smart cities to fleet management. In this framework, massive connectivity represents one of the key issues. This is especially relevant when IoT systems are expected to cover a large geographical area or a region not reached by terrestrial network connections. In such scenarios, the usage of satellites might represent a viable solution for providing wide area coverage and connectivity in a flexible and affordable manner. Our paper presents a survey on current solutions for the deployment of IoT services in remote/rural areas by exploiting satellites. Several architectures and technical solutions are analyzed, underlining their features and limitations, and real test cases are presented. It has been highlighted that low-orbit satellites offer an efficient solution to support long-range IoT services, with a good trade-off in terms of coverage and latency. Moreover, open issues, new challenges, and innovative technologies have been focused, carefully considering the perimeter that current IoT standardization framework will impose to the practical implementation of future satellite based IoT systems.

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“…Benefited from low-cost deployment, dense LEOs forming mega-constellations are empowered with on-board computation capability [10], [11]. LEOs will be capable of providing more complex and globally-covered services, or even collaborative training tasks.…”

Section: Introductionmentioning

confidence: 99%

Edge Selection and Clustering for Federated Learning in Optical Inter-LEO Satellite Constellation

Chen¹,

Shen²,

Feng³

et al. 2023

Preprint

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Low-Earth orbit (LEO) satellites have been prosperously deployed for various Earth observation missions due to its capability of collecting a large amount of image or sensor data. However, traditionally, the data training process is performed in the terrestrial cloud server, which leads to a high transmission overhead. With the recent development of LEO, it is more imperative to provide ultra-dense LEO constellation with enhanced onboard computation capability. Benefited from it, we have proposed a collaborative federated learning for low Earth orbit (FELLO). We allocate the entire process on LEOs with low payload intersatellite transmissions, whilst the low-delay terrestrial gateway server (GS) only takes care for initial signal controlling. The GS initially selects an LEO server, whereas its LEO clients are all determined by clustering mechanism and communication capability through the optical inter-satellite links (ISLs). The re-clustering of changing LEO server will be executed once with low communication quality of FELLO. In the simulations, we have numerically analyzed the proposed FELLO under practical Walker-based LEO constellation configurations along with MNIST training dataset for classification mission. The proposed FELLO outperforms the conventional centralized and distributed architectures with higher classification accuracy as well as comparably lower latency of joint communication and computing.

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Orbital Edge Computing

Cited by 147 publications

References 40 publications

Beijing Language and Culture University, China

Beijing Language and Culture University, China

A Survey on Technologies, Standards and Open Challenges in Satellite IoT

Edge Selection and Clustering for Federated Learning in Optical Inter-LEO Satellite Constellation

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