A dynamic resource scheduling scheme in edge computing satellite networks
The LEO satellite network has been a valuable architecture due to its characteristics of wide
coverage and low transmission delay. Utilizing LEO satellites as edge computing nodes to …
coverage and low transmission delay. Utilizing LEO satellites as edge computing nodes to …
Satellite-terrestrial integrated edge computing networks: Architecture, challenges, and open issues
STN has been considered a novel network architecture to accommodate a variety of
services and applications in future networks. Being a promising paradigm, MEC has been …
services and applications in future networks. Being a promising paradigm, MEC has been …
Satellite edge computing architecture and network slice scheduling for IoT support
For 5G and 6G communications, satellites are drawing great attention for global coverage
extension and 3-D mobility enhancement. With advancements of satellite hardware …
extension and 3-D mobility enhancement. With advancements of satellite hardware …
Joint offloading decision and resource allocation in mobile edge computing-enabled satellite-terrestrial network
M Tong, X Wang, S Li, L Peng - Symmetry, 2022 - mdpi.com
With the development of satellite-terrestrial network (STN), mobile edge computing (MEC)
servers are deployed at low orbit earth (LEO) satellites to provide computing services for …
servers are deployed at low orbit earth (LEO) satellites to provide computing services for …
Joint computing and communication resource allocation for satellite communication networks with edge computing
S Zhang, G Cui, Y Long, W Wang - China Communications, 2021 - ieeexplore.ieee.org
Benefit from the enhanced onboard processing capacities and high-speed satellite-
terrestrial links, satellite edge computing has been regarded as a promising technique to …
terrestrial links, satellite edge computing has been regarded as a promising technique to …
Aerial edge computing on orbit: A task offloading and allocation scheme
As the communication mode with the greatest attention and global network coverage, the
Low Earth Orbit (LEO) satellite network has the characteristics of low propagation delay, low …
Low Earth Orbit (LEO) satellite network has the characteristics of low propagation delay, low …
Joint computing and communication resource allocation for edge computing towards Huge LEO networks
M Jia, L Zhang, J Wu, Q Guo, X Gu - China Communications, 2022 - ieeexplore.ieee.org
The satellite-terrestrial cooperative network is considered an emerging network architecture,
which can adapt to various services and applications in the future communication network …
which can adapt to various services and applications in the future communication network …
Edge-assisted multi-layer offloading optimization of LEO satellite-terrestrial integrated networks
Sixth-Generation (6G) technologies will revolutionize the wireless ecosystem by enabling
the delivery of futuristic services through satellite-terrestrial integrated networks (STINs). As …
the delivery of futuristic services through satellite-terrestrial integrated networks (STINs). As …
Satellite mobile edge computing: Improving QoS of high-speed satellite-terrestrial networks using edge computing techniques
The high-speed satellite-terrestrial network (STN) is an indispensable alternative in future
mobile communication systems. In this article, we first introduce the architecture and …
mobile communication systems. In this article, we first introduce the architecture and …
Integrating edge computing into low earth orbit satellite networks: Architecture and prototype
Low Earth Orbit (LEO) satellite network is a cost-efficient way to achieve global covering for
wide-area Internet of Things (IoT). As more and more IoT applications require large amounts …
wide-area Internet of Things (IoT). As more and more IoT applications require large amounts …