With the rapid advancement of satellite communication technology, integrating decentralized
satellite computing capabilities through low earth orbit (LEO) satellite edge computing has …

Satellite communication networks with the characteristics of wide coverage, high
deployment flexibility, and seamless communication services can provide communication …

Enabling a satellite network with edge computing capabilities can complement the
advantages further of a single terrestrial network and provide users with a full range of …

The Low Earth Orbit (LEO) satellite network, serving as a vital complement to the terrestrial
backbone network, has emerged as a prospective path for future mobile communication …

Integrated satellite-terrestrial network (ISTN) has been considered a novel network
architecture to achieve global three-dimensional coverage and ultra-wide area broadband …

In remote areas, terrestrial cellular networks are usually sparsely deployed, making it difficult
for the terrestrial base station (TBS) to meet demands of all users. Hybrid satellite-terrestrial …

With the rapid development of large low Earth orbit (LEO) satellite constellations, satellite
edge computing is an emerging topic to provide computing services for Internet of Things …

Satellite edge computing, as an extension of ground edge computing, is a key technology for
providing computing services by deploying resources on low earth orbit (LEO) satellites …

Hybrid geosynchronous earth orbit (GEO) and low earth orbit (LEO) satellite networks play
an important role in future satellite‐assisted internet of things (S‐IoT). However, the limited …

Satellite mobile edge computing (SMEC) deployed on ultra-dense low Earth orbit (LEO)
satellites with high throughput and low latency can provide ubiquitous computing services …