Recently, increasing investments in satellite-related technologies make the low earth orbit
(LEO) satellite constellation a strong complement to terrestrial networks. To mitigate the …

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 …

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 …

Sixth-Generation (6G) technologies will revolutionize the wireless ecosystem by enabling
the delivery of futuristic services through satellite-terrestrial integrated networks (STINs). As …

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 space industry experiences a rise in low-Earth-orbit satellite mega-constellations to
achieve universal connectivity. At the same time, cloud firms (such as Google, Microsoft, and …

For 5G and 6G communications, satellites are drawing great attention for global coverage
extension and 3-D mobility enhancement. With advancements of satellite hardware …

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 …

The satellite-terrestrial networks (STN) utilize the spacious coverage and low transmission
latency of the Low Earth Orbit (LEO) constellation to transfer requested content for …

The network topology design is critical for achieving low latency and high capacity in future
integrated satellite and terrestrial networks (ISTN). However, existing studies mainly focus …