The emergence of sixth-generation (6G) mobile networks and non-terrestrial networks
(NTNs) has led to increased interest in low Earth orbit (LEO) satellite-based communication …

In this paper, we propose an offloading method for edge computing that takes into account
the energy consumption of task requests, constructs and analyzes a co-tracked multi-star …

Mobile edge computing (MEC) can efficiently minimize computational latency, reduce
response time, and improve quality-of-service (QoS) by offloading tasks in the access …

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 …

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

Satellite edge computing, as an extension of ground edge computing, is a key technology for
achieving seamless global computing coverage. However, the low earth orbit (LEO) …

Low earth orbit (LEO) satellite networks can break through geographical restrictions and
achieve global wireless coverage, which is an indispensable choice for future mobile …

In emergency situations, such as earthquakes, landslides and other natural disasters, the
terrestrial communications infrastructure is severely disrupted and unable to provide …

Satellite edge computing shows promise in delivering seamless, low-latency services in
challenging contexts such as deserts, oceans, and during natural disasters. Previous studies …

Benefiting from advanced satellite payload technologies, edge computing servers can be
deployed on satellites to achieve orbital computing and reduce the mission processing …