Ultra-dense LEO: Integrating terrestrial-satellite networks into 5G and beyond for data offloading
In this paper, we propose a terrestrial-satellite network (TSN) architecture to integrate the
ultra-dense low earth orbit (LEO) networks and the terrestrial networks to achieve efficient …
ultra-dense low earth orbit (LEO) networks and the terrestrial networks to achieve efficient …
Ultra-dense LEO satellite offloading for terrestrial networks: How much to pay the satellite operator?
Recently, the ultra-dense low earth orbit (LEO) satellite constellation over high-frequency
band has served as a potential solution for terrestrial data offloading owing to its seamless …
band has served as a potential solution for terrestrial data offloading owing to its seamless …
Ultra-dense LEO satellite constellations: How many LEO satellites do we need?
Recently, the ultra-dense low Earth orbit (LEO) satellite constellation over high-frequency
band has served as a potential solution for high-capacity backhaul data services. In this …
band has served as a potential solution for high-capacity backhaul data services. In this …
A user-centric handover scheme for ultra-dense LEO satellite networks
In recent years, low earth orbit (LEO) satellite networks (LSNs) have attracted increasing
attention due to economic prospect and advantages in high bandwidth and low latency. In …
attention due to economic prospect and advantages in high bandwidth and low latency. In …
Latency-aware offloading in integrated satellite terrestrial networks
Next-generation communication networks are expected to integrate newly-used
technologies in a smart way to ensure continuous connectivity in rural areas and to alleviate …
technologies in a smart way to ensure continuous connectivity in rural areas and to alleviate …
Ultra-dense LEO: Integration of satellite access networks into 5G and beyond
To support the explosive growth of wireless devices and applications, various access
techniques need to be developed for future wireless systems to provide reliable data …
techniques need to be developed for future wireless systems to provide reliable data …
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 …
Joint HAP access and LEO satellite backhaul in 6G: Matching game-based approaches
Space-air-ground networks play important roles in both fifth generation (5G) and sixth
generation (6G) techniques. Low earth orbit (LEO) satellites and high altitude platforms …
generation (6G) techniques. Low earth orbit (LEO) satellites and high altitude platforms …
NB-IoT via LEO satellites: An efficient resource allocation strategy for uplink data transmission
In this article, we focus on the use of low-Earth orbit (LEO) satellites providing the
narrowband Internet of Things (NB-IoT) connectivity to the on-ground user equipments …
narrowband Internet of Things (NB-IoT) connectivity to the on-ground user equipments …
Energy efficiency and traffic offloading optimization in integrated satellite/terrestrial radio access networks
In order to cope with the explosive growth of mobile traffic, many traffic offloading schemes
such as heterogenous networks have been developed to enhance network capacity of the …
such as heterogenous networks have been developed to enhance network capacity of the …