A survey on resource management in joint communication and computing-embedded SAGIN
The advent of the 6G era aims for ubiquitous connectivity, with the integration of non-
terrestrial networks (NTN) offering extensive coverage and enhanced capacity. As …
terrestrial networks (NTN) offering extensive coverage and enhanced capacity. As …
Coverage enhancement for 6G satellite-terrestrial integrated networks: performance metrics, constellation configuration and resource allocation
Since the base station-centric wireless coverage mode of 5G is difficult to support future
stereoscopic global wireless coverage demands, the future infrastructure of 6G satellite …
stereoscopic global wireless coverage demands, the future infrastructure of 6G satellite …
Artificial intelligence-assisted network slicing: Network assurance and service provisioning in 6G
6G networks are expected to provide instant global connectivity and enable the transition
from “connected things” to “connected intelligence,” where promising network slicing can …
from “connected things” to “connected intelligence,” where promising network slicing can …
Revolutionizing future connectivity: A contemporary survey on AI-empowered satellite-based non-terrestrial networks in 6G
Non-Terrestrial Networks (NTN) are expected to be a critical component of 6th Generation
(6G) networks, providing ubiquitous, continuous, and scalable services. Satellites emerge as …
(6G) networks, providing ubiquitous, continuous, and scalable services. Satellites emerge as …
Toward resilient network slicing for satellite–terrestrial edge computing IoT
Satellite–terrestrial edge computing networks (STECNs) emerged as a global solution to
support multiple Internet of Things (IoT) applications in 6G networks. The enabling …
support multiple Internet of Things (IoT) applications in 6G networks. The enabling …
Artificial intelligence for satellite communication and non-terrestrial networks: A survey
This paper surveys the application and development of Artificial Intelligence (AI) in Satellite
Communication (SatCom) and Non-Terrestrial Networks (NTN). We first present a …
Communication (SatCom) and Non-Terrestrial Networks (NTN). We first present a …
FHAP: Fast Handover Authentication Protocol for High-Speed Mobile Terminals in 5G Satellite–Terrestrial-Integrated Networks
Y Yang, J Cao, R Ma, L Cheng, L Chen… - IEEE Internet of …, 2023 - ieeexplore.ieee.org
The integration of satellite and terrestrial networks presents new opportunities and
challenges for high speed rail (HSR) communications. Since the HSR runs vary fast, user …
challenges for high speed rail (HSR) communications. Since the HSR runs vary fast, user …
A Multi-Level Deep RL-Based Network Slicing and Resource Management for O-RAN-Based 6G Cell-Free Networks
With the deployment of the fifth generation (5G) of cellular networks, the focus of the
information society has switched to the next era in which the limitations of 5G will be …
information society has switched to the next era in which the limitations of 5G will be …
Partial Computation Offloading in Satellite-Based Three-Tier Cloud-Edge Integration Networks
Computation offloading tends to be an effective way for mitigating computing pressure of
user equipments (UEs). By computation offloading, the task can be handled in network edge …
user equipments (UEs). By computation offloading, the task can be handled in network edge …
Priority-Based Load Balancing With Multi-Agent Deep Reinforcement Learning for Space-Air-Ground Integrated Network Slicing
Space-air–ground integrated network (SAGIN) slicing has been studied for supporting
diverse applications, which consists of the terrestrial layer (TL) deployed with base stations …
diverse applications, which consists of the terrestrial layer (TL) deployed with base stations …