Sparse Bandit Learning Based Location Management for Space-Ground Integrated Networks

Abstract: The Space-Ground Integrated Network (SGIN) concept constitutes a promising solution for providing seamless global coverage. However, the mobility of satellites and wireless terminals imposes unprecedented challenges on the location management in SGIN. We tackle this challenge by conceiving a split identifier (ID) and Network Address (NA) based design for providing natural mobility support, and characterize the ID-NA mapping allocation problem by exploiting the storage capacity of both Geostationary Earth Orbit… Show more

“…L OW-Earth-Orbit (LEO) satellites have the potential of extending the coverage of terrestrial networks, while maintaining a low propagation delay [1]. Moreover, deploying base stations onboard of LEO satellites is capable of promptly setting up a networking infrastructure even in natural disaster areas.…”

Interference Management by Harnessing Multi-Domain Resources in Spectrum-Sharing Aided Satellite-Ground Integrated Networks

“…L OW-Earth-Orbit (LEO) satellites have the potential of extending the coverage of terrestrial networks, while maintaining a low propagation delay [1]. Moreover, deploying base stations onboard of LEO satellites is capable of promptly setting up a networking infrastructure even in natural disaster areas.…”

Interference Management by Harnessing Multi-Domain Resources in Spectrum-Sharing Aided Satellite-Ground Integrated Networks