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Main Authors: Van Chien, Trinh, Quan, Nguyen Minh, Do, Tri Nhu, Le, Cuong, Nguyen, Tan N., Chatzinotas, Symeon
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.08250
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author Van Chien, Trinh
Quan, Nguyen Minh
Do, Tri Nhu
Le, Cuong
Nguyen, Tan N.
Chatzinotas, Symeon
author_facet Van Chien, Trinh
Quan, Nguyen Minh
Do, Tri Nhu
Le, Cuong
Nguyen, Tan N.
Chatzinotas, Symeon
contents Low Earth orbit (LEO) satellites has brought about significant improvements in wireless communications, characterized by low latency and reduced transmission loss compared to geostationary orbit (GSO) satellites. Ultra-dense LEO satellites can serve many users by generating active beams effective to their locations. The beam placement problem is challenging but important for efficiently allocating resources with a large number of users. This paper formulates and solves a fast beam placement optimization problem for ultra-dense satellite systems to enhance the link budget with a minimum number of active beams (NABs). To achieve this goal and balance load among beams within polynomial time, we propose two algorithms for large user groups exploiting the modified K-means clustering and the graph theory. Numerical results illustrate the effectiveness of the proposals in terms of the statistical channel gain-to-noise ratio and computation time over state-of-the-art benchmarks.
format Preprint
id arxiv_https___arxiv_org_abs_2412_08250
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fast Beam Placement for Ultra-Dense LEO Networks
Van Chien, Trinh
Quan, Nguyen Minh
Do, Tri Nhu
Le, Cuong
Nguyen, Tan N.
Chatzinotas, Symeon
Information Theory
Low Earth orbit (LEO) satellites has brought about significant improvements in wireless communications, characterized by low latency and reduced transmission loss compared to geostationary orbit (GSO) satellites. Ultra-dense LEO satellites can serve many users by generating active beams effective to their locations. The beam placement problem is challenging but important for efficiently allocating resources with a large number of users. This paper formulates and solves a fast beam placement optimization problem for ultra-dense satellite systems to enhance the link budget with a minimum number of active beams (NABs). To achieve this goal and balance load among beams within polynomial time, we propose two algorithms for large user groups exploiting the modified K-means clustering and the graph theory. Numerical results illustrate the effectiveness of the proposals in terms of the statistical channel gain-to-noise ratio and computation time over state-of-the-art benchmarks.
title Fast Beam Placement for Ultra-Dense LEO Networks
topic Information Theory
url https://arxiv.org/abs/2412.08250