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Integrated Positioning and Communication via LEO Satellites: Opportunities and Challenges

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arxiv 2411.14360 v2 pith:HXPRMGPM submitted 2024-11-21 eess.SP

Integrated Positioning and Communication via LEO Satellites: Opportunities and Challenges

classification eess.SP
keywords communicationpositioningsatellitessystemschallengesintegratedipacpotential
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Low Earth orbit (LEO) satellites, as a prominent technology in the 6G non-terrestrial network, offer both positioning and communication capabilities. While these two applications have each been extensively studied and have achieved substantial progress in recent years, the potential synergistic benefits of integrating them remain an underexplored yet promising avenue. This article comprehensively analyzes the integrated positioning and communication (IPAC) systems on LEO satellites. By leveraging the distinct characteristics of LEO satellites, we examine how communication systems can enhance positioning accuracy and, conversely, how positioning information can be exploited to improve communication efficiency. In particular, we present two case studies to illustrate the potential of such integration. Finally, several key open research challenges in the LEO-based IPAC systems are discussed.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Mapping the Storm: Geospatial Impacts of Severe Weather on LEO Network Performance

    stat.AP 2026-06 unverdicted novelty 6.0

    Severe weather causes substantial degradation in over 55% of affected Starlink terminals, with outages lasting minutes to hours.