Repeaters in relativistic communications

Juan Carlos Garcia-Escartin; Pedro Chamorro-Posada

arXiv:1106.4131·physics.class-ph·June 22, 2011·1 cites

Repeaters in relativistic communications

Juan Carlos Garcia-Escartin, Pedro Chamorro-Posada

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TL;DR

This paper investigates how intermediate repeaters influence communication efficiency in relativistic environments, considering effects of motion and gravity, and compares these with nonrelativistic scenarios.

Contribution

It introduces an analysis of relativistic repeaters and highlights differences from traditional nonrelativistic repeater systems.

Findings

01

Relativistic effects significantly impact repeater performance.

02

Differences between relativistic and nonrelativistic repeater scenarios are characterized.

03

Insights into optimizing communication in relativistic settings are provided.

Abstract

The communication efficiency between a transmitter and a receiver is affected by motion and the presence of gravitational fields. We study the effect of regenerating the signal in intermediate repeaters in different relativistic scenarios and comment the differences with respect to nonrelativistic repeaters.

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Taxonomy

TopicsCosmology and Gravitation Theories · Radio Astronomy Observations and Technology · Particle physics theoretical and experimental studies