Efectos relativistas en los sistemas Galileo, GPS y GLONASS

TL;DR

This paper discusses the importance of relativistic effects in GNSS like GPS and GLONASS, and proposes the SYPOR project as an alternative design for Galileo that inherently accounts for relativity, eliminating the need for corrections.

Contribution

It introduces the SYPOR project as a relativistic-based alternative to copying GPS for Galileo, enhancing accuracy and technological advantages.

Findings

Galileo can be built without relativistic corrections using SYPOR

SYPOR offers higher accuracy and technological benefits

Relativistic concepts are fundamental to GNSS design

Abstract

Nowadays, the Global Navigation Satellite Systems (GNSS), working like global positioning systems, are the GPS (NAVSTAR) and the GLONASS, which only are operative when several relativistic effects are corrected. In the next years the Galileo system will be constructed, copying the GPS System if there is no an alternative project. In this work, it will be exposed that there is one alternative to the mere copy by means of the SYPOR project, using relativistic concepts, and without utilize the Newtonian ideas that are in the basic conception, so much of the GPS as of the GLONASS. According to the SYPOR project, the Galileo system would be exact, with no need of corrections, and it would have additional technological advantages.