Some Improvements on Relativistic Positioning Systems-Reference-Cited by-同舟云学术

Some Improvements on Relativistic Positioning Systems

Published:2018-06-01 Issue:1 Volume:3 Page:161-166
ISSN:2444-8656
Container-title:Applied Mathematics and Nonlinear Sciences
language:en
Short-container-title:

Author:

Alfonso Màrius Josep Fullana i¹,Milán Diego Pascual Sáez²³,Córdoba Josep Vicent Arnau i⁴,Colmenero Neus Puchades²

Affiliation:

1. Institut de Matemàtica Multidisplinar , Universitat Politècnica de València , E-46022 , València , Spain

2. Departament d’Astronomia i Astrofísica , Universitat de València , E-46100 Burjassot , València , Spain

3. Observatori Astronòmic , Universitat de València , E-46980 Paterna , València , Spain

4. Departament de Matemàtica Aplicada , Universitat de València , E-46100, Burjassot , València , Spain

Abstract

Abstract We make some considerations about Relativistic Positioning Systems (RPS). Four satellites are needed to position a user. First of all we define the main concepts. Errors should be taken into account. Errors depend on the Jacobian transformation matrix. Its Jacobian is proportional to the tetrahedron volume whose vertexes are the four tips of the receiver-satellite unit vectors. If the four satellites are seen by the user on a circumference in the sky, then, the Jacobian and the tetrahedron volume vanish. The users we consider are spacecraft. Spacecraft to be positioned cannot be close to a null Jacobian satellites-user configuration. These regions have to be avoided choosing an appropriate set of four satellites which are not seen too close to the same circumference in the sky. Errors also increase as the user spacecraft separates from the emission satellite region, since the tetrahedron volume decreases.We propose a method to autonomously potion a user-spacecraft which can test our method. This positioning should be compared with those obtained by current methods. Finally, a proposal to position a user-spacecraft moving far from Earth, with suitable devices (autonomous), is presented.

Publisher

Walter de Gruyter GmbH

Subject

Applied Mathematics,Engineering (miscellaneous),Modeling and Simulation,General Computer Science

Link

https://www.sciendo.com/pdf/10.21042/AMNS.2018.1.00012

Reference12 articles.

1. Coll, B., Ferrando, J.J. and Morales-Lladosa, J.A. (2010), Positioning systems in Minkowski space-time: from emission to inertial coordinates. Class. Quantum Grav., 27, 065013 (17pp). 10.1088/0264-9381/27/6/065013

2. Puchades, N. and Sáez, D. (2016), Advances in Space Research, vol 57, page 499. 10.1016/j.asr.2015.10.031

3. Puchades, N. and Sáez, D. (2012), Relativistic positioning: four-dimensional numerical approach in Minkowski spacetime. Astrophys. Space Sci., 341, 631-643. 10.2420/AF07.2013.103

4. Sáez, D., Puchades, N. (2013), Relativistic positioning systems: Numerical simulations. Acta Futura, 7, 103-110. 10.2420/AF07.2013.103

5. Puchades, N. and Sáez, D. (2014), Relativistic positioning: errors due to uncertainties in the satellite world lines. Astrophys. Space Sci., 352, 307-320. 10.1007/s10509-014-1908-9

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