DOI QR코드

DOI QR Code

Design of GPS L1-CA/Galileo Dual Mode Receiver

GPS L1-CA/Galileo 겸용 수신기의 설계

  • Published : 2008.01.01

Abstract

A GNSS(Global Navigation Satellite System) using GPS provides us with very useful information concerning the positioning of users in many sectors such as transportation, social services, the justice system and customs services, public works, search and rescue systems and leisure. A GNSS using the Galileo satellite is due to work in 2008 and expected to be used in various fields such as aviation, marine transportation, land surveying, resources development precise agriculture, telemetics, and so on. In this paper, we discuss the implementation and testing of a combined GPS/Galileo receiver which we named KSTAR V1.0. Each tracking module of GPS/Galileo dual mode correlator has the five track arms which consist of Very Early code, Early code, Prompt code, late code, and Very late code. Each of 24 tracking modules can be assigned to GPS and/or Galileo signal by changing mode selection register. The basic correlator integration dump period is set to 1ms for GPS C/A code and fast Galileo signal tracking. The performance of the developed combined GPS/Galileo receiver was tested and evaluated using the IF (Intermediated Frequency)-level GPS/Galileo signal generator.

Keywords

References

  1. Kaplan, E. D., (Editor), Understanding GPS Principles and Applications, Artech House Publishers, 1996
  2. Betz, J. W. (2002), "Binary offset carrier modulations for radionavigation, navigation, journal of the institute of navigation," Winter 2001-2002, vol. 48, Number 4
  3. V. Heiries, D. Roviras, L. Ries, V. Calmettes, "Analysis of non ambiguous BOC signal acquisition performance," TeSA, CNES, ENSAE
  4. O. Julien, "Design of galileo L1F receiver tracking loops," UCGE Reports, July 2005
  5. V. Heiries, D. Roviras, L. Ries, V. Calmettes, "Analysis of non ambiguous BOC signal acquisition performance," TeSA, CNES, ENSAE