P.G. Mattos scite author profile

Galileo offers improved indoor sensitivity over existing GPS by improved design of the signals. The major limitation to GPS is cross-correlation, and longer codes and a pilot signal are intended to solve this for Galileo. The paper discusses the need to acquire before tracking, and the complexities of acquisition, together with difficulties caused by shortening the code to accommodate BOC(1,1), and caused by having the secondary code on the pilot channel.

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Integrated GPS and dead reckoning for low-cost vehicle navigation and tracking

Mattos¹

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Correction of pseudorange errors in Galileo and GLONASS caused by biases in group delay

Pisoni

Mattos

2012

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Both Galileo E1 OS and GLONASS L1 signals require a wider pre-correlation bandwidth than GPS C/A. The GLONASS channels are uniformly spaced on a frequency division grid, and occupy some 8MHz in total, whereas Galileo E1 OS has sidebands that are separated by about 2MHz. Being wideband is an advantage because of sharper correlation peak (Galileo) and better interference rejection; however it also exposes distant spectral components of the signal to larger variations of the front-end transfer function. Group delay differences are mostly caused by the analog components like the SAW filter or the integrated analog front-end whereas magnitude can be affected by signal conditioning done in the digital domain, for example by the insertion of recursive filters aimed at interference cancellation. These impairments must be estimated and compensated. The benefits for the consumer multiconstellation receiver are an improved precision and an enriched set of potential applications, including timing.

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P.G. Mattos

A 56-mW 23-<tex>$hbox mm^2$</tex>Single-Chip 180-nm CMOS GPS Receiver With 27.2-mW 4.1-<tex>$hbox mm^2$</tex>Radio

GPS-III L1C signal reception demonstrated on QZSS

Galileo L1c - Acquisition Complexity: Cross Correlation Benefits, Sensitivity Discussions on the Choice of Pure Pilot, Secondary Code, or Something Different

Integrated GPS and dead reckoning for low-cost vehicle navigation and tracking

Correction of pseudorange errors in Galileo and GLONASS caused by biases in group delay

Contact Info

Product

Resources

About

P.G. Mattos

A 56-mW 23-&lt;tex&gt;$hbox mm^2$&lt;/tex&gt;Single-Chip 180-nm CMOS GPS Receiver With 27.2-mW 4.1-&lt;tex&gt;$hbox mm^2$&lt;/tex&gt;Radio

GPS-III L1C signal reception demonstrated on QZSS

Galileo L1c - Acquisition Complexity: Cross Correlation Benefits, Sensitivity Discussions on the Choice of Pure Pilot, Secondary Code, or Something Different

Integrated GPS and dead reckoning for low-cost vehicle navigation and tracking

Correction of pseudorange errors in Galileo and GLONASS caused by biases in group delay

Contact Info

Product

Resources

About

A 56-mW 23-<tex>$hbox mm^2$</tex>Single-Chip 180-nm CMOS GPS Receiver With 27.2-mW 4.1-<tex>$hbox mm^2$</tex>Radio