论文信息 - Testing Oscillator Stability as a Limiting Factor in Extreme High- Sensitivity GPS Applications

Testing Oscillator Stability as a Limiting Factor in Extreme High- Sensitivity GPS Applications

Oscillator instability is one of the most critical error sources impeding the progress of high-sensitivity GPS applications in signal-degraded environments, especially indoors, in urban canyons, and under heavy foliage. Augmentations such as assisted GPS can improve availability somewhat, but receiver sensitivity is still fundamentally limited by oscillator stability and other factors such as user dynamics. In this paper, the impact of oscillator stability is empirically tested by conducting extremely long coherent integrations and determining the degradation in received signal strength caused by each of a set of test oscillators. Over short intervals of a few seconds, oscillator errors are dominated by characteristic random fluctuations, and by external error-inducing sources such as vibrations, temperature shocks, and accelerations. By limiting those externallyinduced errors, the optimum performance of each specific oscillator is found.

Gérard Lachapelle | Richard Klukas

[1] Gérard Lachapelle,et al. Differential Signal Processing Schemes for Enhanced GPS Acquisition , 2005 .

[2] R. L. Filler,et al. Long-term aging of oscillators , 1993 .

[3] Robert Watson,et al. Investigating GPS signals indoors with extreme high-sensitivity detection techniques , 2005 .

[4] M. Petovello. Real-time integration of a tactical-grade IMU and GPS for high-accuracy positioning and navigation , 2003 .

[5] John Robert A. Watson. High-sensitivity GPS L1 signal analysis for indoor channel modelling , 2005 .

[6] Char-Dir Chung. Differentially coherent detection technique for direct-sequence code acquisition in a Rayleigh fading mobile channel , 1995, IEEE Trans. Commun..

[7] Tsung-Yu Chiou,et al. GPS Receiver Performance Using Inertial-Aided Carrier Tracking Loop , 2005 .

[8] Dc Long,et al. Inertially-aided GPS signal re-acquisition in poor signal to noise environments and tracking maintenance through short signal outages , 2005 .