Assessment of high-rate GPS using a single-axis shake table
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1 Assessment of high-rate GPS using a single-axis shake table S. Häberling, M. Rothacher, A. Geiger Institute of Geodesy and Photogrammetry, ETH Zurich
2 Introduction Project: Study the applicability of high-rate GNSS for seismology Kinematic GPS L1/L2 measurements (100Hz) with static antenna Zero-baseline and very short baseline (~5m) Correlations and noise level Kinematic GPS L1/L2 measurements (100Hz) with 1D shake table Very short baseline (~5m) Dynamic characteristics of the GPS receiver 2
3 Kinematic GPS Measurements with 100Hz Zero-Baseline 5m Baseline - Carrier phase noise - Multipath - Internal receiver errors - Different antenna characteristics 5m Kinematic RMS: Kinematic RMS: East East = 0.4 [mm] = 2.4 [mm] North = 0.6 [mm] North = 3.2 [mm] Up Up = 0.9 [mm] = 5.9 [mm] 3
4 Position Correlations: Zero-Baseline L1 CA/L1 PLL = 50 Hz (0.02 s) DLL = 5 Hz (0.2 s) PLL = Phase-locked loop DLL = Delay-locked loop CA/L1 PLL = 10 Hz (0.1 s) DLL = 1 Hz (1 s) 4
5 Position Correlations: Zero-Baseline L [s] 0.2 [s] CA/L1 PLL = 50 Hz (0.02 s) DLL = 5 Hz (0.2 s) PLL = Phase-locked loop DLL = Delay-locked loop CA/L1 PLL = 10 Hz (0.1 s) DLL = 1 Hz (1 s) 5
6 Position Correlations: Zero-Baseline L [s] 0.2 [s] CA/L1 PLL = 50 Hz (0.02 s) DLL = 5 Hz (0.2 s) PLL = Phase-locked loop DLL = Delay-locked loop 1 [s] 0.1 [s] CA/L1 PLL = 10 Hz (0.1 s) DLL = 1 Hz (1 s) 6
7 Position Correlations: Zero-Baseline L [s] 0.2 [s] 0.33 [s] CA/L1 PLL = 50 Hz (0.02 s) DLL = 5 Hz (0.2 s) P/L1 PLL = 3 Hz (0.33 s) DLL = 3 Hz (0.33 s) PLL = Phase-locked loop DLL = Delay-locked loop 0.1 [s] 1 [s] 0.33 [s] CA/L1 PLL = 10 Hz (0.1 s) DLL = 1 Hz (1 s) P/L1 PLL = 3 Hz (0.33 s) DLL = 3 Hz (0.33 s) 7
8 Position Correlations: Zero-Baseline L1/L [s] 0.2 [s] 0.33 [s] L1 CA/L1 PLL = 50 Hz (0.02 s) DLL = 5 Hz (0.2 s) P/L1 PLL = 3 Hz (0.33 s) DLL = 3 Hz (0.33 s) 0.02 [s] 0.2 [s] 0.33 [s] L2 P/L2 PLL = 3 Hz (0.33 s) DLL = 3 Hz (0.33 s) 8
9 Shake Table - Schematic Overview Shake Table - max. acceleration = 2.5 [g] - max. velocity = 0.4 [m/s] - max. frequency = 20 [Hz] - max. amplitude = 7.5 [cm] Inductive Sensors - resolution = [mm] - sampling rate = 2.4 [khz] - time synchr. < 0.4 [ms] Total Uncertainty: < 0.1 [mm] 9
10 First Tests with the Shake Table Step 2cm 100Hz GPS Inductive Sensor Sine with 1Hz, 1cm amplitude 10
11 Sine Oscillations Frequencies: [Hz] Amplitudes: 1 50 [mm] acceleration dependent amplitudes and phases Amplitude = 1mm Amplitude = 5mm Amplitude = 10mm Amplitude = 50mm 11
12 Sine Oscillations Phase Shift Amplitude = 1mm Amplitude = 5mm Amplitude = 10mm Amplitude = 50mm 12
13 Sine Oscillations Different Receivers Javad Sigma Leica 1200 Novatel DL-4plus 13
14 Sine Oscillations (5mm Amplitude) PLL = 50Hz, DLL = 5Hz 1 [Hz] PLL = 10Hz, DLL = 1Hz max. acc. 0.2 [m/s2] 1 [Hz] 100Hz GPS max. acc. 0.2 [m/s2] Inductive Sensor 14
15 Sine Oscillations (5mm Amplitude) PLL = 50Hz, DLL = 5Hz PLL = 10Hz, DLL = 1Hz 1 [Hz] max. acc. 0.2 [m/s2] 1 [Hz] max. acc. 0.2 [m/s2] 5 [Hz] max. acc. 4.4 [m/s2] 5 [Hz] max. acc. 4.4 [m/s2] 100Hz GPS Inductive Sensor 15
16 Sine Oscillations (5mm Amplitude) CA/L1 PLL = 50Hz, DLL = 5Hz CA/L1 PLL = 10Hz, DLL = 1Hz P/L2 PLL = 3Hz, DLL = 3Hz P/L2 PLL = 3Hz, DLL = 3Hz L1 5 [Hz] L2 L1 max. acc. 4.4 [m/s2] 5 [Hz] L2 max. acc. 4.4 [m/s2] 16
17 Receiver Transfer Function 2nd Order Measurements 100Hz GPS Inductive Sensor Simulation 17
18 Receiver Transfer Function 2nd Order Measurements 100Hz GPS Inductive Sensor Simulation 18
19 Receiver Transfer Function 2nd Order 100Hz GPS Inductive Sensor 19
20 Receiver Transfer Function 2nd Order 100Hz GPS Inductive Sensor 20
21 Receiver Transfer Function 2nd Order 100Hz GPS Inductive Sensor 21
22 Conclusions Tracking loop parameters directly influence the noise level and position correlations Accuracy of dynamic GPS measurements depends on acceleration and tracking loop parameters Similar behaviour of the L1 and L2 signals Minimization of the errors by inverse filtering Next Steps Longer baseline (~100km) Problem of loss of lock 3D Robot for larger amplitudes 22
23 THANK YOU FOR YOUR ATTENTION 23
24 High-Frequency Noise: 5m Baseline Satellite L1 Residuals PLL = 50Hz, DLL = 5Hz PLL = 10Hz, DLL = 1Hz RMS for kinematic coordinates: PLL = 10Hz, DLL=1Hz PLL = 50Hz, DLL= 5Hz East East = 1.8 [mm] = 1.9 [mm] North = 1.9 [mm] North = 3.6 [mm] Up Up = 3.8 [mm] = 5.0 [mm] 24
25 Position Correlations: 5m Baseline PLL = 50 Hz (0.02 s) DLL = 5 Hz (0.2 s) PLL = 10 Hz (0.1 s) DLL = 1 Hz (1 s) 25
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