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![Page 1: An updated Canadian GPS velocity field using NRCan’s Precise Point Positioning (PPP) Software – Plans and preliminary results J. Henton 1, M. Craymer 2,](https://reader036.fdocuments.in/reader036/viewer/2022062500/56649f285503460f94c4028c/html5/thumbnails/1.jpg)
An updated Canadian GPS velocity field using NRCan’s Precise Point Positioning (PPP)
Software –Plans and preliminary results
J. Henton 1, M. Craymer 2, M. Piraszewski 2 and E. Lapelle 2
1 Geodetic Survey Division, Natural Resources Canada (Sidney, BC)2 Geodetic Survey Division, Natural Resources Canada (Ottawa, ON)
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National-Scale PPP Processing Introduction & Rationale Scope of Processing Effort Preliminary Results Summary of Plans Acknowledgements
Examples of Other NRCan Applications for PPP Results (Successes, Opportunities, Challenges)
Presentation Outline
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In an effort to continuously improve and refine previous continental-scale GPS velocity fields for Canada (in particular), we process data from nearly all continuous GPS (cGPS) sites in Canada, the northern portions of the US including Alaska, Greenland as well as a set of global sites used to define the reference frame.
In addition, repeated high accuracy campaign surveys of the Canadian Base Network (CBN) are included in our analyses.
Results from NRCan’s PPP software will be integrated with cGPS & CBN solutions for increased redundancy.
Introduction
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Contribute to the NAREF initiative
Generate a national Canadian velocity grid for interpolation to any point
Support national and regional NRCan studies of geophysical processes
Rationale
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NORTH AMERICAN REFERENCE FRAME (NAREF) OBJECTIVES
IAG Sub-commission 1.3c(Regional Reference Frames for North America)
To densify the ITRF reference frame in North America
Consolidate regional networks into a continental one
Integrate into ITRF via IGS global network
Produce coordinate solutions – Weekly solutions/combinations – Cumulative solutions with velocity estimates
Rationale – NAREF Initiative
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High accuracy cGPS sites in Canada, northern US (Great Lakes) & Alaska, and Greenland;
Data spanning 2000 (TBC) to “current” Processing with Bernese 5.2 & NRCan PPP (using
latest IGS satellite products); Global IGS sites included to define reference
frame; Cumulative solution (coordinates and velocities)
produced using NRCan’s updated SINEX_COMBINE software;
Using ITRF-published set of time series discontinuities for ITRF sites
Examine time series of all sites for additional discontinuities
Scope of Processing Effort - Continuous GPS (I)
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Scope of Processing Effort - Continuous GPS (II)
CBN SitesRF Sites
Based upon previous “GSB”(GSD Bernese v5.0) Solution & Combination:
▪ 568 sites▪ 2000–2011.29▪ 589 weekly solutions
New effort will include more cGPS sites.
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Scope of Processing Effort - Continuous GPS (III)
Global RF Sites
Based upon previous “GSB”(GSD Bernese v5.0) Solution & Combination:
▪ 117 global IGS sites used to define reference frame (RF).
New effort will be updated to include current IGS RF sites.
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Repeated survey campaigns of the Canadian Base Network (CBN) Network of stable pillar monuments Forced centering antenna mounts Covers mainly southern half of Canada (sparser in north) Multiple (3-4) 24 hr occupations of each site
60 survey campaigns from 1994 to “current” 1st national campaign 1994 – 2000 (no 1998) 2nd national campaign 2001(east) – 2002(west) 3rd national campaign 2005(east) – 2006(west) 4th national campaign 2010(east) – 2011(west) Many smaller campaigns occupied a few CBN sites
Scope of Processing Effort - Episodic GPS (I)
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CBN SitesRF Sites
CBN Site - 94K0016ÎLES-DE-LA-MADELEINE
(Québec)
CBN Site - 87K1003PORT-CARTIER (PILIER A)
(Québec)
Scope of Processing Effort - Episodic GPS (II)
▪ Use identical procedures & softwares as for continuous processing;
▪ Stack daily solutions into campaign solutions
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Results: Vertical Rates (Previous Combination)
▪ GSB & CBN solutions (rates & coordinates both aligned and integrated with ITRF2008
▪ GIA signal is apparent across Canada.
▪ Also, signals from western plate margin deformation processes are present.
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Results: Regional Preliminary PPP Vertical Rates
[from: James et al (2012), 2012 AGU Fall Meeting]
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Results: Regional Comparison of Vertical Velocities
Plot Courtesy of Andrea Darlington (NRCan & UVic)
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We have begun to process GPS data with NRCan’s Precise Point Positioning (PPP) software using the most current IGS orbits, precise clocks and absolute antenna calibrations together with the Vienna Mapping Function (VMF1) for the tropospheric model.
The PPP software is efficient for processing large arrays and preliminary rate results have proven comparable to those from Bernese (v5.0).
Soon, we will initiate PPP processing (and integrated solutions) for all GSB & CBN sites to provide complete redundancy for the Bernese (v5.2) results.
Summary – General Plans for National PPP Processing
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Evaluate other processing and analysis products (e.g.): VMF1 products from University of New Brunswick (UNB) Atmospheric pressure loading (and other loading) corrections
Implement procedures to produce PPP “network” coordinate files using GSD’s updated SINEX software
Begin integration with new GSB solutions (and NAREF?)
Automate search for discontinuities in all time series
Generate cumulative (coordinate & rate) solutions Using updated SINEX_COMBINE software Routine cumulative solutions (rather than as-needed)
Summary – Specific (Near) Future Plans
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Provincial geodetic agencies for providing access to their cGPS data;
GSD and provincial geodetic agencies for installation of highly stable CBN monumentation;
GSD field survey personnel for consistently providing highly accurate GPS survey campaigns;
François Lahaye (GSD) for support with PPP software(on behalf of the PPP development team);
Rémi Ferland (GSD) for SINEX combination software and support;
Andrea Darlington (GSC & UVic) for preliminary PPP analyses.
Acknowledgements
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Relative Sea-level (RSL) Projections Spatial variation in vertical land motion Direct downstream application for national PPP analyses
Episodic Tremor & Slip (ETS) Studies Looking for improved (e.g. sub-daily) temporal sampling Specialized, as-needed, and regional
Earthquake Rupture Monitoring Real-time kinematic positioning Discrimination of potential tsunamigenic events Focus of upcoming talk by Schmidt et al.
Applications – Successes, Challenges & Opportunities
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Regional RSL Studies: GPS Vertical Rates (PPP)
▪ Land subsidence in Nova Scotia, with transition to uplift at the mouth of St. Lawrence River
▪ Pattern is consistentwith paleo-sea-levelrecord, and withmodels of postglacial rebound (PGR)
from: James et al (2012), 2012 AGU Fall Meeting
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Regional RSL Studies: Tide Gauge Trends
[from: James et al (2012), 2012 AGU Fall Meeting]
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Regional RSL Studies: Eustatic Sea-level Change
Tide Gauge Trend minus GPS Trend
▪ Average observed sea-level change is 1.8 ± 0.7 mm/yr(tg analysis ends 2006)
▪ (Weighted average2.0 mm/yr)
▪ IPCC AR4 20th centuryglobal estimate is1.8 ± 0.5 mm/yr
Success: Comparison gives confidence in GPS uplift rates.
[from: James et al (2012), 2012 AGU Fall Meeting]
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Cascadia ETS Studies - Introduction
Image Courtesy of Herb Dragert (NRCan)
Deep Slip Event
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Cascadia ETS Studies – Signal from Strainmeter Site
▪ Borehole strainmeters (BSM) provide a continuous precise deformation signal. However the distribution of these instruments is more limited than GPS sites and they can be affected by large non-tectonic signals (e.g. drift & hydrological loading).
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Cascadia ETS Studies – Signal from GPS Site
Challenge: To better constrain the timing of ETS migration, can we achieve precise sub-daily positions through PPP?
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Earthquake Monitoring Studies
▪ For the Tōhoku earthquake (and aftershocks) NRCan’s carrier-phase correction service HPGPS•C is used to simulate real-time epoch-by-epoch positions.
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Earthquake Monitoring Studies – Offsets I
Elastic model deformation from a simplified Nootka Fault Zone strike-slip earthquake (Mw = 7.35)
ELIZΔE = -0.046m ΔN = -0.309mΔU = -0.020m
NTKAΔE = 0.281m ΔN = -0.025mΔU = 0.023m
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ELIZΔE = -2.342m ΔN = -2.599mΔU = -0.934m
NTKAΔE = -0.386m ΔN = -0.164mΔU = -0.108m
Elastic model deformation from a simplified Explorer Plate subduction earthquake (Mw = 8.15)
Earthquake Monitoring Studies – Offsets II