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Height Modernization Coordination Meeting

USGS Publication For Vertical Control. Inter-agency Datum Establishment And Conversion Collaboration In Missouri. Height Modernization Coordination Meeting. Paul H. Rydlund Jr. PLS U.S. Geological Survey Missouri Water Science Center. USGS GNSS T&M – Why?. “RTK can only be used

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Height Modernization Coordination Meeting

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  1. USGS Publication For • Vertical Control • Inter-agency Datum Establishment And Conversion Collaboration • In Missouri Height Modernization Coordination Meeting Paul H. Rydlund Jr. PLS U.S. Geological Survey Missouri Water Science Center

  2. USGS GNSS T&M – Why? “RTK can only be used when setting up directly over a benchmark “ • Technique and Approach Guidance For USGS • Accuracy and Precision • Metadata • Example Campaigns and Decision Trees • Future Direction • Consistent and Referable “Real-Time Network surveys pretty much guarantee vertical accuracies within 2 cm and you never need a base station “ “All post processing GPS surveys must ensure 6 hours of data collection at a minimum“ Global Navigation Satellite System The Black Box “With the new Trimble R8 systems, we are getting vertical accuracies within 7 mm as stated in the data collector “

  3. USGS GNSS T&M - Introduction • Historic USGS Datum Establishment • Evolution • GPS Modernization • GNSS GLONASS, Galileo, Compass • Geodesy Background

  4. GNSS T&M - Equipment

  5. GNSS T&M - Equipment

  6. Troposphere USGS GNSS T&M - Mission Planning • PDOP • Multipath • Ionosphere & Troposphere • Satellite Availability (Notice Advisory To Navstar Users) • Space Weather (Space Weather Prediction Center) • Resolution and Accuracy of Local Geoid LOOKOUT FOR THESE Ionosphere > 10 km < 10 km

  7. GNSS T&M – Real Time (RT) Surveys • Single Base RT • Network Base RT

  8. GNSS T&M – Real Time (RT) Surveys • Quality Assurances Blunder Check Multipath and General Height Reinitialization Blunder Check - Let’s sum it up! Collectively, the GNSS user observes 180 epochs or 3 minutes of data, walks away from the objective point a minimum of 100 feet, inverts the rover receiver (or adjusts the elevation mask) to lose initialization, changes the rover rod height at least 0.80 feet and corrects the rover height entered in the data collector appropriately, walks a different approach path back to the objective point, then positions the rover receiver in an upright position over the objective point for the second observation. Both observations are averaged to produce the final result. This process is hereinafter referred to as a RT blunder check and should be recorded in the field notes to document that these redundant assurances are met.

  9. GNSS T&M – Real Time (RT) Surveys • Localizations / Realizations

  10. USGS GNSS T&M – Post Processed • Single Base – OPUS • Traditional Static • Rapid Static The USGS GNSS T&M Manual recommends and encourages use of this online utility The experts in geodesy.

  11. USGS GNSS T&M – Post Processed • Network Surveys • Quality Assurances Modified from NOS NGS 59 Tech Memo

  12. USGS GNSS T&M – Quality Categorization • Level I – Static Network Survey • Control • 40 Km spacing; 4 hour; 2nd order or better • Objective • 15 Km spacing; 1 hour; 50% double occupied • Additional benchmark checks other than primary control • Level I – Static Single Base Survey (OPUS-S) • Occupation • 2 Days, 4 hours, different times • Quality Indicators

  13. USGS GNSS T&M – Quality Categorization • Level II – Static Network Survey • Control Points • 60 Km spacing; 4 hour; 2nd order or better • Objective Points • 25 km spacing; 1 hour; 50% double occupied • Additional benchmark checks other than primary control • Level II – Static Single Base Survey (OPUS-S) • Occupation 1 day – 4 hours • Quality Indicators • Level II – RT Surveys • Localization – 2nd order or better • Satellites; PDOP; baseline length • Blunder check redundancy within 0.03 m • Objective points 10% double occupied (within 0.05m)

  14. USGS GNSS T&M – Quality Categorization • Level III – Static Single Base Survey (OPUS-S) • Quality Indicators • Level III – Static Single Base Survey (OPUS-RS) • Quality Indicators • Level III – RT Surveys • Localization – 3rd order or better • Satellites; PDOP; baseline length • Blunder check redundancy within 0.04 m • Objective points 10% double occupied; within 0.05m

  15. USGS GNSS T&M – Quality Categorization • Level IV • Generally reserved for RT topographic surveys without checks • Can be composed of static surveys without quality indicators or checks

  16. USGS GNSS T&M – Quality “How Do We Get There?”

  17. USGS GNSS T&M – Metadata (documentation of the geodetic trail) • Benchmark Establishment Recovery

  18. USGS GNSS T&M – Metadata (documentation of the geodetic trail) • Observation • Database storage • lat-long and altitude • metadata

  19. USGS GNSS T&M – Example Data Set (Groundwater Well Field)

  20. USGS GNSS T&M – Example Data Set (Flood Study)

  21. USGS GNSS T&M – Example Data Set (Streamgage Datum)

  22. USGS GNSS T&M – Future Direction of GNSS • Modernization programs – L5 signal • GRAV-D • Precise Point Positioning (PPP)

  23. Plug for USGS – GPS Committee http://water.usgs.gov/usgs/osw/gps/

  24. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS

  25. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS Syllabus

  26. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS

  27. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS OPUS Projects

  28. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS

  29. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS

  30. Office of Employee Development (OED) ID1747 Application and Practice of Survey-Grade GNSS Real-Time and Static Surveys in the USGS

  31. Levee Breach PROJECT APPLICATION – Storm Surge Sensors The New Madrid Floodway

  32. PROJECT APPLICATION – Storm Surge Sensors What’s up with Sandy…

  33. Legacy Datum - Mississippi River Datum and Some Tributaries • Memphis Datum • Mean Gulf Datum • Fourth General Adjustment of 1912 Historic datum is considered legacy

  34. Legacy Datum – Middle Mississippi River Datum – St. Louis Gaging Station Historic datum is considered legacy

  35. NAVD 88 Datum Conversion : Simple Height Conversion or Survey – “The USGS Missouri Model” 1. Evaluation of Source Datum 2. Cooperative Interest 3. Hydraulics and Stability 4. Accuracy assured with USACE ‘CEPD’ and NWS modeling interests Source Datum genesis and condition Cooperative Interest Cooperative Interest Accuracy Gage location hydraulics or channel instability

  36. Inter-Agency Collaboration in Missouri Missouri River Datum Discrepancy Example

  37. Benefits of Inter-Agency Collaboration • Enhance Resources • Reduce Expense • Quality Assurance • Agency Consensus • Public Approval

  38. Continuing Inter-Agency Collaboration in Missouri • Datum Surveys – Moving Forward • USGS and USACE duplicative surveys at important gaging locations • Main stem Missouri and Mississippi River gages • Water resource operation project gages • Limited duplication at tributary gages • USGS / USACE surveys • Sharing of metadata and results • Overcome cost prohibitive gaging locations • Augmenting staff for local/regional GNSS campaigns • USGS Gaging Installation • Installation of an observable benchmark Datum Dissemination

  39. Continuing Inter-Agency Collaboration in Missouri Survey assistance…. MODOT MVL USACE NWK MVS SWL MVM MDNR

  40. Continuing Inter-Agency Collaboration in Missouri – FY 13 USGS Missouri Water Science Center Observations per T&M (Level I) USACE – SWL USGS - MOWSC USGS - ARWSC

  41. Continuing Inter-Agency Collaboration in Missouri – FY 13

  42. Inter-Agency Collaboration Datum Surveys – Assistance and Collaboration http://www.ngs.noaa.gov/ADVISORS/AdvisorsIndex.shtml

  43. Inter-Agency Collaboration Datum Surveys – Assistance and Collaboration Mark.W.Huber@usace.army.mil

  44. Questions?

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