Integration of Future Geoid Models Dan Roman and Yan M. Wang NOAA/NGS Silver Spring, MD USA December 3-4, 2008
Overview Introduction History of geoid modeling at NGS Tentative date of publication of GEOID09 Plan and specification of future of geoid models Interaction between the users community and NGS
What is a geoid An equilpotential surface which coincides with an idealized mean sea level (mean sea surface minus permanent ocean dynamic topography) The reference ellipsoid (e.g. GRS80, or WGS84) is an approximation of the geoid The geoid height is the vertical distance between geoid and reference ellipsoid
Why we need it Conversion surface between NAVD88 (orthometric) and GPS (ellipsoidal) heights Defines next national vertical datum Computation of deflections of the vertical Surface Gravity Interpolation Mean ocean dynamic topography? Time varying geoid (gravity)?
Why we need geoid (cont.) Why not GPS (ellipsoidal) height? - historic convention: height above sea level: HAULOVER PIER, N. MIAMI BEACH h= mH(NAVD88)= m NEWPORT, NARRAGANSETT BAY h= mH(NAVD88)= m ……
Why we need geoid (cont.) Water flows usually from high to low orthometric height, not necessarily from high to low ellipsoidal height Useful to identify inundation area, plans for storm surge, environmental change monitoring
Geoid used in GPS campaign Simple relationship: H=h-N h – GPS (ellipsoidal) height H – orthometric (e.g. NAVD88) height N – geoid (e.g. GEOID03) height This formula is accurate to a fraction of mm
Geoid modeling History at NGS 1.Milbert, D. G., 1991b: GEOID90: A high-resolution geoid for the United States. Eos, 72(49), pp Smith, D.A. and D.G. Milbert, 1999: The GEOID96 high resolution geoid height model for the United States, Journal of Geodesy, V. 73, N. 5, pp The GEOID96 high resolution geoid height model for the United States 3.Roman, D.R. and D.A. Smith, 2000, Recent investigations toward achieving a one centimeter geoid, presented at GGG2000 session 9 of the IAG Symposium in Banff, Alberta, Canada from July 31 - August 4, 2000.Recent investigations toward achieving a one centimeter geoid 4.Roman, D. R., Y. M. Wang, W. Henning, J. Hamilton, Assessment of the New National Geoid Height Model—GEOID03, Surveying and Land Information Science, Vol. 64, No. 3, 2004, pp
Geoid computation theories Stokes theory – Using gravity measurements, requiring global coverage – For precise geoid, the Earth’s topography and its density need to be known
Geoid computation theories (cont.) Molodensky theory –Using gravity measurements, no need for knowledge of the density of topography –It does not provide geoid, rather a similar but non-equilpotential surface – the telluroid. –The distance between telluroid and the Earth’s surface is called the height anomaly
Height anomaly and geoid height Under the first order approximation –Conclusion: no matter which theory is used, the topography and its density are needed to be known for precise geoid computations
Few words about NAVD88 NAVD88 is the official vertical datum of the United States -It is based on leveling and gravity, very accurate locally -No satellite data used -Tied to Rimouski (zero point)
Geoid Height Differences NAVD88-GGEM02S
Discussions The southeast to northwest trend The most significant difference occurs in the Pacific Northwest region 98cm bias between NAVD88 and GGM02S geoid surface Father Point/Rimouski (zero point of NAVD88) has a bias of 80 cm above the global geoid of GGM02S
Geoid in NGS 10 Yrs Plan A gravimetric geoid will serve as the next National Vertical Datum -High accuracy of the geoid (2 cm) and high resolution (<= 1 arc minute) -Fixing the southeast to northwest tilt in the NAVD88 -Combing satellite data (models) and surface data (gravity, GPS/leveling, …) -Deciding and adopting a new W0 value for the US and establishing relationship with a global vertical datum
How to reach cm accurate geoid Theory and computation methods development -Develop and refine theories to the highest accuracy -Study the effect of the data spacing and data accuracy on geoid; provide guideline for data collection -Test and evaluate numerical computation methods to increase computation accuracy and speed up the computation
How to reach cm accurate geoid (Cont.) Data collection and processing -Collect surface gravity data with accurate positioning, absolute or relative -Airborne gravity – GRAV-D, data processing and filtering, downward continuation -Compiling and cleansing digital elevation models to the highest resolution -Acquire mass density of the topography -Re-compile and compute the potential number differences from NGS leveling database
National and International cooperation NGS visiting scientist program IAG working group “North American Geoid” chaired by D. Roman IAG study group “Towards cm-Accurate Geoid - Theories, Computational Methods and Validation” chaired by Y. Wang NOAA internship Cooperation between US, Canada, Mexico, Virgin islands
National and International cooperation (cont.) Data issues: Obtain DEM data from any available sources Collection of mass density data Data exchange between US government agencies Data exchange between US, Canada, Mexico, Virgin island counties Support and cooperate with State on Height Modernization Program (data collection and modeling)
GEOID09 GEOID09 will become available around ACSM09 Data format and access method are the same as the GEOID03 Interpolation program intg can be downloaded at NGS web site Expect dm changes at some BMs
Future Geoid modeling plan One geoid model per year for internal and external evaluation and testing -Models will be published at NGS web site -Data format, grid size and coverage areas will be kept the same, except specially announced -Suggest (plan) a user discussion group hosted by NGS -Create and publish FAQ for geoid & related issues (simplify GEOID page?)
Summary Next national vertical datum will be a model based on satellite and surface data Beta version of the models will be published at NGS web site Expect a big change along the road Welcome any feedback from the user community
Point of contact By phone: Dr. Dan Roman: x 161 Dr. Yan-Ming Wang x127 By Dr. Dan Roman: Dr. Yan Ming Wang