Print Email Facebook Twitter A methodology for least-squares local quasi-geoid modelling using a noisy satellite-only gravity field model Title A methodology for least-squares local quasi-geoid modelling using a noisy satellite-only gravity field model Author Klees, R. (TU Delft Physical and Space Geodesy) Slobbe, D.C. (TU Delft Physical and Space Geodesy) Farahani, H. (TU Delft Physical and Space Geodesy) Date 2018 Abstract The paper is about a methodology to combine a noisy satellite-only global gravity field model (GGM) with other noisy datasets to estimate a local quasi-geoid model using weighted least-squares techniques. In this way, we attempt to improve the quality of the estimated quasi-geoid model and to complement it with a full noise covariance matrix for quality control and further data processing. The methodology goes beyond the classical remove–compute–restore approach, which does not account for the noise in the satellite-only GGM. We suggest and analyse three different approaches of data combination. Two of them are based on a local single-scale spherical radial basis function (SRBF) model of the disturbing potential, and one is based on a two-scale SRBF model. Using numerical experiments, we show that a single-scale SRBF model does not fully exploit the information in the satellite-only GGM. We explain this by a lack of flexibility of a single-scale SRBF model to deal with datasets of significantly different bandwidths. The two-scale SRBF model performs well in this respect, provided that the model coefficients representing the two scales are estimated separately. The corresponding methodology is developed in this paper. Using the statistics of the least-squares residuals and the statistics of the errors in the estimated two-scale quasi-geoid model, we demonstrate that the developed methodology provides a two-scale quasi-geoid model, which exploits the information in all datasets. Subject Least-squares approximationLocal quasi-geoid modellingMulti-scale analysisNoisy global gravity field modelPoisson waveletsSpherical radial basis functions To reference this document use: http://resolver.tudelft.nl/uuid:6673b8fd-34ca-407c-ab99-e4ac958b3760 DOI https://doi.org/10.1007/s00190-017-1076-0 ISSN 0949-7714 Source Journal of Geodesy, 92 (4), 431–442 Part of collection Institutional Repository Document type journal article Rights © 2018 R. Klees, D.C. Slobbe, H. Farahani Files PDF 10.1007_s00190_017_1076_0.pdf 620.21 KB Close viewer /islandora/object/uuid:6673b8fd-34ca-407c-ab99-e4ac958b3760/datastream/OBJ/view