System and method for determining GNSS positioning corrections

We claim: 1 . A system comprising: a cloud computing server configured to: receive satellite observations associated with a set of satellites from a plurality of reference stations; generate a nonlocal atmospheric delay using the satellite observations associated with the set of satellites; localize the nonlocal atmospheric delay into a plurality of atmospheric delay tiles, wherein each atmospheric delay tile of the plurality of atmospheric delay tiles is associated with a distinct geographic region, wherein localizing the nonlocal atmospheric delay into the plurality of atmospheric delay tiles comprises fitting the nonlocal atmospheric delay to plurality of polynomial functions, wherein a polynomial function of the plurality of polynomial functions is valid within a distinct geographic region of the plurality of distinct geographic regions; transmit the atmospheric delay tiles to a GNSS receiver. 2 . The system of claim 1 , wherein the nonlocal atmospheric delay is determined using a Gaussian process to analyze the satellite observations. 3 . The system of claim 1 , wherein atmospheric delay tiles associated with neighboring atmospheric delay tiles are smoothed together to reduce discontinuities between neighboring atmospheric delay tiles. 4 . The system of claim 1 , wherein the distinct geographic regions associated with neighboring atmospheric delay tiles are overlapping. 5 . The system of claim 4 , wherein the neighboring atmospheric delay tiles overlap by at least 1° latitude or 1° longitude. 6 . The system of claim 1 , wherein each atmospheric delay tile is associated with an approximately 5° latitude by 5° longitude geographic region. 7 . The system of claim 1 , wherein transmitting the atmospheric tile regions to a GNSS receiver comprises transmitting only atmospheric delay tiles associated with geographic regions proximal a locality of the GNSS receiver. 8 . The system of claim 1 , wherein the cloud computing server is further configured: to determine a residual correction from the residuals of the polynomial fit to the nonlocal atmospheric delay at a plurality of discrete points; and transmit the residual correction to the GNSS receiver. 9 . The system of claim 8 , wherein the discrete points are separated from neighboring discrete points by about 1° latitude or about 1° longitude. 10 . The system of claim 8 , wherein the residual correction comprises an interpolated residual determined by interpolating residuals associated with a plurality of discrete points that are proximal the locality of the GNSS receiver. 11 . A method comprising: a) receiving, from a set of reference stations, satellite observations associated with a set of satellites; b) generating a non-localized atmospheric delay model from the satellite observations using an atmospheric model, wherein the non-localized atmospheric delay model is determined by modelling the satellite observations as a function of at least one of a pierce point or a pierce angle for satellite rays for each satellite of the set of satellites to the set of reference stations; c) separating the non-localized atmospheric delay model into a plurality of atmospheric delay tiles by fitting the non-localized atmospheric delay model to a plurality of fitting functions, wherein each fitting function of the plurality of fitting functions is associated with a distinct geographic region; d) transmitting the plurality of atmospheric delay tiles to a GNSS receiver; wherein the GNSS receiver uses an atmospheric delay tile of the plurality of atmospheric delay tiles to determine a positioning solution of the GNSS receiver. 12 . The method of claim 11 , wherein the GNSS receiver uses the atmospheric delay tile of the plurality of atmospheric delay tiles most proximal to a locality of the GNSS receiver to determine the positioning solution. 13 . The method of claim 12 , wherein each atmospheric delay tile of the plurality of atmospheric delay tiles comprises a transmission geographical region that is smaller than the distinct geographic region associated with the respective atmospheric delay tile. 14 . The method of claim 13 , wherein transmission geographical regions for neighboring atmospheric delay tiles do not overlap. 15 . The method of claim 11 , wherein neighboring atmospheric delay tiles of the plurality of atmospheric delay tiles are smoothed to reduce discontinuities between the neighboring atmospheric delay tiles. 16 . The method of claim 11 , wherein each fitting function of the plurality of fitting functions is a polynomial of at most second order. 17 . The method of claim 11 , further comprising determining a plurality of residual corrections, each residual correction located at a distinct grid point, from residual differences between the fitting function and the non-localized atmospheric delay model at each distinct grid point; and transmitting a residual correction associated with the plurality of residual corrections to the GNSS receiver. 18 . The method of claim 17 , wherein transmitting the residual correction associated with the plurality of residual corrections to the GNSS receiver comprises interpolating between residual corrections of the plurality of residual corrections based on a distance between the associated distinct grid points and a locality of the GNSS receiver to determine an interpolated residual correction, wherein the interpolated residual correction is the residual correction associated with the plurality of residual corrections.