`bin_altitude`(**kwargs) Calculates the height of a radar bin taking the refractivity of the atmosphere into account. `bin_distance`(**kwargs) Calculates great circle distance from radar site to radar bin over spherical earth, taking the refractivity of the atmosphere into account. `correct_parallax`(drt, **kwargs) Adjust the geo-locations of the SR pixels `dist_from_orbit`(bw_sr, freq, re) Returns range distances of SR bins (in meters) as seen from the orbit `georeference`(**kwargs) Georeference Dataset/DataArray. `get_earth_radius`(*[, sr]) Get the radius of the Earth (in km) for a given Spheroid model (sr) at a given position. `reproject`(**kwargs) Transform coordinates from current projection to a target projection. `site_distance`(**kwargs) Calculates great circle distance from bin at certain altitude to the radar site over spherical earth, taking the refractivity of the atmosphere into account. `spherical_to_centroids`(**kwargs) Generate 3-D centroids of the radar bins from the sperical coordinates (r, phi, theta). `spherical_to_polyvert`(**kwargs) Generate 3-D polygon vertices directly from spherical coordinates (r, phi, theta). `spherical_to_proj`(**kwargs) Transforms spherical coordinates (r, phi, theta) to projected coordinates centered at site in given projection. `spherical_to_xyz`(**kwargs) Transforms spherical coordinates (r, phi, theta) to cartesian coordinates (x, y, z) centered at site (aeqd). `xyz_to_spherical`(**kwargs) Returns spherical representation (r, theta, phi) of given cartesian coordinates (x, y, z) with respect to the reference altitude (asl) considering earth's geometry (crs).