Several techniques have been proposed to exploit GNSS-derived kinematic orbit information for the determination of long-wavelength gravity field features. These methods include the (i) celestial mechanics approach, (ii) short-arc approach, (iii) point-wise acceleration approach, (iv) averaged acceleration approach, and (v) energy balance approach.
Baur, О., Bock, H., Hock, E., Jaggi, A., Krauss, S., Mayer-Gurr, T., Reubelt, T., Siemes, C., Zehentner, Z. Comparison of GOCE-GPS gravity fields derived by different approaches. Springer Berlin Heidelberg, 2014 с. 959 - 973,.
Baur, О., Bock, H., Hock, E., Jaggi, A., Krauss, S., Mayer-Gurr, T., Reubelt, T., Siemes, C., Zehentner, Z. Comparison of GOCE-GPS gravity fields derived by different approaches. Springer Berlin Heidelberg, 2014 с. 959 - 973,.
Baur, О., Bock, H., Hock, E., Jaggi, A., Krauss, S., Mayer-Gurr, T., Reubelt, T., Siemes, C., Zehentner, Z. (2014) Comparison of GOCE-GPS gravity fields derived by different approaches, Springer Berlin Heidelberg с. 959 - 973,.
Baur, О., Bock, H., Hock, E., Jaggi, A., Krauss, S., Mayer-Gurr, T., Reubelt, T., Siemes, C., & Zehentner, Z. (2014). Comparison of GOCE-GPS gravity fields derived by different approaches. Springer Berlin Heidelberg, с. 959 - 973.
Baur О, Bock H, Hock E, Jaggi A, Krauss S, Mayer-Gurr T, et al. Comparison of GOCE-GPS gravity fields derived by different approaches. Springer Berlin Heidelberg; 2014. p. с. 959 - 973.
