The dynamic nature of the ocean is important, particularly for northern Australia where the long-term scatter due to daily and sub-daily oceanic changes increases by 20–55 % compared to that estimated using the inverted barometer (IB) assumption.
Memin, A., Haigh, I., MacPherson, L., Tregoning, P., Watson, C. Non-linear motions of Australian geodetic stations induced by non-tidal ocean loading and the passage of tropical cyclones. Springer Berlin Heidelberg, 2014 с. 927 - 940,.
Memin, A., Haigh, I., MacPherson, L., Tregoning, P., Watson, C. Non-linear motions of Australian geodetic stations induced by non-tidal ocean loading and the passage of tropical cyclones. Springer Berlin Heidelberg, 2014 с. 927 - 940,.
Memin, A., Haigh, I., MacPherson, L., Tregoning, P., Watson, C. (2014) Non-linear motions of Australian geodetic stations induced by non-tidal ocean loading and the passage of tropical cyclones, Springer Berlin Heidelberg с. 927 - 940,.
Memin, A., Haigh, I., MacPherson, L., Tregoning, P., & Watson, C. (2014). Non-linear motions of Australian geodetic stations induced by non-tidal ocean loading and the passage of tropical cyclones. Springer Berlin Heidelberg, с. 927 - 940.
Memin A, Haigh I, MacPherson L, Tregoning P, Watson C. Non-linear motions of Australian geodetic stations induced by non-tidal ocean loading and the passage of tropical cyclones. Springer Berlin Heidelberg; 2014. p. с. 927 - 940.
