A model for a four-dimensional integrated regional geodetic network

Abstract

Abstract F our-dimensional geo desy deals with in tegrated pro cessing of geo detic observ ations in order to analyse the net w ork geometry and its v ariation with time, when these observ ations dep end on the gra vit y eld of the earth and its temp oral v ariation. This consideration in tro duces the time dimension in to the three-dimensional in tegrated mo del. The shap e of the earth and consequen tly its gra vit y eld up on whic h geo detic observ ables dep end c hanges con tin uously with time due to dynamic pro cesses taking place within the earth and also due to third body attractions, for example the mo on and the sun. This consideration leads to the requiremen t of four-dimensional mo dels in precise geo detic net w orks. In this study , the mo del of three-dimensional in tegrated geo desy is extended to the four-dimensional geo desy b y considering the temp oral v ariation of the net w ork p oin ts b oth in space and time. A general deriv ation of the observ ation equation for four-dimensional geo desy w as carried out. In this deriv ation, the time dep enden t geo detic observ ations are treated as functions of p osition of p oin ts in v olv ed in eac h observ ation and the gra vit y p oten tial functionals ev aluated at those p oin ts. In the rst step the p osition of a p oin t at an y desired epoc h (time) is decomp osed in to a pro visional p osition at the initial ep o c h, a co ordinate correc- tion at this initial ep o c h and a time v arying displacemen t. In the second step the p oten tial functional is decomp osed in to a kno wn non-temp oral normal p oten tial and a time v arying disturbing p oten tial. The disturbing p oten tial is further decomp osed in to t w o parts: a part at the initial epoc h and another part that v aries with time. The gra vit y p oten tial functionals are in general considered as non-linear and w ere therefore linearised b y ap- plying the T a ylor series appro ximation to functionals. In the last step the results of b oth the rst and the second steps w ere com bined and the resulting equation w