Traditional geodetic network optimization deals with static and discrete control points. The modern space geodetic network is, on the other hand, composed of moving control points in space (satellites) and on the Earth (ground stations). The network configuration composed of these facilities is essentially dynamic and continuous. Moreover, besides the position parameter which needs to be estimated, other geophysical information or signals can also be extracted from the continuous observations. The dynamic (continuous) configuration of the space network determines whether a particular frequency of signals can be identified by this system. In this paper, we employ the functional analysis and graph theory to study the dynamic configuration of space geodetic networks, and mainly focus on the optimal estimation of the position and clock-offset parameters.
Xue, S., Yang, Y., Dang, Y., Chen, W. Dynamic positioning configuration and its first-order optimization,
Springer Berlin Heidelberg, 2014, с. 127-143.
Xue, S., Yang, Y., Dang, Y., Chen, W. .
Dynamic positioning configuration and its first-order optimization.
: Springer Berlin Heidelberg, 2014, с. 127-143.
Xue, S., Yang, Y., Dang, Y., Chen, W. (2014)
Dynamic positioning configuration and its first-order optimization,
: Springer Berlin Heidelberg, с. 127-143
Xue, S.,
Yang, Y.,
Dang, Y., &
Chen, W.
(2014).
Dynamic positioning configuration and its first-order optimization. Journal of Geodesy. Springer Berlin Heidelberg 88 (2), с. 127-143.
