(13) substituted in (12) results in
(14) t=(BD,,)".(c-B_x°)
#
21)
(14), substituted in (12) results in:
15) AX X^, BD...) (C-BAX
AX s (E-D, (BD,.) 'B.AX. « D,,(BD,) C
A 217721 UE 21972) &
Equation 15 presents the generalized S-transformation formula limited by the
constraints under (13).
In geodesy and photogrammetry it is common practice to consider differential
similarity transformations and therefore C can be set to zero, hence the
differential S-transformation is:
b -1
(16) AX? - (E-D4,(BD,,) B).AX
- (S).AX
where
S : S-transformation matrix.
In case the similarity transformation is not a differential one a three dimensional
Helmert transformation can be applied in a stage of preprocessing.
Note that the obtained least squares solution of (16) depends on the chosen
constraints-matrix B.
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