− | Cross sections can be more highly constrained using statistical curvature analysis techniques (SCAT) on dipmeter data (Bengtson, 1982)<ref name=Bengtson_1982>Bengtson, C. A., 1982, Structural and stratigraphic uses of dip profiles, in M. T Halbouty, ed., Deliberate Search for the Subtle Trap: AAPG Memoir 32, p. 31-45.</ref> (Figure 1) (see [[Dipmeters]]). This method allows determination of the positions in a wellbore of important axial, crestal, and fault surfaces and their strike and dip (Figure 2). Hence, structures can be projected in section away from wellbores and used to sketch the structure in profile. | + | Cross sections can be more highly constrained using statistical curvature analysis techniques (SCAT) on [[dipmeter]] data<ref name=Bengtson_1982>Bengtson, C. A., 1982, Structural and stratigraphic uses of dip profiles, in M. T Halbouty, ed., Deliberate Search for the Subtle Trap: AAPG Memoir 32, p. 31-45.</ref> (:Image:Statistics-overview_fig1.png|Figure 1). This method allows determination of the positions in a wellbore of important axial, crestal, and fault surfaces and their strike and dip (:Image:Statistics-overview_fig2.png|Figure 2). Hence, structures can be projected in section away from wellbores and used to sketch the structure in profile. |