| Cross sections can be more highly constrained using statistical curvature analysis techniques (SCAT) on [[dipmeter]] data<ref name=Bengtson_1982>Bengtson, C. A., 1982, [http://archives.datapages.com/data/specpubs/basinar2/data/a130/a130/0001/0000/0031.htm Structural and stratigraphic uses of dip profiles], in M. T Halbouty, ed., Deliberate Search for the Subtle Trap: [http://store.aapg.org/detail.aspx?id=375 AAPG Memoir 32], p. 31-45.</ref> ([[:Image:Evaluating-structurally-complex-reservoirs_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:Evaluating-structurally-complex-reservoirs_fig2.png|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, [http://archives.datapages.com/data/specpubs/basinar2/data/a130/a130/0001/0000/0031.htm Structural and stratigraphic uses of dip profiles], in M. T Halbouty, ed., Deliberate Search for the Subtle Trap: [http://store.aapg.org/detail.aspx?id=375 AAPG Memoir 32], p. 31-45.</ref> ([[:Image:Evaluating-structurally-complex-reservoirs_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:Evaluating-structurally-complex-reservoirs_fig2.png|Figure 2]]). Hence, structures can be projected in section away from wellbores and used to sketch the structure in profile. |