@article{fdi:010091502,
  title = {3{D} structural modeling approach by discretization of a basic structural map associated with magnetic data},
  author = {{N}dam {N}jikam, {M}.{M}. and {M}eying, {A}. and {R}ibodetti, {A}lessandra and {Z}anga {A}mougou, {A}. and {E}bengue {A}tega, {P}.{L}. and {B}utt, {N}.{A}. and {T}{\'e}thys-{A}uthie, {C}.{C}. and {D}jomague, {C}. and {S}ongo, {M}.{A}.{M}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}his study proposes a 3{D} structural modeling approach based on the discretization of a 2{D} structural model associated with magnetic data. {T}he approach proposed in this study requires first to identify the parameters involved in the modeling (geographical position, direction, dip direction and dip angle) and then to transform the whole 2{D} model into fault segments. {T}he first discretization will allow determining the position, the direction and the dip direction of each fault segment. {T}his discretization phase was done by coupling the {E}xcel program to existing {GIS} software. {T}he last discretization will allow evaluating the variation of inclinations along the fault segment. {I}t required the elaboration of a depth model from the magnetic data grid. {I}t is this model that provided all the necessary data for this last discretization, which was automated thanks to the {D}ip{A}ngle code developed for this study. {A}ll these discretizations have provided to the used modeler and all the databases necessary for the realization of the various models. {T}he application of this methodology to the {C}entral {D}omain of the {M}bere {D}ivision has made it possible to develop different models that can be used as basic documents in exploration projects.},
  keywords = {{CAMEROUN}},
  booktitle = {},
  journal = {{G}eosystem {E}ngineering},
  volume = {27},
  numero = {6},
  pages = {279--292},
  ISSN = {1226-9328},
  year = {2024},
  DOI = {10.1080/12269328.2024.2377315},
  URL = {https://www.documentation.ird.fr/hor/fdi:010091502},
}