Specifies the composite spatial object to which this one belongs. Each earth_position_face may identified by one earth_position_composite. Inherited from earth_position_simple.
Defines the geometry set which partially identifies this geometrical interpretation. This will typically point to the "2D line". Each earth_position_face may identified by one seismic_geometry_set. Inherited from earth_position_simple.
The geologic feature being represented by this position in the earth subsurface. Each earth_position_face may represent one geologic_feature. Inherited from position_in_earth_model.
Defines the binset which is implied by the grid used in the geometry specification. The grid of the binset is defined using "bin line index" and/or "bin point index" values. The binset has properties which locate the grid in 2D space. Each earth_position_face may use grid from one binset. Inherited from position_in_earth_model.
Defines the set of rings which form the boundary of the face. For example, a polygon can be bounded by one ring while a face with a hole in it can be bounded by two rings. Each earth_position_face may be bounded by one or more ring. Inherited from face.
Indicates the data collections that include this instance of E and P data. Each earth_position_face may be a member of one or more data_collection. Inherited from e_and_p_data.
Indicates that an object is being used as a basis for comparison with another object. Each earth_position_face may datum for ranking one or more object_ranking. Inherited from object_of_interest.
Indicates various earth models which include this spatial representation. Each earth_position_face may be part of one or more earth_model. Inherited from spatial_object.
Reference to the fault orientation as viewed from the perspective of the fixed and moving fault blocks. Each earth_position_face may have a side of one or more fault_plane_orientation.
Indicates a geologic process which is positioned by this location. Each earth_position_face may locate one or more geologic_process. Inherited from position_in_earth_model.
Specifies one or more graphical elements which are depicting this data item. Each earth_position_face may be depicted by one or more graphical_element. Inherited from e_and_p_data.
Indicates a space/time operation for which the object is involved as an intersecting agent. For projection, this is the screen on which an object is being projected. For proximity, this is the magnet object. Each earth_position_face may be the intersecting object for one or more space_time_operation. Inherited from topological_object.
Indicates that an object is being classified in a rank order based on its characteristics. Each earth_position_face may object of ranking one or more object_ranking. Inherited from object_of_interest.
Defines the set of composite spatial objects of which this spatial object is a component. Each earth_position_face may be a component of one or more other_composite_spatial_object. Inherited from spatial_object.
Defines the set of classifications of this position with respect to its degree of uncertainty. Each earth_position_face may be classified by one or more position_uncertainty_classification. Inherited from earth_model_object.
Indicates a space/time operation for which the object is involved as a primary agent. For degeneration, this object is being degenerated. For projection, this object is being projected onto another object. For proximity, this is the container object. Each earth_position_face may be the primary object for one or more space_time_operation. Inherited from topological_object.
Indicates a topological relationship in which the topologic object has the role of primary agent. For an object intersection type of "inside" this is the containing role (e.g., if a city is inside a county then the county would be the primary agent). For all other object intersection types the roles are symmetrical and both relationships must be searched for a particular object. For example, if a wellbore and a formation overlap then either could be chosen as the primary agent with the other chosen as the secondary agent. Each earth_position_face may be primarily involved in one or more topological_relationship. Inherited from topological_object.
This points to the rock feature part that this earth model object is representing spatially. Each earth_position_face may be located by one rock_feature_part. Inherited from earth_model_object.
Indicates a topological relationship in which the object is in the role of secondary agent. For an object intersection type of "inside" this is the contained role (e.g., if a well is inside a field then the well would be the secondary agent). For all other object intersection types the roles are symmetrical and both relationships must be searched for a particular object. For example, if a wellbore and a formation overlap then either could be chosen as the secondary agent with the other chosen as the primary agent. Each earth_position_face may be involved in one or more topological_relationship. Inherited from topological_object.
Indicates the space/time operation from which a topological object was the result. For addition, this is the union of two objects. For degeneration, this is the degenerate object. Each earth_position_face may be the result of one space_time_operation. Inherited from topological_object.
Indicates a synthetic log trace which is positioned in the earth at this location. Each earth_position_face may locate one synthetic_log_trace. Inherited from position_in_earth_model.
Indicates various spatial composite locations which utilize this position as a component. Each earth_position_face may part of one or more earth_position_composite. Inherited from position_in_earth_model.