Processing of geological data

The invention claimed is: 1. A method for controlling a drilling procedure to drill a well, the method including the steps of: carrying out a seismic survey which comprises imparting energy to the earth from at least one source location and receiving energy at a plurality of surface receiver locations at differing distances and azimuths from the source location; processing data from the seismic survey to determine properties of geological surfaces in a geological volume, wherein the geological surfaces include horizons and/or faults, and to identify a target reservoir; specifying a well trajectory for the well extending through the geological volume; after specifying the well trajectory, identifying the geological surfaces within the volume intersected by the well trajectory; for each intersected horizon or fault determined from the seismic survey performed at the surface receiver locations, determining the depth, the dip angle, and the dip direction of the horizon or fault at the point of intersection with the well trajectory; converting the depths, dip angles, and dip directions of the intersected horizons and/or faults processed from the seismic survey data obtained from the surface receiver locations and the well trajectory into a predicted well log for the well trajectory; after the well log is generated, drilling the well by controlling drilling equipment to follow the well trajectory through the horizons and/or faults intersecting the well trajectory; providing the predicted well log in a graphically displayed tadpole plot to a controller to control the drilling procedure while drilling the well; making measurements while drilling during the drilling procedure to identify boundaries of the horizons and/or faults; and reanalyzing the data from the seismic survey to update an identification of the target reservoir in the geological volume based on the identified boundaries from the while drilling measurements. 2. The method according to claim 1 , further comprising: correlating the predicted well log with the measurements while drilling; and using the correlation of the predicted well log with the measurements while drilling to control the drilling procedure. 3. A computer system for performing the method of claim 1 . 4. A computer program product carrying a program for performing the method of claim 1 . 5. A computer program for performing the method of claim 1 . 6. The method according to claim 1 , further comprising using the while drilling measurements to update the predicted well log. 7. The method according to claim 1 , wherein controlling the drilling procedure comprises adjusting a drilling parameter of the drilling procedure. 8. The method according to claim 1 , wherein the well trajectory passes through the target reservoir. 9. The method according to claim 1 , wherein the geologic surfaces comprise a salt dome and the updating step includes updating a location of the target reservoir based on identified boundaries of the salt dome from the while drilling measurements. 10. The method according to claim 1 , wherein determining the depth, the dip angle, and the dip direction includes using the properties of the geological surfaces determined from the seismic surface at the plurality of surface receiver locations to: construct a tangent plane at a point of intersection between the fault or horizon and the well trajectory; identify the dip angle below a horizontal and the tangent plane; and determine dip direction as a direction of maximum dip of the tangent plane projected onto the horizontal. 11. A method for controlling a drilling procedure to drill a well to a target reservoir in a geological volume, the method including the steps of: carrying out a seismic survey which comprises imparting energy to the earth from at least one source location and receiving energy at a plurality of surface receiver locations at differing distances and azimuths from the source location; processing data from the seismic survey to determine properties of geological surfaces in the geological volume, wherein the geological surfaces include horizons and/or faults; specifying a proposed well trajectory for the well extending through the geological volume to the target reservoir; after specifying the well trajectory, identifying the horizons and/or faults within the volume intersected by the proposed well trajectory; for each intersected horizon or fault determined from the seismic survey performed at the surface receiver locations, determining the depth, the dip angle, and the dip direction of the horizon and/or fault at the point of intersection with the proposed well trajectory; converting the depths, dip angles, and dip directions of the intersected horizons and/or faults processed from the seismic survey data obtained from the surface receiver locations and the proposed well trajectory into a predicted well log for the proposed well trajectory; obtaining an experimental well log for a well having the well trajectory specified in the predicted well log and correlating the predicted well log with results from the experimental well log to select a drilling well trajectory; interpreting the well log to identify any need for adjustment of the proposed well trajectory to a revised well trajectory for the well extending through the geological volume to the target reservoir to control the drilling procedure; after the well log is generated, drilling the well by controlling drilling equipment to follow the revised well trajectory through the horizons and/or faults intersecting the revised well trajectory; making measurements while drilling during the drilling procedure to identify boundaries of the horizons and/or faults; and reanalyzing the data from the seismic survey to update an identification of the target reservoir in the geological volume based on the identified boundaries from the while drilling measurements. 12. The method according to claim 11 , further comprising: using measurements from the drilling procedure to identify further drilling hazards; and adjusting the revised well trajectory based on the further drilling hazards.