Automated interpretation error correction

The invention claimed is: 1. A method for automated fixing of errors in a first interpretation of seismic data representing a subsurface region, comprising: obtaining a second, independent interpretation of said seismic data or of another set of seismic data representing said same subsurface region; searching the first interpretation for an error in a subsurface feature, wherein the error is a result of a computer implemented automated interpretation process that generated the first interpretation; and fixing the error based on the second interpretation, wherein the error is cycle skip, a hole, or a gap found in the subsurface feature, and wherein the fixing includes, identifying a candidate horizon in the second interpretation, creating a mask of the candidate horizon, predicting time or depth of a missing event by interpolating or extrapolating the candidate horizon to the extent of the mask, and comparing the mask to the interpolated or the extrapolated candidate horizon to identify a location of the cycle skip, hole, or gap; wherein searching the first interpretation for an error and fixing the error are performed by a programmed computer after inputting of the first and second interpretations. 2. The method of claim 1 , wherein said subsurface feature is one or more of a group consisting of surfaces, horizons, faults, polylines, fault sticks, and geo-bodies. 3. The method of claim 1 , wherein the subsurface feature is a horizon and the error is one of a cycle skip, a hole and a gap, caused by improper assignment to another horizon or by a data quality issue. 4. The method of claim 1 , wherein the searching of the first interpretation is performed one horizon at a time, looking for one or more holes. 5. The method of claim 4 , wherein a hole found in a horizon is filled by a patch removed from the second interpretation at the same spatial location as the hole. 6. The method of claim 5 , wherein the fixing of the error based on the second interpretation comprises searching the second interpretation for a horizon at the same depth as the horizon with the hole in the first interpretation. 7. The method of claim 1 , further comprising obtaining at least a third interpretation of seismic data representing the subsurface region, and using the third interpretation as an additional basis for fixing errors in the first interpretation. 8. The method of claim 1 , wherein the fixing of the error based on the second interpretation comprises reassigning all or a portion of one subsurface feature in the second interpretation to the subsurface feature with the error. 9. The method of claim 1 , wherein the first and second interpretations are obtained by identifying a plurality of surfaces in a volume of the seismic data, and then assigning each of the surfaces to at least one of the first interpretation and the second interpretation. 10. The method of claim 9 , wherein the assignments are based on size of the surfaces. 11. A method for automated fixing of errors in one or more interpretations of seismic data representing a common subsurface region, comprising: obtaining the one or more interpretations of seismic data representing the common subsurface region, which are created by a computer implemented automated interpretation process, wherein the automated interpretation process creates two adjacent surfaces with an error in which the adjacent surfaces overlap or have a gap between them; selecting, with a programmed computer, a first surface; filling, with a programmed computer, internal holes in the first surface and creating a filled surface; creating, with a programmed computer, a binary mask of the filled surface; applying, with a programmed computer, an edge detector to the binary mask; extracting, with a programmed computer, time or depth of an edge from the first surface and creating an outline of the edge from the first surface; searching the one or more interpretations of the seismic data representing the common subsurface region for the two adjacent surfaces, one being the first surface, which have edges that are similarly shaped where the surfaces are adjacent, similarity being judged by a preselected tolerance criterion; and merging the two adjacent surfaces where the edges are similarly shaped, wherein the merging is based on the outline of the edge from the first surface; wherein the searching the one or more interpretations and the merging the two adjacent surfaces are performed by a programmed computer after inputting of the one or more interpretations by a user. 12. The method of claim 1 , further comprising: generating and displaying an image of the subsurface region with the two adjacent surfaces having been merged. 13. The method of claim 11 , further comprising: generating and displaying an image of the subsurface region with the error having been fixed.