Systems and methods for optimal stacking of seismic data

What is claimed is: 1. A method for seismic exploration above a region of the subsurface containing structural or stratigraphic features conducive to the presence, migration, or accumulation of hydrocarbons, the method comprising: accessing a seismic survey containing seismic traces acquired proximate to the region of the subsurface; forming a set of a plurality of volumes of the seismic traces prior to any stacking of the plurality of volumes, each volume of the set of the plurality of volumes of the seismic traces imaging at least approximately a same subregion of the subsurface region; calculating a similarity matrix from the set of the plurality of volumes of the seismic traces; selecting, based on the similarity matrix, a subset of correlated volumes of the set of the plurality of volumes, wherein the subset of correlated volumes comprises volumes of the set of the plurality of volumes determined to be similar to one another; combining the subset of correlated volumes of the plurality of volumes into a single volume, or multiple realizations thereof, of seismic image volumes or traces; and outputting the single volume, or multiple realizations thereof, of image volumes or seismic traces for use with the seismic exploration above the region of the subsurface containing structural or stratigraphic features conducive to the presence, migration, or accumulation of hydrocarbons. 2. The method of claim 1 , wherein combining the subset of correlated volumes of the set of the plurality of volumes comprises stacking the subset of correlated volumes of the set of the plurality of volumes into the single volume, or multiple realizations thereof, of image volumes or seismic traces. 3. The method of claim 1 , wherein selecting, based on the similarity matrix, the subset of correlated volumes, comprises: using the similarity matrix in connection with a greedy search algorithm to determine the volumes of the set of the plurality of volumes similar to one another. 4. The method of claim 1 , wherein selecting, based on the similarity matrix, the subset of correlated volumes of the set of the plurality of image volumes, comprises: searching for a largest element in the similarity matrix, s ij , where s ij , is a non-diagonal element in the similarity matrix in row “i” and column “j”, searching the similarity matrix for a next largest element in either s i . or s. j , where “s i .” represents row “i” of the similarity matrix and “s. j ” represents column “j” of the similarity matrix, if the next largest element itself, or its ratio with the previously selected element, is greater than or equal to a threshold value, selecting a volume represented by the next largest element and setting s ij , and s ji , of the similarity matrix equal to zero, if the next largest element itself, or its ratio with the previously selected element, is less than the threshold value, ending the search, and, performing the searching until the next largest element is less than said threshold value. 5. A system for seismic exploration above a region of the subsurface containing a structural or stratigraphic features conducive to the presence, migration, or accumulation of hydrocarbons, the system comprising: a memory storing instructions; and a processor coupled to the memory and configured to execute the instructions to perform a method comprising: accessing a seismic survey containing seismic traces acquired proximate to the region of the subsurface; forming a set of a plurality of volumes of the seismic traces prior to any stacking of the plurality of volumes, each volume of the set of the plurality of volumes of the seismic traces imaging at least approximately a same subregion of the subsurface region; calculating a similarity matrix from the set of the plurality of volumes of the seismic traces; selecting, based on the similarity matrix, a subset of correlated volumes of the set of the plurality of volumes, wherein the subset of correlated volumes comprises volumes of the set of the plurality of volumes determined to be similar to one another; combining the subset of correlated volumes of the plurality of volumes into a single volume, or multiple realizations thereof, of seismic image volumes or traces; and outputting the single volume, or multiple realizations thereof, of image volumes or seismic traces for use with the seismic exploration above the region of the subsurface containing structural or stratigraphic features conducive to the presence, migration, or accumulation of hydrocarbons. 6. The system of claim 5 , wherein combining the subset of correlated volumes of the set of the plurality of volumes comprises stacking the subset of correlated volumes of the set of the plurality of volumes into the single volume, or multiple realizations thereof, of image volumes or seismic traces. 7. The system claim 5 , wherein selecting, based on the similarity matrix, the subset of correlated volumes, comprises: using the similarity matrix in connection with a greedy search algorithm to determine the volumes of the set of the plurality of volumes similar to one another. 8. The system of claim 5 , wherein selecting, based on the similarity matrix, the subset of correlated volumes of the set of the plurality of image volumes, comprises: searching for a largest element in the similarity matrix, s ij , where s ij , is a non-diagonal element in the similarity matrix in row “i” and column “j”, searching the similarity matrix for a next largest element in either s i . or s. j , where “s i .” represents row “i” of the similarity matrix and “s. j ” represents column “j” of the similarity matrix, if the next largest element itself, or its ratio with the previously selected element, is greater than or equal to a threshold value, selecting a volume represented by the next largest element and setting s ij , and s ji , of the similarity matrix equal to zero, if the next largest element itself, or its ratio with the previously selected element, is less than the threshold value, ending the search, and, performing the searching until the next largest element is less than said threshold value. 9. A computer readable storage medium comprising instructions for causing one or more processors to perform a method for seismic exploration above a region of the subsurface containing structural or stratigraphic features conducive to the presence, migration, or accumulation of hydrocarbons, the method comprising: accessing a seismic survey containing seismic traces acquired proximate to the region of the subsurface; forming a set of a plurality of volumes of the seismic traces prior to any stacking of the plurality of volumes, each volume of the set of the plurality of volumes of the seismic traces imaging at least approximately a same subregion of the subsurface region; calculating a similarity matrix from the set of the plurality of volumes of the seismic traces; selecting, based on the similarity matrix, a subset of correlated volumes of the set of the plurality of volumes, wherein the subset of correlated volumes comprises volumes of the set of the plurality of volumes determined to be similar to one another; combining the subset of correlated volumes of the plurality of volumes into a single volume, or multiple realizations thereof, of seismic image volumes or traces; and outputting the single volume, or multiple realizations thereof, of image volumes or seismic traces for use with the seismic exploration above the region of the subsurface containing structural or stratigraphic features conducive to the presence, migration, or accumulation of hydrocarbons. 10. The computer readable storage medium of claim 9 , wherein combining the subset o