Difference between revisions of "Procesamiento sísmico"
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==Yilmaz (2001)== | ==Yilmaz (2001)== | ||
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This is needed for land data collected on non-flat areas. It reduces the travel times into a common datum level. The datum could be the sea level or any other local datum. | This is needed for land data collected on non-flat areas. It reduces the travel times into a common datum level. The datum could be the sea level or any other local datum. | ||
| + | |- | ||
| + | | 2 | ||
| + | | Déconvolution et normalisation des traces | ||
| + | | Deconvolution and trace balancing | ||
| + | |||
| + | Deconvolution makes the signal look better by increasing the temporal resolution and removing echoes. Trace balancing makes the amplitude uniform. | ||
| + | |- | ||
| + | | 3 | ||
| + | | Triage par CMP | ||
| + | | CMP sorting | ||
| + | |||
| + | Sorts the data into CMP gathers, so it can be corrected for the NMO and stacked after that (see step 7). | ||
| + | |- | ||
| + | | 4 | ||
| + | | Analyse de vitesse | ||
| + | | Velocity analysis | ||
| + | |||
| + | Gives info about velocities in the subsurface layers. It finds the stacking velocity (very close in value to the RMS velocity) that best fits our data (This step may be delayed after step 5). | ||
| + | |- | ||
| + | | 5 | ||
| + | | Corrections statiques résiduelles | ||
| + | | Residual statics corrections | ||
| + | |||
| + | Counts for near-surface velocity variations that causes some static and dynamic distortion problems. | ||
| + | |- | ||
| + | | 6 | ||
| + | | Analyse de vitesse | ||
| + | | Velocity analysis | ||
| + | |||
| + | (see step 4). If we have residual statics problems, we do velocity analysis after we count for them. | ||
| + | |- | ||
| + | | 7 | ||
| + | | Correction NMO | ||
| + | | NMO Correction | ||
| + | |||
| + | Counts for the increase in travel time with increasing offset distance. This increase makes flat reflectors look dipping, and makes dipping reflectors look even more dipping. The amount of correction needed decreases with depth, so that shallower reflectors get more “stretched” than do the deeper ones. | ||
| + | Muting: It is just a fancy word for deleting a part of a trace. Muting a whole trace is called “killing”. | ||
| + | |- | ||
| + | | | ||
| + | | Correction DMO | ||
| + | | | ||
| + | |- | ||
| + | | | ||
| + | |Correction NMO inverse | ||
| + | | | ||
| + | |- | ||
| + | | | ||
| + | |Analyse de vitesse | ||
| + | | | ||
| + | |- | ||
| + | | | ||
| + | | Correction NMO | ||
| + | | | ||
| + | |- | ||
| + | | 8 | ||
| + | | Sommation | ||
| + | | Stacking | ||
| + | |||
| + | After sorting the data into CMP gathers and applying the NMO correction, reflectors line up nicely and hence their stacking gives a stronger signal. Multiples\ random noises do not line up. Stacking increases S/N ratio by decreasing multiples\ random noise from the data which enhances the overall quality. It also reduces the seismic data volume to the plane of the seismic section | ||
|} | |} | ||
Revision as of 23:16, 21 February 2016
Convetional Seismic data processing
Yilmaz (2001)
| 1 Pre-processing | Démultiplexage | Demultiplexing: Orders seismic data by seismic trace instead of being ordered by time. Multiplexed recording is still found in older data or in current data shots with old recording instruments. |
| Reformatage | Reformatting (SEG-Y/SEG-D)
Puts the data in a format that is understandable by computers (e.g. SEG-Y format, SEG-D format, etc.). | |
| Édition | Seismic data edition
Searchin for noisy, monofrequency and incorrect polarities traces. examines seismic data for bad, noisy, and\or monofrequency traces, and deletes them, and also spots any traces with incorrect polarities and corrects them. | |
| Correction de la dispersion géométrique | Geometrical spreading correction
It is also called amplitude correction. Because the signal becomes weaker as it moves away from its source (i.e. its amplitude decreases with time), amplitude correction is needed to count for this lose, and to make amplitudes stronger. | |
| Géométrie de terrain | Set-up of field geometry – Geometry QC
Incorporates field geometry with seismic data processing. Coordinates, shot\ receiver locations and spacing must be entered to the system carefully and precisely because processes like CMP sorting, for example, highly depend on this. | |
| Corrections statiques | Application of field statics corrections
This is needed for land data collected on non-flat areas. It reduces the travel times into a common datum level. The datum could be the sea level or any other local datum. | |
| 2 | Déconvolution et normalisation des traces | Deconvolution and trace balancing
Deconvolution makes the signal look better by increasing the temporal resolution and removing echoes. Trace balancing makes the amplitude uniform. |
| 3 | Triage par CMP | CMP sorting
Sorts the data into CMP gathers, so it can be corrected for the NMO and stacked after that (see step 7). |
| 4 | Analyse de vitesse | Velocity analysis
Gives info about velocities in the subsurface layers. It finds the stacking velocity (very close in value to the RMS velocity) that best fits our data (This step may be delayed after step 5). |
| 5 | Corrections statiques résiduelles | Residual statics corrections
Counts for near-surface velocity variations that causes some static and dynamic distortion problems. |
| 6 | Analyse de vitesse | Velocity analysis
(see step 4). If we have residual statics problems, we do velocity analysis after we count for them. |
| 7 | Correction NMO | NMO Correction
Counts for the increase in travel time with increasing offset distance. This increase makes flat reflectors look dipping, and makes dipping reflectors look even more dipping. The amount of correction needed decreases with depth, so that shallower reflectors get more “stretched” than do the deeper ones. Muting: It is just a fancy word for deleting a part of a trace. Muting a whole trace is called “killing”. |
| Correction DMO | ||
| Correction NMO inverse | ||
| Analyse de vitesse | ||
| Correction NMO | ||
| 8 | Sommation | Stacking
After sorting the data into CMP gathers and applying the NMO correction, reflectors line up nicely and hence their stacking gives a stronger signal. Multiples\ random noises do not line up. Stacking increases S/N ratio by decreasing multiples\ random noise from the data which enhances the overall quality. It also reduces the seismic data volume to the plane of the seismic section |
