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A method is described for stochastic modeling of seismic velocity and anisotropic parameters, including receiving 3D bounds of normal moveout velocity (Vnmo) and anisotropic parameter η; modeling 3D bounds for vertical velocity V and anisotropic parameter δ based on the 3D bounds of Vnmo and η; generating 3D model realizations of V, η, and δ within the 3D bounds; and testing detectability of each of the 3D model realizations to create a detectable subset of model realizations wherein the detectability identifies which 3D model realizations will produce images with flat migrated gathers. The method may be executed by a computer system.

Titel:	SYSTEM AND METHOD FOR SEISMIC VELOCITY AND ANISOTROPIC PARAMETER MODELING
Link:	Zum Volltext
Veröffentlichung:	2023
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Applications Sprachen: English Document Number: 20230288588 Publication Date: September 14, 2023 Appl. No: 17/654632 Application Filed: March 14, 2022 Claim: 1. A computer-implemented method of stochastic modeling of seismic velocity and anisotropic parameters, comprising: a. receiving 3D bounds of normal moveout velocity (Vnmo) and anisotropic parameter η; b. modeling 3D bounds for vertical velocity V and anisotropic parameter δ based on the 3D bounds of Vnmo and η; c. generating 3D model realizations of V, η, and δ within the 3D bounds; and d. testing detectability of each of the 3D model realizations to create a detectable subset of model realizations. Claim: 2. The method of claim 1 further comprising converting the detectable subset of model realizations into depth domain. Claim: 3. The method of claim 1 wherein the modeling 3D bounds for V and δ is done using random numbers generated from a predefined distribution using an empirical relationship or a random relationship between δ-η bounds. Claim: 4. The method of claim 1 wherein the generating 3D model realizations using the 3D bounds of V, η, and δ is done by sampling within the 3D bounds using random numbers generated from a predefined distribution, generating constant fluctuations with a random number generator using an empirical relation for δ-η bounds or generating constant fluctuations with a random number generator using a random relation for δ-η bounds. Claim: 5. The method of claim 1 wherein the detectability identifies which 3D model realizations will produce images with flat migrated gathers. Claim: 6. A computer system, comprising: one or more processors; memory; and one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs including instructions that when executed by the one or more processors cause the system to: a. receive 3D bounds of normal moveout velocity (Vnmo) and anisotropic parameter η; b. model 3D bounds for vertical velocity V and anisotropic parameter δ based on the 3D bounds of Vnmo and η; c. generate 3D model realizations of V, η, and δ within the 3D bounds; and d. test detectability of each of the 3D model realizations to create a detectable subset of model realizations. Claim: 7. The system of claim 6 further comprising converting the detectable subset of model realizations into depth domain. Claim: 8. The system of claim 6 wherein the modeling 3D bounds for V and δ is done using random numbers generated from a predefined distribution using an empirical relationship or a random relationship between δ-η bounds. Claim: 9. The method of claim 6 wherein the generating 3D model realizations using the 3D bounds of V, η, and δ is done by sampling within the 3D bounds using random numbers generated from a predefined distribution, generating constant fluctuations with a random number generator using an empirical relation for δ-η bounds or generating constant fluctuations with a random number generator using a random relation for δ-η bounds. Claim: 10. The method of claim 6 wherein the detectability identifies which 3D model realizations will produce images with flat migrated gathers. Claim: 11. A non-transitory computer readable storage medium storing one or more programs, the one or more programs comprising instructions, which when executed by an electronic device with one or more processors and memory, cause the device to a. receive 3D bounds of normal moveout velocity (Vnmo) and anisotropic parameter η; b. model 3D bounds for vertical velocity V and anisotropic parameter δ based on the 3D bounds of Vnmo and η; c. generate 3D model realizations of V, η, and δ within the 3D bounds; and d. test detectability of each of the 3D model realizations to create a detectable subset of model realizations. Claim: 12. The device of claim 11 further comprising converting the detectable subset of model realizations into depth domain. Claim: 13. The device of claim 11 wherein the modeling 3D bounds for V and δ is done using random numbers generated from a predefined distribution using an empirical relationship or a random relationship between δ-η bounds. Claim: 14. The device of claim 11 wherein the generating 3D model realizations using the 3D bounds of V, η, and δ is done by sampling within the 3D bounds using random numbers generated from a predefined distribution, generating constant fluctuations with a random number generator using an empirical relation for δ-η bounds or generating constant fluctuations with a random number generator using a random relation for δ-η bounds. Claim: 15. The device of claim 11 wherein the detectability identifies which 3D model realizations will produce images with flat migrated gathers. Current International Class: 01; 06

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SYSTEM AND METHOD FOR SEISMIC VELOCITY AND ANISOTROPIC PARAMETER MODELING