Geophysical inversion using sparse modeling

What is claimed is: 1. A method of modeling a geophysical system, comprising: defining a geophysical model of an area of the earth; defining a domain for the geophysical model including a physical domain and a parameter domain, wherein the parameter domain comprises frequency, offset, and source position and receiver position; defining a sparse domain for the geophysical model, wherein the sparse domain has a sparse parameter domain that is a subset of the parameter domain, wherein a density of points in the sparse parameter domain declines with a distance between the source position and the receiver position; determining a geophysical basis of the geophysical system; computing a sparse model result based on the sparse domain and the geophysical basis; and resolving a model result from the sparse model result by interpolation. 2. The method of claim 1 , further comprising determining a reconstruction error of the model result by computing a comparison model result based on the domain, and comparing the model result to the comparison model result. 3. The method of claim 2 , further comprising changing the sparse domain based on the reconstruction error. 4. The method of claim 3 , wherein changing the sparse domain comprises changing one or more of a density, uniformity, and periodicity of the sparse domain. 5. The method of claim 1 , further comprising obtaining a perturbation response of the geophysical system and defining a model error by comparing the model result to the perturbation response. 6. The method of claim 5 , further comprising changing one or more of a density, uniformity, and periodicity of the sparse domain based on the model error. 7. The method of claim 6 , wherein the geophysical basis includes electrical resistivity. 8. The method of claim 1 , wherein the domain has a first dimensionality, the interpolation has a second dimensionality, and the first dimensionality is equal to the second dimensionality. 9. The method of claim 1 , further comprising performing a geophysical inversion process using the model result to form a data set representing physical properties of the area of the earth; and using the data set to predict the location of resource deposits in the area of the earth. 10. A method of determining physical properties of an area of the earth, comprising: obtaining a geophysical survey of an area of the earth; defining a geophysical model of the area of the earth; defining a domain of the geophysical model including a physical domain and a parameter domain, wherein the parameter domain comprises frequency, offset, and source position and receiver position; defining a sparse domain including the physical domain and a sparse parameter domain that is a subset of the parameter domain, wherein a density of points in the sparse parameter domain declines with a distance between the source position and the receiver position; defining a geophysical basis for the area of the earth; computing a sparse model result based on the sparse domain using the geophysical model; resolving a model result from the sparse model result by interpolation; defining a model error by comparing the model result to the geophysical survey; and changing the geophysical basis based on the model error. 11. The method of claim 10 , further comprising: determining a reconstruction error of the geophysical model by resolving a comparison model result of the area of the earth based on the domain, and comparing the model result to the comparison model result; and changing the sparse domain based on the reconstruction error. 12. The method of claim 11 , wherein changing the sparse domain comprises changing one of a density, a uniformity, and a periodicity of the sparse domain. 13. The method of claim 12 , further comprising: defining a convergence criterion based on the model error; and repeating the computing the sparse model result, resolving the model result, and defining the model error until the convergence criterion reaches a threshold. 14. The method of claim 13 , wherein determining the reconstruction error is performed each time the model result is completed. 15. The method of claim 13 , further comprising resolving an indication of hydrocarbon deposits from the geophysical basis after the convergence criterion reaches the threshold. 16. The method of claim 10 , wherein the geophysical basis includes electrical resistivity. 17. A method of modeling a geophysical system, comprising: defining a geophysical model of an area of the earth; defining a domain for the geophysical model including a physical domain and a parameter domain, wherein the parameter domain comprises frequency, offset, and source position and receiver position; defining a sparse domain for the geophysical model, wherein the sparse domain has a sparse parameter domain that is a subset of the parameter domain, wherein a density of points in the sparse parameter domain varies with water depth as a function of the source position and the receiver position; determining a geophysical basis of the geophysical system; computing a sparse model result based on the sparse domain and the geophysical basis; and resolving a model result from the sparse model result by interpolation. 18. A method of determining physical properties of an area of the earth, comprising: obtaining a geophysical survey of an area of the earth; defining a geophysical model of the area of the earth; defining a domain of the geophysical model including a physical domain and a parameter domain, wherein the parameter domain comprises frequency, offset, and source position and receiver position; defining a sparse domain including the physical domain and a sparse parameter domain that is a subset of the parameter domain, wherein a density of points in the sparse parameter domain varies with water depth as a function of the source position and the receiver position; defining a geophysical basis for the area of the earth; computing a sparse model result based on the sparse domain using the geophysical model; resolving a model result from the sparse model result by interpolation; defining a model error by comparing the model result to the geophysical survey; and changing the geophysical basis based on the model error.