Correcting time lapse seismic data for overburden and recording effects

What is claimed is: 1. A method of time lapse seismic surveying performed above a subsurface reservoir to monitor changes in reservoir fluids over time with correction of survey results for variations in geologic overburden above the reservoir and for variations in seismic recording systems of the time lapse seismic surveys, by forming corrected amplitude seismic traces for the survey results, with overburden and recording system variations over time corrected in the time lapse seismic surveys, the method comprising the steps of: obtaining a succession of time lapse seismic surveys over a period of time from an area of interest regarding the subsurface reservoir beneath the overburden; the time lapse seismic surveys comprising a plurality of seismic traces obtained in the seismic surveys, each seismic trace containing a plurality of time samples obtained during the surveys; performing computer implemented processing of the time lapse seismic survey traces to correct for the overburden and recording system variations, the computer implemented processing comprising the steps of: forming the corrected amplitude seismic trace for the area of interest by performing the steps of: selecting a time sample containing a target reservoir event from a trace of interest of the plurality of seismic traces; selecting a time sample containing overburden response from the trace of interest; applying a Fourier transform to the selected time sample containing the target reservoir event to form a reservoir spectrum representing target reservoir amplitude as a function of frequency for the trace of interest; applying a Fourier transform to the selected time sample containing the overburden response to form an overburden response spectrum representing overburden response amplitude as a function of frequency for the trace of interest; forming a ratio of the target reservoir amplitude to the overburden response spectrum as a function of frequency for the trace of interest; selecting a range of frequencies in the selected time sample for the trace of interest; forming a measure of the corrected target reservoir amplitude for the trace of interest by obtaining an average of the ratio of the target reservoir amplitude to the overburden response spectrum over the selected range of frequencies for the trace of interest; repeating the foregoing steps for each of the plurality of seismic traces as a trace of interest; and storing as a database of corrected reservoir amplitudes in the computer the measures of the corrected target reservoir amplitude for each of the traces of interest; forming a measure of uncorrected average amplitude of seismic energy of a time sample containing a target reservoir event in a trace in a selected one of the time lapse surveys; recalling from the database of corrected reservoir amplitudes a corrected target reservoir amplitude of seismic energy in the selected one of the time lapse surveys; forming a correction scalar measure indicating the ratio of the corrected reservoir amplitude recalled from the database to the uncorrected average amplitude of the time sample containing the target reservoir event in the trace of the selected one of the time lapse surveys; applying the formed correction scalar measure to each of the time samples of the trace of the selected one of the time lapse surveys to form a corrected amplitude seismic trace; and storing the corrected amplitude seismic trace in the computer memory; and forming an output display of the corrected amplitude seismic traces for the area of interest in the time lapse seismic surveys to monitor changes in reservoir fluids over time with correction for variations in geologic overburden above the reservoir and for variations in seismic recording systems. 2. A method of time lapse seismic surveying performed above a subsurface reservoir to monitor changes in reservoir fluids over time with correction of survey results for variations in geologic overburden above the reservoir and for variations in seismic recording systems of the time lapse seismic surveys, by forming corrected amplitude seismic traces for the survey results, with overburden and recording system variations over time corrected in the time lapse seismic surveys, the method comprising the steps of: obtaining a succession of time lapse seismic surveys over a period of time from an area of interest regarding the subsurface reservoir beneath the overburden; the time lapse seismic surveys comprising a plurality of seismic traces obtained in the seismic surveys, each seismic trace containing a plurality of time samples obtained during the surveys; performing computer implemented processing of the time lapse seismic survey traces to correct for the overburden and recording system variations, the computer implemented processing comprising the steps of: forming the corrected amplitude seismic traces for the area of interest by performing the steps of: applying a time frequency transform to a selected trace of interest; forming a trace having a selected range of frequencies of the selected trace of interest; forming a measure of the average amplitude at a time of a target reservoir event in the formed trace having the selected range of frequencies; forming a measure of the average amplitude at a time of overburden in the formed trace having the selected range of frequencies; forming a measure of the corrected target reservoir amplitude for the selected trace of interest by forming a ratio of the average amplitude at the time of the target reservoir event to the average amplitude at the time of overburden in the trace; repeating the foregoing steps for each of the plurality of seismic traces as a trace of interest; and storing the measures of corrected target reservoir amplitudes as a database of corrected reservoir amplitudes in the memory of the computer; forming a measure of uncorrected average amplitude of seismic energy of a time sample containing a target reservoir event in a trace of a selected one of the time lapse surveys; recalling from the database of corrected reservoir amplitudes a corrected target reservoir amplitude of seismic energy in the selected one of the time lapse surveys; forming a correction scalar measure indicating the ratio of the corrected reservoir amplitude recalled from the database to the uncorrected average amplitude of the time sample containing the target reservoir event in the trace of the selected one of the time lapse surveys; applying the formed correction scalar measure to each of the time samples of the trace of the selected one of the time lapse surveys to form a corrected amplitude seismic trace; and storing the corrected amplitude seismic trace in the computer memory; and forming an output display of the corrected amplitude seismic traces for the area of interest in the time lapse seismic surveys to monitor changes in reservoir fluids over time with correction for variations in geologic overburden above the reservoir and for variations in seismic recording system. 3. A method of time lapse seismic surveying performed above a subsurface reservoir to monitor changes in reservoir fluids over time with correction of survey results for variations in geologic overburden above the reservoir, by forming corrected amplitude seismic traces for the survey results, with overburden variations over time corrected in the time lapse seismic surveys, the method comprising the steps of: obtaining a succession of time lapse seismic surveys over a period of time from an area of interest regarding the subsurface reservoir beneath the overburden; the time lapse seismic surveys comprising a plurality of seismic traces obtained in the seismic surveys, each seismic trace containing a plurality of time samples obtained during the surveys; performing computer implemented processing of the time lap