Abstract
SUMMARY Traditionally, reservoir elastic parameters inversion suffers from the overburden multiple scattering and transmission imprint in the local input data used for the target-oriented inversion. In this paper, we present a full-wavefield approach, called reservoir-oriented joint migration inversion (JMI-res), to estimate the high-resolution reservoir elastic parameters from surface seismic data. As a first step in JMI-res, we reconstruct the fully redatumed data (local impulse responses) at a suitable depth above the reservoir from the surface seismic data, while correctly accounting for the overburden interal multiples and transmission losses. Next, we apply a localized elastic full waveform inversion on the estimated impulse responses to get the elastic parameters. We show that JMI-res thus provides much more reliable local target impulse responses, thus yielding high-resolution elastic parameters, compared to a standard redatuming procedure based on time reversal of data. Moreover, by using this kind of approach we avoid the need to apply a full elastic full waveform inversion-type process for the whole subsurface, as within JMI-res elastic full waveform inversion is only restricted to the reservoir target domain.
Highlights
One of the final goals in exploration seismics, apart from delineating the prospective reservoir structures, is the characterization of reservoir properties (Chopra & Marfurt 2007; Doyen 2007) in terms of reservoir elastic parameters
We present a full-wavefield approach, called reservoir-oriented joint migration inversion (JMI-res), to estimate the high-resolution reservoir elastic parameters from surface seismic data
We present the reservoir-oriented joint migration inversion (JMI-res) that first generates the fully redatumed virtual source– receiver data at the reservoir level, free of overburden multiple scattering imprint, using JMI (Berkhout 2014c; Staal 2015; Verschuur et al 2016) and applies a target-oriented local inversion process to estimate the reservoir elastic parameters
Summary
One of the final goals in exploration seismics, apart from delineating the prospective reservoir structures, is the characterization of reservoir properties (Chopra & Marfurt 2007; Doyen 2007) in terms of reservoir elastic parameters. The local input data for either the Zoeppritz-based or target-oriented full waveform inversion approach should be accurate in order to get the reliable elastic parameters First of all, they should have preserved elastic reflection characteristics, which is essential to get the correct elastic properties. In the case of a strongly scattering overburden, the events related to multiple (internal) reflection energy from the overburden obscure and overlay the local input data creating both spurious events and affecting the amplitude characteristics. This in turn affects the local inversion (AVA/AVO inversion or target-oriented FWI) and resolution of estimated reservoir elastic parameters
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