Abstract
We present a novel methodology for exploring 4D seismic data in the context of monitoring subsurface resources. Data‐space exploration is a key activity in scientific research, but it has long been overlooked in favor of model‐space investigations. Our methodology performs a data‐space exploration that aims to define structures in the covariance matrix of the observational errors. It is based on Bayesian inferences, where the posterior probability distribution is reconstructed through trans‐dimensional (trans‐D) Markov chain Monte Carlo sampling. The trans‐D approach applied to data‐structures (termed ”partitions”) of the covariance matrix allows the number of partitions to freely vary in a fixed range during the McMC sampling. Due to the trans‐D approach, our methodology retrieves data‐structures that are fully data‐driven and not imposed by the user. We applied our methodology to 4D seismic data, generally used to extract information about the variations in the subsurface. In our study, we make use of real data that we collected in the laboratory, which allows us to simulate different acquisition geometries and different reservoir conditions. Our approach is able to define and discriminate different sources of noise in 4D seismic data, enabling a data‐driven evaluation of the quality (so‐called “repeatability”) of the 4D seismic survey. We find that: (a) trans‐D sampling can be effective in defining data‐driven data‐space structures; (b) our methodology can be used to discriminate between different families of data‐structures created from different noise sources. Coupling our methodology to standard model‐space investigations, we can validate physical hypothesis on the monitored geo‐resources.
Highlights
In their investigations of the Earth system, geo-scientists have to deal with two complementary spaces: data space and model space
The trans-D approach applied to data-structures of the covariance matrix allows the number of partitions to freely vary in a fixed range during the Markov chain Monte Carlo (McMC) sampling
While there is a vast literature about methodologies for investigating the model space (e.g., Sambridge & Mosegaard, 2002), few attempts have been made at a systematic exploration of the data space
Summary
In their investigations of the Earth system, geo-scientists have to deal with two complementary spaces: data space and model space. Exploration of the data space is an ordinary activity for geo-scientists, and includes, for example, data preparation, quality controls (QCs) for data selection and estimation of data errors. Some of those activities, for example the data selection, could have a strong impact on the data space, modifying, for example, the data structure. For example the data selection, could have a strong impact on the data space, modifying, for example, the data structure Such activities rely on the expert-opinion of the geoscientists and are carried out ahead of the main geophysical investigations that are related to the model space
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
