论文信息 - Robust Hydraulic Fracture Monitoring (HFM) of multiple time overlapping events using a generalized discrete radon transform

Robust Hydraulic Fracture Monitoring (HFM) of multiple time overlapping events using a generalized discrete radon transform

In this work we propose a novel algorithm for multiple-event localization for Hydraulic Fracture Monitoring (HFM) through the exploitation of the sparsity of the observed seismic signal when represented in a basis consisting of space time propagators. We provide explicit construction of these propagators using a forward model for wave propagation which depends non-linearly on the problem parameters - the unknown source location and mechanism of fracture, time and extent of event, and the locations of the receivers. Under fairly general assumptions and an appropriate discretization of these parameters we first build an over-complete dictionary of generalized Radon propagators and assume that the data is well represented as a linear superposition of these propagators. Exploiting this structure we propose sparsity penalized algorithms and workflow for super-resolution extraction of time overlapping multiple seismic events from single well data.

Shuchin Aeron | Gregory Ely

[1] Peter M. Shearer,et al. Introduction to Seismology: Acknowledgment , 2009 .

[2] J. Tropp. Algorithms for simultaneous sparse approximation. Part II: Convex relaxation , 2006, Signal Process..

[3] L. Eisner,et al. Uncertainties in passive seismic monitoring , 2009 .

[4] W. Leaney,et al. A new moment‐tensor decomposition for seismic events in anisotropic media , 2012 .

[5] Gary Gibson,et al. An introduction to seismology , 1996, Inf. Manag. Comput. Secur..

[6] Qiuhua Liu,et al. Detecting small amplitude signal and transit times in high noise: Application to hydraulic fracture monitoring , 2009, 2009 IEEE International Geoscience and Remote Sensing Symposium.

[7] Mauricio D. Sacchi,et al. Simultaneous recovery of origin time, hypocentre location and seismic moment tensor using sparse representation theory , 2012 .

[8] Shuchin Aeron,et al. Joint multi-mode dispersion extraction in Fourier and space time domains , 2013, ArXiv.

[9] A. Majumdar,et al. Fast group sparse classification , 2009, Canadian Journal of Electrical and Computer Engineering.

[10] Venkatesh Saligrama,et al. Broadband Dispersion Extraction Using Simultaneous Sparse Penalization , 2011, IEEE Transactions on Signal Processing.