[1] Jaglan Hardeep, R. H. (2016). Fault and Fracture Detection in Unconventional Reservoirs: A Utica Shale Study. Unconventional Resources Technology (pp. 03-09). San Antonio, Texas: SPE, AAPG, SEG.
[2] Oppermann, R. (2012). Finding Sweet Spots through Seismic Fracture Extraction - Unconventional Case Studies from Around the World. SPE Asia Pacific Oil and Gas Conference and Exhibition (pp. 1-8). Perth, Australia: Society of Petroleum Engineers International.
[3] Verduzco, F. S. (2010). Unsteady and Pseudo-steady State Characterization of Matrix and Fracture System for Multiple Size Blocks with the use of empirical Correlations. Society of Petroleum Engineering International, 1-5.
[4] Ashraf, U., Zhang, H., Anees, A., Nasir Mangi, H., Ali, M., Ullah, Z., & Zhang, X. (2020). Application of unconventional seismic attributes and unsupervised machine learning for the identification of fault and fracture network. Applied Sciences, 10(11), 3864.
[5] Qayyum F, J. H. (2015). Unconventional seismic attributes for fracture characterization. (pp. 101-109). First Break.
[6] Paul de Groot, T. (2003). Post-stack dip- and azimuth processing. Journal of Seismic Exploration, 113-126.
[7] Tingdahl, K.M. de Groot, P.F. (2003) Post-stack dip-and azimuth processing. J. Seism. Explor, 12, 113–126.
[8] Chopra, S.; & Marfurt, K. J. (2013). Preconditioning seismic data with 5D interpolation for computing geometric attributes. The Leading Edge, 32(12), 1456-1460.
[9] Matrix andVerduzco, F. S. (2010). Unsteady and Pseudo-steady State Characterization Matrix and Fracture System for Multiple Size Blocks with the use of empirical Correlations. Society of Petroleum Engineering International, 1-5.
[10] Mandal, A.; Srivastava, E. (2018). Enhanced structural interpretation from 3D seismic data using hybrid attributes: New insights into fault visualization and displacement in Cretaceous formations of the Scotian Basin, offshore Nova Scotia, Mar. Pet. Geol, 89, 464–478.
[11] Roberts, A. (2001). Curvature attributes and their application to 3D interpreted horizons. (pp. 85-100). First Break.
[12] Hale, D. (2013). Methods to compute fault images, extract fault surfaces, and estimate fault throws from 3D seismic images, Geophysics.