Shallow and deep machine learning models Chapter  8 241


                regression. In: SPE Kingdom of Saudi Arabia annual technical symposium and exhibition,
                Dammam, Saudi Arabia, June 1, 2017. SPE: Society of Petroleum Engineers; 2017.
              [8] Barone A, Sen MK. An improved classification method that combines feature selection with
                nonlinear Bayesian classification and regression: a case study on pore-fluid prediction.
                In: 2017 SEG international exposition and annual meeting, Houston, TX, October 23, 2017.
                SEG: Society of Exploration Geophysicists; 2017.
              [9] Onwuchekwa C. Application of machine learning ideas to reservoir fluid properties estimation.
                In: SPE Nigeria annual international conference and exhibition, Lagos, Nigeria, August 6,
                2018. SPE: Society of Petroleum Engineers; 2018.
             [10] LeCun Y, Bengio Y, Hinton G. Deep learning. Nature 2015;521(7553):436–44.
             [11] Korjani M, Popa A, Grijalva E, Cassidy S, Ershaghi IA. New approach to reservoir
                characterization using deep learning neural networks. In: SPE Western regional meeting,
                Anchorage, AK, May 23, 2016. SPE: Society of Petroleum Engineers; 2016.
             [12] Korjani MM, Popa AS, Grijalva E, Cassidy S, Ershaghi I. Reservoir characterization using
                fuzzy kriging and deep learning neural networks. In: SPE annual technical conference and
                exhibition, Dubai, UAE, September 26, 2016. SPE: Society of Petroleum Engineers; 2016.
             [13] Odi U, Nguyen T. Geological facies prediction using computed tomography in a machine
                learning and deep learning environment. In: SPE/AAPG/SEG unconventional resources
                technology conference, Houston, TX, August 9, 2018. URTEC: Unconventional Resources
                Technology Conference; 2018.
             [14] Tian C, Horne RN. Recurrent neural networks for permanent downhole gauge data analysis.
                In: SPE annual technical conference and exhibition, San Antonio, TX, October 9, 2017. SPE:
                Society of Petroleum Engineers; 2017.
             [15] Li H, Misra S. Prediction of subsurface NMR T2 distributions in a shale petroleum system
                using variational autoencoder-based neural networks. IEEE Geosci Remote Sens Lett
                2017;PP(99):1–3.
             [16] Li H, Misra S. Prediction of subsurface NMR T2 distribution from formation-mineral
                composition using variational autoencoder. In: SEG technical program expanded abstracts
                2017; 2017. p. 3350–4.