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The element content obtained by X-ray fluorescence (XRF) mud-logging is mainly used to determine mineral content and identify lithology. This work has been developed to identify dolomite, granitic gneiss, granite, limestone, trachyte, and rhyolite from two wells in Nei Mongol of China using back propagation neural network (BPNN) model based on the element content of drill cuttings by XRF analysis. Neural network evaluation system was constructed for objective performance judgment based on Accuracy, Kappa, Recall and training speed, and BPNN for lithology identification was established and optimized by limiting the number of nodes in the hidden layer to a small range. Meanwhile, six basic elements that can be used for fuzzy identification were determined by cross plot and four sensitive elements were proposed based on the existing research, both of which were combined to establish sixteen test schemes. A large number of tests are performed to explore the best element combination, and the result of experiments indicate that the improved combination has obvious advantages in identification performance and training speed. The author’s pioneer work has contributed to the neural network evaluation system for lithology identification and the optimization of input elements based on BPNN.
Wydawca
Czasopismo
Rocznik
Tom
Strony
2231--2240
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
autor
- Engineering Research Center of Nuclear Technology Application (East China University of Technology), Ministry of Education, Nanchang 330013, China
autor
- Engineering Research Center of Nuclear Technology Application (East China University of Technology), Ministry of Education, Nanchang 330013, China
autor
- Engineering Research Center of Nuclear Technology Application (East China University of Technology), Ministry of Education, Nanchang 330013, China
autor
- The College of Nuclear Technology and Automation Engineering, Chengdu University of Technology, Chengdu 610059, China
autor
- Engineering Research Center of Nuclear Technology Application (East China University of Technology), Ministry of Education, Nanchang 330013, China
autor
- Engineering Research Center of Nuclear Technology Application (East China University of Technology), Ministry of Education, Nanchang 330013, China
Bibliografia
- 1. Alnahwi A, Loucks RG (2019) Mineralogical composition and total organic carbon quantification using x-ray fluorescence data from the Upper Cretaceous Eagle Ford Group in southern Texas. Am Assoc Petr Geol Mem 103:2891–2907
- 2. Bahadır E (2016) Prediction of Prospective Mathematics Teachers’ Academic Success in Entering Graduate Education by Using Back-propagation Neural Network. J Edu Training Studies 4:113–122
- 3. El-Khadragy AA, Ghorab MA, Shazly TF et al (2014) Using of Picketts plot in determining the reservoir characteristics in Abu Roash Formation, El-Razzak Oil Field, North Western Desert, Egypt. Egyptian Journal of Petroleum Doihttps://doi.org/10.1016/j.ejpe.2014.02.007
- 4. Fleiss JL, Levin B, Paik MC (2003) The Same Pair of Raters per Subject. In: Balding DJ (ed) Statistical Methods for Rates and Proportions, 3rd edn. Wiley, Hoboken, pp 599–608
- 5. Irvine TN, Baragar WRA (1971) A Guide to the Chemical Classification of the Common Volcanic Rocks. Can J Earth Sci 8:523–548
- 6. Kelemen PB, Johnson KTM, Kinzler RJ et al (1990) High-field-strength element depletions in arc basalts due to mantle–magma interaction. Nature 345:521–524
- 7. Khajehzadeh N, Haavisto O, Koresaar L (2017) On-stream mineral identification of tailing slurries of an iron ore concentrator using data fusion of LIBS, reflectance spectroscopy and XRF measurement techniques. Miner Eng 113:83–94
- 8. Landis JR, Koch GG (1977) The Measurement of Observer Agreement for Categorical Data. Int Biometric Soc 33:159–174
- 9. Luo H, Lai FQ, Dong Z et al (2018) A lithology identification method for continental shale oil reservoir based on BP neural network. J Geophys Eng 15:895–908
- 10. Mejia-Pina KG, Huerta-Diaz MA, Gonzalez-Yajimovich O (2016) Calibration of handheld X-ray fluorescence (XRF) equipment for optimum determination of elemental concentrations in sediment samples. Talanta 161:359–367
- 11. Milad B, Slatt R, Fuge Z (2020) Lithology, stratigraphy, chemostratigraphy, and depositional environment of the Mississippian Sycamore rock in the SCOOP and STACK area, Oklahoma, USA: Field, lab, and machine learning studies on outcrops and subsurface wells. Mar Pet Geol 115:18
- 12. Puskarczyk E (2019) Artificial neural networks as a tool for pattern recognition and electrofacies analysis in Polish palaeozoic shale gas formations. Acta Geophys 67:1991–2003
- 13. Ren C, An N, Wang JZ et al (2014) Optimal parameters selection for BP neural network based on particle swarm optimization: A case study of wind speed forecasting. Knowledge-Based Syst 56:226–239
- 14. Rumelhart DE, Hinton GE, Williams RJJN (1986) Learning Representations by Back Propagating Errors. Nature 323:533–536
- 15. Ruuska S, Hamalainen W, Kajava S et al (2018) Evaluation of the confusion matrix method in the validation of an automated system for measuring feeding behaviour of cattle. Behav Processes 148:56–62
- 16. Shand SJ (1927) Eruptive Rocks: their Genesis, Composition, Classification, and their Relation to Ore-Deposits. Nature 120:872
- 17. Silva A, Neto IL, Carrasquilla A et al. (2013) Neural network computing for lithology prediction of carbonate-siliciclastic rocks using elastic, mineralogical and petrographic properties. 13th International Congress of the Brazilian Geophysical Society. https://doi.org/10.1190/sbgf2013-218
- 18. Tiddy CJ, Hill SM, Giles D et al (2019) Utilising geochemical data for the identification and characterisation of mineral exploration sample media within cover sequence materials. Aust J Earth Sci. https://doi.org/10.1080/08120099.2019.1673484
- 19. Wang RB, Xu HY, Li B et al. (2018) Research on Method of Determining Hidden Layer Nodes in BP Neural Network. Computer Technology and Development 028:31–35 http://www.xactad.net/oa/DArticle.aspx?type=view&id=201804007 (in Chinese)
- 20. Wu W, Feng GR, Li ZX et al (2005) Deterministic convergence of an online gradient method for BP neural networks. IEEE Trans Neural Networks 16:533–540
- 21. Yarbrough LD, Carr R, Lentz N (2019) X-ray fluorescence analysis of the Bakken and Three Forks Formations and logging applications. J Pet Sci Eng 172:764–775
- 22. Zhang Y, Zhu YP, Li XQ et al (2019) Anomaly Detection Based on Mining Six Local Data Features and BP Neural Network. Symmetry. https://doi.org/10.3390/sym11040571
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e20c8581-b9ce-49df-87d0-be7ecf3a19c9