Details

Autor(en) / Beteiligte

• Qi, Chongchong
• Tang, Xiaolin
• Dong, Xiangjian
• Chen, Qiusong
• Fourie, Andy
• Liu, Enyan

Titel

Towards Intelligent Mining for Backfill: A genetic programming-based method for strength forecasting of cemented paste backfill

Ist Teil von

• Minerals engineering, 2019-03, Vol.133, p.69-79

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2019

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• •A GP-based method was employed for strength forecasting of CPB.•An enlarged dataset was prepared using 1545 UCS tests on 11 types of tailings.•A sensitivity study was conducted and the relative variable importance was studied.•The GP performance was verified and compared with three ML techniques.•The generalisation capability of GP modelling to entirely new tailings was studied. As cemented paste backfill (CPB) plays an increasingly important role in minerals engineering, forecasting its mechanical properties becomes a necessity for efficient CPB design. Machine learning (ML) techniques have previously demonstrated remarkable successes in such task by providing black-box predictions. To express the non-linear relationship in an explicit and precise way, we employed genetic programming (GP) for the uniaxial compressive strength (UCS) prediction of CPB. The influence of sampling method, training set size and maximum tree depth on the GP performance was investigated. A detailed analysis was conducted on a representative GP model and the relative variable importance was investigated using the relative variable frequency, partial dependence plots and relative importance scores. The statistical parameters show that a satisfactory performance was obtained by the GP modelling (R2 > 0.80 on the testing set). Results of this study indicate that cement-tailings ratio, solids content and curing time were the most three important variables for the UCS prediction. The predictive performance of GP modelling was comparable to well-recognised ML techniques, and the trained GP model can be generalised to entirely new tailings with satisfactory performance. This study indicates that the GP-based method is capable of providing explicit and precise forecasting of UCS, which can serve as a reliable tool for quick, inexpensive and effective assessment of UCS in the absence of adequate experimental data.