Prediction of BlastInduced Ground Vibration (BIGV) of Metro Construction Using Difference Evolution AlgorithmOptimized Gaussian Process (DE‐GP)

Abstract: Rock blasting often has an irreversible impact on the surrounding environment and threatens the safety of life and property. Therefore, accurate prediction of blast-induced ground vibration (BIGV) is a prerequisite for safe construction. In view of the fact that traditional blasting peak particle velocity (PPV) empirical formulas cannot be accurately predicted, this study selected 88 sets of blasting monitoring data, based on distance from the blast-face, maximum charge per delay, total charge, hole depth, spa… Show more

“…Thangavel and Samui utilized an ANN model to predict the average particle size resulting from blast fragmentation, considering multiple input variables [ 13 ]. Jiang [ 14 ] introduced a model that utilizes the Gaussian process (GP) and the differential evolution algorithm (DE) to forecast blast-induced ground vibration (BIGV). The model incorporates the powder factor as an input variable.…”

Explosive utilization efficiency enhancement: An application of machine learning for powder factor prediction using critical rock characteristics

“…Thangavel and Samui utilized an ANN model to predict the average particle size resulting from blast fragmentation, considering multiple input variables [ 13 ]. Jiang [ 14 ] introduced a model that utilizes the Gaussian process (GP) and the differential evolution algorithm (DE) to forecast blast-induced ground vibration (BIGV). The model incorporates the powder factor as an input variable.…”

Explosive utilization efficiency enhancement: An application of machine learning for powder factor prediction using critical rock characteristics