Abstract
Soft-sensor technology plays a vital role in tracking and monitoring the key production indicators of the grinding and classifying process. Least squares support vector machine (LSSVM), as a soft-sensor model with strong generalization ability, can be used to predict key production indicators in complex grinding processes. The traditional crossvalidation method cannot obtain the ideal structure parameters of LSSVM. In order to improve the prediction accuracy of LSSVM, a golden sine Harris Hawk optimization (GSHHO) algorithm was proposed to optimize the structure parameters of LSSVM models with linear kernel, sigmoid kernel, polynomial kernel, and radial basis kernel, and the influences of GSHHO algorithm on the prediction accuracy under these LSSVM models were studied. In order to deal with the problem that the prediction accuracy of the model decreases due to changes of industrial status, this paper adopts moving window (MW) strategy to adaptively revise the LSSVM (MW-LSSVM), which greatly improves the prediction accuracy of the LSSVM. The prediction accuracy of the regularized extreme learning machine with MW strategy (MW-RELM) is higher than that of MW-LSSVM at some moments. Based on the training errors of LSSVM and RELM within the window, this paper proposes an adaptive hybrid soft-sensing model that switches between LSSVM and RELM. Compared with the previous MW-LSSVM, MW-neural network trained with extended Kalman filter(MW-KNN), and MW-RELM, the prediction accuracy of the hybrid model is further improved. Simulation results show that the proposed hybrid adaptive soft-sensor model has good generalization ability and prediction accuracy.
Highlights
As one of the most important operating procedures in a beneficiation plant, the grinding and classifying process is to grind larger-sized metal ore to a reasonable size, expose useful metal components in the ore, and prepare for the stage of the flotation process [1]
E Harris Hawk optimization (HHO) algorithm is a new type of natural heuristic algorithm proposed by Mirjalili et al [45]. is algorithm has strong exploration and weak exploitation, and it has been proved in Xie [37] that the golden sine operator can expand the search range of agents, so this paper introduces the golden sine operator to the HHO (GSHHO) when the HHO is switched to the exploitation phase, which expands exploitation range of the algorithm and enhances the exploitation of the algorithm
In order to take advantage of different neural network soft-sensor models in different situations, based on the moving window (MW) strategy, this paper proposes a hybrid soft-sensor model with Least squares support vector machine (LSSVM) and regularized extreme learning machine (RELM) continuously switching (MW-LSSVM-RELM)
Summary
As one of the most important operating procedures in a beneficiation plant, the grinding and classifying process is to grind larger-sized metal ore to a reasonable size, expose useful metal components in the ore, and prepare for the stage of the flotation process [1]. When the external environment changes, the existing model parameters will not accurately reflect the current state of industrial production, which will result in a decrease in the prediction accuracy of the model and a problem of “model degradation” [20]. Tang et al selected multiple PLS models as the softsensor model on the grinding process to predict the load parameters of the ball mill [21, 22], which determines the number of PLS submodels based on multiple features of the sample set, uses an adaptive weighted fusion algorithm to integrate multiple PLS results, and obtains output so as to improve the adaptability of the soft-sensing model and the adjustment ability when the industrial status changes suddenly.
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