Abstract
Deformation mechanism in the core rockfill dams with heavy load and high-stress level is difficult to predict and control, which is one of the key problems to be solved in the dam operation safety management and control. Aiming at the large error problems obtained by the parameter-based functional models (regression model, grey theory model, etc.) in the deformation prediction of the core rockfill dams, a fractal prediction method and its technical process by combining the variable dimension fractal dimension and the "metabolism" of prediction data are proposed through analyzing the fractal adaptability and deformation characteristics of original monitoring data based on the resealed-range (R/S) method and fractal dimension theory. It effectively solves the error in the process of constant dimension fractal accumulation and transformation greatly in dam deformation prediction and provides a new way for dam safety monitoring deformation prediction and early warning. The trend analysis of deformation monitoring data of the Pubugou core rockfill dam and the deformation prediction show that the fractal prediction information of dam deformation has a good corresponding relationship with its physical causes, which is in line with the actual deformation trend and operation state of the dam. Compared with the traditional stepwise regression method, the prediction results obtained by the proposed method in this paper are of high accuracy, implying that the improved fractal prediction of dam deformation is effective and the Hurst fractal index is applicable in the evaluation of the dam deformation trend.
Highlights
The main contents of the current research are arranged as follows: (a) based on fractional Brownian motion (FBM) test of dam deformation monitoring series, fractal adaptability of deformation monitoring series is discussed by combining the resealed-range (R/S) method and fractal dimension theory; (b) study the fractal dimension of deformation monitoring data series of core rockfill dam changing with time and put forward the fractal prediction method and its technical process with the variable dimension fractal dimension and the "metabolism" of prediction data; (c) take the Pubugou core rockfill dam as an example, and the effectiveness of deformation prediction method and engineering applicability of Hurst fractal index in evaluating dam local deformation trend is verified
Through the study of the improved fractal prediction method, analysis process, and engineering analysis of deformation series in core rockfill dam, the conclusions are as follows: (1) A prediction method of variable dimension fractal combined with data "metabolism" for the deformation in the core rockfill dams is proposed in the paper
It effectively solves the decrease in prediction accuracy caused by the errors in the process of constant dimension fractal accumulation and transformation in dam deformation prediction based on the real-time update of basic data, thereby realizing the dynamic prediction of dam deformation and providing a new way for dam safety monitoring deformation prediction and early warning
Summary
Core rockfill dam plays an important role in the dam engineering field due to its good adaptability to the terrain and geological conditions, convenience for local materials, good seismic resistance, and other advantages [1], and most of the 200–300 m high Earth rockfill dams are core rockfill dams, such as the Nurek dam (300 m, Tajikistan), the Nuozhadu dam (261.5 m, China), the Mica dam (242 m, Canada), and Oroville dam (235 m, America). e deformation mechanism of a dam with complex topography, geology, operation environment, large loading in dam and foundation, and high-stress level is complex, and the deformation process and quantity value are closely related to dam safety. The main contents of the current research are arranged as follows: (a) based on fractional Brownian motion (FBM) test of dam deformation monitoring series, fractal adaptability of deformation monitoring series is discussed by combining the resealed-range (R/S) method and fractal dimension theory; (b) study the fractal dimension of deformation monitoring data series of core rockfill dam changing with time and put forward the fractal prediction method and its technical process with the variable dimension fractal dimension and the "metabolism" of prediction data; (c) take the Pubugou core rockfill dam as an example, and the effectiveness of deformation prediction method and engineering applicability of Hurst fractal index in evaluating dam local deformation trend is verified
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