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A Collaborative Optimization Method for Back Analysis of Numerical Calculation Model Parameters in Rockburst Process

A technology of numerical calculation and model parameters, which is applied in the collaborative optimization of high computational cost numerical calculation model parameter inverse analysis, and the collaborative optimization method of numerical calculation model parameter inverse analysis of rockburst process. There are no theoretical solution methods for parameters, the optimal hyperparameters are difficult to determine, and it is difficult to ensure reliability, etc., to achieve the effects of improving computational efficiency, reducing computational costs, and reducing the number of evaluations

Active Publication Date: 2019-02-01
GUANGXI UNIV
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Problems solved by technology

However, both artificial neural networks and support vector machines have some open problems. For example, artificial neural networks have problems such as the difficulty of determining the optimal network topology and optimal hyperparameters, the risk of over (under) learning, and poor generalization ability of small samples. ; There is no feasible theoretical solution method for the kernel function and reasonable hyperparameters of the support vector machine, and it is difficult to guarantee the reliability of the prediction

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  • A Collaborative Optimization Method for Back Analysis of Numerical Calculation Model Parameters in Rockburst Process
  • A Collaborative Optimization Method for Back Analysis of Numerical Calculation Model Parameters in Rockburst Process
  • A Collaborative Optimization Method for Back Analysis of Numerical Calculation Model Parameters in Rockburst Process

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Embodiment Construction

[0065] The technical solution of the present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments:

[0066] During an indoor rockburst test study, a true triaxial testing machine was used to conduct a single-sided unloading test on rock samples. The sample size is 100mm×100mm×200mm, with good integrity and uniformity ( figure 2 ). The loading path can be summarized as follows: after three directions and six sides are loaded to a predetermined stress value, the load on one side in the direction of the minimum principal stress is quickly removed to cause rockburst of the sample. During the test, a high-speed camera was used to record the entire process of rockburst destruction, which facilitates subsequent analysis of the ejection kinetic energy of the rockburst. In order to further compare and study, a three-dimensional numerical simulation analysis was carried out on the rockburst test process.

[0067] ...

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Abstract

The invention discloses a collaborative optimization method applicable to parameter back analysis of a high calculation cost numerical calculation model. To solve a problem that parameters in numerical simulation with high calculation cost are hard to optimize, the method comprises the following steps: by taking the difference of a physical quantity which can be monitored in practice and a physical quantity calculation value corresponding to a numerical calculation module as a target function, combining excellent small sample learning ability of an information vector machine (IVM) with excellent global optimization ability of a backtrack search algorithm (BSA), thereby rapidly obtaining parameters which relatively meet the practice. The practical calculation case shows that the parameters obtained by using the method disclosed by the invention within the same time relatively well meet the practice when compared with those of a random global optimization algorithm. The method disclosed by the invention is relatively good in applicability to parameter optimization with high calculation cost, and has the advantages of high efficiency, rapidness, simplicity and practicability.

Description

technical field [0001] The invention belongs to the application field of artificial intelligence algorithms, and relates to a collaborative optimization method for reverse analysis of numerical calculation model parameters in rockburst process, specifically, relates to a collaborative optimization algorithm based on information vector machine-backtracking search (IVM-BSA) Collaborative optimization method for back analysis of high computational cost numerical calculation model parameters. Background technique [0002] Numerical simulation is a very effective research method for many engineering problems, physical problems, and even the research of various problems in nature and human society. Numerical simulation must first establish a mathematical model that reflects the nature of the problem (such as engineering problems, physical problems, etc.). Specifically, it is necessary to establish equations (usually differential equations) that reflect the relationship between va...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50G06N3/12
Inventor 苏国韶尹宏雪胡李华姜山江权程纲为
Owner GUANGXI UNIV
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