EFA-BBN-based method and system for quantitatively predicting personnel error probability by using computer

A technology of EFA-BBN and error probability, which is applied in computer components, prediction, calculation, etc., can solve the problems of personnel error probability prediction results error, increased workload, PSFs correlation uncertainty, etc., to achieve accurate estimation and reduce subjectivity effect

Pending Publication Date: 2022-08-09
HUNAN INST OF TECH
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Problems solved by technology

Considering only a few PSFs can simplify the analysis workload, but may not fully describe the reasons for human errors, while considering a large number of PSFs will introduce uncertainty in the correlation of PSFs and increase the workload
Since the existing methods usually ignore the relationship between behavioral formation factors (PSFs), there are certain errors in the prediction results of human error probability (HEP).

Method used

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  • EFA-BBN-based method and system for quantitatively predicting personnel error probability by using computer
  • EFA-BBN-based method and system for quantitatively predicting personnel error probability by using computer
  • EFA-BBN-based method and system for quantitatively predicting personnel error probability by using computer

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Embodiment Construction

[0055] In order to facilitate those skilled in the art to better understand the improvements of the present invention relative to the prior art, the present invention will be further described below with reference to the accompanying drawings and embodiments. The embodiment of the present invention mainly includes two parts. The first part mainly introduces the construction and quantification of the EFA-BBN model. The second part mainly describes the analysis and description of the case and the results of the model verification. for a detailed introduction.

[0056] 1. Construction and quantification of EFA-BBN model

[0057] 1.1. Building a Bayesian Model (BBN) Based on Exploratory Factor Analysis (EFA)

[0058] In nuclear power plants, operators perform tasks in different situations, and the behavioral formation factors (PSFs) and their correlations that affect personnel errors are different in different situations. Based on this, in figure 1 On the basis of the general B...

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Abstract

An EFA-BBN-based computer quantitative prediction method and system for personnel error probability relates to the technical field of data analysis and computer prediction, and is characterized in that a father node PSF in a general BBN model is analyzed by using an EFA method in combination with a current situation condition, PSF correlation is clustered into an intermediate factor, the father node and a child node of the BBN model are connected, and the probability of personnel error is predicted. According to the prediction method, the number of the PSFs is not limited, n PSFs can be clustered into a small number of intermediate factors, the integrity of original information of the PSFs cannot be lost, and the generated EFA-BBN model can make up for the defect that an existing HRA method does not consider the relation between the PSFs. In addition, clustering factor nodes and child nodes in the model acquire a conditional probability table based on double truncated normal distribution (TN), then a success likelihood index (SLIM) method is utilized to estimate a personnel error probability value, and compared with an existing HRA method, the method can reduce subjectivity of expert judgment and more accurately estimate the personnel error probability.

Description

technical field [0001] The invention relates to the technical field of data analysis and computer prediction, in particular to a method and system for quantifying and predicting personnel error probability based on EFA-BBN. Background technique [0002] Determining the behavioral forming factors (PSFs) that influence human error is one of the key steps in human reliability analysis (HRA). A structural hierarchical taxonomy for PSFs has been proposed in existing research results, with the aim of reducing the overlap between PSFs and further exploring their causal relationships through modeling, observation, and expert judgment. These studies have successfully advanced research into the association of PSFs, however, they have relied heavily on expert judgment and are limited to establishing causal relationships between two or three factors. Furthermore, the overlap and causality of PSFs are investigated by traditional techniques that do not take into account the uncertainty o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/62G06N3/04G06N3/08G06Q10/04
CPCG06N3/08G06Q10/04G06N3/045G06F18/2132G06F18/2321G06F18/23G06F18/214
Inventor 刘建桥刘雪阳邹衍华庄午阳莫聪赵思静洪欢闫新雨赵峻宣康翔豪
Owner HUNAN INST OF TECH
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