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Equipment fault intelligent monitoring method based on event map technology

A technology for equipment failure and intelligent monitoring, applied in computer parts, unstructured text data retrieval, instruments, etc., can solve problems such as small coverage, poor accuracy, slow maintenance speed, etc., to reduce the difficulty and ease of maintenance and inspection Fusion, the effect of improving adaptability

Active Publication Date: 2019-08-09
XIAMEN ETOM SOFTWARE TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the development of science and technology and the complexity of manufacturing processes, more and more factors affect equipment, which makes troubleshooting difficult and even requires the participation of industry experts. When equipment fails, it is usually impossible to respond in time and repair quickly. Not only the speed of repair Slow and expensive to repair
[0003] Compared with purely manual inspection, the existing auxiliary system for equipment maintenance can assist maintenance personnel to find the problem faster, and then propose a corresponding maintenance plan. However, the existing auxiliary system has poor accuracy, poor learning ability, and small coverage, so it cannot adapt New situations and new conditions make it difficult to quickly locate the cause of the fault, and the maintenance suggestions given are often wrong

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] An intelligent monitoring method for equipment faults based on event graph technology, which can establish a preliminary model based on historical data, and then learn current data in real time, continuously improve the model, and provide maintenance suggestions and fault warnings for equipment.

[0036] For realizing above-mentioned technical effect, described method comprises:

[0037] S10: Construct an event graph through historical data analysis, the event graph includes event elements, and a network-like event graph is formed between the event elements through event relationships.

[0038] The event element includes core nodes and event attributes. Wherein, the core node corresponds to a fault of a device, including a name, a type, a keyword describing a fault event, and a description that can be distinguished from other faults. The event attribute corresponds to the status of the device, including basic information of the device, time of failure, status informati...

Embodiment 2

[0047] On the basis of Embodiment 1, said S10 includes S11: establish a fault classification model, classify fault descriptions, and reduce fault types; perform event extraction for each fault and form an event element; use the fault classification model to identify event attributes, The event attributes also include: fault type, related accompanying state parameters, and fault consequences.

[0048] Specifically, when establishing a fault classification model, combined with expert knowledge and experience, natural language understanding technology and clustering algorithm are used to classify fault descriptions.

Embodiment 3

[0050] On the basis of any of the above-mentioned embodiments, the relationship between event elements and the relationship between the core node and each event attribute are strengthened according to historical data to obtain the strength of each relationship, and then obtain the relationship between each fault and its accompanying faults. Strong and weak ties and the strong and weak ties between each fault and its accompanying state.

[0051] Real-time analysis of faults is carried out through the strong and weak relationship between faults, and the accompanying state of the fault is analyzed. Through multi-dimensional analysis of the accompanying state, other faults that may exist can be found to realize real-time early warning of faults. Calculate the weight of each dimension in the event attribute through the strength relationship between the fault and its accompanying state, and obtain the similarity between the two faults according to the similarity between the weight an...

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PUM

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Abstract

The invention provides an equipment fault intelligent monitoring method based on an event map technology. According to the method, the historical data and the current data can be learned, and the maintenance suggestions and the fault early warning are provided for equipment maintenance. The method comprises the steps of S10, constructing an event graph through the historical data analysis, the event graph comprises the event elements, and the event elements and the event elements form a network-shaped event graph through event relations, and the event element comprises a core node and an eventattribute; S20, comparing the current equipment state with event attributes in the event map, and matching the current equipment state with corresponding core nodes and event elements; S30, updatingthe event map in real time, and learning a new fault, a new state and a corresponding maintenance scheme of the equipment; S40, judging a current equipment fault condition according to the event element, analyzing an equipment fault generation reason, and giving a maintenance scheme; and S50, according to the relationship between the event elements in the event map, predicting faults which may occur to the current equipment, and giving out fault early warning.

Description

technical field [0001] The invention relates to the technical field of equipment maintenance. Background technique [0002] With the development of science and technology and the complexity of manufacturing processes, more and more factors affect equipment, which makes troubleshooting difficult and even requires the participation of industry experts. When equipment fails, it is usually impossible to respond in time and repair quickly. Not only the speed of repair Slow and high maintenance costs. [0003] Compared with purely manual inspection, the existing equipment maintenance auxiliary system can assist maintenance personnel to find the problem faster and then propose corresponding maintenance solutions. However, the existing auxiliary system has poor accuracy, poor learning ability, and small coverage, so it cannot adapt New situations and new conditions make it difficult to quickly locate the cause of the fault, and the maintenance suggestions given are often wrong. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/00G06F16/36G06K9/62
CPCG06Q10/20G06F16/367G06F18/23G06F18/24
Inventor 刘煜孙再连陈德忠
Owner XIAMEN ETOM SOFTWARE TECH CO LTD
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