KR20210014452A - Abnormal Data Detection System in Manufacturing Process - Google Patents

Abstract

The present invention relates to a system for detecting abnormal data in a manufacturing process, and more particularly, to a system for detecting abnormal data in a manufacturing process, which is installed in individual facilities of a factory, including: a preprocessing unit that removes noise from process data collected in real time from the facility, separates a data set for each section of a specific standard, and graphs and processes data values of each data set; a data conversion unit that converts the process data processed by the preprocessing unit into an image file so as to be distinguishable by using a convolutional neural network (CNN) model; a determination unit that receives the image file converted through the data conversion unit, and analyzes the image file based on a trained CNN model to determine abnormal data; a scheduler unit that periodically calls the data conversion unit and the determination unit; a determination result notification unit for notifying determination result information of the determination unit to a dashboard; and a dashboard unit for displaying a determination result notified from the determination result notification unit so that a user is able to check the determination result. Accordingly, an abnormality is detected rapidly and accurately in real time.

Description

Abnormal Data Detection System in Manufacturing Process}

The present invention relates to a manufacturing process abnormal data detection system that automatically detects whether or not a factory facility is abnormal during the manufacturing process.

In general, in a factory that has established a mass production system, the manufacturing process is divided into several stages in order to increase product mass production efficiency, and an automation facility suitable for the corresponding process is operated and operated for each of the above several stages. However, in the case of the above automation facility, a situation in which the process is performed abnormally due to an error of the facility itself or the influence of the surrounding environment may occur at an unexpected moment in the process of repeatedly performing the same process, and each process is continuous and organic. In the linked manufacturing process system, if an abnormality occurs in the equipment of some processes, it causes defects in the entire process and products, so the operation of periodically detecting the abnormality of the factory equipment operated by each process is a maintenance and management dimension of the factory mass production system. It can be seen as very important.

It is common for experienced workers to visually check the operation status of the facility through process data such as vibration and power, but even the most skilled workers make mistakes when reading human abnormalities. Due to this, a situation where abnormal data is often missed occurs, there is a problem in that it is difficult for a person to accurately detect abnormal data with the naked eye for vast amount of process data pouring in real time, and a lot of time is required for the abnormal data detection process.

The present invention was derived to solve the above problems, and when a person directly checks and judges whether or not a factory facility is abnormal every time, it is possible to quickly and accurately detect the abnormality in real time for a greater amount of process data. Its purpose is to provide a manufacturing process abnormal data detection system.

The problem to be solved by the present invention is not limited to the technical problems mentioned above, and other technical problems that are not mentioned can be clearly understood by those of ordinary skill in the technical field to which the present invention belongs from the following description. will be.

The present invention for solving the above problems relates to a manufacturing process abnormal data detection system, and more specifically, in a manufacturing process abnormal data detection system installed in individual facilities of a factory, the process data collected in real time from the corresponding facility A preprocessor for removing noise, separating data sets for each section of a specific reference, and processing data values of each data set by graphing them; A data conversion unit for converting the process data processed by the preprocessor into an image file to be discriminated using a Convolutional Neural Networks (CNN) model; A determination unit that receives the converted image file through the data conversion unit and analyzes it based on a learned Convolutional Neural Networks (CNN) model to determine whether there is abnormal data; A scheduler unit periodically calling the data conversion unit and the determination unit; A determination result notification unit for notifying determination result information of the determination unit to a dashboard; And a dashboard unit that displays the determination result notified from the determination result notifying unit so that the user can check it.

According to the manufacturing process abnormal data detection system according to the present invention, it is possible to more accurately and reliably determine whether the process data is abnormal through the pre-processing of the process data, and automatically recognize the process data of the corresponding facility through the CNN model. After iteratively learns itself, it automatically determines whether the process data is abnormal based on the learned model, so if a person directly checks and judges whether or not the process data is abnormal each time, it is faster and more accurate for a larger amount of process data. There is an effect of detecting abnormality.

1 schematically shows an example of a manufacturing process abnormal data detection system according to the present invention.
2 shows an example in which noise of process data is removed through filtering in a preprocessor according to the present invention.
FIG. 3 is a diagram showing the process data from which noise is removed in the preprocessor according to the present invention, after separating a data set for each section based on a specific production quantity, and then graphing the data values of each data set for processing .
4 shows an example in which one-dimensional process data processed through a preprocessor in a data conversion unit according to the present invention is converted into an image file so as to be discriminated by a Convolutional Neural Networks (CNN) model.

In the present invention, various transformations may be applied and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component.

Hereinafter, the present invention will be described in detail, but if necessary, it will be described with reference to the drawings to aid in understanding the invention. The following drawings and descriptions of the drawings are only examples for aiding understanding of the present invention, and thus the scope of the present invention is not limited thereto.

According to the manufacturing process abnormal data detection system according to the present invention shown in FIG. 1, the present invention relates to a manufacturing process abnormal data detection system, and more specifically, in a manufacturing process abnormal data detection system mounted in individual facilities of a factory, A preprocessing unit that removes noise from process data collected in real time from a corresponding facility, separates a data set for each section of a specific reference, and then graphs and processes data values of each data set; A data conversion unit for converting the process data processed by the preprocessor into an image file to be discriminated using a Convolutional Neural Networks (CNN) model; A determination unit that receives the converted image file through the data conversion unit and analyzes it based on a learned Convolutional Neural Networks (CNN) model to determine whether there is abnormal data; A scheduler unit periodically calling the data conversion unit and the determination unit; A determination result notification unit for notifying determination result information of the determination unit to a dashboard; And a dashboard unit that displays the determination result notified from the determination result notifying unit so that the user can check it.

The manufacturing process abnormal data detection system according to the present invention is installed in individual facilities of a factory, and trains a CNN (Convolutional Neural Networks) model based on data related to the process of the factory facility collected in real time, and the learned CNN ( Convolutional Neural Networks) model is used to determine whether there is an abnormality in manufacturing process data collected in real time from a corresponding factory facility, and through this, it relates to a device that enables a user to conveniently check whether a corresponding factory facility is defective.

In the present invention, the preprocessing unit removes noise from process data collected in real time from a corresponding facility, separates a data set for each section of a specific reference, and then graphs and processes the data values of each data set. As to be performed, in the present invention, it is preferable that the process data include not only facility data collected from the factory facility itself during the process execution process, but also sensor data collected from sensors around the factory facility. The sensor may be any sensor that directly or indirectly indicates the state of the plant, and may be, for example, a temperature sensor, a speed sensor, a vibration sensor, a pressure sensor, or the like. In order to increase the reliability of determining whether a facility is abnormal, the present invention installs a complex sensor composed of various types of sensors rather than installing a single sensor in one facility, and provides various types of sensors such as temperature, speed, vibration, and pressure from a single facility. It is desirable to collect data.

According to the present invention, by targeting process data including facility data and sensor data as an analysis target, it is possible to increase the accuracy of determining whether the facility is abnormal.

Noise removal for the process data is performed through filtering using a lowpass filter as shown in FIG. 2. According to the present invention, by removing the noise of the process data in the preprocessor, it is possible to more accurately and reliably determine whether the process data is abnormal.

The section of the specific criterion may vary according to the type of work, such as a section may be determined based on a specific time, or a section based on a specific production quantity as shown in FIG. 3, and is not particularly limited. In FIG. 3, a data set is separated for each section based on a specific production quantity for process data from which noise is removed, and then the data values of each data set are graphed and processed as an example.

In the present invention, the data conversion unit converts the process data processed by the preprocessing unit into an image file to be discriminated using a Convolutional Neural Networks (CNN) model, and a one-dimensional time series through the data conversion unit Process data is converted into two-dimensional image data and stored. 4 shows an example in which the one-dimensional process data processed by the preprocessor is converted into an image file to be discriminated by a CNN (Convolutional Neural Networks) model.

The data conversion unit stores process data converted to an image file and labeling data matching the process data together. The labeling data is data that classifies the state of factory facilities, and is data displayed as'normal' or'abnormal', for example. The generation of the labeling data is not automatically generated by a machine for all process data, but a human directly creates labeling data for the initial process data, and based on this, the labeling data for subsequent process data is automatically labeled through a machine. It is possible to generate labeling data efficiently even with a much smaller amount of process data population to generate data, and a person who has experience in facility operation can initially identify external environmental factors such as factory location, season, and current facility operation experience. Since labeling data is generated in consideration, it is desirable to increase the reliability of labeling data.

In the present invention, the determination unit receives the converted image file through the data conversion unit and analyzes it based on a learned CNN (Convolutional Neural Networks) model to determine whether there is abnormal data, and the CNN (Convolutional Neural Networks) ) Model is a kind of deep learning model, and is mainly used for feature extraction or classification in various areas such as image, video, text, sound, and face recognition. Since the CNN model directly searches for a pattern of a target to be recognized, classifies features, and learns by itself, there is an advantage in that a high-level recognition result is obtained without requiring manual work. Therefore, the determination unit of the present invention automatically recognizes the process data of the corresponding facility through the CNN model, then iteratively learns itself, and automatically determines whether the process data is abnormal based on the learned model. In the case of confirming and judging, there is an advantage of being able to quickly and accurately check vast amounts of process data.

The training of the CNN model first reads imaged process data and labeling data from the data conversion unit, randomly mixes the read imaged process data and labeling data, and then uses a train set in a ratio of 7:3. It consists of dividing into a test set, performing training of a CNN model targeting the train set, and checking accuracy and precision with the test set for the trained CNN model. .

In the present invention, the scheduler unit performs a role of periodically calling the data conversion unit and the determination unit, and periodically converts one-dimensional process data into a two-dimensional image and determines whether the process data is abnormal. Make it possible.

In the present invention, the dashboard unit displays the determination result notified from the determination result notification unit so that the user can check it, and the screen can be configured in various ways so that the operator can easily check the determination result of abnormality of the relevant facility. have.

An operation process of the manufacturing process abnormal data detection system according to the present invention will be described with reference to FIG. 1 as follows. First, the preprocessing unit removes noise from the process data collected in real time from the factory facility, separates the data set, and then performs processing processing to graph the data values of each data set, and then data conversion. The unit converts and stores the process data processed by the preprocessor into an image file, and the decision unit receives the converted image file through the data conversion unit and analyzes it based on the learned CNN model to determine whether there is abnormal data. , The determination result determined by the determination unit is transmitted from the determination result notification unit to the dashboard to be notified, and the operator can check whether the facility is abnormal through the determination result displayed on the dashboard.

According to the manufacturing process abnormal data detection system according to the present invention, it is possible to more accurately and reliably determine whether the process data is abnormal through pre-processing of the process data.

In addition, the present invention automatically recognizes the process data of the relevant facility through the CNN model, then iteratively learns itself, and automatically determines whether the process data is abnormal based on the learned model, so that a person directly checks the process data. There is an advantage of being able to quickly and accurately check vast amounts of process data than in the case of a decision.

As described above, those skilled in the art to which the present invention pertains will be able to understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. The scope of the present invention is indicated by the claims to be described later rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts are interpreted as being included in the scope of the present invention. Should be.

Claims (3)

In the manufacturing process abnormal data detection system installed in individual facilities of the factory,
A preprocessing unit that removes noise from process data collected in real time from a corresponding facility, separates a data set for each section of a specific reference, and then graphs and processes data values of each data set;
A data conversion unit for converting the process data processed by the preprocessor into an image file to be discriminated using a Convolutional Neural Networks (CNN) model;
A determination unit that receives the converted image file through the data conversion unit and analyzes it based on a learned Convolutional Neural Networks (CNN) model to determine whether there is abnormal data;
A scheduler unit periodically calling the data conversion unit and the determination unit;
A determination result notification unit for notifying determination result information of the determination unit to a dashboard; And
A manufacturing process abnormal data detection system comprising: a dashboard unit that displays the determination result notified from the determination result notification unit so that a user can check it.
The method of claim 1,
The process data includes equipment data collected from the plant equipment itself and sensor data collected from sensors around the plant equipment.
The method of claim 2,
The sensor is a manufacturing process abnormal data detection system, characterized in that the composite sensor composed of various types of sensors.

Images