WO2018199630A1

WO2018199630A1 - Integrated monitoring system and method using image capturing

Info

Publication number: WO2018199630A1
Application number: PCT/KR2018/004804
Authority: WO
Inventors: 진병진; 임근석
Original assignee: (주)온테스트
Priority date: 2017-04-25
Filing date: 2018-04-25
Publication date: 2018-11-01
Also published as: KR101950335B1; KR20180119407A

Abstract

The present invention relates to an integrated monitoring system and method using image capturing. According to an embodiment of the present invention, the integrated monitoring system comprises: a capturing device for reading text data in equipment data acquired from equipment to be captured, setting a monitoring item according to the read text data and a user setting command, and transmitting monitoring data corresponding to the set monitoring item; a user terminal for receiving the text data read by the capturing device so as to display the same to a user, and receiving the user setting command on the monitoring item, for the equipment to be captured, determined by the user, so as to transmit the same to the capturing device; and an integrated monitoring server for collecting the monitoring data transmitted from the capturing device and managing the collected monitoring data.

Description

Integrated Monitoring System and Method Using Image Capture

The present invention relates to an integrated monitoring system and method using image capture, and more particularly, to read text data from the image data distributed in the equipment data of the capture target equipment, and to monitor the monitoring item according to the read text data and user setting command An integrated monitoring system and method using image capture that can be easily set.

The research results of the research institute are a prerequisite for accurate analysis of the research results, and an analyzer or analytical equipment corresponding to each situation should be used. Research institutes or university research institutes require various kinds of analyzers or analytical equipment for analyzing specific substances or samples, or for obtaining experimental data on developed electric devices or modules.

Since the present age is the age of technology integration, each technology is not composed of one technology element but various technology elements. For example, in the IT field, cameras and mobile phones are integrated, and various technologies such as MP3 technology are being integrated. In addition, since the biotechnology field is incorporated into the information technology field, it is difficult to distinguish the boundary of the technology. Therefore, the current research direction is progressing according to such convergence or technology integration.

According to the progress of this study, the analysis equipment or analyzer used in such a study also has to satisfy various conditions, which is becoming complicated, diverse, and expensive. Therefore, it is inefficient to have all the analytical equipment or analyzers in one laboratory and use them exclusively.

For this reason, many research institutes or university laboratories share many different analytical equipment or analyzers for use by different research institutes or researchers. Therefore, the researcher could use various analytical equipment or analyzers suitable for the research purpose without any burden, thereby maximizing the results of the research.

In order to use analytical equipment or analyzers commonly used by researchers (clients), the status or availability of the analyzer should be confirmed to each analyzer manager through a visit or a telephone. In addition, the researcher had to separately manage the fee for using the analyzer and charge it immediately, or calculate separately based on a manual journal.

As such, the conventional method of managing individual analyzers causes the analyzer manager to spend excessive time in managing analyzer use. In addition, from the standpoint of the use requester, the use of the analyzer and the payment of the fee were not smooth, causing inconvenience to both the analyzer manager and the client use requester (researcher). Overall, it was inefficient in terms of management time, management cost, and the like.

In addition, in the conventional analyzer management method, since analyzers are individually managed, data for overall management such as usage status, frequency of use, analysis time, fee, and requester for the entire analyzer are collected, or from the collected data. It took a lot of time to prepare statistics.

On the other hand, as network related technologies evolve, users not only manage their own analyzer data, but also compare their analyzer data with others' analyzer data. There is a growing need for users to use these comparisons to manage their analyzers. In other words, by collecting data from sporadic analyzer measuring devices in one place and providing comparison indicators between themselves and others, it can help users to manage their analyzers using comparison indicators. have. Users can then use the measured analyzer data more efficiently as well as simply measure the analyzer and verify the measurement results. What is needed for this is to upload the measurement result data for each measurement to the management server.

In the prior art, after measuring the analyzer, the user directly inputs the measurement data into a PC or a smartphone. Or, the most common method is for a user to upload measurement data between a analyzer measuring device and a PC or a smart phone using a short range wireless communication such as Bluetooth.

However, it can be very cumbersome for the user to directly enter the analyzer measurement results, represented by 10 to 15 numbers. In addition, there is a possibility that an incorrect input may occur when the user inputs, and there is a possibility of correcting an input or inputting wrong measurement data. In addition, in order to upload measurement data through short-range wireless communication such as Bluetooth, a complicated process such as pairing is essential. If the device is not a paired device of the same type there is a problem that can not be interlocked.

On the other hand, the requirements for integrated operation and efficient management of various equipment in the laboratory and the factory are continuously increasing. In addition, the requirements for remote monitoring and operation management of various equipment in the laboratory and the factory are also rapidly increasing.

However, the mix of different environment / specification / data methods of laboratory and factory equipment continues to make system and information integration very difficult and complex. The solution is tailored to the specific equipment or operating / process environment. However, as equipment additions, specifications, operations, or process environments change, the solution's algorithms need to be modified, requiring complex customization.

Conventional solutions rely on their own engines with high error rates, or because of the high accuracy of image recognition and analysis through acquisition with video cameras, there are many potential monitoring errors.

Embodiments of the present invention are integrated monitoring system using an image capture that can read text data from the image data distributed in the equipment data of the device to be captured, and can easily set the monitoring item according to the read text data and user setting command And to provide a method.

Embodiments of the present invention are to provide an integrated monitoring system and method using an image capture, which can minimize the error rate by capturing the image acquisition method mainly in the A / V line.

Embodiments of the present invention designate regions of interest in image data using hardware masks or software masks, and reduce image data based on the designated regions of interest, thereby enabling rapid reading of character data from the reduced image data. To provide an integrated monitoring system and method using image capture.

SUMMARY Embodiments of the present invention provide an integrated monitoring system and method using image capture, which can reduce the resolution of image data and can quickly read text data from the reduced image data.

According to a first aspect of the present invention, character data is read from equipment data obtained from a capture target device, a monitoring item is set according to the read character data and a user setting command, and monitoring data corresponding to the set monitoring item. Capture device for transmitting the user, and receives the character data read from the capture device to display to the user, the user terminal receiving the user setting command that is determined by the user to the monitoring item for the capture target equipment to transmit to the capture device ; And an integrated monitoring server that collects monitoring data transmitted from the capture device and manages the collected monitoring data.

The capture device may include: a data distribution unit configured to extract text data, image data, or image data from the device data obtained from the capture target device, and to distribute the extracted image data to different paths, and to capture the distributed image data. An image capture unit for extracting image data, a character reader for reading character data from the extracted image data, data for setting a monitoring item corresponding to the read character data according to a user setting command and managing the set monitoring item It may include a management unit and a data transmission unit for transmitting the monitoring data corresponding to the monitoring item.

The character reading unit may designate a region of interest in the extracted image data using a hardware mask or a software mask, reduce the image data based on the designated region of interest, and read character data from the reduced image data. Can be.

The character reading unit may reduce the resolution of the extracted image data and read the character data from the image data having the reduced resolution.

The system transmits the read text data to the user terminal to receive a text reading result of the user from the user terminal, and adaptively converts the read text data on the basis of machine learning in which the received text reading result is reflected. It may further include a machine learning unit to adjust to.

The user terminal may be connected to the capture device through short-range communication to recognize a capture target device, and to receive and display text data read by the capture device to the user, and to display the captured object according to the user's selection. Characters read from the capture device for the monitoring setting unit for determining a monitoring item for the equipment, generating a user setting command including the determined monitoring item and transmitting it to the capture device, and a monitoring item set according to the user setting command. Receiving the data may include a monitoring unit for monitoring in real time whether the operation or operation status by laboratory or equipment.

The user terminal may include a learning unit configured to receive image data captured by the capture device and text data read by the capture device, and to feed back learning results compared and confirmed by the user to the capture device and the integrated monitoring server. It may further include.

The integrated monitoring server, the equipment management unit equipment for managing at least one of the equipment schedule, equipment utilization rate and equipment failure rate for the plurality of capture target equipment to collect the monitoring data from the capture device to manage in a big data format Generate statistical data on each fault or alarm, and analyze the generated statistical data to monitor the statistics and trend analysis unit for analyzing the trend by equipment and monitor the operation status and operation status of each laboratory or equipment in which the capture equipment is installed. The integrated monitoring unit may generate an alarm or an event according to the monitoring result.

Meanwhile, according to the second aspect of the present invention, in the integrated monitoring method performed by the integrated monitoring system, the capturing device reads the text data from the equipment data obtained from the capture target equipment. Receiving the received text data and displaying the same to the user, and receiving, by the user terminal, a user setting command from which a monitoring item for the capture target device is determined by the user, and transmitting the received text data to the capture device; Setting a monitoring item according to a user setting command, transmitting monitoring data corresponding to the set monitoring item, and collecting, by an integrated monitoring server, the monitoring data transmitted from the capture device and managing the collected monitoring data; Including An integrated monitoring method using the image capture can be provided.

The reading of the text data may include: a data distribution step of the capturing device extracting text data, image data or image data from equipment data obtained from the capture target equipment and distributing the extracted image data to different paths; An image extraction step of capturing the distributed image data by the capture device to extract image data; And a character reading step of the character capture device reading character data from the extracted image data.

The character reading step designates a region of interest in the extracted image data using a hardware mask or a software mask, reduces the image data based on the designated region of interest, and reads the character data from the reduced image data. can do.

The character reading step may reduce the resolution of the extracted image data and read the character data from the image data whose resolution has been reduced.

The method further includes the capture device transmitting the read text data to the user terminal to receive a text reading result of the user from the user terminal and based on machine learning in which the received text reading result is reflected. The method may further include a machine learning step of adaptively adjusting the data.

The method may further include: receiving, by the user terminal, image data captured by the capture device and text data read by the capture device, and feeding back learning results compared and confirmed by the user to the capture device and the integrated monitoring server. The learning step may further include.

Embodiments of the present invention can read text data from the image data distributed from the equipment data of the device to be captured, and can easily set a monitoring item according to the read text data and a user setting command.

Embodiments of the present invention can minimize the error rate by capturing the image acquisition method directly on the A / V line.

Embodiments of the present invention can quickly read character data from the reduced image data by designating a region of interest in the image data using a hardware mask or a software mask, and reducing the image data based on the designated region of interest. .

Embodiments of the present invention can reduce the resolution of the image data and can quickly read the character data from the image data with reduced resolution.

1 is a block diagram of an integrated monitoring system using image capture according to an embodiment of the present invention.

2 is a block diagram of a capture device in the integrated monitoring system according to an embodiment of the present invention.

3 is a block diagram of a user terminal in the integrated monitoring system according to an embodiment of the present invention.

4 is a block diagram of an integrated monitoring server in an integrated monitoring system according to an exemplary embodiment of the present invention.

5 is an explanatory diagram for a character reading learning process in the integrated monitoring system according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating an OCR setup method by a capture device and a user terminal according to an exemplary embodiment of the present invention.

7 is a flowchart illustrating a movement monitoring method by a user terminal according to an exemplary embodiment of the present invention.

8 is a flowchart illustrating an integrated monitoring method using image capture according to an embodiment of the present invention.

9 is a flowchart illustrating an integrated monitoring method using image capture according to another embodiment of the present invention.

[Description of the code]

100: integrated monitoring system

101: capture target equipment

110: capture device

111: data distribution unit

112: data conversion unit

113: image capture unit

114: character reader

115: data management unit

116: data transmission unit

120: user terminal

121: access and authentication unit

122: monitoring setting unit

123: monitoring unit

124: character reading unit

130: integrated monitoring server

131: Big Data Collection and Management Department

132: equipment management department

133: statistical analysis unit

134: integrated monitoring unit

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. It will be described in detail focusing on the parts necessary to understand the operation and action according to the present invention. In describing the embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention belongs and are not directly related to the present invention will be omitted. This is to more clearly communicate without obscure the subject matter of the present invention by omitting unnecessary description.

In addition, in describing the components of the present invention, different reference numerals may be given to components having the same name according to the drawings, and the same reference numerals may be given to different drawings. However, even in such a case, it does not mean that the corresponding components have different functions according to embodiments, or does not mean that they have the same functions in different embodiments. Judgment should be made based on the description of each component in.

As shown in FIG. 1, the integrated monitoring system 100 using image capture according to an exemplary embodiment of the present invention includes a capture device 110, a user terminal 120, and an integrated monitoring server 130.

Hereinafter, specific configurations and operations of components of the integrated monitoring system 100 using the image capture of FIG. 1 will be described.

The capture device 110 reads the text data from the equipment data obtained from the capture target equipment 101 and sets the monitoring item according to the read text data and the user setting command. The capture device 110 transmits monitoring data corresponding to the set monitoring item to the integrated monitoring server 130.

Here, the capture device 110 connects to the user terminal 120 through wireless communication, and transmits the read text data to the user terminal 120 in cooperation with the connected user terminal 120. The capture device 110 receives a user setting command from which the monitoring item for the capture target device 101 is determined from the user terminal 120 and performs an initial setting process.

The user terminal 120 receives the text data read by the capture device 110 and displays it to the user. In addition, the user terminal 120 receives a user setting command from which a monitoring item for the capture target device 101 is determined by the user, and transmits the received user setting command to the capture device 110.

The integrated monitoring server 130 collects monitoring data transmitted from the capture device 110 and manages the collected monitoring data.

As shown in FIG. 2, the capture device 110 according to an embodiment of the present invention includes a data distributor 111, a data converter 112, an image capture unit 113, a character reader 114, and data. The manager 115 and the data transmitter 116 are included. Here, the capture device 110 may further include a machine learning unit.

Hereinafter, specific configurations and operations of components of the capture device 110 in the integrated monitoring system 100 of FIG. 2 will be described.

The data distribution unit 111 extracts text data, image data or image data from the device data obtained from the capture target device 101. The data distributor 111 distributes the extracted image data through different paths. Here, the data converter 112 may convert a data format of text data, image data, or image data distributed by the data distributor 111.

The image capture unit 113 captures the distributed image data and extracts the image data.

The character reading unit 114 reads the character data from the image data extracted by the image capturing unit 113. Here, the character reading unit 114 may read a character through the optical character recognition (OCR) module provided.

The character reading process may be divided into an example of reading a character based on the region of interest and another example of reading a character by reducing the resolution.

First, an example of reading a character based on a region of interest will be described. The character reading unit 114 designates a region of interest in the image data extracted by the image capturing unit 113 using a hardware mask or a software mask. The text reader 114 may reduce the image data based on the designated region of interest. The character reading unit 114 may read the character data from the reduced image data.

Meanwhile, another example of reading a character by reducing the resolution will be described. The character reading unit 114 reduces the resolution of the extracted image data. In addition, the character reading unit 114 may read the character data from the image data having reduced resolution.

The data manager 115 sets a monitoring item corresponding to the character data read by the character reader 114 according to a user setting command. In addition, the data manager 115 manages the set monitoring item.

The data transmitter 116 transmits monitoring data corresponding to the monitoring item to the integrated monitoring server 130.

On the other hand, the machine learning unit transmits the character data read by the character reading unit 114 to the user terminal 120 to receive the user's character reading result from the user terminal 120. The machine learning unit may reflect the received character reading result in the machine learning algorithm and adaptively adjust the read character data based on the reflected machine learning result.

Meanwhile, the capture device may further include a capture device monitor. The capture equipment monitor displays the image data distributed by the data distributor 111.

As shown in FIG. 3, the user terminal 120 according to an embodiment of the present invention includes a connection and authentication unit 121, a monitoring setting unit 122, and a monitoring unit 123. Here, the user terminal 120 may further include a learning unit.

Hereinafter, specific configurations and operations of respective components of the user terminal 120 in the integrated monitoring system 100 of FIG. 3 will be described.

The connection and authentication unit 121 connects to the capture device 110 through short-range communication to recognize the capture target device 101.

The monitoring setting unit 122 receives the text data read by the capture device 110 and displays the text data to the user. The monitoring setting unit 122 determines a monitoring item for the capture target device 101 according to a user's selection. In addition, the monitoring setting unit 122 generates a user setting command including the determined monitoring item and transmits it to the capture device 110.

The monitoring unit 123 receives the text data read from the capture device for the monitoring item set according to the user setting command and monitors the operation and operation state of each laboratory or each device in real time.

On the other hand, the character reading learning unit 124 receives the image data captured by the capture device 110 and the character data read by the capture device 110. In addition, the character reading learning unit 124 feeds back the learning results compared and confirmed by the user to the capture device 110 and the integrated monitoring server 130.

As shown in FIG. 4, the integrated monitoring server 130 according to an exemplary embodiment of the present invention includes a big data collection and management unit 131, a device management unit 132, a statistical analysis unit 133, and an integrated monitoring unit 134. 123.

Hereinafter, specific configurations and operations of components of the integrated monitoring server 130 in the integrated monitoring system 100 of FIG. 4 will be described.

The big data collection and management unit 131 collects monitoring data from the capture device 110 and manages the data in a big data format.

The equipment manager 132 manages at least one of equipment schedules, equipment utilization rates, and equipment failure rates for the plurality of capture target equipment 101.

The statistical analysis unit 133 generates statistical data on failures or alarms for each device and analyzes the generated trends by analyzing the generated statistical data.

The integrated

monitoring unit

134, 123 monitors the operation and operation status of each laboratory or equipment in which the capture equipment is installed, and generates an alarm or an event according to the monitoring result.

The capture device 110 performs a training OCR process in the capture device 110. Here, the capture device 110 detects a screen change of the capture target device 101. The capture device 110 may compensate for the existing data when the screen is switched. In addition, the capture device 110 may communicate with the integrated monitoring server 130 and upgrade the character read learning.

The user terminal 120 drives a learning OCR application for the learning OCR in the user terminal 120. The user terminal 120 captures an image through the learning OCR application and extracts the read text data from the captured image. The user terminal 120 transmits the learning results to the capture device 110 and the integrated monitoring server 130 through visual comparison and confirmation of the user. In this case, the process of transmitting the learning result may be commonly applied when updating the text reading engine included in the user terminal 120. In this case, the transmission method may be performed on-demand or online.

The integrated monitoring server 130 performs a learning OCR process in the integrated monitoring server 130. The integrated monitoring server 130 may detect a screen change of the capture target device 101 in cooperation with the capture device 110. The integrated monitoring server 130 may integrate the learning OCR in the capture device 110 and upgrade it.

In this way, the capture device 110 first extracts the learning OCR text from the image data, and transmits the extracted learning OCR text to the user terminal 120.

Then, the user terminal 120 compares the learning OCR text with the screen of the capture equipment monitor and feeds back the learning OCR result to the capture device 110. In addition, the user terminal 120 transmits the learning OCR result to the integrated monitoring server 130.

After the training OCR process is performed, the capture device 110 reads the character data from the equipment data obtained from the capture target device 101, and transmits the measurement data including the read character data to the integrated monitoring server 130. send.

The integrated monitoring server 130 collects and manages measurement data. The integrated monitoring server 130 generates a control message related to the measurement data and transmits the control message to the capture device 110.

Meanwhile, the integrated monitoring server 130 may update the OCR engine included in the capture device 110. In addition, the integrated monitoring server 130 may update the software for OCR installed in the capture device 110.

The user terminal 120 accesses the integrated monitoring server 130 and performs authentication on the user terminal 120 (S101).

The user terminal 120 recognizes the capture target equipment 101 for OCR setup through the capture device 110 (S102). In this case, the user terminal 120 may recognize the capture target device 101 by communicating with the NFC tag of the capture target device 101 through the provided NFC module.

In addition, the user terminal 120 is connected to the capture device 110 is connected to the capture target equipment 101 (S103). In this case, the user terminal 120 may access the capture device 110 through the NFC module provided.

Thereafter, the user terminal 120 performs an OCR setting process for the capture target device 101 in cooperation with the capture device 110 (S104). Here, the user terminal 120 checks the main screen of the capture target device 101 in cooperation with the capture device 110, and selects a monitoring item on the main screen. In addition, the user terminal 120 sets a transmission speed for transmitting the read text data in cooperation with the capture device 110. When the OCR setting process is completed, the user terminal 120 checks whether the capture device 110 is executed.

In operation S105, the user terminal 120 completes the initial setup for the OCR setting in association with the capture device 110.

Thereafter, the user terminal 120 transmits the setting environment, which is set in cooperation with the capture device 110, to the integrated monitoring server 130 (S106).

The user terminal 120 accesses the integrated monitoring server 130 and performs authentication on the user terminal 120 (S201).

The user terminal 120 selects the capture target device 101 to be monitored from the list of capture target devices 101 provided by the integrated monitoring server 130 (S202).

Thereafter, the user terminal 120 performs monitoring setting for the selected capture target device 101 (S203). Here, the user terminal 120 sets a mode for monitoring the capture target device 101 and selects a monitoring item. In addition, the user terminal 120 determines whether the monitoring process is executed and monitors the capture target device 101 based on the text data received from the capture device 110.

The capture device 110 extracts text data, image data or image data from the device data (S301).

The capture device 110 distributes the image data in different paths (S302).

Subsequently, the capture device 110 extracts image data by capturing image data (S303).

The capture device 110 reads the character data from the image data (S304).

Then, the capture device 110 transmits the text data to the user terminal 120 (S305).

The user terminal 120 displays the text data received from the capture device 110 to the user (S306).

The user terminal 120 transmits a user setting command to the capture device 110 (S307).

The capture device 110 sets the monitoring item according to the read character data and the user setting command (S308).

The capture device 110 transmits the monitoring data to the integrated monitoring server 130 (S309).

Integrated monitoring server 130 collects the monitoring data received from the capture device 110 (S310).

In addition, the integrated monitoring server 130 generates a data alarm and an event of the monitoring equipment to the user terminal 120 (S311).

The user terminal 120 checks data alarms and events generated by the integrated monitoring server 130 while moving (S312).

In another embodiment of the present invention illustrated in FIG. 9, unlike the embodiment of FIG. 8, the user terminal 120 performs the OCR user setting processes S305, S306, and S307 in advance. That is, another embodiment of the present invention shown in FIG. 9 does not process the entire area of the image data by OCR, but OCR processes and monitors only the portion previously selected or set by the user terminal 120 to advance the user setting command in advance. do. Hereinafter, another embodiment of the present invention shown in FIG. 9 will be described.

The capture device 110 extracts text data, image data or image data from the device data (S401).

The capture device 110 distributes the image data in different paths (S402).

Subsequently, the capture device 110 reads the text data only in a portion selected or set in advance by the user terminal 120, and transmits the read text data to the user terminal 120 (S403).

In operation S404, the user terminal 120 displays the text data read and received from the capture device 110 to the user.

The user terminal 120 transmits a user setting command to the capture device 110 before OCR processing for the entire area (S405). However, the capture device 110 must process the OCR process based on a significant CPU performance. In a practically implemented system, in order to reduce the load on the system, the user setting command step S405 for the OCR is performed in advance before the image data extraction process S406 and the character data reading process S407 for the entire area.

In operation S406, the capture device 110 extracts image data by capturing image data.

The capture device 110 reads the character data from the image data (S407).

Thereafter, the capture device 110 sets the monitoring item according to the read text data and the user setting command (S408).

The capture device 110 transmits the monitoring data to the integrated monitoring server 130 (S409).

Integrated monitoring server 130 collects the monitoring data received from the capture device 110 (S410).

In addition, the integrated monitoring server 130 generates a data alarm and an event of the monitoring equipment to the user terminal 120 (S411).

The user terminal 120 checks data alarms and events generated by the integrated monitoring server 130 while moving (S412).

The embodiments described above are just one example, and various modifications and changes may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims

A capture device that reads text data from equipment data obtained from a device to be captured, sets a monitoring item according to the read text data and a user setting command, and transmits monitoring data corresponding to the set monitoring item;

A user terminal which receives the character data read by the capture device and displays the text data to the user, and receives a user setting command from which the monitoring item for the capture target device is determined by the user and transmits the user setting command to the capture device; And

An integrated monitoring server that collects monitoring data transmitted from the capture device and manages the collected monitoring data;

Integrated monitoring system using an image capture comprising a.
The method of claim 1,

The capture device,

A data distribution unit extracting text data, image data or image data from the device data obtained from the capture target device and distributing the extracted image data to different paths;

An image capture unit for capturing the distributed image data to extract image data;

A character reading unit that reads character data from the extracted image data;

A data manager configured to set a monitoring item corresponding to the read text data according to a user setting command and to manage the set monitoring item; And

A data transmitter for transmitting monitoring data corresponding to the monitoring item;

Integrated monitoring system using an image capture comprising a.
The method of claim 1,

The character reading unit,

Integration using image capture to specify a region of interest in the extracted image data using a hardware mask or a software mask, reduce the image data based on the specified region of interest, and read text data from the reduced image data. Monitoring system.
The method of claim 1,

The character reading unit,

An integrated monitoring system using image capture for reducing the resolution of the extracted image data and reading character data from the reduced image data.
The method of claim 1,

A machine for transmitting the read text data to the user terminal to receive a text reading result of the user from the user terminal and adaptively adjusting the read text data based on a machine learning in which the received text reading result is reflected Running part

Integrated monitoring system using an image capture further comprising.
The method of claim 1,

The user terminal,

A connection and authentication unit connected to the capture device through short-range communication to recognize a capture target device;

Receives the character data read by the capture device and displays it to the user, determines a monitoring item for the capture target device according to the user's selection, and generates a user setting command including the determined monitoring item to generate the capturing device. Monitoring setting unit for transmitting to; And

A monitoring unit configured to receive text data read by the capture device with respect to the monitoring item set according to the user setting command and to monitor whether the operation is performed by the laboratory or the device and in real time;

Integrated monitoring system using an image capture comprising a.
The method of claim 1,

The user terminal,

A learning unit which receives image data captured by the capture device and text data read by the capture device, and feeds back the learning results compared and confirmed by the user to the capture device and the integrated monitoring server;

Integrated monitoring system using an image capture further comprising.
The method of claim 1,

The integrated monitoring server,

A big data collection and management unit for collecting monitoring data from the capture device and managing the data in a big data format;

An equipment manager to manage at least one of equipment schedules, equipment utilization rates, and equipment failure rates for the plurality of capture target equipment;

Statistics and trend analysis unit for generating statistical data on the failure or alarm for each equipment, and analyzing the generated statistical data to analyze the trend by equipment; And

An integrated monitoring unit for monitoring whether the capture device is installed for each laboratory or equipment, whether to operate and operating state, and generating an alarm or an event according to the monitoring result;

Integrated monitoring system using an image capture comprising a.
In the integrated monitoring method performed by the integrated monitoring system,

The capture device reads the character data from the equipment data obtained from the equipment to be captured;

Receiving, by a user terminal, text data read by the capture device and displaying the same to a user;

Receiving, by the user terminal, a user setting command from which a monitoring item for the capture target device is determined by the user, and transmitting the received user setting command to the capture device;

Setting a monitoring item according to the read text data and a user setting command, and transmitting monitoring data corresponding to the set monitoring item; And

An integrated monitoring server collecting monitoring data transmitted from the capture device and managing the collected monitoring data;

Integrated monitoring method using an image capture comprising a.
The method of claim 9,

The step of reading the character data,

A data distribution step of the capture device extracting text data, image data or image data from the device data obtained from the capture target equipment and distributing the extracted image data to different paths;

An image extraction step of capturing the distributed image data by the capture device to extract image data; And

A character reading step of the character capture device reading character data from the extracted image data;

Integrated monitoring method using an image capture comprising a.
The method of claim 10,

The character reading step,

Integration using image capture to specify a region of interest in the extracted image data using a hardware mask or a software mask, reduce the image data based on the specified region of interest, and read text data from the reduced image data. Monitoring method.
The method of claim 10,

The character reading step,

And reducing the resolution of the extracted image data and reading image data from the reduced image data.
The method of claim 10,

The capture device transmits the read text data to the user terminal to receive a text reading result of the user from the user terminal, and adaptively applies the read text data based on machine learning in which the received text reading result is reflected. Machine learning step of adjusting to;

Integrated monitoring method using an image capture further comprising.
The method of claim 9,

A learning step of receiving, by the user terminal, image data captured by the capture device and text data read by the capture device, and feeding back learning results compared and confirmed by the user to the capture device and the integrated monitoring server;

Integrated monitoring method using an image capture further comprising.