KR102318916B1 - Integrated platform of road safety facilities and big data provision method of platform - Google Patents

Abstract

The present invention relates to an integrated platform of road safety facilities, and providing data on the state of safety facilities by installing communication modules to which the protocol of the same protocol is applied to safety facilities on roads installed by each safety facility construction company, respectively. Of course, it is possible to remotely control the big data utilization group at a remote location, and to apply the data of the safety facility to the platform server or to apply the data signal applied from the big data utilization group located at a remote location to the safety facility. A number of communication modules installed in the area and a communication relay module for wireless communication are configured, and data on safety facilities that are approved through the communication relay module are classified and stored by category in the big data utilization group unit that wants to utilize big data. A platform server that provides big data is provided, and the big data utilization group is connected to the platform server through a mobile communication network or Internet network to utilize the big data of safety facilities provided from the platform server, and the collision installed on the road Integrated management of road safety facilities such as prevention devices, speed signs, drain clogging notification devices, safety-guided LED signs, salt water spraying devices, and snow-removing sidewalk blocks, and providing big data for monitoring in a one-stop format, one platform This has the effect of integrated management of safety facilities.

Description

Integrated platform of road safety facilities and big data provision method of platform

The present invention relates to an integrated platform of road safety facilities and a method for providing big data of the platform, and more particularly, road safety facilities such as a collision avoidance system installed on a road, a speed sign, a drain clogging notification device, a safety induction LED sign, etc. And it relates to an integrated platform of road safety facilities and a method of providing big data of the platform to provide integrated system management and monitoring in a one-stop form.

In general, IP-based road safety products used for road safety facilities, etc. may have operational failures due to various reasons such as physical defects and software malfunctions of the equipment, and the equipment required for maintenance of equipment due to equipment failure or malfunction. There is a department dedicated to repair and maintenance, and the management personnel monitor the abnormality of the equipment in real time.

However, since it is by no means easy for management personnel to monitor whether equipment is abnormal in real time, various remote maintenance systems using a communication network such as the Internet have been proposed and used by entrusting a separate safety facility management company.

With such a remote maintenance system, the manager regularly measures the operation data of the equipment he uses, and the maintenance company receives the operation data through the Internet, determines whether there is an abnormality, and notifies the manager. There is an advantage in that the number of dispatching of manpower for inspection can be reduced.

As a prior document provided to facilitate maintenance as described above, the "Facility Integrated Monitoring System and its Operation Method" of Patent Publication No. 2017-0112463 (published on October 12, 2017) is a plurality of facilities distributed for each facility. a communication unit configured to receive a plurality of sensor data from an IoT sensor unit in which IoT sensors are disposed to detect a facility environment; a field conversion unit that converts a communication protocol field of each sensor data into an integrated field with reference to a field table including a plurality of communication protocol fields; a database for storing the integrated field by category or data mining and storing the previously collected machine care big data; An integrated monitoring unit that analyzes sensor data with reference to the machine care big data, and integrally monitors each facility based on the analysis information on the sensor data, and a control command for controlling the operation of the facility determined as an abnormal symptom It is configured to include a control unit for generating.

The prior literature configured as described above includes the steps of receiving a plurality of sensor data from an IoT sensor unit for detecting a facility environment by disposing a plurality of IoT sensors to be distributed for each facility of a facility through a communication unit; converting a communication protocol field of each sensor data into an integrated field with reference to a field table including a plurality of communication protocol fields through a field conversion unit; Separating and storing the integrated field by item in the database, or data mining and storing the machine care big data collected in advance; analyzing sensor data with reference to machine care big data through an integrated monitoring unit; The operation of the integrated facility monitoring system is performed by determining abnormal signs of each facility based on the analysis information on the sensor data and integrally monitoring each facility through the determination information on the abnormal signs.

However, for safety facilities installed directly, maintenance of failures or malfunctions of safety facilities can be performed through IP-based data transmission and reception. Due to this, there is a problem in that it is not possible to check the malfunction or malfunction.

Unexamined Patent Publication No. 2017-0112463 (published on October 12, 2017)

The present invention for achieving the above object is an integrated management and monitoring of road safety products, such as a collision avoidance device, a speed sign, a drain clogging notification device, a safety induction LED sign, a salt water spray device, a snow-removing sidewalk block, etc. installed on the road The purpose of this is to provide an integrated platform for road safety facilities that provides big data in a one-stop format and utilizes it, and a method for providing big data of the platform.

In addition, the present invention installs a communication module in all safety facilities installed on the road, acquires data through the communication module, and provides big data to the road construction server and the safety facility construction company that installed the safety facility so that it can be utilized. It aims to provide an integrated platform for road safety facilities and a method for providing big data of the platform.

The present invention is a means for achieving the above object,

Each safety facility construction company installs a communication module with the same protocol applied to each safety facility on the road to provide data on the state of the safety facility as well as remotely control it from a remote big data utilization group. Communication is performed with a plurality of communication modules installed in a predetermined area so that the data of the safety facility can be applied to the platform server or the data signal applied from the big data utilization group located at a remote location can be applied to the safety facility. A relay module is configured, and a platform server that provides big data to the big data utilization group that wants to utilize big data in which data on safety facilities authorized through the communication relay module is classified and stored by category is provided, and the platform server It provides an integrated platform for road safety facilities, characterized in that the big data utilization group unit is connected through a mobile communication network or internet network with the platform server to utilize the big data of the safety facilities provided from the platform server.

The platform server of the present invention receives data of road safety facilities approved through a mobile communication network, classifies them by category, and classifies them into subcategories in the classified categories to provide big data to the big data utilization group based on HTTP protocol. washer; an authentication server that performs an authentication process so that the big data utilization group unit can utilize the big data stored in the database, and shares a secret key with the washer server, comparison/analysis server, and communication server; a comparison/analysis server that compares and analyzes the data requested by the big data utilization group unit by section based on the data stored in the database in the form of a graph together with text; a communication server for smoothly receiving data of safety facilities approved through a mobile communication network or Internet network or transmitting data according to a requirement from a big data utilization group unit; a backup server for backing up and storing data stored in the database without affecting the performance of the washer server; The data of the safety facility that is applied through the mobile communication network or the Internet network is classified in the Wass server 31 by category, and the data reclassified by the subcategories in the Wass server is again stored in the database, characterized in that it is stored. .

The Was Server of the present invention adjusts each code according to the ID, company name, safety facility location, safety facility name, failure or operation status to a ratio so that data and specific format for each safety facility code according to the company can be displayed. and matching the adjusted data to each item, and analyzing the matching data in the comparison/analysis server for the matched display contents to determine whether there is an error, and then to generate a sheet through the washer server.

The comparison / analysis server of the present invention, if there is no error in the state of checking the error state of the data, ID, company name, safety facility location, safety facility name, failure or It is characterized in that the contents of the operating state are read.

In the database of the present invention, data is stored by the washer server centered on any one period of each period, that is, 1 week, 2 weeks, 3 weeks, or 4 weeks, or data is stored only when an event occurs. characterized.

The present invention is another means for achieving the above object,

A process (S10) of determining whether there is data applied through a mobile communication network or the Internet network in the Wass server of the platform server in the Wass server; The process of reading the data stored in the database from the washer server and determining whether there is an error in the data (S20); If an error does not occur, the process of re-saving in the database so that a backup copy is created (S30) and; If there is no error after checking the error status of the data, the ID, company name, location of safety facilities, safety facility name, failure or operation status included in the data to match the data to the sheet together with the Washer server and the comparison/analysis server a process of reading (S40); The process (S50) of determining whether a company code is included in the data read by the washer server and the comparison/analysis server (S50); The process of determining whether there is a safety facility code after checking the presence or absence of a company code in the washer server (S60); When it is confirmed that there is a company code and a safety facility code by the washer server, the process of classifying each safety facility code according to the company (S70); Each code according to ID, company name, safety facility location, safety facility name, failure or operating status is adjusted in proportion to the data and displayed in a specific format for each safety facility code according to the company in the washer server. The process of generating a sheet through the washer server after determining whether there is an error by analyzing the matching data in the comparison/analysis server by matching the data of the state to each item (S80); It provides a method for providing big data of a platform, comprising: a process (S90) of storing the sheet generated by the Wass server in the database.

The process (S50) of the present invention is characterized by including a company code generation process (S51) of newly generating a company code by determining that there is no company code if the company code is not included in the data.

The process (S60) of the present invention is characterized in that it includes a safety facility code generation process (S61) of newly generating a safety facility code when there is no safety facility code.

The present invention provides integrated management of road safety facilities such as collision avoidance devices, speed signs, drainage clogging notification devices, safety guidance LED signs, salt water spraying devices, and snow-removing sidewalk blocks installed on roads, and monitoring big data in a one-stop format. This has the effect of integrated management of safety facilities through one platform.

In addition, the present invention installs a communication module in all safety facilities installed on the road, acquires data through the communication module, and provides big data to the road construction server and the safety facility construction company that installed the safety facility so that it can be utilized. Therefore, it is possible to clearly understand the failures that occur for the same reason, so that preventive maintenance of safety facilities is possible.

In addition, the present invention accumulates data applied through a communication module installed in a safety facility, and processes and provides data for the contents requested by the big data utilization group through the accumulated data. There is an effect that the company can easily maintain and manage safety facilities.

1 is a view showing the configuration of a road safety facility integrated platform according to the present invention.
2 is a flowchart illustrating a state in which data is processed to provide big data to a big data utilization group in the road safety facility integrated platform according to the present invention.
3 is a view showing a state in which data is processed in the road safety facility integrated platform according to the present invention and displayed in the big data utilization group unit;

Hereinafter, the configuration of the road safety facility integrated platform according to the present invention will be described.

The road safety facility integration platform of the present invention installs the communication module 11 to which the protocol of the same protocol is applied to the road safety facility 10 installed by each safety facility construction company, respectively, to the state or remote location of the safety facility 10 to be remotely controlled by the big data utilization group unit 40 of A plurality of communication modules 11 installed in a predetermined area and a communication relay module 20 for wireless communication are configured to apply a signal to the safety facility 10 , and a safety facility applied through the communication relay module 20 . A platform server 30 that provides big data to the big data utilization group unit 40 that wants to utilize big data in which data for (10) is classified and stored by category is provided, and the platform server 30 and the mobile communication network Alternatively, the big data utilization group unit 40 is connected through the Internet network and the big data of the safety facility 10 provided from the platform server 30 is utilized.

The road safety facility integration platform of the present invention will be described in detail with reference to the accompanying drawings.

1 , the present invention includes a road safety facility 10 , a communication relay module 20 , a platform server 30 , and a big data utilization group unit 40 .

The safety facility 10 is installed on the road to enable safe driving when driving a vehicle, and a communication module 11 having the same communication protocol provided by a platform company operating the platform server 30 is installed, ID, It composes the processed data of the company name, the location of the safety facility, the name of the safety facility, and the failure or operation status. The processed data is wirelessly applied through the communication relay module 20 .

The safety facility 10 includes, but is not limited to, a collision avoidance device, a speed sign, a drain clogging notification device, a safety-guided LED sign, a salt water spray device, and a snow-removing sidewalk block. That is, the safety facility 10 corresponds to all safety facilities installed on the road so that the safe operation of the vehicle is made.

The communication relay module 20 performs wireless communication with the communication module 11 installed in a plurality of safety facilities 10 located within a predetermined area so that data can be applied to the platform server 30 .

That is, short-range wireless communication is performed with the communication module 11 installed in a plurality of safety facilities 10 located within a predetermined area, and data transmission and reception with the platform server 30 or the big data utilization group unit 40 is a mobile communication network. or through the Internet network.

The platform server 30 includes a washer server 31, an authentication server 32, a comparison/analysis server 33, a communication server 34, a backup server 35, and a database 36. The data applied through the relay communication module 20 and the mobile communication network or the Internet network through the communication module 11 installed in 10) are processed according to the state required by the big data utilization group unit 40, and then the data is processed into a sheet form. The data is processed on the sheet and provided as texts and graphics (figures, photos, images, etc.) of various contents.

The graphic provided in the sheet displays the main category for the safety facility 10 installed by the connected facility construction company when the facility construction company accesses the website, and when the main category is selected, a map for the selected facility displayed in the form

The current state of the safety facility 10 displayed in the map form is displayed, and if a failure occurs at this time, it is displayed in a color different from that of the normally operated facility, and at the same time, what kind of failure is displayed so that it can be confirmed.

For example, if the voltage is unstable, the message 'Voltage instability' or a corresponding symbol is displayed, and if it is in an inoperable state, it displays the message 'Inoperable' and at the same time displays the off state symbol for easy confirmation. make it possible

In addition, the platform server 30 divides the main category and sub-category into a main category and a sub-category when provided in graphic form and displays it in the big data utilization group unit 40, and the category related when the selected main category and sub-category is selected through this If there is, the content is displayed by branching again, and if there is no related category, the content of the data is finally displayed in the form of a sheet.

The Wass server 31 receives the data of the road safety facility 10 applied through the mobile communication network, classifies it by category, reclassifies the sub-categories in the classified category, and applies the comparison/analysis server 33 to The data is processed into a specific sheet form so that the data approved by each facility 10 is matched to the sheet, and the matched data can be checked in the big data utilization group unit 40 .

The data processed in the sheet form is made by processing the data applied from the safety facility 10, and the big data that is processed and stored in this way is provided to the big data utilization group unit 40 based on the HTTP protocol. make it possible

The washer server 31 is implemented as one or more servers operating in a computing-based method or a cloud method, and in particular, product information or consumer information data applied in an online form can be permanently stored in a cloud computing device on the Internet. It may be provided through a cloud computing function. Here, cloud computing is a virtualized IT (Information Technology) resource, for example, hardware (server, storage, network, etc.), software ( Database, security, web, server, etc.), data, etc., refers to a technology that provides an on-demand service.

The authentication server 32 performs an authentication process so that the big data utilization group unit 40 can utilize the big data stored in the database 36, the washer server 31, the comparison/analysis server 33, the communication server ( 34) and each share a secret key.

The comparison/analysis server 33 compares and analyzes the data stored in the database 36 by section to classify the data so that it can be processed in the washer server 31 in the form of a sheet including text and graphs, The server 31 processes data to facilitate matching.

The communication server 34 facilitates the reception of data for safety facilities approved through the mobile communication network or the Internet network or the transmission of data according to the requirements from the big data utilization group unit 40 .

The backup server 35 backs up and stores the data stored in the database 36 without affecting the performance of the washer server 31 .

In addition, the database 36 categorizes the data of the safety facility 10 applied through the mobile communication network or the Internet network by category in the Wass server 31, and reclassifies it by subcategory in the Wass server 31 again. The data is saved.

The database 36 stores data by the washer server 31 centered on any one period of each period, that is, 1 week, 2 weeks, 3 weeks, and 4 weeks, or limits the data only when an event occurs. Save. The storage of the data is not limited to a period or event occurrence, and may be stored according to a regular period set by the big data utilization group unit 40 or may be stored irregularly by an administrator.

The big data utilization group unit 40 includes a road construction server that manages the entire road, and a safety facility 1 to safety facility n construction server for installing safety facilities on the road. The big data utilization group unit 40 is not limited to the above road construction server, safety facility 1 to safety facility n construction server, and includes all companies that have installed safety facilities on the road.

A state in which data applied from the safety facility 10 of the present invention configured as described above is processed by the platform server 30 and displayed on the web will be described with reference to FIGS. 2 and 3 .

As shown in Figures 2 and 3, the Wass server 31 determines whether there is data applied through the mobile communication network or the Internet network in the Wass server 31 of the platform server 30 (S10), and the applied data is If there is no, it is continuously determined whether or not the authorization exists, and when it is determined that the data is authorized from the communication module 11 installed in the safety facility 10, it is stored in the database 36 to prevent data loss as much as possible.

The data stored in the database 36 is read from the washer server 31, and it is determined whether there is an error in the read data (S20), and when an error occurs, the washer server 31 through a mobile communication network or Internet network to apply a signal to the communication module 11 so that the data can be retransmitted, and if an error does not occur, it is stored again in the database 36 so that a backup copy is created (S30).

If there is no error after checking the error state of the data as described above, the washer server 31 and the comparison/analysis server 33 together with the ID included in the data to match the data to the sheet, company name, safety facility location, safety facility The contents of the name, failure or operation state are read (S40).

The Wass server 31 and the comparison/analysis server 33 determine whether the company code is included in the data read (S50), and if the company code is not included in the data, there is no company code. A company code generation process (S51) for newly creating a company code is performed by judging, and if the company code is loaded, it is compared with the company code stored in the database 36 to determine whether there is the same company code.

After checking the presence of the company code in the washer server 31, it is determined whether there is a safety facility code (S60), and if there is no safety facility code, a safety facility code generation process (S61) of newly generating a safety facility code is performed. to establish a new safety facility code, and if there is a safety facility code, compare it with the safety facility code for each company stored in the database.

When it is confirmed that there is a company code and a safety facility code by the washer server 31 as described above, the sheet can be generated by classifying (S70) for each safety facility code according to the company.

Each code according to ID, company name, safety facility location, safety facility name, failure or operating state is adjusted according to the ratio so that the data for each safety facility code according to the company and the specific format can be displayed in the washer server 31 Then, the data in the adjusted state is matched to each item, and the matching data is analyzed in the comparison/analysis server 33 for the matched display contents to determine whether there is an error, and then a sheet is generated through the washer server (S80) and store it in the database (S90).

The data processing process has been described above, and the contents are displayed differently depending on the text requested by the big data utilization group unit 40 .

For example, if text is input to investigate the item of street light in the big data utilization group unit 40, the Wass server 31 displays each sub-category along with the main category for street light based on HTTP.

When a sub-category is selected in the big data utilization group unit 40, another sub-category is displayed according to the selected content, and at the same time, a list, contents, images, graphs, etc. are displayed according to the selected content, and the final step for the displayed content In this case, according to the content, new data is processed as if the data was operated by the sheet in the above, and at least one sheet according to the latest or specific text is displayed.

At this time, when big data is investigated in text form, data of other companies is also displayed along with data according to the company being investigated to provide data so that the contents of the investigation can be clearly identified.

And when the safety facility 1 to facility n construction company server investigates its own safety facility 10, more detailed content than the general content may be additionally displayed. For example, the cause and date of the failure in the most recently repaired state and the cause and date of the failure repaired in the past are listed together so that the cause of the failure can be identified.

As shown by giving one example in the drawing, when the failure occurs due to electrical reasons such as short circuit, short circuit, etc., it can be determined that a problem has occurred in the power supply system, so that the safety facility 10 is It has the advantage of being able to perform preventive maintenance by occupying safety facilities in the area where they are located so that failures do not occur for the same reason in the future.

That is, data applied through the communication module 11 installed in the safety facility 10 is accumulated, and data is processed and provided for the contents requested by the big data utilization group unit 40 through the accumulated data, so that one Using the platform, many companies have the advantage of easy maintenance and management of safety facilities.

In addition, since the data on the safety facility 10 is stored in the platform server 30, processed and utilized in the big data utilization group unit 40, integrated management of the safety facility is performed through one platform. There are advantages.

Although the present invention has been described by giving one example, it is not limited thereto, and the data applied from the safety facility 10 installed on the road or the event occurring in the safety facility 10 can be processed in various forms. Of course, various data contents can be processed and provided in various forms.

Although the present invention depicts acts in the drawings in a particular order, it is not to be understood that such acts must be performed in the particular order or sequential order shown or that all depicted acts must be performed in order to achieve desirable results. . In certain cases, multitasking and parallel processing may be advantageous. Further, the separation of the various system components of the above-described embodiments should not be construed as requiring such separation in all embodiments, and the program components and systems described are generally integrated together into a single software product or packaged into multiple software products. You have to understand that it can be.

While this specification contains numerous specific implementation details, they should not be construed as limitations on the scope of any invention or of what may be claimed, but rather as descriptions of features that may be specific to particular embodiments of the particular invention. should be understood Certain features that are described herein in the context of separate embodiments may be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment may also be implemented in multiple embodiments, either individually or in any suitable subcombination. Furthermore, although features operate in a particular combination and may be initially depicted as claimed as such, one or more features from a claimed combination may in some cases be excluded from the combination, the claimed combination being a sub-combination. or a variant of a sub-combination.

On the other hand, the embodiments of the present invention disclosed in the present specification and drawings are merely presented as specific examples to aid understanding, and are not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

10: safety facility 11: communication module
20: communication relay module 30: platform server
31: washer server 32: authentication server
33: comparison / analysis server 34: communication server
35: backup server 36: database
40: Big Data Utilization Group Department

Claims (9)

Each of the communication modules 11 to which the protocol of the same protocol is applied is installed in the safety facilities 10 on the road installed by each safety facility construction company to provide data on the state of the safety facilities 10 as well as to provide data on the state of the safety facilities 10 to be remotely controlled by the data utilization group unit 40,
A plurality of communications installed in a predetermined area to apply the data of the safety facility 10 to the platform server 30 or to apply the data signal applied from the big data utilization group unit 40 located at a remote location to the safety facility 10 A communication relay module 20 for performing wireless communication with the module 11 is configured,
A platform server 30 that provides big data to the big data utilization group unit 40 that wants to utilize big data in which data on the safety facility 10 approved through the communication relay module 20 is classified and stored by category. is provided,
The platform server 30 and the big data utilization group unit 40 are connected through a mobile communication network or Internet network to utilize the big data of the safety facility 10 provided from the platform server 30,
After determining whether there is data applied from the washer server 31 of the platform server 30 and reading the data stored in the database 36 to determine whether there is an error in the data, if an error does not occur in the washer server 31, the backup copy is stored in the database to be created,
If there is no error in the data, the washer server 31 and the comparison/analysis server 33 together to match the data to the sheet ID, company name, safety facility location, safety facility name, breakdown or operation status contents included in the data After checking whether there is a company code in the read data while reading the
When it is confirmed that there is a company code and a safety facility code by the washer server 31, it is classified by safety facility code according to the company,
Each code according to ID, company name, safety facility location, safety facility name, failure or operation status is adjusted to the ratio so that the data for each safety facility code according to the company and the specific format can be displayed in the Wass Server 31. The integrated platform of road safety facilities, characterized in that the data in the adjusted state is matched to each item, and the matching data is analyzed in the comparison/analysis server to determine whether there is an error, and the sheet is created and stored in the database. According to claim 1,
The platform server 30,
Wass that receives data of road safety facilities 10 approved through a mobile communication network, classifies them by category, and provides big data to the big data utilization group unit 40 based on HTTP protocol by classifying them into subcategories in the classified categories. a server 31;
The big data utilization group unit 40 performs an authentication process so that the big data stored in the database 36 can be used, and the Wass server 31, the comparison/analysis server 33, the communication server 34 and each secret key a shared authentication server 32;
a comparison/analysis server 33 that compares and analyzes data requested by the big data utilization group unit 40 on the basis of the data stored in the database 36 by section and provides the analyzed data together with text in a graph form;
a communication server 34 for smoothly receiving data of the safety facility 10 approved through a mobile communication network or Internet network or transmitting data according to the requirements from the big data utilization group unit 40;
a backup server 35 for backing up and storing data stored in the database without affecting the performance of the washer server 31;
The data of the safety facility 10 applied through the mobile communication network or the Internet network is classified in the Wass server 31 by category, and the data reclassified by the subcategories in the Wass server 31 is stored in the database 36 ;
An integrated platform of road safety facilities, characterized in that it comprises a. 3. The method of claim 2,
The washer server 31,
Adjust each code according to the ID, company name, safety facility location, safety facility name, failure or operation status to the ratio of the sheet so that it can be displayed in a specific format and data for each safety facility code according to the company,
Matches the data adjusted to the ratio of the sheet to each item,
An integrated platform for road safety facilities, characterized in that the comparison/analysis server (33) analyzes the matching data for the matched display contents, determines whether there is an error, and then generates a sheet. 3. The method of claim 2,
The comparison / analysis server 33 is
If there is no error while checking the error state of the data, the ID, company name, safety facility location, safety facility name, failure or operation status included in the data are read to match the data to the sheet together with the washer 31 Integrated platform of road safety facilities, characterized in that. 3. The method of claim 2,
The database 36 is
Data is stored by the washer server 31 centered on any one period of data by cycle, that is, 1 week, 2 weeks, 3 weeks, 4 weeks, or data is stored only when an event occurs. An integrated platform of road safety facilities. According to claim 1,
The big data utilization group unit 40,
A road safety facility, characterized in that it includes both a road construction server that manages the entire road, and a safety facility 1 to safety facility n construction server that installs safety facilities on the road, as well as a company that installs safety facilities on the road integrated platform. The process (S10) of determining whether there is data applied through the mobile communication network or the Internet network in the washer server 31 of the platform server 30;
The process of reading the data stored in the database 36 from the washer server 31 and determining whether there is an error in the data (S20);
If an error does not occur, the process of re-saving in the database so that a backup copy is created (S30) and;
If there is no error in the state of checking the error state of the data, the washer server 31 and the comparison/analysis server 33 together with the ID included in the data to match the data to the sheet, company name, safety facility location, safety facility name, The process of reading the contents of the failure or operating state (S40) and;
The process (S50) of determining whether the company code is loaded in the data read by the washer server 31 and the comparison/analysis server 33 (S50);
The process of determining whether there is a safety facility code after checking the presence or absence of a company code in the washer (31) (S60);
When it is confirmed that there is a company code and a safety facility code by the washer server 31, a process of classifying each safety facility code according to the company (S70);
Each code according to ID, company name, safety facility location, safety facility name, failure or operation status is adjusted in proportion so that the data for each safety facility code according to the company and a specific format can be displayed in the washer server 31 , The process of generating a sheet through the washer server after determining whether there is an error by analyzing the matching data in the comparison/analysis server by matching each item with the adjusted data (S80);
The process of storing the sheet generated by the washer server in the database (S90);
Big data providing method of the platform, characterized in that it comprises a. 8. The method of claim 7,
The process (S50) is,
If the company code is not included in the data, it is determined that there is no company code and a company code generation process (S51) of newly generating the company code is included. 8. The method of claim 7,
The process (S60) is,
When there is no safety facility code, a method for providing big data of a platform comprising a safety facility code generation process (S61) of newly generating a safety facility code.

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