KR20220131561A - Big data . - Google Patents

Abstract

The present invention relates to a monitoring and control method using a monitoring and control system for supporting big data-based remote operation using an open source. The monitoring and control method, according to the present invention, comprises the steps of: accessing a designated drainage pumping station and relay pumping station domain site; transmitting user ID and password information to request authentication; transmitting file format information to a central processing unit; determining whether an IOT fire sensor, temperature sensor, humidity sensor, and rainfall sensor are normal; if abnormal, transmitting alarm details to a manager; if normal, determining a control command; if the control command is in an auto mode, executing the control command by an automatic control operation algorithm; and if the control command is in a manual mode, executing the received command and feeding back data. According to the present invention, the operation state and data of facilities and other devices inside a building can be monitored and controlled.

Description

Monitoring and control system that supports remote operation based on big data using open source{.}

The present invention relates to a monitoring and control system supporting remote operation based on big data using an open source, and more particularly, the present invention relates to monitoring, control, and remote monitoring of an IOT environment (facility) by a wired or wireless Internet-based automatic operation algorithm. , the control system communicates data collected from measuring devices in the field in both directions from the smart facility remote monitoring data storage device, and performs automatic operation of the relay pumping station (rainwater, rainwater, drainage) according to the operation algorithm for the collected data, and opens User-friendly drawing of UI (user interface) through web and app using source and direct connection to PLC to monitor and control using I/O Data is collected through IOT base (wifi, LoRa, Bluetooth,) communication or Ethernet (TCP/IP), Serial (RS232, 485, 422) communication of the water quality measuring device and pump operation status from the device, that is, STU (Smart Terminal Unit), Analyze and install an IOT-based network camera for real-time video monitoring of the relay pumping station (rainwater, stormwater, drainage) to enable video monitoring and control of power and equipment in the relay pumping station (rainwater, stormwater, drainage) building. Remote monitoring of relay pumping stations (rainwater, rainwater, drainage) that enables automatic operation control of IOT environment algorithms and enables monitoring and control of the operation status and data of facilities and other devices inside buildings while checking the equipment status and operation status of measuring devices with video; It relates to a monitoring and control system that supports remote operation based on big data using an open source for control system devices.

Conventional Invention No. 2005-0097606 is a monitoring and control method in which the existing integrated management system for drainage pumping stations has a computer in the operation room of the drainage pumping station, developed a GIS-based separate program, and the operator measures the inflow flow rate and drainage level to operate the pump.

Conventional Invention No. 2006-0017532 discloses that the existing web-based system stores data collected from measuring instruments in the Internet web server (IWS) and transmits the data directly from the web module to the Internet. If an error occurs in any one place, a problem that can cause catastrophic damage to the entire system may occur.

In addition, it can be said that there is a limit to the application of various application systems as it is a dedicated equipment for water quality measurement equipment.

In general, the amount of precipitation in Korea in summer is sudden due to climate change, and the rainwater treatment plant, reservoir, and drainage pumping plant management are urgently needed more than ever.

Korean Patent Publication No. 2005-0097606 Korea Patent Publication No. 2006-0017532

The present invention has been made to solve the above problems, and it is a smart facility for monitoring, controlling, and IOT environment (facility) remote monitoring and control system by a wired or wireless Internet-based automatic operation algorithm to collect data collected from measuring devices in the field. The remote monitoring data storage device communicates in both directions and relays the collected data according to the operation algorithm. The automatic operation of the pumping station (rainwater, stormwater, drainage) is performed, and the web connection is made to enable remote monitoring and control through the web and app. and smart water quality measuring device and pump operation status through IOT base (wifi, LoRa, Bluetooth) communication or Ethernet (TCP/IP), Serial (RS232, 485, 422) communication to collect and analyze data, and relay pump station (rainwater, rainwater) , drainage), equipped with an IOT-based network camera to monitor and control the power and equipment in the relay pumping station (rainwater, rainwater, drainage) building, so that the on-site facility status and measuring device operation status are imaged The purpose of this is to provide a remote monitoring and control system device for a relay pump station (rainwater, rainwater, drainage) that enables monitoring and control of the operation status and data of internal facilities and other devices while checking with the IOT environment and automatic algorithm operation control. have.

In order to solve the above problems, the present invention includes the steps of accessing a designated drainage pumping station and a relay pumping station domain site through an Internet network connected to an operator's smartphone app or computer web; transmitting user ID password information from an operator terminal to request authentication from a remote monitoring data storage device STU (Smart Terminal Unit); transmitting file format information to a central processing unit after authentication for user information requested by the remote monitoring data storage device STU; determining whether an IOT fire detection sensor, a temperature sensor, a humidity sensor, and a rainfall and snow volume sensor of the designated water treatment site among the drainage pumping station and the relay pumping station are normal; If it is abnormal (no), sending an alert in the form of a cacao push to an alert generated and registered manager of an alert signal; If it is normal (yes), the user operation, the control command data storage device, the central processing unit of the STU (Smart Terminal Unit) determining the control command (Auto, manual) command; if the control command is Auto, performing, by the central processing unit, a control command according to an automatic control operation algorithm; If the control command is Manual, the central processing unit performs the command received from the digital processing unit and feeds back the data.

and displaying the command feedback signal performed by the central processing unit as a graphic screen processing unit.

The step of displaying the command feedback signal performed by the central processing unit as a graphic on the screen processing unit is based on a security IOT to check the facility water level, rainfall, and snowfall of the mechanical facilities, power facilities, and measuring devices in the drainage pumping station and relay pumping station. Web camera (wifi, LoRa, Bluetooth) for any one of the communication method and Internet connection, by placing a wired or wireless (4G, 5G) communication network, through a smart device and a computer, remotely monitoring and controlling; The input and output of the data storage device is a user-friendly UI (user interface) design through the web and app using open source. Displaying the status of the measuring device, checking the collected data to the central processing unit through the GUI input unit during the operator's inspection and on-site operation, and transmitting the operating status.

The data stored in the database is compared with the automatic control operation algorithm to execute a command in an environment of a normal operation state, and feed back the processing result to display the executed command on the graphic screen.

The data stored in the database 320 provides data to the trend monitoring processing unit 38 when a user requests a driving trend, and the stored data includes a step of providing a trend through a graphic processing unit in units of minutes, hours, days, and months do.

A driving status analysis processing step of analyzing the building and facility status by hour, month, and season by using the data of the database and providing it to the operator, and creating an operator algorithm to provide information to the operator according to the building and facility conditions; includes.

The present invention is a measurement device (21, 22), a smart building and facility remote monitoring data storage device, a STU (Smart Terminal Unit) (30), an IOT module communication unit (33), an Ethernet port or a serial (RS232, 485, 422) port (44) ), web transmission module 50, central processing unit 300, and in the monitoring and control system supporting remote operation based on Big data using an open source consisting of a database, the IOT module communication unit 33 includes the rain gauge, It supports the IOT protocol for transmitting the real-time data collected from the water level meter and the flow meter, and the Ethernet port or serial (RS232, 485, 422) port 44 is the normal communication of the serial port (RS232C) communication, measured in the protocol processing unit 43 It is transmitted to the central processing unit 300 according to the device, communication protocol and communication speed, and a web camera is connected to the Ethernet port so that operation is possible while directly checking the operation status of the site. is sent to

The real-time data collected from the rainfall snow meter, water level meter, and flow meter are measured in the protocol processing unit 43 through the IOT module communication unit 33 supporting IOT, or the Ethernet port or serial (RS232, 485, 422) port 44. The wired and wireless communication control unit 32 that supports wired and wireless communication for communication with the central processing unit 300 by matching the communication protocol and communication speed with the IP sharer 31, the IOT module communication unit 33 is the IOT (wifi) , LoRa, Bluetooth) is communicated through the communication unit 34 supporting the IOT module, and the central processing unit 300 receives the data of the measurement devices 21 and 22 through the above-described communication modules and stores it in the database 320 . In addition, the drainage pumping station and relay pumping station strictly restrict access to major facilities, and a security IOT-based web camera to directly check the equipment and facility water level, rainfall, and snowfall in the pumping station. Wired and wireless (4G, 5G) communication networks are installed for any one of the communication methods (wifi, LoRa, Bluetooth) and Internet connection, so that monitoring and recording with NVR (Network Video Recorder) are possible remotely through smart devices and computers. A possible system is provided.

The present invention made as described above compiles and uses an open source-based program and uses it as a platform, so the program development environment is free and only economically necessary programs are used to automate and unmanned remote operation and IOT-based environmental facilities and drainage pumping stations. It is a system that communicates with equipment and manages it. The real-time data collected from the rainfall snow gauge, water level gauge, and flow meter is transmitted through the IOT module communication unit for devices that support IOT, or through the Ethernet port or serial (RS232, 485, 422) port. The processing unit matches the communication protocol and communication speed with the measuring device, and the central processing unit saves the data of the instrument. The data is created in the database and stored in the data storage device. The data of the database can transmit the data of the data storage device upon the request of the data transmission unit.

In addition, the present invention can remotely control the operation of the on-site instrument and the pump motor through PLC, and for unmanned operation, it is possible to secure indoor occupants and check whether the commercial power supplied by KEPCO is in the operating state of the UPS and the generator due to a power outage. For this purpose, it is possible to safely store the real-time status in the database through the digital input unit as a digital contact point for the UPS power operation status.

In addition, the drainage pumping station and relay pumping station strictly restrict access to major facilities, and secure IOT-based Web cameras (wifi, LoRa , Bluetooth) by connecting a wired or wireless (4G, 5G) communication network for any one communication method and Internet connection to provide a system capable of remote monitoring and control through a smart device and a computer, a data storage device, The STU (Smart Terminal Unit) input and output is a GUI (Graphic User Interface) environment through the touch screen, and the data requested by the operator is graphically displayed on the graphic screen to display the status of the measuring device, and the GUI input for operator inspection and field operation The data collected in the central processing unit can be checked through the unit and the operation status can be transmitted conveniently.

1 is a diagram showing the overall configuration of a monitoring and control system supporting remote operation based on big data using an open source according to an embodiment of the present invention.
2 is a diagram illustrating a monitoring and control method supporting remote operation based on big data using an open source according to an embodiment of the present invention.
3 is a diagram showing the overall configuration of a monitoring and control system supporting remote operation based on big data using an open source according to another embodiment of the present invention.
4 is a diagram showing the overall configuration of a monitoring and control system supporting remote operation based on big data using an open source according to another embodiment of the present invention.
5 is a diagram showing the overall configuration of a monitoring and control system supporting remote operation based on big data using an open source according to another embodiment of the present invention.
6 is a diagram showing the overall configuration of a monitoring and control system supporting remote operation based on big data using an open source according to another embodiment of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shape of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

The amount of precipitation in Korea in summer is sudden and intensive due to climate change, and management of rainwater treatment plants, reservoirs, and drainage pumping stations is more necessary than ever. It is a system that manages

The present invention is a measurement device (21, 22), a smart building and data storage device, a STU (Smart Terminal Unit) (30), an IOT module communication unit (33), an Ethernet port and a serial (RS232, 485, 422) port (44), a web It is composed of a transmission module 50 , a central processing unit 300 , a database 320 , and the like.

The measuring devices 21 and 22 include a rain gauge, a water level gauge, and a flow meter to check the equipment and facility water level, rainfall, and snowfall in the drainage pumping station and relay pumping station.

The IOT module communication unit 33 supports the IOT protocol for transmitting real-time data collected from the rain gauge, water level gauge, and flow meter.

The Ethernet port and the serial (RS232, 485, 422) port 44 transmit to the central processing unit 300 according to the measurement device and the communication protocol and communication speed from the protocol processing unit 43 through serial port (RS232C) communication.

In addition, a web camera is installed to enable operation while directly checking the operation status of the site, connected to the Ethernet port, and the collected images are transmitted to the user through the web transmission module.

The real-time data collected from the rainfall snow meter, water level meter, and flow meter is transmitted through the IOT module communication unit 33 supporting IOT or the Ethernet port or serial (RS232, 485, 422) port 44

The protocol processing unit 43 communicates with the central processing unit 300 and the like by matching the communication protocol and communication speed with the measurement device.

For this, the wired and wireless communication control unit 32 supporting wired and wireless communication communicates through the IP sharer 31, and the IOT module communication unit 33 communicates through the IOT module communication unit 34 supporting IOT (wifi, LoRa, Bluetooth). .

The central processing unit 300 receives the data of the measuring devices 21 and 22 through the above-described communication modules and stores the data in the database 320 .

In addition, it is possible to remotely control and monitor the operation of on-site measuring devices (21, 22) and the operation status of the pump motor through the Internet. In order to check whether the UPS power operation state is a digital contact point, the real-time state is stored in the database 320 through a digital input unit.

Drainage pumping station and relay pump station data storage device, STU (Smart Terminal Unit) (30) strictly restricts access to major facilities, and equipment such as mechanical facilities, power facilities, and measuring devices (21, 22) in the pumping station, and facility water level and rainfall , In order to directly check the amount of snowfall, any one of the security IOT-based Web cameras (wifi, LoRa, Bluetooth) and wired and wireless (4G, 5G) communication networks are installed for Internet connection and remote control through smart devices and computers. can provide a system that can monitor and control.

As shown in FIG. 3, the web transmission module 50 is a smart building and facility remote monitoring data storage device, STU (Smart Terminal), when inputting an IP address or a registered domain from a remote to an operator computer, smartphone, or tablet PC. Unit) 30, and after confirming the identity, the data of each measuring device 21, 22 is provided to the web transmission module 50 from the central processing unit according to the situation whether it is a real-time data request from the database or an average data request. and graphic and text big data corresponding to an open source web program that responds to real-time data or average value requests can be checked through the operator's computer, smartphone, or tablet PC through the pre-installed web.

As shown in Figs. 4 and 5, the input module 51 and the output module 52 of the data storage device 322 display data requested by the operator to a graphic user interface (GUI) environment through a touch screen to a graphic screen. It displays the status of the measuring devices 21 and 22 by making the entire diagram, and checks the collected data to the central processing unit through the GUI input unit during operator's inspection and field operation, and transmits the operating status.

Data stored in the database 320 through a data storage device, a smart terminal unit (STU) 30 can be compared with an automatic control operation algorithm to output an environment of a normal operation state.

Therefore, the real-time data collected from the rainfall snow meter, water level meter, and flow meter are transmitted through the IOT module communication unit for devices supporting IOT, or through the Ethernet port or serial (RS232, 485, 422) port through the protocol processing unit to communicate with the measuring device and the communication protocol and communication speed. The central processing unit stores the data of the instrument in accordance with the data, and the data is created in the database and stored in the data storage device. The data of the database can transmit the data of the data storage device upon the request of the data transmission unit.

As shown in FIG. 6, data is transmitted in real time through the normal communication of the serial port (RS232C) communication module 44 to the Internet-based smart building and facility remote monitoring data storage device, STU (Smart Terminal Unit) 30, and transmitted By storing the collected data in the database 320, the real-time and request status can be viewed graphically in the graphic processing unit so that the real-time effluent building and facility operation status of each sewage treatment plant and wastewater treatment plant can be seen at a glance.

The set value set by the operator for alarm setting processing is immediately stored in the database 320, and the alarm setting and processing unit 37 compares the measured values and set values of buildings and facilities to reach the alarm value, immediately through the web and app, the operator to send it to

When the operator requests a driving trend, the data stored in the database provides data to the trend monitoring processing unit 38, and the stored data is processed by the graphic processing unit in minutes, hours, days, and months in minutes, hours, days, and months. provides a trend.

Through the PLC I/O (40) or multi I/O port (42), the power and flow rate of pumps and measuring devices in buildings and facilities are monitored and analyzed in real time to check whether inefficient operation conversion of the pump has occurred, and , when an inefficient operation change occurs, by controlling the change of the operation change time of the pump, it is possible to find the optimal operation time to induce energy savings.

In addition, in order to analyze and process the operation status of pumps, air conditioners, and heaters at the site of buildings and facilities, data from the database 320 is used to analyze the status of buildings and facilities by hour, month, and season, and provide the operator with an operator algorithm. It provides information to operators according to the building and facility conditions.

In addition, the data of the database 320 may be managed by hour, day, month, and season, and used as a predictive model for accident prevention according to an operator algorithm.

In addition, when inefficient operation conversion occurs, control information on the change of the operation conversion time of the pump is displayed by hour, day of the week, month, and season, so that it can be used as a predictive model for efficient operation.

Therefore, by controlling the change of the operation switching time of the pump, it is possible to find the optimal operation time to induce energy savings.

At this time, the control right is transferred from the operator to the central processing unit 300, and a rain gauge, a water level gauge, and By dividing the flowmeter into two sensor information, when inefficiency of information on one side occurs, energy savings can be induced by referring to the information on the other side to find the optimal operating time.

For complete security of measuring devices (21, 22) for building and facility measurement, the status of pumps and measuring devices in the facility room is stored remotely through a data storage device, STU (Smart Terminal Unit) 30 web or app. The device, the digital processing unit 55 of the STU (Smart Terminal Unit) 30 is placed, and according to the output result, remote control is possible through PLC I/O.

In addition, a web camera is connected to the Ethernet port 45 to enable operation while directly checking the operation status of the site, and the collected images are transmitted to the operator through the web transmission module. Recorder) performs that function.

When the manager or operator requests to read the data of the database 320 by the authority approved through each terminal 10, 20, the central processing unit 300 that analyzes the data of the building and facility remote monitoring server 30 The data of the value is transmitted through the web transmission module 50, and the data requested through the Ethernet port is also requested by the administrator or operator to read the database data by the authorized authority after inputting the ID and password by the authority granted for each step. When the data of the value requested by the central processing unit is communicated through the Ethernet port 45 by the protocol processing unit 43 through a prescribed protocol, the data is provided.

The step-by-step permission maintenance and deprivation information is also stored and shared in the database 320, and whether or not the access right is violated in real time is transmitted through the web transmission module 50, and the administrator or operator is displayed through each terminal 10, 20 can do.

Hereinafter, with reference to FIG. 2, a monitoring control method supporting remote operation based on Big data using an open source for implementing the present invention will be described in detail.

First, the operator accesses the designated domain site through the Internet network connected to the smartphone app or computer web (S11).

Then, the operator terminal transmits user ID password information to request authentication from the remote monitoring data storage device STU (Smart Terminal Unit) (S12).

Subsequently, after authentication for the requested user information from the remote monitoring data storage device STU, the file format information is transmitted to the central processing unit (S13).

Finally, it is determined whether or not an alarm is generated according to whether the IOT fire detection sensor, temperature sensor, humidity sensor, and rainfall and snow volume sensor of the designated water treatment site are normally checked (normal check, abnormal check) (S14).

If it is abnormal (no), the alarm is generated and the alarm content is transmitted to the registered manager in the form of a cacao push (S15).

If it is normal (yes), it is determined that the user operation and control commands are data storage devices and central processing unit control commands (Auto, manual) commands of the STU (Smart Terminal Unit) (S16).

If the control command is Auto, the control command by the automatic control operation algorithm is performed (S17).

If the control command is Manual, the command execution and data transmitted from the digital processing unit are fed back (S18).

The big data including the last executed command feed back signal is displayed as a graphic screen processing unit (S19).

In detail with reference to FIGS. 3 to 6 , the operation of the field measuring devices 21 and 22 and the operation state of the pump motor are remotely controlled using the web through the web transmission module 50 , etc.

That is, for the complete security of on-site measuring devices (21, 22) of buildings and facilities, data storage device, STU (Smart Terminal Unit) when remotely controlling the measurement data of pumps and measuring devices at the site of buildings and facilities through the web or app Remote control is possible by connecting PLC I/O in the digital processing unit of (30).

At this time, if the indoor occupant security and commercial power supplied by KEPCO are not available due to a power outage, use the web to check whether the UPS and generator are in operation in real time.

The UPS power operation status is stored in a database in real time through a digital input unit as a digital contact point.

And in case of power failure due to power failure, the UPS power operation status is saved in the database in real time.

In other words, if it is not possible due to a power outage, it can be used as a predictive model for commercial power and emergency power management by displaying the UPS power operation status by hour, day, month, and season.

The operator sets the alarm value, sets the transmission range and transmission method, and stores it in the database 320 .

The alarm setting and processing unit 37 compares the measured values of the on-site measuring devices 21 and 22 of buildings and facilities with the alarm values to confirm whether a specific alarm value is reached.

When the measured value reaches the set value (alarm value) in the alarm setting and processing unit 37, it is immediately transmitted to the operator through the web and the app.

The web transmission module 50 determines whether to allow access to the smart building and facility remote monitoring server 30, etc. by checking the user authentication through the web when an IP address or a registered domain is inputted to the operator computer, smart phone, or tablet PC from a remote location do.

The central processing unit provides the data of each measuring device 21 , 22 to the web transmission module 50 according to the situation whether it is a request for real-time data or a request for an average value of data from the database.

It is possible to check the graphic and text data corresponding to the real-time data or average value request through the web installed in advance through the operator's computer, smartphone, or tablet PC.

When the manager or operator requests to read the data of the database 320 by the authority approved through each terminal 10, 20, the central processing unit 300 that analyzes the data of the building and facility remote monitoring server 30 The data of the value is transmitted through the web transmission module 50, and the data requested through the Ethernet port is also requested by the administrator or operator to read the database data by the authorized authority after inputting the ID and password by the authority granted for each step. When the data of the value requested by the central processing unit is communicated through the Ethernet port 45 by the protocol processing unit 43 through a prescribed protocol, the data is provided.

The step-by-step permission maintenance and deprivation information is also stored and shared in the database 320, and whether or not the access right is violated in real time is transmitted through the web transmission module 50, and the administrator or operator is displayed through each terminal 10, 20 can do.

10, 20: terminal
21, 22 : Measuring device
30: Smart building and facility remote monitoring server
33: IOT module communication unit
44 : Ethernet port or serial (RS232,485,422) port
50: web transmission module
300: central processing unit
320: database

Claims (8)

accessing the designated drainage pumping station and relay pumping station domain site through an internet network accessing the operator's smartphone app or computer web;
transmitting user ID password information from an operator terminal to request authentication from a remote monitoring data storage device STU (Smart Terminal Unit);
transmitting file format information to a central processing unit after authentication for user information requested by the remote monitoring data storage device STU;
determining whether an IOT fire detection sensor, a temperature sensor, a humidity sensor, and a rainfall and snow volume sensor of the designated water treatment site among the drainage pumping station and the relay pumping station are normal;
If it is abnormal (no), transmitting the alert content in the form of an instant messenger push to an alert generating and alert signal registered administrator;
If it is normal (yes), the user operation, the control command data storage device, the central processing unit of the STU (Smart Terminal Unit) determining the control command (Auto, manual) command;
performing, by the central processing unit, a control command according to an automatic control operation algorithm if the control command is automatically performed in an Auto mode;
If the control command is in Manual mode, the central processing unit performs the command received from the digital processing unit and feeds back the data. According to claim 1,
A monitoring control method that supports remote operation by compiling and platformizing an open source, including a step of displaying the command feedback signal performed by the central processing unit as a graphic screen processing unit, and algorithmizing big data-based comparison data . 3. The method of claim 2,
The step of displaying the command feedback signal performed by the central processing unit as a graphic screen processing unit,
In order to check the water level, rainfall, and snowfall of the mechanical facilities, power facilities, and measuring devices in the drainage pumping station and the relay pumping station, the security IOT-based Web camera is wired for any one communication method of wifi, LoRa, and Bluetooth and for Internet connection. , a wireless (4G, 5G) communication network, through a smart device and a computer, remotely monitoring and controlling;
The input and output of the data storage device is a user-friendly UI (user interface) design through the web and app using open source. The data stored in the data storage device including; displaying the status of the measuring device, checking the collected data to the central processing unit through the GUI input unit during operator inspection and on-site operation, and transmitting the operating status; A monitoring control method that supports remote operation based on Big data using open source that compares, executes commands in the environment of normal operation, feeds back the processing results, and displays the executed commands on the graphic screen. 4. The method of claim 3,
One-way communication of serial port (RS232C) communication transmits data in real time to the web-based smart building and facility remote monitoring data analysis device, and stores the transmitted data in the database of the smart building and facility remote monitoring data analysis device for each sewage treatment plant and A monitoring and control method supporting remote operation based on Big data using open sources, including; displaying real-time and request status graphically in a graphic processing unit so that the real-time effluent building and facility operation status of the wastewater treatment plant can be seen at a glance. According to claim 1,
The data stored in the database 320 provides data to the trend monitoring processing unit 38 when the user requests a driving trend, and the stored data provides a trend through the graphic processing unit in units of minutes, hours, days, and months; A monitoring and control method that supports remote operation based on big data using open sources including According to claim 1,
An open including; an operation status analysis processing step of analyzing the building and facility status by hour, month, and season using the data of the database and providing it to the operator, and creating an operator algorithm to provide information to the operator according to the condition of the building and facility; A monitoring control method that supports remote operation based on big data using a source. Measurement device (21, 22), smart building and facility remote monitoring server (30), IOT module communication unit (33), Ethernet port or serial (RS232, 485, 422) port (44), web transmission module (50), central processing unit (300), in the monitoring and control system supporting remote operation based on Big data using an open source composed of a database,
The IOT module communication unit 33 supports the IOT protocol for transmitting the real-time data collected from the rain gauge, the water level meter, and the flow meter, and the Ethernet port or serial (RS232, 485, 422) port 44 communicates with the measuring device It is transmitted to the central processing unit 300 according to the protocol and communication speed, and a web camera is connected to the Ethernet port so that operation is possible while checking the operation status of the site, and the collected images are transmitted to the user through the web transmission module. A monitoring control system that supports remote operation based on big data using open source, characterized in that 8. The method of claim 7,
The real-time data collected from the rainfall snow meter, water level meter, and flow meter are measured in the protocol processing unit 43 through the IOT module communication unit 33 supporting IOT, or the Ethernet port or serial (RS232, 485, 422) port 44. and communicates with the central processing unit 300 by matching the communication protocol and communication speed,
For this purpose, the wired and wireless communication control unit 32 supporting wired and wireless communication communicates through the IP sharer 31 , and the IOT module communication unit 33 communicates through the IOT module communication unit 34 supporting IOT (wifi, LoRa, Bluetooth). ,
The central processing unit 300 receives the data of the measuring devices 21 and 22 through the above-described communication modules and stores it in the database 320,
In order to secure indoor occupants and check whether the commercial power supplied by KEPCO is in operation state due to a power outage, the UPS power operation status is stored in the database 320 through the digital input unit as a digital contact point, and the drain pump station and The relay pump station server restricts access to major facilities, and any one of the security IOT-based web cameras is used to check the equipment and facility water level, rainfall, and snowfall in the pumping station. IOT-based wired and wireless Internet monitoring supporting remote operation, characterized in that it provides a system that enables remote monitoring and control through smart devices and computers by installing wired and wireless (4G, 5G) communication networks to connect to the Internet control system.

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