KR101245192B1 - System And Method for Controlling Facilities - Google Patents

Abstract

The present invention relates to a facility situation control system and method. The system includes an information acquisition unit for acquiring facility information, an information communication unit for transmitting the acquired facility information, a local server for receiving the transmitted facility information, and receiving facility information from the local server, and transmitting the facility information to the authorized user. It includes a main server that provides facility information.

Description

System and Method for Controlling Facilities

The present invention relates to a facility situation control system and a related method. More specifically, the facility situation information is transmitted to a main server using a local server in a normal state, and in a abnormal state, a separate input is performed in a multiple input multiple output (MIMO) method. The present invention relates to a system and method for controlling facility conditions such as dams, embankments, and nuclear power plants by transmitting facility status information using an emergency server.

Since the twentieth century, the earth has increased the risk of natural disasters due to many extreme events. In particular, the increase in the size of civil engineering / building structures has become a factor that increases the scale of disasters caused by the collapse of such structures. In the case of dams, as seen in the collapse of Vajont Dam in Italy in 1963 and the Teton Dam in Idaho in 1976, the magnitude of the damage was beyond imagination, causing economic and industrial damage as well as human injury. It can cause incredible losses, and even in Korea, in the case of Yeoncheon Dam collapsed twice in 1996 and 1999, the entire Paju County was flooded. It is becoming very important to come up with measures to cope with this.

On the other hand, as can be seen in the 2011 Fukushima nuclear power plant situation in Japan, it is very important to respond first to the facility as soon as possible if a facility accident occurs. In the case of nuclear power plants, it can lead to leakage of radioactive material.

In addition, relatively low-level decisions on these facilities can be made by local managers, but important policy situations, such as the closure of nuclear power plants or the discharge of dams, are made by the heads of the relevant organizations. It is no exaggeration to say that the success of the response depends on how quickly the situation propagates to the head of the organization.

However, in the case of the current facility management situation at home and abroad, if there is an urgent situation in the local facility, the local manager first identifies it and decides whether to report it to the upper part, and then reports the situation to the upper part by telephone. Is done. Therefore, it may take a considerable amount of time for the situation to occur and propagate it to the upper part, and then the appropriate response to the site situation can be carried out, which is likely to lead to a worse situation. .

In addition, such facilities usually report the facility status automatically from video equipment or various sensors to monitor the facility. In the event of a natural disaster such as an earthquake, the reporting system of the facility situation may collapse from the facility. In this case, it may take longer to understand the situation of the facility and to cope with it, which may lead to a situation where the situation cannot be solved.

According to one aspect of the invention, the facility situation control system,

An information acquisition unit for acquiring facility information;

An information communication unit for transmitting the acquired facility information;

A local server for receiving the transmitted facility information; And

And a main server that receives facility information from the local server and provides the facility information to an authorized user.

Preferably,

The system comprises:

Further includes an electronic display for displaying the situation,

The display board,

Receives information from the local server or the main server to display a situation, and if there is a message from the authorized user, displays the message.

Preferably,

The local server determines a normal state when received normally, based on whether facility information is received at a predetermined time period, determines an abnormal state when received abnormally, and notifies the main server when it is abnormal. ,

If the main server is notified of an abnormal state, it notifies the authorized user.

Preferably,

The system comprises:

In the abnormal state,

Further comprising an emergency server for receiving the facility information from the information communication unit,

When the main server is in an abnormal state, the start command of the emergency server is transmitted to the emergency server,

The emergency server communicates with the information communication unit in a multiple input multiput output (MIMO) manner in response to an operation command of the main server, and replaces the local server so that the communication is farther than communication between the information communication unit and the local server. And shielding can be overcome.

Preferably,

The information communication unit includes a plurality of antennas to enable MIMO communication,

The emergency server includes a plurality of antennas to enable MIMO communication.

Preferably,

The emergency server performs MIMO communication with the information communication unit in a spatial diversity scheme.

Facility situation control method according to another aspect of the present invention,

Obtaining facility information through an information acquisition unit;

Transmitting the acquired facility information by an information communication unit;

Receiving facility information by a local server;

Receiving facility information from the local server by a main server and providing the facility information to an authorized user.

Preferably,

The method comprises:

And displaying the status of the facility on the billboard by the local server or the main server, and receiving the message from the main server when the message is received from the authorized user and displaying the status on the billboard.

Preferably,

The method comprises:

On the basis of whether the facility information is received by the local server at a predetermined time period, it is determined to be in a normal state when received normally, and determined to be abnormal when received abnormally, and notified to the main server in case of an abnormal state. step; And

And notifying an authorized user of an abnormal state notified by the main server.

Preferably,

The method comprises:

If it is determined that the abnormal state,

Transmitting, by the main server, an operation command of an emergency server to the emergency server;

In response to the received operation command, the emergency server communicating the facility information in a multiple input multiput output (MIMO) manner between the information communication unit and the emergency server to deliver facility information to the main server; And

The method may further include transmitting facility information received from the emergency server to the main server.

Preferably,

The information communication unit includes a plurality of antennas to enable MIMO communication,

The emergency server includes a plurality of antennas to enable MIMO communication.

Preferably,

The emergency server performs MIMO communication with the information communication unit in a spatial diversity scheme.

According to the present invention, the situation of the local facility is reported in real time from the local facility to the final person in charge of the facility, thereby enabling rapid situation propagation. This rapid propagation of the situation allows for quick and reliable management of the facility and response to problems.

In addition, according to the present invention, even if the communication network of the local facility is broken, it is possible to quickly spread the situation by using the emergency server. In addition, the present invention by using the MIMO communication method, it is possible to quickly propagate the facility situation even under various situational adverse conditions.

1 is a view showing a facility situation control system according to an embodiment of the present invention.
2 is a diagram illustrating an information communication unit according to an embodiment of the present invention.
3 is a diagram illustrating an emergency server according to an embodiment of the present invention.
4 is a flowchart illustrating a facility situation control method according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a modification of the facility situation control method of FIG. 4.
FIG. 6 is a diagram illustrating another modified example of the facility situation control method of FIG. 4.
FIG. 7 is a diagram illustrating a modification of the facility situation control method of FIG. 6.
8 is a diagram illustrating a login interface of a dedicated program according to an embodiment of the present invention.
9 is a diagram illustrating a service selection interface of a dedicated program according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a view showing a facility situation control system according to an embodiment of the present invention.

As shown, the facility situation control system according to the present invention, the information acquisition unit 100, the information communication unit 200, the local server 300, the main server 400, the emergency server 500, the electric sign 600 Include. Here, the information acquisition unit 100 is disposed close to the facility, the information communication unit 200 is disposed near the facility, the local server 300 is located in the area where the facility is located, the main server 400 is It can be deployed remotely. Meanwhile, the emergency server 500 may be disposed at a considerable distance from the corresponding facility, and the electronic display panel 600 may be installed near or at a distance of the corresponding facility, and plural numbers may be installed.

On the other hand, the facility in the present invention means a variety of facilities that can be applied to the situation control system according to the present invention, for example, means a facility that requires situation control, such as a dam, power plant, sewage treatment plant. Although the present invention is described with reference to a dam as an example in relation to the facility, this is merely an example for the purpose of understanding, and the present invention is equally applicable to other facilities.

The information acquisition unit 100 is used to obtain facility information. The information acquisition unit 100 includes, for example, a camera 110 and a monitoring sensor 120. The camera 110 is a device used to acquire image information, and refers to a device capable of capturing at least one of a still image and a moving image. The monitoring sensor 120 is a device used to grasp the state of the facility in real time. For example, the monitoring sensor 120 may be a flow rate sensor for monitoring a flow rate, a flow rate sensor for monitoring a flow rate, and the like. Meanwhile, in the present invention, the information obtained by the information acquisition unit is collectively referred to as facility information.

The information communication unit 200 is responsible for transmitting the facility information obtained from the information acquisition unit 100 to the local server 300 or the emergency server 500. In addition, the information communication unit 200 may control the operation of the information acquisition unit 100 according to a command coming through the local server 300 or the emergency server 500, for example, a command for controlling the photographing of the camera 110. It can be received and transmitted to the information acquisition unit 100.

The local server 300 receives facility information transmitted from the information communication unit 200, and although not shown in FIG. 1, the local server 300 may own a database server to store received facility information in real time. have.

Facility information received from the local server 300 is transmitted to the main server 400 via a communication network. Herein, the communication network is a concept encompassing wired and wireless communication networks. For this purpose, the local server 300 may have a wired or wireless communication facility. In an exemplary embodiment, the local server 300 may include a serial / TCP conversion device to convert facility information into a packet and transmit the wired or wirelessly to the main server 400. On the contrary, the local server 300 may receive the control command of the information acquisition unit 100 from the main server 400 through the communication network and transmit the control command to the information communication unit 200.

The main server 400 receives facility information from the local server 300 and provides the authorized user with the facility information. Although not shown, the main server 400 may include a database server for storing facility information or user information. Meanwhile, the authorized user may be provided with facility information in real time through his mobile terminal (eg, smartphone, PDA, dedicated terminal, etc.). As an example of an authorized user, there may be a facility manager, a responsible person, and the like, and as shown in FIG. 8, in order to provide facility information only to an authorized user, a facility provided by the main server 400 must be inputted with an ID and password. You can get information. In another embodiment, information that can be viewed according to authority levels among those who own a portable terminal in which a dedicated program for receiving facility information provided through the main server 400 of the present invention is installed may be limited. For example, a lower grade user may only see some of the facility information, while a higher grade user may be able to see more facility information. In such a system, the user may select to view facility information (CCTV, water level sensor) as shown in FIG. 9, or select each icon to view or modify information displayed on the electronic display panel 600.

The electronic display panel 600 is used to display at least some of the facility information. For example, the electronic display panel 600 receives the content from the information communication unit 200 by wire or wirelessly. For example, when the facility is a dam, the display panel 600 may continuously display the flow rate or display an image of a predetermined portion of the dam. On the other hand, the contents displayed on the electronic display panel 600 may be controlled by receiving a command to display what is to be displayed through the local server 300 or the main server 400 or the emergency server 500, and display the situation, In addition, if there is a message from an authorized user, the message may be received and displayed through the local server 300 or the emergency server 500 through the main server 400.

The local server 300 determines whether facility information is received from the information acquisition unit 100 at a predetermined time period. For example, the local server 300 may determine whether facility information is received from the information acquisition unit 100 at a time interval of 30 seconds. If the facility information is being received at a normal time period, the local server 300 determines that it is in a normal state and performs an operation in a conventional manner. On the other hand, when a situation in which facility information does not come in at a predetermined time period such as when facility information does not come in or is not received in a timely manner, the local server 300 determines that it is in an abnormal state, and performs subsequent work accordingly. The first step is to notify the main server that something is wrong. The main server 400 notifies the authorized user that the abnormal state. An abnormal state is, for example, a facility such as a power plant or a dam may exist in a remote area, and thus the power supply may be cut off or the communication line may be cut off due to a natural disaster. In this case, the local server 300 Information cannot be obtained at a desired interval from the information acquisition unit 100 that is in close proximity, and if this situation is an emergency situation directly connected to the safety of the facility, the problem may be serious.

In the present invention as described above, even if the communication between the local server 300 and the information acquisition unit 100 is not properly communicated to the situation that the facility information is not properly delivered to the emergency server to continue to receive the facility information to take action And further includes 500. When the main server 400 receives the abnormal status notification from the local server 300, the main server 400 transmits an operation command to the emergency server 500. In response, the emergency server 500 starts operation and communicates with the information communication unit 200 in a multiple input multiple output (MIMO) manner.

In the present invention, the MIMO communication means a multiple antenna technology for achieving high performance (high speed, large capacity, increased coverage) by using a plurality of antennas on both a transmitting side and a receiving side. According to the present invention, a transmitting device having a plurality of transmitting antennas simultaneously transmits a stream composed of a plurality of bits in each transmitting antenna, and a receiving device having a plurality of receiving antennas separates and separates the stream in the transmitting device. Demodulate the later stream. Therefore, when different streams are simultaneously transmitted by all the transmitting antennas of the transmitting apparatus, the transmission efficiency can theoretically be increased by the number of transmitting antennas as compared with the case where only one transmitting antenna is used. Among them, in the present invention, in order to perform MIMO communication in a spatial diversity scheme, a scheme of obtaining transmit diversity by transmitting the same data through multiple transmit antennas may be used. In the present invention, multiple antennas are disposed in both the information communication unit 200 and the emergency server 500 to perform the MIMO communication, and each of them includes a communication facility for performing the MIMO communication. The spatial diversity MIMO communication according to the present invention is strong in interference waves due to terrain because the same data is transmitted and received through multiple antennas, and is capable of communication even under adverse conditions such as lightning and heavy rain. Long distance communication is possible than Single Input Single Output method. Therefore, even in a facility located in the mountains or remote areas, such as a dam or a power plant, by operating the emergency server 500 in the MIMO method according to the invention it is possible to continue to control the facility in an emergency situation. To this end, the information communication unit 200 and the emergency server 500 each include a configuration for communication of the MIMO method, which will be described in more detail with reference to FIGS. 2 and 3 below.

2 is a diagram illustrating an information communication unit 200 according to an embodiment of the present invention, Figure 3 is a diagram showing an emergency server 500 according to an embodiment of the present invention.

As shown, the information communication unit 200 includes a control unit 210, a modulator 220a to 220n, an RF communication unit 230a to 230n, and an antenna 240a to 240n. The controller 210 controls the facility information entered through the information acquisition unit 100 to communicate with the local server 300 or the emergency server 500. In the normal state, the control unit 210 transmits facility information to the local server 300 by wire or transmits the facility information to the local server 300 using one antenna through SISO communication. On the other hand, if the normal state, the control unit 210 receives a communication conclusion command from the emergency server 500 received the operation command from the main server, and then the facility information to control to communicate with the emergency server in the MIMO method. For the MIMO communication, the control unit replicates the facility information to n pieces in order to use n antennas, modulates them to be suitable for RF transmission via the modulators 220a to 220n, and then uses the RF communication units 230a to 230n. Through the antennas 240a to 240n to transmit to the emergency server 500. On the contrary, the information communication unit 200 may transmit a command received through the antennas 240a to 240n in the order of the RF communication units 230a to 230n, the modulators 220a to 220n, and the controller 210.

Meanwhile, the emergency server 500 includes a controller 510, a modulator 520a through 520n, an RF communicator 530a through 530n, an antenna 540a through 540n, and a serial / TCP converter 550. The facility information received through the antennas 540a through 540n is transmitted to the modulators 520a through 520n through the RF communication units 530a through 530n and then reaches the control unit 510. In response, the emergency server 500 transmits facility information to the main server 300 by wire using the serial / TCP conversion unit 550 or wirelessly by using any one of the antennas 540a to 540n. 300). On the contrary, the emergency server 500 may receive a command from the main server 300 by wire or wirelessly and transmit it to the information communication unit 200 in a MIMO manner.

4 is a flowchart illustrating a facility situation control method according to an embodiment of the present invention.

In operation S410, the information acquisition unit 100 obtains facility information. The information acquisition unit 100 includes, for example, a camera 110 and a monitoring sensor 120. The camera 110 is a device used to acquire image information, and refers to a device capable of capturing at least one of a still image and a moving image. The monitoring sensor 120 is a device used to grasp the state of the facility in real time. For example, the monitoring sensor 120 may be a flow rate sensor for monitoring a flow rate, a flow rate sensor for monitoring a flow rate, and the like.

Thereafter, in step S420, the information communication unit 200 transmits the facility information acquired by the information acquisition unit 100 to the local server 300.

Thereafter, in step S430, the local server 300 receives the facility information transmitted from the information communication unit 200.

Then, in step S440, the main server 400 receives the facility information from the local server 300, and serves to provide to the authorized user. Although not shown, the main server 400 may include a database server for storing facility information or user information. Meanwhile, the authorized user may be provided with facility information in real time through his mobile terminal (eg, smartphone, PDA, dedicated terminal, etc.). As an example of an authorized user, there may be a facility manager, a responsible person, and the like, and as shown in FIG. 8, in order to provide facility information only to an authorized user, a facility provided by the main server 400 must be inputted with an ID and password. You can get information. In another embodiment, information that can be viewed according to authority levels among those who own a portable terminal in which a dedicated program for receiving facility information provided through the main server 400 of the present invention is installed may be limited. For example, a lower grade user may only see some of the facility information, while a higher grade user may be able to see more facility information. In such a system, the user may select to view facility information (CCTV, water level sensor) as shown in FIG. 9, or select each icon to view or modify information displayed on the electronic display panel 600.

FIG. 5 is a diagram illustrating a modification of the facility situation control method of FIG. 4.

Steps S510 to 5540 of FIG. 5 correspond to steps S410 to S440 of FIG. 4. Here, FIG. 5 includes step S550. That is, the local server 300 or the main server 400 transmits a command to the information communication unit 200 so as to display the situation of the facility on the display board, and the information communication unit 200 transmits the command to the display board 600 by wire or wirelessly. Pass it on to make it visible. For example, when the facility is a dam, the display panel 600 may continuously display the flow rate or display an image of a predetermined portion of the dam. On the other hand, the contents displayed on the electronic display panel 600 may be controlled by receiving a command to display what is to be displayed through the local server 300 or the main server 400 or the emergency server 500, and display the situation, In addition, if there is a message from an authorized user, the message may be received and displayed through the local server 300 or the emergency server 500 through the main server 400.

FIG. 6 is a diagram illustrating another modified example of the facility situation control method of FIG. 4.

Steps S610 to S640 of FIG. 6 correspond to steps S410 to S440 of FIG. 4. 6 further includes steps S650 and S660.

In operation S650, the local server 300 determines whether facility information is received from the information acquisition unit 100 at a predetermined time period. For example, the local server 300 may determine whether facility information is received from the information acquisition unit 100 at a time interval of 30 seconds. If the facility information is being received at a normal time period, the local server 300 determines that it is in a normal state and performs an operation in a conventional manner. On the other hand, when a situation in which facility information does not come in at a predetermined time period such as when facility information does not come in or is not received in a timely manner, the local server 300 determines that it is in an abnormal state, and performs subsequent work accordingly. The first step is to notify the main server that something is wrong.

In step S660, the main server 400 notifies the authorized user that the state is abnormal. An abnormal state is, for example, a facility such as a power plant or a dam may exist in a remote area, and thus the power supply may be cut off or the communication line may be cut off due to a natural disaster. In this case, the local server 300 Information cannot be obtained at a desired interval from the information acquisition unit 100 that is in close proximity, and if this situation is an emergency situation directly connected to the safety of the facility, the problem may be serious. Therefore, notifying authorized users that they are in this abnormal state can be very helpful in resolving the situation.

FIG. 7 is a diagram illustrating a modification of the facility situation control method of FIG. 6.

Steps S710 to S760 of FIG. 7 correspond to steps S610 to S660 of FIG. 6. 7 further includes steps S770 to S790.

In operation S770, the main server 300 transmits an operation command of the emergency server 500 to the emergency server 500.

In response, in step S780, the emergency server 500 starts operation, and receives the facility information by performing communication with the information communication unit 200 in a MIMO manner. In the present invention, the transmission efficiency can be improved by the number of transmission antennas by performing communication in the MIMO scheme. In addition, in the present invention, since the same data is transmitted and received through multiple antennas by using the spatial diversity method, the present invention is strong in interference waves due to terrain, and can communicate in adverse conditions such as lightning and heavy rain. Long distance communication is possible than input single output type communication. Therefore, even if the facility is located in the mountains or remote areas, such as a dam or a power plant, it is possible to continue to control the facility even in an emergency situation by operating the emergency server in the MIMO method according to the present invention.

Thereafter, in step S790, the emergency server 500 transfers the received facility information to the main server 300.

The embodiments described in the present invention are described for the purpose of illustrating the present invention, and are not intended to limit the present invention. Accordingly, the scope of the present invention should not be limited by the detailed description, but the scope of the present invention will be limited only by the following claims.

Claims (12)

An information acquisition unit for acquiring facility information;
An information communication unit for transmitting the acquired facility information;
A local server for receiving the transmitted facility information; And
A main server for receiving facility information from the local server and providing the facility information to an authorized user,
The local server determines a normal state when received normally, based on whether facility information is received at a predetermined time period, determines an abnormal state when received abnormally, and notifies the main server when it is abnormal. ,
If the main server is notified of an abnormal state, it is notified to the authorized user,
In the abnormal state,
Further comprising an emergency server for receiving the facility information from the information communication unit,
When the main server is in an abnormal state, the start command of the emergency server is transmitted to the emergency server,
The emergency server communicates with the information communication unit in a multiple input multiput output (MIMO) manner in response to an operation command of the main server, and replaces the local server so that the communication is farther than communication between the information communication unit and the local server. And facility situation control system, characterized in that overcoming the shielding. The method of claim 1,
Further includes an electronic display for displaying the situation,
The display board,
Facility status control system, characterized in that to receive information from the local server or the main server to display the situation, if there is a message from the authorized user. delete delete The method of claim 1,
The information communication unit includes a plurality of antennas to enable MIMO communication,
The emergency server includes a plurality of antennas, to enable MIMO communication facility situation control system. 6. The method according to claim 1 or 5,
The emergency server is a facility situation control system characterized in that for performing the MIMO communication with the information communication unit in a spatial diversity (Spatial Diversity) method. Obtaining facility information through an information acquisition unit;
Transmitting the acquired facility information by an information communication unit;
Receiving facility information by a local server;
Receiving facility information from the local server by a main server, providing the facility information to authorized users,
On the basis of whether the facility information is received by the local server at a predetermined time period, it is determined to be in a normal state when received normally, and determined to be abnormal when received abnormally, and notified to the main server in case of an abnormal state. step;
Notifying an authorized user of an abnormal state notified by the main server,
If it is determined that the abnormal state,
Transmitting, by the main server, an operation command of an emergency server to the emergency server;
In response to the received operation command, the emergency server communicating the facility information in a multiple input multiput output (MIMO) manner between the information communication unit and the emergency server to deliver facility information to the main server; And
The facility status control method further comprising the step of transmitting the facility information received from the emergency server to the main server. The method of claim 7, wherein
Facility status control by the local server or the main server to display the status of the facility on the billboard, if there is a message from the authorized user receives the message from the main server and further comprising the step of displaying on the billboard Way. delete delete The method of claim 7, wherein
The information communication unit includes a plurality of antennas to enable MIMO communication,
The emergency server includes a plurality of antennas, to enable MIMO communication. The method according to claim 7 or 11,
And the emergency server performs MIMO communication with the information communication unit in a spatial diversity scheme.

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