KR102397978B1 - Integrated disaster service providing system of existing sensors connected to heterogeneous communication networks - Google Patents

Abstract

The present invention relates to a system for providing an integrated disaster service by utilizing an existing sensor connected to a heterogeneous communication network without replacement. The system includes: disaster detection sensors; disaster information collection servers to which data sensed by the sensors are transmitted via a general communication network; an integrated disaster information collection server through which data of the disaster information collection servers are integrated and transmitted in a disaster safety communication network using PS-LTE; and a disaster information visualization dashboard for displaying disaster information by visualization information output from the integrated disaster information collection server. A PS-LTE modem is provided for each disaster information collection server, so that data of each disaster information collection server can be integrally transmitted to the integrated disaster information collection server through the disaster safety communication network. A sensing information standard converter for constantly converting data collected from heterogeneous communication networks is provided. The integrated disaster information collection server includes: a communication unit for communicating between the individual disaster information collection servers and the integrated disaster information collection server through the disaster safety communication network; and a sensing information collection unit for collecting sensing information from the disaster information collection servers and loading the same into a sensing information storage DB.

Description

{Integrated disaster service providing system of existing sensors connected to heterogeneous communication networks}

The present invention relates to a system for providing an integrated disaster service by using an existing sensor connected to a heterogeneous communication network as it is without replacing it,

The existing sensing system consisting of sensors, communication networks, and servers for each department is used as it is without replacement, but the standardized information format is integrated through a separate network (disaster safety communication network) by attaching a PS-LTE modem to the server of the sensing system. It is stored in the disaster information collection server, and the integrated disaster information collection server compiles the real-time information of the sensor into a database, and enables the practitioner to easily identify the disaster state through the visualization dashboard, but the integrated disaster information collection server It relates to an integrated disaster service provision system of an existing sensor connected to a heterogeneous communication network that activates an alarm function to notify a disaster situation on the visualization dashboard when a preset value is reached in the sensor.

In the past, there have been numerous large-scale disasters such as the overturn of a train at Gupo Station, the crash of Asiana Flight 733, the sinking of the West Sea ferry, the collapse of the Seongsu Bridge, the gas explosion in Sangin-dong, Daegu, the collapse of the Sampoong Department Store, the crash of Korean Air Flight 801 Guam, the Daegu subway fire, and the Sewol ferry disaster. Due to communication problems, prompt response was not carried out, and unfortunately, there was a problem that increased the damage.

In the case of mobile communication, in the wake of such a national disaster, discussions on disaster communication networks have been going on for over 10 years, but they have continued to drift due to technical methods and budgetary problems. It is being promoted in earnest, but has not yet materialized.

For a while, the disaster safety net technology method was also discussed with TRS-based technologies such as TETRA and iDEN.

Even when LTE was confirmed, there was a debate over whether to use a private network or a commercial network, and in the end, it was decided to base the private network but supplement it with a commercial network. It means to build by the state, but security issues are small but requires a lot of investment. As a result, it was concluded that some of them were built with their own networks and supplemented with KT or SKT commercial networks.

The LTE technology method was also reviewed with LTE-TDD or FDD, and the FDD method was finally decided based on the current commercial network.

The biggest reason for not being able to respond quickly to national disasters is that disaster-related organizations use various individual wireless communication networks (TRS, VHF, UHF, etc.) because it is

Accordingly, there is an urgent need for a unified wireless communication network to support inter-agency situation propagation and command coordination at various disaster sites.

In other words, until now, when a large-scale disaster occurs, disaster-related organizations such as the military / police agency / fire department / coast guard / local government / Ministry of Public Safety and Security are mobilized. was,

In 2020, the disaster safety communication network is built around the PS-LTE network, laying the groundwork for each organization to share information, and various organizations can information can be shared, but

Each institution or local government has already built and possessed various types of sensors for disaster detection, but information sharing is impossible unless all of these equipment are replaced with equipment equipped with a PS-LTE communication module. There was a problem in that it required too much cost to do so.

Patent Document 1: Korean Patent Publication No. 2017-0022607 Patent Document 2: Korean Patent Publication No. 2018-0114814

The present invention utilizes the PS-LTE network, but utilizes the existing sensors without replacing them with equipment with a PS-LTE communication module attached to provide an integrated disaster service,

The first purpose is to enable efficient use of the PS-LTE network, which has advantages in communication and information sharing, without increasing the cost.

That is, the existing sensing system consisting of sensors, communication networks, and servers for each department is used as it is without replacement, but a PS-LTE modem is attached to the server of the sensing system and a standardized information format through a separate network (disaster safety communication network) It is stored in the integrated disaster information collection server, and the integrated disaster information collection server compiles the real-time information of the sensors into a database, while allowing practitioners to easily identify the disaster state through the visualization dashboard, but the integrated disaster information A second purpose is to enable a quick and accurate response in the event of a disaster by activating an alarm function to notify a disaster situation on the visualization dashboard when a preset value is reached in the sensor in the collection server.

In the present invention for achieving the above object, the integrated disaster service providing system of the existing sensor connected to the heterogeneous communication network;

sensors for disaster detection; disaster information collection servers to which the data sensed by the sensors are transmitted through a general communication network; an integrated disaster information collection server in which the data of the disaster information collection servers are integrated and transmitted in a disaster safety communication network by PS-LTE; It is composed of a disaster information visualization dashboard that displays disaster information by the visualization information output from the integrated disaster information collection server,

Each disaster information collection server is equipped with a PS-LTE modem so that the data of each disaster information collection server can be integratedly transmitted to the integrated disaster information collection server through the disaster safety communication network, and data collected from heterogeneous communication networks is set It is characterized in that it is equipped with a sensing information standard converter for converting

The integrated disaster information collection server includes: a communication unit for communicating the individual disaster information collection servers and the integrated disaster information collection server through the disaster safety communication network; It may include a sensing information collection unit for collecting the sensing information from the disaster information collection servers and loading the sensing information storage DB.

It may further include a sensor management unit for adding or deleting sensor information in the sensor registry DB.

It may further include a sensor identification unit for mapping the sensing information received from the disaster information collection server and the sensor information of the sensor registry DB to identify.

It may further include an event analyzer for determining whether an event exists by comparing and analyzing the sensed information received from the disaster information collection server with the definition and rule of event information.

The disaster information collection server may further include a disaster analysis unit for comparing and analyzing the sensed information received from the disaster information collection server with the definition and rules of the disaster information to determine whether there is a disaster.

The sensor registry DB is a DB predefined for data processing, and includes: sensor information for providing meta information such as locations and attributes of each sensor; Event information on the definition and rule of event information for determining the current situation according to the sensor value; By being composed of disaster information that provides definitions and rules for disaster information that can determine the current disaster according to the sensor value,

When the sensing information received from the disaster information collection server in the event analysis unit exceeds a value set in advance in the event information, it is determined as an event state, and the sensor identification unit displays the event state along with sensing information,

When the sensed information exceeds a preset value in the disaster information, it is determined as a disaster state, and the sensor identification unit can be configured to display the disaster state together with the sensing information.

The sensing information storage DB includes: a sensing history that is a sensing value of a sensor collected online; event history information consisting of event occurrence information analyzed according to the sensing information (sensing history); It consists of disaster history information consisting of disaster occurrence information analyzed according to sensing information (sensing history),

In the sensing information storage DB (3), data from the sensing information collection unit of the integrated disaster information collection server is stored in the sensing history, and data satisfying the event condition in the event analysis unit of the integrated disaster information collection server is an event history Data that is stored in the information, and data satisfying the disaster condition in the disaster analysis unit of the integrated disaster information collection server may be configured to be stored in the disaster history information.

In the system for providing integrated disaster service of existing sensors connected to heterogeneous communication networks according to the present invention, the PS-LTE network is utilized, but the existing sensors are used as it is without replacing them with equipment equipped with a PS-LTE communication module to provide integrated disaster services. By providing it, there is an effect that the PS-LTE network, which has advantages for communication and information sharing, can be used efficiently without increasing the cost.

That is, the existing sensing system consisting of sensors, communication networks, and servers for each department is used as it is without replacement, but a PS-LTE modem is attached to the server of the sensing system and a standardized information format through a separate network (disaster safety communication network) It is stored in the integrated disaster information collection server, and the integrated disaster information collection server compiles the real-time information of the sensors into a database, while allowing practitioners to easily identify the disaster state through the visualization dashboard, but the integrated disaster information When a preset value is reached in the sensor in the collection server, an alarm function for notifying a disaster situation is activated on the visualization dashboard, thereby enabling quick and accurate response in the event of a disaster.

1 is a block diagram of an integrated disaster service providing system of an existing sensor connected to a heterogeneous communication network according to the present invention;
2 is a block diagram showing the communication disaster information collection server, which is the main part of the present invention, separated;
3 is an exemplary diagram of a visualization dashboard screen displayed by an integrated disaster service providing system of an existing sensor connected to a heterogeneous communication network according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, it goes without saying that the scope of the present invention is not limited thereto.

In the present specification, the present embodiment is provided so that the disclosure of the present invention is complete, and is provided to completely inform those of ordinary skill in the art to which the present invention belongs, the scope of the invention, the scope of the present invention is only It is only defined by the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described in order to avoid obscuring the present invention.

The terms used herein are for the purpose of describing the embodiments and are in no way intended to limit the present invention. In this specification, the singular also includes the plural unless otherwise specified in the phrase. In addition, elements and operations referred to as 'include (or include)' do not exclude the presence or addition of one or more other elements and operations.

1 is a block diagram of a system for providing an integrated disaster service of an existing sensor connected to a heterogeneous communication network according to the present invention, FIG. 2 is a block diagram showing the communication disaster information collection server, which is the main part of the present invention, separately It is an exemplary diagram of the visualization dashboard screen displayed by the integrated disaster service provision system of the existing sensor connected to the heterogeneous communication network according to the present invention.

Basically, the present invention, as shown in Figure 1,

Various types of sensors for detecting disasters currently owned by institutions and local governments (4) and; Disaster information collection servers 5 to which data sensed by the sensors 4 are transmitted through a general communication network, respectively; an integrated disaster information collection server 1 through which data of the disaster information collection servers 5 are integrated and transmitted in a disaster safety communication network 7 by PS-LTE; It consists of a disaster information visualization dashboard 8 that displays disaster information according to the visualization information output from the integrated disaster information collection server 1 .

The sensors 4, the disaster information collection servers 5, and the disaster safety communication network 7 by PS-LTE can be used as it is, which is currently built and maintained by institutions and local governments,

For each institution and local government, the data of the sensor 4 is collected from the disaster information collection servers 5 through different communication networks (A, B, C),

In this way, the data collected in various ways from the disaster information collection servers 5 should be integratedly transmitted to the integrated disaster information collection server 1 through the disaster safety communication network 7 by PS-LTE.

That is, in the present invention, since the data of each disaster information collection server 5 is integratedly transmitted to the integrated disaster information collection server 1 through the disaster safety communication network 7 by PS-LTE, each disaster information collection server ( 5) A PS-LTE modem 6 is provided for each, and a sensing information standard converter for constantly converting data collected from different communication networks A, B, and C is provided.

As described above, in the present invention, the existing sensors for detecting disasters 4, communication networks A, B, and C, and disaster information collection servers 5 are used as they are,

Each disaster information collection server (5) is additionally equipped with a PS-LTE modem (6) and a sensing information standard converter, so that the data collected from different communication networks (A, B, C) is converted in a certain way and the PS- It can be transmitted integrally to the integrated disaster information collection server (1) through the disaster safety communication network (7) by LTE.

On the other hand, PS-LTE is a technology method that accommodates functions necessary for public safety communication based on LTE technology, and is defined to support required functions such as group communication, direct communication between terminals, and network survivability.

PS-LTE is configured based on the IMS (IP Multimedia Subsystem) platform, and its goal is to provide both the existing voice service and the broadband data service in a single LTE network based on All-IP.

Disaster safety communication network 7 by PS-LTE can be widely used for disasters such as police, firefighting, coast guard, military, local government, medical care, gas/electricity, etc., and LTE-R (LTE Railway, integrated railway network) and It will also be able to be integrated with LTE-M (LTE Marine).

As described above, in the present invention, a PS-LTE modem 6 is attached to the disaster information collection server 5 instead of the individual sensor 4 in the sensor-communication network-server system built for each department to establish a disaster safety communication network 7 Through this, sensing information can be transmitted to the integrated disaster information collection server 1, and since the data types for each department and sensor type are different, it can be converted into a standard information format and transmitted.

Figure 2 is a block diagram showing the separation of the communication disaster information collection server, which is the main part of the present invention.

As shown in FIG. 2, the communication disaster information collection server 1 is a communication unit for communicating the individual disaster information collection servers 5 and the integrated disaster information collection server 1 through the disaster safety communication network 7 (11) and; a sensor management unit 12 for adding or deleting sensor 4 information in the sensor registry DB 2; a sensing information collection unit 13 for collecting sensing information from the disaster information collection servers 5 and loading the sensing information storage DB 3; A sensor identification unit 14 for mapping and identifying the sensing information received from the disaster information collection server 5 and the sensor information of the sensor registry DB 2 and: Sensing information received from the disaster information collection server 5 an event analysis unit 15 for determining whether an event is an event by comparing and analyzing it with the definition and rules of the event information 22; It consists of a disaster analysis unit 16 for determining whether a disaster exists by comparing and analyzing the sensed information received from the disaster information collection server 5 with the definition and rules of the disaster information 23 .

On the other hand, the sensor registry DB (2) is a DB predefined for data processing,

sensor information 21 for providing meta information such as positions and properties of each sensor 4; Event information 22 for the definition and rule of event information capable of determining the current situation according to the sensor value; It is composed of disaster information 23 that provides definitions and rules for disaster information that can determine a currently occurring disaster according to a sensor value.

Therefore, the event analysis unit 15 compares and analyzes the sensed information received from the disaster information collection server 5 with the definition and rules of the event information 22 , for example, the sensed information is stored in the event information 22 . If it exceeds the preset value, it is determined as an event state, and the sensor identification unit 14 displays the event state along with sensing information,

When the sensed information exceeds a preset value in the disaster information 23, it is determined as a disaster state, and the sensor identification unit 14 can display the disaster state together with sensing information.

Meanwhile, the sensing information storage DB 3 includes: a sensing history 31 which is a sensing value of the sensor 4 collected online; event history information 32 comprising event occurrence information analyzed according to the sensing information (sensing history); It is composed of disaster history information 33 consisting of disaster occurrence information analyzed according to sensing information (sensing history).

That is, in the sensing information storage DB 3 , the data from the sensing information collection unit 13 of the integrated disaster information collection server 1 is stored in the sensing history 31 , and the integrated disaster information collection server 1 . Data satisfying the event condition in the event analysis unit 15 of It is configured to be stored in the history information (33).

3 is an exemplary diagram of a visualization dashboard screen displayed by an integrated disaster service providing system of an existing sensor connected to a heterogeneous communication network according to the present invention;

The sensing information (eg, hazardous substance CO sensor information) received from the disaster information collection server 5 may be displayed as a graph, numerically displayed on a chart, or mapped on a drawing.

The sensor identification unit 14 maps the sensing information and the sensor information of the sensor registry DB so that it can be identified, so that the state information of the sensor equipment is provided together with the sensing information, and the location of the sensor equipment can be displayed on the drawing. there is.

In Figure 3, the window of 'equipment status information' is configured to distinguish and display that the sensor operation is in 'checking', normal' or 'receiving error', mapping the position of the sensor on the drawing and displaying the event from the sensor Alternatively, when it is recognized that a disaster has occurred, the color of the sensor may be changed for easy identification.

In addition, in FIG. 3 , the sensed values are mapped on the map and displayed as numerical values or graphs on the chart, and the event analysis unit 15 confirms the event situation or the disaster analysis unit 16 confirms the disaster situation In this case, the sensed information value at that time appears in the 'Situation Occurrence Information' window, and it can be displayed in a different color for easy identification, and the sensor at the corresponding location on the map can be configured to change to a different color.

As described above, the present invention utilizes the PS-LTE network, but utilizes the existing sensors without replacing them with equipment with a PS-LTE communication module attached to provide an integrated disaster service, thereby providing an advantage in communication and information sharing. It has the effect of being able to efficiently utilize the PS-LTE network with

That is, the existing sensing system consisting of sensors, communication networks, and servers for each department is used as it is without replacement, but a PS-LTE modem is attached to the server of the sensing system and a standardized information format through a separate network (disaster safety communication network) It is stored in the integrated disaster information collection server, and the integrated disaster information collection server compiles the real-time information of the sensors into a database, while allowing practitioners to easily identify the disaster state through the visualization dashboard, but the integrated disaster information When a preset value is reached in the sensor in the collection server, an alarm function for notifying a disaster situation is activated on the visualization dashboard, thereby enabling quick and accurate response in the event of a disaster.

Although the technical idea of the present invention has been specifically described in the preferred embodiment, it should be noted that the above-described embodiment is for the description and not the limitation. It is obvious to those skilled in the art that various changes and modifications are possible within the scope of the technical spirit of the present invention, and therefore, it is natural that such variations and modifications belong to the appended claims.

1: Integrated disaster information collection server 2: Sensor registry DB
3: Sensing information storage DB 4: Sensor
5: Disaster information collection server 6: PS-LTE modem
7: Disaster safety communication network 8: Disaster information visualization dashboard
11: communication unit 12: sensor management unit
13: event analysis unit 14: sensor identification unit
15: event analysis unit 16: disaster analysis unit
21: sensor information 22: event information
23: disaster information 31: sensing history
32: event history information 33: disaster history information

Claims (8)

sensors for disaster detection; disaster information collection servers to which data sensed by the sensors are transmitted through a general communication network; Consists of an integrated disaster information collection server that transmits the sensing information collected from each disaster information collection server in an integrated manner, and a disaster information visualization dashboard that displays disaster information based on the visualization information output from the integrated disaster information collection server In the integrated disaster service provision system,
A private network, which is a general communication network, is used between the disaster detection sensors and the disaster information collection servers, and a PS-LTE-based commercial network is used between the disaster information collection servers and the integrated disaster information collection server,
The disaster detection sensors can be used as they are without replacing them with equipment to which the PS-LTE communication module is attached.
Each disaster information collection server is equipped with a PS-LTE modem, and a sensing information standard converter for constantly converting data collected from different communication networks is provided, so that the data collected from different communication networks is converted in a certain way to PS -Utilizing the LTE-based commercial network as a disaster safety communication network, it is configured to deliver integrated disaster information to the integrated disaster information collection server.
The integrated disaster information collection server includes: a communication unit for communicating each of the disaster information collection servers and the integrated disaster information collection server through the disaster safety communication network; a sensing information collecting unit for collecting sensing information from the disaster information collecting servers and loading it into a sensing information storage DB; a sensor management unit for adding or deleting sensor information in the sensor registry DB; a sensor identification unit for mapping and identifying the sensing information received from the disaster information collection server and the sensor information of the sensor registry DB; an event analysis unit for determining whether an event exists by comparing and analyzing the sensed information received from the disaster information collection server with definitions and rules of event information; An integrated disaster service providing system of existing sensors connected to a heterogeneous communication network, characterized in that it includes a disaster analysis unit for determining whether a disaster exists by comparing and analyzing the sensed information received from the disaster information collection server with the definition and rule of disaster information.
The method of claim 1,
In the disaster information visualization dashboard that displays disaster information by visualization information, the sensor identification unit maps the sensing information and the sensor information of the sensor registry DB so that they can be identified, so it is displayed in a graph or numerically on a table. An integrated disaster service providing system of an existing sensor connected to a heterogeneous communication network, characterized in that it is displayed in a mapped state on the drawing, and the state information of sensor equipment and the location of the sensor equipment are also displayed in a mapped state on the drawing.
3. The method of claim 2,
In the window of 'sensor equipment status information', it is configured to distinguish and display whether the sensor operation is 'in check', normal' or 'reception error', and when the sensor recognizes that an event or disaster has occurred, the sensor equipment mapped on the drawing An integrated disaster service providing system of an existing sensor connected to a heterogeneous communication network, characterized in that the color is changed for easy identification.
delete delete delete The method of claim 1,
The sensor registry DB is a DB predefined for data processing, and includes: sensor information for providing meta information such as locations and attributes of each sensor; Event information on the definition and rule of event information for determining the current situation according to the sensor value; By being composed of disaster information that provides definitions and rules for disaster information that can determine the current disaster according to the sensor value,
When the sensing information received from the disaster information collection server in the event analysis unit exceeds a value set in advance in the event information, it is determined as an event state, and the sensor identification unit displays the event state along with sensing information,
When the sensed information exceeds the preset value in the disaster information, it is determined as a disaster state, and the sensor identification unit is configured to display the disaster state together with sensing information. .
The method of claim 1,
The sensing information storage DB includes: a sensing history that is a sensing value of a sensor collected online; event history information consisting of event occurrence information analyzed according to the sensing information (sensing history); It consists of disaster history information consisting of disaster occurrence information analyzed according to sensing information (sensing history),
In the sensing information storage DB, data from the sensing information collection unit of the integrated disaster information collection server is stored in the sensing history, and data satisfying the event condition in the event analysis unit of the integrated disaster information collection server is stored in the event history information and the data satisfying the disaster conditions in the disaster analysis unit of the integrated disaster information collection server are configured to be stored in the disaster history information.

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