KR102013151B1 - Apparatus and method for providing earthquake information - Google Patents

Abstract

An earthquake information providing apparatus and a method thereof are disclosed. According to an embodiment of the present invention, the earthquake information providing apparatus comprises: a storage unit for storing past earthquake information including a generation point, a date and time of occurrence of the earthquake and a magnitude of the earthquake in a target area; a reception unit for receiving a past earthquake information request from a user terminal; and a transmission unit for transmitting, when a past earthquake information request is received from the user terminal, a past earthquake information visualization image of time-series visualization of an occurrence points and magnitudes of earthquakes on a map of the target area based on the past earthquake information, to the user terminal.

Description

Earthquake information providing apparatus and method {APPARATUS AND METHOD FOR PROVIDING EARTHQUAKE INFORMATION}

The disclosed embodiments relate to earthquake information provision techniques.

An earthquake is a phenomenon in which the energy inside the earth comes to the surface and the earth splits and shakes. There is research showing that aftershocks generally occur several times. The 2016 earthquake in Gyeongju was also analyzed after several aftershocks. This means that some earthquakes can be predicted in the future based on past earthquake information. Therefore, there is a need to visualize and provide the current earthquake information of the past in time series to the user.

Embodiments disclosed are to provide an earthquake information providing apparatus and method.

According to the disclosed embodiments, the storage unit for storing the past earthquake information including the occurrence point, the date and time and the magnitude of the earthquake for the past earthquake in the target area; Receiving unit for receiving a past earthquake information request from the user terminal; When the past earthquake information request is received from the user terminal, time-based visualization of the occurrence point and earthquake magnitude of the past earthquake on a map of the target area based on the past earthquake information request and the past earthquake information A visualization image generating unit generating a past earthquake information visualization image; And a transmitter configured to transmit the past earthquake information visualization image to the user terminal.

The receiver may receive current earthquake information including a generation point, a date and time of occurrence of an earthquake currently occurring in the target area, and an earthquake magnitude, and the visualization image generation unit may receive the current earthquake when the current earthquake information is received. Generates a current earthquake information visualization image visualizing the occurrence point and earthquake magnitude of the current earthquake on the map of the target area on the basis of the information, and the transmission unit, the user terminal to the current earthquake information visualization image Can be sent by

The storage unit further stores the shelter information including at least one of the evacuation personnel acceptable state and location information for the shelter included in the target area, and the visualization image generating unit, when the current earthquake information is received, Based on the current earthquake information and the shelter information, the shelter location information visualization image visualized the location information of one or more shelter on the map of the target area, and the transmitter, the user, the shelter location information visualization image It can transmit to the terminal.

The location information of the one or more shelters may include location information of the shelters located within a preset first distance from the occurrence point for the currently generated earthquake.

The location information on the one or more shelters may include location information on the shelters that can accommodate the current evacuation personnel among the shelters located within the predetermined first distance.

The storage unit may further store damage calculation basic information including the number of vulnerable strata population by area included in the target area and the number of buildings that are not earthquake-resistant, and the earthquake information providing apparatus, when the current earthquake information is received, The number of vulnerable strata population and the number of buildings that are not seismically designed for one or more regions located within a second predetermined distance from the occurrence point for the currently generated earthquake based on the current earthquake information and the damage estimation basic information. The apparatus may further include a damage calculation information generator configured to generate damage calculation information, wherein the transmitter may transmit the damage calculation information to the user terminal.

The storage unit further stores gas station location information including location information of a gas station included in the target area, and the visualization image generating unit, when the current earthquake information is received, the current earthquake information and the gas station location information Generating a gas station location information visualization image of visualizing location information of a gas station located within a preset third distance from a generation point of the currently generated earthquake on a map of the target area based on the transmitting unit; The gas station location information visualization image may be transmitted to the user terminal.

According to other disclosed embodiments, the method includes: storing past earthquake information including a generation point, an occurrence date, and an earthquake magnitude for a past earthquake in a target area; Receiving a past earthquake information request from a user terminal; When the past earthquake information request is received from the user terminal, time-based visualization of the occurrence point and earthquake magnitude of the past earthquake on a map of the target area based on the past earthquake information request and the past earthquake information Generating a past earthquake information visualization image; And transmitting the past earthquake information visualization image to the user terminal.

Receiving current earthquake information including an occurrence point, an occurrence date, and an earthquake magnitude for an earthquake currently occurring in the target area; When the current earthquake information is received, generating a current earthquake information visualization image visualizing a generation point and an earthquake magnitude of the current earthquake on a map of the target area based on the current earthquake information; And transmitting the current seismic information visualization image to the user terminal.

Storing shelter information including at least one of an evacuation personnel acceptable state and location information for the shelter included in the target area; When the current earthquake information is received, generating a shelter location information visualization image visualizing location information of at least one shelter on a map of the target area based on the current earthquake information and the shelter information; And transmitting the shelter location information visualization image to the user terminal.

The location information of the one or more shelters may include location information of the shelters located within a preset first distance from the occurrence point for the currently generated earthquake.

The location information on the one or more shelters may include location information on the shelters that can accommodate the current evacuation personnel among the shelters located within the predetermined first distance.

Storing damage estimation basic information including the number of vulnerable strata population and the number of buildings that are not earthquake-resistant according to the region included in the target area; When the current earthquake information is received, the number of vulnerable strata by region for one or more regions located within a second predetermined distance from the occurrence point for the currently generated earthquake based on the current earthquake information and the damage estimation basic information. And generating damage estimation information including the number of buildings that are not seismic designed. And transmitting the damage estimation information to the user terminal.

Storing gas station location information including location information on a gas station included in the target area; When the current earthquake information is received, for a gas station located within a preset third distance from a generation point for the currently generated earthquake on a map of the target area based on the current earthquake information and the gas station location information. Generating a gas station location information visualization image visualizing the location information; The method may further include transmitting the gas station location information visualization image to the user terminal.

According to the disclosed embodiments, when the past earthquake information request is received from the user terminal, the occurrence point for the past earthquake on the map of the target area based on the past earthquake information request and the past earthquake information And by transmitting the past earthquake information visualization image of the seismic magnitude in time series to the user terminal, it is possible to visualize the current earthquake information in the past in time series and provide it to the user.

1 is a block diagram of an earthquake information providing apparatus according to an embodiment
2 is a block diagram of an earthquake information providing apparatus according to a further embodiment
3 is a flowchart of a method of providing earthquake information according to an embodiment
4 is a flowchart of a method for providing earthquake information according to a first embodiment;
5 is a flowchart of a method for providing earthquake information according to a second embodiment.
6 is a flowchart of a method for providing earthquake information according to a third embodiment;
7 is a flowchart of a method for providing earthquake information according to a fourth embodiment;
8 is an exemplary diagram for describing a current earthquake information visualization image, according to an embodiment.
9 is an exemplary diagram for describing a process of generating a shelter location information visualization image, damage estimation information, and a gas station location information visualization image, according to an exemplary embodiment.
10 is a block diagram illustrating and describing a computing environment including a computing device suitable for use in example embodiments.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The following detailed description is provided to assist in a comprehensive understanding of the methods, devices, and / or devices described herein. However, this is only an example and the present invention is not limited thereto.

In describing the embodiments of the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definition should be made based on the contents throughout the specification. The terminology used in the description is for the purpose of describing embodiments of the invention only and should not be limiting. Unless expressly used otherwise, the singular forms “a,” “an,” and “the” include plural forms of meaning. In this description, expressions such as "comprises" or "equipment" are intended to indicate certain features, numbers, steps, actions, elements, portions or combinations thereof, and one or more than those described. It should not be construed to exclude the presence or possibility of other features, numbers, steps, actions, elements, portions or combinations thereof.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The following detailed description is provided to assist in a comprehensive understanding of the methods, devices, and / or devices described herein. However, this is only an example and the present invention is not limited thereto.

1 is a block diagram of an earthquake information providing apparatus 100 according to an embodiment.

Referring to FIG. 1, the earthquake information providing apparatus 100 may include a storage 110, a receiver 120, a visualization image generator 130, and a transmitter 140.

The storage unit 110 stores past earthquake information including a generation point, a generation date, and an earthquake magnitude of the past earthquake in the target area. The target area may be preset by an operator or a user of the weather information providing apparatus 100. The target area may mean, for example, an area including the Korean peninsula.

The generation point may include, for example, at least one of an epicenter and an epicenter. Earthquake magnitude refers to the numerical value of the magnitude of the earthquake. For example, the earthquake magnitude may be the Richter scale, but is not limited to specific units.

For example, the past earthquake information may include the first past earthquake information and the second past earthquake information. In the case of the first past earthquake information, the occurrence point is Busan, and the date and time of occurrence is August 17, 1998. The magnitude may be three, and in the case of the second past earthquake information, the occurrence point may be Gangneung, the occurrence date and time may be April 25, 2003, and the magnitude of the earthquake may be five.

The receiver 120 receives a past earthquake information request from the user terminal.

When the past earthquake information request is received from the user terminal, the visualization image generator 130 may generate a spot for the past earthquake on the map of the target area based on the past earthquake information request and the past earthquake information; Generates a visualized image of past earthquake information visualizing the magnitude of the earthquake in time series.

Visualizing the point of occurrence and the magnitude of the earthquake may indicate, for example, a point corresponding to the point of occurrence on the map, and the magnitude of the earthquake corresponding to the point using at least one of symbols, letters, numbers, figures, and colors. To express visually to the user.

Visualizing in time series means, for example, visualizing the point of occurrence and the magnitude of an earthquake sequentially, from an earthquake that occurred in the past to an earthquake close to the present. In this case, the temporal interval between the image frames may be set by an operator or a user of the weather information providing apparatus 100.

The transmitter 140 transmits the past earthquake information visualization image to the user terminal.

Meanwhile, the past earthquake information request may include the earthquake occurrence period. The earthquake occurrence period refers to a period during which the user wants to obtain visual information about past earthquakes. For example, the earthquake period may be between 1980 and 1990.

At this time, the past earthquake information visualization image is a time series of the occurrence point and earthquake magnitude of the past earthquake corresponding to the earthquake occurrence period on the map of the target area based on the earthquake occurrence period included in the past earthquake information request. It may be a visualized image.

Meanwhile, the receiver 120 may receive current earthquake information including an occurrence point, an occurrence date, and an earthquake magnitude of the earthquake currently occurring in the target area. Here, the term "present" is used to distinguish it from the term "past", not exactly the present moment.

In this case, when the current earthquake information is received, the visualization image generating unit 130 visualizes the occurrence point and the magnitude of the earthquake for the currently generated earthquake on a map of the target area based on the current earthquake information. A seismic information visualization image can be generated.

The transmitter 140 may transmit the current seismic information visualization image to the user terminal.

According to an embodiment, the transmitter 140 transmits a pushing message generated based on the current earthquake information to the user terminal before transmitting the current earthquake information visualization image, and transmits a current earthquake in response to the pushing message from the user terminal. When the information request is received, the current earthquake information visualization image may be transmitted to the user terminal.

Meanwhile, the storage unit 110 may further store shelter information including at least one of an evacuation personnel acceptable state and location information of the shelter included in the target area. The evacuation personnel acceptance status can be updated in real time, taking into account the current status of the shelter.

In this case, when the current earthquake information is received, the visualization image generation unit 130 visualizes the location information of the at least one shelter on the map of the target area based on the current earthquake information and the shelter information. The location information visualization image may be generated. Meanwhile, the first distance may be set to increase as the magnitude of the earthquake included in the current earthquake information increases.

The transmitter 140 may transmit the shelter location information visualization image to the user terminal.

On the other hand, the location information for the one or more shelters may include location information for the shelter located within a first predetermined distance from the occurrence point for the current earthquake. According to an embodiment, the location information of the one or more shelters may include location information of the shelters that can accommodate the current evacuation personnel among the shelters located within the predetermined first distance.

The storage unit 110 may further store gas station location information including location information of a gas station included in the target area.

In this case, when the current earthquake information is received, the visualization image generating unit 130 may predetermine an occurrence point of the earthquake generated on the map of the target area based on the current earthquake information and the gas station location information. The gas station location information visualization image may be generated by visualizing the location information on the gas station located within the set third distance.

In addition, the transmitter 140 may transmit the gas station location information visualization image to the user terminal. Meanwhile, the third distance may be set to increase as the magnitude of the earthquake included in the current earthquake information increases. This is because major elements can be viewed as dangerous places where an explosion can occur in the event of an earthquake.

2 is a block diagram of an earthquake information providing apparatus 200 according to an additional embodiment.

2, the earthquake information providing apparatus 200 according to another embodiment may include a storage 210, a receiver 220, a visualization image generator 230, a damage estimation information generator 240, and a transmitter 250. ).

The storage unit 210, the receiver 220, and the visualization image generator 230 illustrated in FIG. 2 have the same configuration as the storage unit 110, the receiver 120, and the visualization image generator 130 illustrated in FIG. 1. Therefore, duplicate description thereof will be omitted.

The storage unit 210 may further store damage estimation basic information including the number of vulnerable strata population by area included in the target area and the number of buildings that are not seismic designed. For example, the basic information on the damage estimate is based on 100,000 vulnerable populations in Busan, 20,000 vulnerable populations in Gangneung, 1,000 earthquake-resistant buildings in Busan, and seismic designers in Gangneung. The number of bad buildings can contain 100. The number of vulnerable populations may refer to the sum of populations for the elderly, women and children among the population living in the region. On the other hand, the damage estimation basic information may further include the number of buildings with a long building age for each region.

In this case, when the current earthquake information is received, the damage estimation information generation unit 240 is located within a second predetermined distance from the occurrence point for the currently generated earthquake based on the current earthquake information and the damage calculation basic information. Damage estimates can be generated, including the number of vulnerable populations and the number of buildings that are not seismically designed for one or more regions. Meanwhile, the second distance may be set to increase as the magnitude of the earthquake included in the current earthquake information increases.

The transmitter 250 may transmit the damage calculation information to the user terminal.

3 is a flowchart illustrating a method of providing earthquake information according to an embodiment.

The earthquake information providing method of FIG. 3 may be performed by the earthquake information providing apparatus 100 shown in FIG. 1.

In the illustrated flow chart, the method is divided into a plurality of steps, but at least some of the steps may be performed in a reverse order, in combination with other steps, omitted, divided into substeps, or not shown. One or more steps may be added and performed.

First, the earthquake information providing apparatus 100 stores the past earthquake information including the occurrence point, the date and time of occurrence of the earthquake and the magnitude of the earthquake in the target area (310).

Next, the earthquake information providing apparatus 100 receives a past earthquake information request from the user terminal (320).

Next, when the past earthquake information request is received from the user terminal, the earthquake information providing apparatus 100 may determine the past earthquake on the map of the target area based on the past earthquake information request and the past earthquake information. A historical seismic information visualization image of time-series visualization of the occurrence point and the earthquake magnitude is generated (330).

Finally, the earthquake information providing apparatus 100 transmits the past earthquake information visualization image to the user terminal (340).

4 is a flowchart of a method for providing earthquake information according to a first embodiment.

The earthquake information providing method of FIG. 4 may be performed by the earthquake information providing apparatus 100 shown in FIG. 1.

In the illustrated flow chart, the method is divided into a plurality of steps, but at least some of the steps may be performed in a reverse order, in combination with other steps, omitted, divided into substeps, or not shown. One or more steps may be added and performed.

First, the earthquake information providing apparatus 100 may receive current earthquake information including an occurrence point, an occurrence date, and an earthquake magnitude of an earthquake currently generated in the target area (410).

Next, when the current earthquake information is received, the earthquake information providing apparatus 100 visualizes the occurrence point and the magnitude of the earthquake for the currently generated earthquake on a map of the target area based on the current earthquake information. A current earthquake information visualization image may be generated (420).

Finally, the earthquake information providing apparatus 100 may transmit the current earthquake information visualization image to the user terminal (430).

5 is a flowchart of a method for providing earthquake information according to a first embodiment.

The earthquake information providing method of FIG. 5 may be performed by the earthquake information providing apparatus 100 shown in FIG. 1.

In the illustrated flow chart, the method is divided into a plurality of steps, but at least some of the steps may be performed in a reverse order, in combination with other steps, omitted, divided into substeps, or not shown. One or more steps may be added and performed.

First, the earthquake information providing apparatus 100 may further store shelter information including at least one of an evacuation personnel acceptable state and location information for the shelter included in the target area (510).

Next, when the current earthquake information is received, the earthquake information providing apparatus 100 visualizes the location information of at least one shelter on a map of the target area based on the current earthquake information and the shelter information. The location information visualization image may be generated (520).

Next, the earthquake information providing apparatus 100 may transmit the shelter location information visualization image to the user terminal (530).

On the other hand, the location information for one or more shelters may include location information for the shelter located within a first predetermined distance from the occurrence point for the current earthquake. According to an embodiment, the location information of the one or more shelters may include location information of the shelters that can accommodate the current evacuation personnel among the shelters located within the predetermined first distance.

6 is a flowchart of a method for providing earthquake information according to a third embodiment.

The method for providing earthquake information of FIG. 6 may be performed by the earthquake information providing device 200 shown in FIG. 2.

In the illustrated flow chart, the method is divided into a plurality of steps, but at least some of the steps may be performed in a reverse order, in combination with other steps, omitted, divided into substeps, or not shown. One or more steps may be added and performed.

First, the earthquake information providing apparatus 200 may further store damage calculation basic information including the number of vulnerable strata population by area included in the target area and the number of buildings that are not seismic designed (610).

Next, when the current earthquake information is received, the earthquake information providing apparatus 200 is located within a preset second distance from an occurrence point for the currently generated earthquake based on the current earthquake information and the damage calculation basic information. Damage calculation information including the number of vulnerable strata population and the number of buildings that are not earthquake-resistant for each region may be generated (620).

Finally, the earthquake information providing apparatus 200 may transmit the damage calculation information to the user terminal (630).

7 is a flowchart of a method for providing earthquake information according to a fourth embodiment.

The method for providing earthquake information of FIG. 7 may be performed by the earthquake information providing device 100 shown in FIG. 1.

In the illustrated flow chart, the method is divided into a plurality of steps, but at least some of the steps may be performed in a reverse order, in combination with other steps, omitted, divided into substeps, or not shown. One or more steps may be added and performed.

First, the earthquake information providing apparatus 100 may further store gas station location information including location information on a gas station included in the target area (710).

Next, when the current earthquake information is received, the earthquake information providing apparatus 100 may determine from the occurrence point of the earthquake currently generated on the map of the target area based on the current earthquake information and the gas station location information. In operation 720, a gas station location information visualization image may be generated that visualizes location information of a gas station located within a preset third distance.

Finally, the earthquake information providing apparatus 100 may transmit the main location information visualization image to the user terminal (730).

8 is an exemplary diagram for describing a current earthquake information visualization image, according to an embodiment.

As described above, when the current earthquake information is received, the earthquake information providing apparatus 100 visualizes the occurrence point of the earthquake and the magnitude of the earthquake on the map of the target area based on the current earthquake information. The earthquake information visualization image may be transmitted to the user terminal.

As illustrated in FIG. 8, the earthquake information providing apparatus 100 may display a number representing an earthquake magnitude at a point corresponding to the occurrence point on the map. And, as shown in Figure 8, the number indicating the magnitude of the earthquake may be different in size and color for each magnitude of the earthquake.

9 is an exemplary diagram for describing a process of generating a shelter location information visualization image, damage calculation information, and a gas station location information visualization image, according to an exemplary embodiment.

As illustrated in FIG. 9, the earthquake information providing apparatus 100 may collect location information on a shelter located within a predetermined distance from a generation point for the currently generated earthquake to generate a shelter location information visualization image. .

In addition, the earthquake information providing apparatus 100, as shown in Figure 4 to generate damage estimation information, the number of vulnerable population by region for one or more regions located within a predetermined distance from the occurrence point for the earthquake that is currently generated And the number of buildings that are not seismic designed.

In addition, the earthquake information providing apparatus 100 to collect the location information for the gas station located within a predetermined distance from the occurrence point for the current earthquake, as shown in Figure 9 to generate a gas station location information visualization image. Can be.

On the other hand, the distance may be set to increase as the magnitude of the earthquake included in the current earthquake information increases.

10 is a block diagram illustrating and describing a computing environment including a computing device suitable for use in example embodiments.

In the illustrated embodiment, each component may have different functions and capabilities in addition to those described below, and may include additional components in addition to those described below.

The illustrated computing environment 10 includes a computing device 12. In one embodiment, computing device 12 may be earthquake information providing device 100. Computing device 12 includes at least one processor 14, computer readable storage medium 16, and communication bus 18. The processor 14 may cause the computing device 12 to operate according to the example embodiments mentioned above. For example, processor 14 may execute one or more programs stored in computer readable storage medium 16. The one or more programs may include one or more computer executable instructions that, when executed by the processor 14, cause the computing device 12 to perform operations in accordance with an exemplary embodiment. Can be.

Computer readable storage medium 16 is configured to store computer executable instructions or program code, program data and / or other suitable forms of information. The program 20 stored in the computer readable storage medium 16 includes a set of instructions executable by the processor 14. In one embodiment, computer readable storage medium 16 includes memory (volatile memory, such as random access memory, nonvolatile memory, or a suitable combination thereof), one or more magnetic disk storage devices, optical disk storage devices, flash Memory devices, or any other form of storage medium that is accessible by computing device 12 and capable of storing desired information, or a suitable combination thereof.

The communication bus 18 interconnects various other components of the computing device 12, including the processor 14 and the computer readable storage medium 16.

Computing device 12 may also include one or more input / output interfaces 22 and one or more network communication interfaces 26 that provide an interface for one or more input / output devices 24. The input / output interface 22 and the network communication interface 26 are connected to the communication bus 18. The input / output device 24 may be connected to other components of the computing device 12 via the input / output interface 22. Exemplary input / output devices 24 may include pointing devices (such as a mouse or trackpad), keyboards, touch input devices (such as touchpads or touchscreens), voice or sound input devices, various types of sensor devices, and / or imaging devices. Input devices, and / or output devices such as display devices, printers, speakers, and / or network cards. The example input / output device 24 may be included inside the computing device 12 as one component of the computing device 12, and may be connected to the computing device 12 as a separate device from the computing device 12. It may be.

The above detailed description should not be construed as limiting in all respects but should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

100: weather information providing device
110: storage unit
120: receiver
130: visualization image generation unit
140: transmitter
200: weather information providing device
210: storage
220: receiver
230: visualization image generation unit
240: damage calculation information generation unit
250: transmitter
10: Computing Environment
12: computing device
14: Processor
16: computer readable storage media
18: communication bus
20: Program
22: I / O interface
24: input / output device
26: network communication interface

Claims (14)

Evacuation information including at least one of evacuation personnel acceptable status and location information for the evacuation shelter included in the target area and past earthquake information including the occurrence point, the date and time of occurrence of the earthquake and the magnitude of the earthquake in the target area; A storage unit for storing;
Receiving unit for receiving a past earthquake information request from the user terminal;
When the past earthquake information request is received from the user terminal, time-based visualization of the occurrence point and earthquake magnitude of the past earthquake on a map of the target area based on the past earthquake information request and the past earthquake information A visualization image generating unit generating a past earthquake information visualization image; And
A transmitting unit which transmits the past earthquake information visualization image to the user terminal,
The receiving unit receives current earthquake information including an occurrence point, an occurrence date, and an earthquake magnitude of an earthquake currently occurring in the target area,
The visualization image generation unit, when the current earthquake information is received, based on the current earthquake information and the shelter information current visualization of the occurrence point and the earthquake magnitude of the current earthquake on the map of the target area Create a shelter location information visualization image that visualizes the earthquake information visualization image and location information for one or more shelters located within a first predetermined distance from the occurrence point of the currently generated earthquake,
The transmission unit transmits the current earthquake information visualization image and the shelter location information visualization image to the user terminal,
And the first distance is increased in proportion to the magnitude of the earthquake for the currently generated earthquake.
delete delete delete The method according to claim 1,
The location information on the one or more shelters, earthquake information providing device including location information on the shelter that can accommodate the current evacuation personnel among the shelters located within the first predetermined distance.
The method according to claim 1,
The storage unit further stores damage estimation basic information including the number of vulnerable strata population by area included in the target area and the number of buildings that are not seismic designed,
The earthquake information providing apparatus, when the current earthquake information is received, at least one area located within a second predetermined distance from an occurrence point for the currently generated earthquake based on the current earthquake information and the damage estimation basic information. It further includes a damage calculation information generating unit for generating damage calculation information including the number of vulnerable population population and the number of buildings not earthquake-resistant by region for,
And the transmitting unit transmits the damage calculation information to the user terminal.
The method according to claim 1,
The storage unit further stores gas station location information including location information on a gas station included in the target area,
The visualization image generation unit, when the current earthquake information is received, based on the current earthquake information and the gas station location information, a third distance preset from a generation point of the earthquake currently generated on the map of the target area; Create a gas station location information visualization image that visualizes the location information for the gas station located within,
The transmitter, the earthquake information providing apparatus for transmitting the gas station location information visualization image to the user terminal.
Evacuation information including at least one of evacuation personnel acceptable status and location information for the evacuation shelter included in the target area and past earthquake information including the occurrence point, the date and time of occurrence of the earthquake, and the magnitude of the earthquake Storing;
Receiving a past earthquake information request from a user terminal;
When the past earthquake information request is received from the user terminal, time-based visualization of the occurrence point and earthquake magnitude of the past earthquake on a map of the target area based on the past earthquake information request and the past earthquake information Generating a past earthquake information visualization image;
Transmitting the past earthquake information visualization image to the user terminal;
Receiving current earthquake information including an occurrence point, an occurrence date, and an earthquake magnitude for an earthquake currently occurring in the target area;
When the current earthquake information is received, based on the current earthquake information and the shelter information, the current earthquake information visualization image visualizing the occurrence point and the magnitude of the earthquake on the map of the target area and the magnitude of the earthquake Generating a shelter location information visualization image that visualizes location information of at least one shelter located within a preset first distance from an occurrence point for the currently generated earthquake; And
Transmitting the current earthquake information visualization image and the shelter location information visualization image to the user terminal,
And the first distance is increased in proportion to the magnitude of the earthquake for the currently generated earthquake.
delete delete delete The method according to claim 8,
Location information for the one or more shelters, earthquake information providing method comprising the location information on the shelter that can accommodate the current evacuation personnel among the shelters located within the predetermined first distance.
The method according to claim 8,
Storing damage estimation basic information including the number of vulnerable strata population and the number of buildings that are not earthquake-resistant according to the region included in the target area;
When the current earthquake information is received, the number of vulnerable strata by region for one or more regions located within a second predetermined distance from the occurrence point for the currently generated earthquake based on the current earthquake information and the damage estimation basic information. And generating damage estimation information including the number of buildings that are not seismic designed. And
And transmitting the damage estimation information to the user terminal.
The method according to claim 8,
Storing gas station location information including location information on a gas station included in the target area;
When the current earthquake information is received, for a gas station located within a preset third distance from a generation point for the currently generated earthquake on a map of the target area based on the current earthquake information and the gas station location information. Generating a gas station location information visualization image visualizing the location information;
And transmitting the gas station location information visualization image to the user terminal.

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