KR102109336B1 - Gunshot detection system - Google Patents

Abstract

The present invention relates to a gun detection system for quickly detecting and analyzing gunshots, calculating an optimal evacuation route, and providing it to a user, comparing the input sound with a preset value stored in advance, and the sound is used to determine the setpoint value. A first mobile terminal for determining whether it satisfies, and creating sound sensing information including the sound and location information when the set value is satisfied; The sound detection information is received from the first mobile terminal to determine whether the sound is a gunshot, and if the sound is gunshot, the sound is analyzed using pre-stored gunshot analysis data to generate the gunshot location, the type of gun, A system server for generating notification information including any one or more of the quantity of firearms; And a second mobile terminal receiving and outputting the notification information.

Description

Gunshot detection system

The present invention relates to a gun detection system, and more particularly, to a gun detection system to quickly detect and analyze gun shots, calculate an optimal evacuation route, and provide them to a user.

In general, the problem of firearms is a social problem that has risen exponentially since the 21st century and is rapidly rising to the surface. For example, in the United States, it was relatively easy to obtain firearms, so many firearms and many casualties occurred, such as Florida High School shootings and Virginia Tech firearms.

In the country where a firearms incident occurred, there are discussions on gun control every time such a case occurs, but gun control is being ignored every time.

Therefore, bulletproof backpacks and small baseball bats have been developed to cope with the subsequent firearm accidents, but this is advantageous in situations where the shooter faces at a short distance, but has become useless from a long distance.

Also, even in the event of a gun accident, there is no way to quickly find out about such crimes. In addition, the majority of students have time to evacuate until they encounter the shooter, but it is impossible to escape by judging the exact situation due to a collective panic or confusion, which increases the amount of damage when a gun accident occurs. .

Republic of Korea Registered Patent No. 10-0904777 (June 18, 2009)

The present invention is proposed to solve various problems occurring in the prior art as described above, and quickly detects and analyzes the gunshot, calculates the optimal evacuation route through the analyzed value, and provides the calculated evacuation route to the user Provides a gun detection system to provide.

Another problem to be solved by the present invention is to provide a gun detection system that ensures a user's evacuation time until the shooter is suppressed by providing information about the shooter when the user cannot evacuate through a safe evacuation route.

In order to solve the above problems, the gun detection system according to the present invention compares the input sound with a preset value stored to determine whether the sound satisfies the set value, and when the set value is satisfied, the sound and A first mobile terminal for creating sound sensing information including location information; The sound detection information is received from the first mobile terminal to determine whether the sound is a gunshot, and if the sound is gunshot, the sound is analyzed using pre-stored gunshot analysis data to generate the gunshot location, the type of gun, A system server for generating notification information including any one or more of the quantity of firearms; And a second mobile terminal receiving and outputting the notification information.

According to the gun detection system according to the present invention, by quickly detecting and analyzing gun shots, calculating the optimal evacuation route through the analyzed values, and providing the calculated evacuation route to the user, the user is in a group panic and confusion. You can safely evacuate through the provided evacuation route.

In addition, according to the gun detection system according to the present invention, when the user cannot evacuate through a safe evacuation route, by providing information about the shooter, the evacuation time of the user is secured until the shooter is overpowered, thereby causing damage due to a gun accident. Can be prevented.

1 is a view showing the configuration of a gun detection system according to a first embodiment of the present invention.
2 is a view showing a state of use of the gun detection system according to the present invention.
FIG. 3 is a view showing an example of actually applying FIG. 2.
4 is a view showing the configuration of a gun detection system according to a second embodiment of the present invention.

In order to fully understand the present invention and the operational advantages of the present invention and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the contents described in the accompanying drawings, which illustrate exemplary embodiments of the present invention.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing denote the same members.

1 is a view showing the configuration of a gun detection system according to a first embodiment of the present invention.

Referring to FIG. 1, the gun detection system 10 according to the present invention includes a first mobile terminal 20, a system server 30, and a second mobile terminal 40.

The first mobile terminal 20 collects sounds that may be shot and transmits them to the system server 30.

The first mobile terminal 20 compares the input sound with a pre-stored set value (hereinafter set value) to determine whether the sound satisfies the set value, and when the set value is satisfied, detects sound including sound and location information Fill out the information.

More specifically, the first mobile terminal 20 is equipped with a microphone for collecting sound, and compares the sound input to the microphone with a set value. Here, the set value may be defined as a reference value or a comparison value for determining whether the sound input through the microphone is a subject of total analysis. Accordingly, the set value may include a reference decibel or a reference frequency value to determine the sound level and frequency concentration. Since the set value may vary in decibel or frequency of the gun sound depending on the type of firearm, the set value is preset in various reference decibels or reference frequencies according to the type of firearm and is stored in the first mobile terminal 20.

The first mobile terminal 20 may maintain an idle state in which the minimum function is maintained to determine whether the set value is satisfied. When the sound input to the microphone in the idle state satisfies the set value, the first mobile terminal 20 releases the idle mode to perform a predetermined procedure. Here, the predetermined procedure refers to a procedure for generating sound sensing information and transmitting it to the system server 30.

Accordingly, the first mobile terminal 20 creates sound detection information including sound and location information that satisfies the set value and transmits the sound detection information to the system server 30. Here, the location information is the location information of the user using the first mobile terminal 20, which can be obtained through GPS outdoors, and receives a WiFi signal from an access point (AP) indoors, and then uses a fingerprint (fingerprint) technique Alternatively, it can be obtained through triangulation. As another method, location information of a mobile communication network may be used in addition to GPS, or another method for indoor positioning may be used.

The system server 30 receives sound detection information from the first mobile terminal 20 to determine whether the sound is gunshot, and if the sound is gunshot, analyzes the sound using the pre-stored gunshot analysis data, where the gunshot occurs, and the firearm It generates notification information including any one or more of the type and quantity of firearms. Then, the system server 30 transmits the notification information to the second mobile terminal 40. Here, the pre-stored gun analysis data may include the sound, type, and specifications of all guns used for distribution and use. In addition, the notification information may include location information of the first mobile terminal.

Further, the system server 30 is built with a database for storing totality analysis data, and such a database stores configuration information and evacuation information. The setting information includes information such as subscriber information, a subscriber group, and a service providing target required for providing a service installed in the first mobile terminal 20. In addition, the evacuation information includes 3D virtual building data or an indoor map of the place where the gunfire occurred to calculate the evacuation route.

In addition, the system server 30 calculates the location of the gunshot by using the sound sensing information transmitted from the first mobile terminal 20. In detail, the system server 30 receives sound detection information from the first mobile terminal 20 and analyzes the received sound detection information through cluster analysis.

At this time, cluster analysis is a multivariate analysis technique that classifies and classifies similar objects based on the characteristics of multiple objects, and is used in the present invention to determine the location of the gunshot (the shooter's position) and the position of the first mobile terminal 20. do. That is, the system server 30 classifies the first mobile terminal 20 that senses the gunshot from the location where the gunshot occurred through cluster analysis into the same group. At this time, the first mobile terminal 20 may be configured in plural. In addition, since a plurality of first mobile terminals 20 have a different order of detecting shots according to the size of the shots, the system server 30 analyzes the distance between the first mobile terminals 20 that sequentially senses shots. By doing so, it is possible to determine the location of the gunshot.

At this time, the method for analyzing the acoustic detection information can calculate the occurrence position of the gun using various analysis methods, and the cluster analysis is only an example for easy understanding of the present invention, and limiting the present invention by the proposed method no. That is, if it is a method capable of effectively analyzing sound sensing information, it is possible to apply and use various known analysis methods.

Therefore, the system server 30 analyzes the acoustic detection information using the cluster analysis, and then generates notification information including at least one of the location of the gunshot, the type of gun, and the number of guns to generate the second mobile terminal ( 40).

The second mobile terminal 40 outputs the notification information to inform the user of the occurrence of gunfire, and recommends an evacuation route. That is, the system server 30 receives notification information including location information of the first mobile terminal 20 and outputs the location and notification information of the first mobile terminal 20. At the same time, the second mobile terminal 40 calculates an evacuation route using evacuation information stored in the system server 30, and then provides an evacuation route to the user.

In more detail, the second mobile terminal 40 outputs 3D virtual building data or indoor map stored in the system server 30 as an image on the screen of the terminal. Then, the second mobile terminal 40 outputs the current location through the location information, and matches it with the image output on the screen. Also, the second mobile terminal 40 matches the location of the first mobile terminal 20 clustered and analyzed by the system server 30 with the image output on the screen.

The second mobile terminal 40 provides an evacuation route in either the same direction as the user's movement path using the first mobile terminal 20 or the direction other than the shooter's expected movement path. At this time, since the shooter's predicted movement path moves when the shooter moves, the user of the first mobile terminal 20 moves away from the shooter's moving direction, and this can be analyzed through cluster analysis to be identified in advance.

In addition, the second mobile terminal 40 finds a passage and safety zone in the nearest building that can be avoided on the shooter's movement path through 3D virtual building data or indoor map in a single-story or higher building and provides it to the user. Accordingly, the user of the second mobile terminal 40 can safely evacuate along the evacuation route output to the second mobile terminal 40.

In addition, when it is determined that the position where the gunshot occurs is within a predetermined range, the second mobile terminal 40 forcibly switches the brightness of sound or lighting that may be exposed to the outside into a silent or power-saving mode through a function pre-installed on the terminal. At this time, the pre-installed function may be implemented through an application program.

In addition, the second mobile terminal 40 providing the evacuation route automatically sends an emergency message designated to a previously designated destination. Here, the destination designated in advance may include a family, a friend, etc., and the designated emergency message may include at least one of voice, video, and text.

Meanwhile, the second mobile terminal 40 includes the above-described first mobile terminal 20. That is, the roles of the first mobile terminal 20 and the second mobile terminal 40 may be changed depending on the situation.

The first mobile terminal 20 may be a terminal that detects the totality by being located around the occurrence of the totality, and the second mobile terminal 40 may be a terminal that does not detect the totality. The terminal that senses the gunshot becomes the first mobile terminal 20, and the terminal that does not detect the gunshot becomes the second mobile terminal 20.

Therefore, the first mobile terminal 20 and the second mobile terminal 40 are not physically separated, but functionally separated for convenience of description.

2 is a view showing a state of use of the gun detection system according to the present invention.

Hereinafter, it is assumed that the first mobile terminals 20a to 20c also output notification information and evacuation routes as the second mobile terminals 40a to 40c, and that gunshots have occurred.

As shown in FIG. 2, the firearm detection system 10 of the present invention includes a group of first mobile terminals 20a to 20c located around gunshot occurrence and a second mobile terminal 40a to 40c not located near gunshot occurrence. ) It is divided into groups. When gunshot occurs, the first mobile terminals 20a to 20c located around the gunshot generate sound detection information including location information by sensing and determining whether the sound is gunshot.

At this time, the first mobile terminal (20a ~ 20c) detects the totality in the order closest to the location of the total occurrence. That is, as illustrated in the drawing, the first mobile terminal 20a located in the third zone detects the totality first. Then, the first mobile terminal 20b in the 4th zone detects the totality, and then the first mobile terminal 20c in the 5th zone detects the totality. Accordingly, the first mobile terminal (20a ~ 20c) sequentially detects the gunshot, and creates sound detection information and transmits it to the system server (30).

The system server 30 analyzes the acoustic detection information received from the first mobile terminals 20a to 20c through cluster analysis, classifies the first mobile terminals 20a to 20c into the same group, and sequentially detects gunshots. By analyzing the distance between the first mobile terminal (20a ~ 20c) to determine the location of the gun. Therefore, the system server 30 analyzes the acoustic detection information using the cluster analysis, generates notification information, and transmits the generated notification information to the second mobile terminal 40.

The second mobile terminals 40a to 40c receive and output the notification information from the system server 30 to provide the location of the total generation and the location of the first mobile terminals 20a to 20c to the user. In addition, the second mobile terminal (40a ~ 40c) provides the evacuation route to the user, except for the gun location or the expected movement route of the shooter through the evacuation information stored in the system server (30).

Therefore, as illustrated in the drawing, when the shooter moves to the expected movement path, the first mobile terminal 20a ~ 20c user moves in the direction (west, south, north) excluding the gunshot location or the shooter's expected movement path. Evacuation. In addition, the users of the second mobile terminal 40a to 40c may evacuate along the evacuation route of the first mobile terminal 20a to 20c, or through the evacuation route displayed on the screen in the direction excluding the shooter's expected movement route. have.

At this time, the users of the first mobile terminal 20a to 20c and the second mobile terminal 40a to 40c may be exposed to the shooter during evacuation along the evacuation route. Therefore, if it is determined that the first mobile terminal 20a to 20c and the second mobile terminal 40a to 40c are within the predetermined range, the sound is silently switched and the brightness of the light is forcibly switched to the power saving mode. This prevents the user from being exposed from the shooter.

In addition, the first mobile terminal (20a ~ 20c) and the second mobile terminal (40a ~ 40c), when outputting the alert information and evacuation route, automatically sends a designated emergency message to a predetermined destination. At this time, the designated emergency message is automatically sent silently to prevent the danger of being exposed to the shooter.

Accordingly, the user can safely evacuate through an evacuation route guided by the first mobile terminal 20a to 20c and the second mobile terminal 40a to 40c, so that a gun accident can be prevented.

FIG. 3 is a view showing an example of actually applying FIG. 2 and is for explaining using 3D virtual building data or indoor map. Hereinafter, a description overlapping with FIG. 2 will be omitted.

As illustrated in FIG. 3, a firearm accident may occur in a room having a single floor or higher. In this case, the mobile terminals located on the first floor may be the second mobile terminals 40a to 40c, and the mobile terminals located on the same layer (second floor) or the second tier 210 as the shooter may be the first mobile terminals 20a to 20c. ).

Optimal evacuation routes are displayed on the screens of the first mobile terminals 20a to 20c and the second mobile terminals 40a to 40c according to the total position generated from the shooter. Here, the optimal evacuation route is calculated from evacuation information stored in the system server 30, and expressed as a line or symbol, such as navigation, to be provided to the user. And, the evacuation information may include an algorithm for providing an optimal evacuation route or an optimal hiding place.

Accordingly, since the first mobile terminal 20a is close to the first stair 200, the evacuation route is recommended to the user to evacuate to the first stair 200 and escape through the first exit 100. Then, the first mobile terminals 20b and 20c located in the second staircase 210 go down to the first floor using the second staircase 210 to the user, and then evacuate through the second exit 110 to escape. Recommend

In addition, since the second mobile terminal 40a located on the first floor is close to the first exit 100, it is recommended to evacuate through the first exit 100. In addition, since the other second mobile terminals 40b and 40c are close to the second exit 110, it is recommended to evacuate through the second exit 110.

Although not shown in the figure, the first mobile terminal 20 and the second mobile terminal 40 may be present close to the position of the shooter and remote from the first and second outlets 100 and 110. The first mobile terminal 20 and the second mobile terminal 40 may not recommend escape to the user, but may recommend a place to hide. The place where stealth can be performed can be calculated using evacuation information stored in the system server 30.

Therefore, the user can be recommended to use the firearm detection system 10 to safely evacuate indoors to the outside or to hide indoors.

4 is a view showing the configuration of a gun detection system according to a second embodiment of the present invention.

4, the gun detection system 10 according to the second embodiment includes a first mobile terminal 120, a system server 130, and a second mobile terminal 40 as in the first embodiment. do.

However, unlike the first embodiment described above, the second embodiment of the present invention has a difference in the point of performing the analysis process of the totality in the first mobile terminal 120 and the processing related to the part.

Hereinafter, in describing the second embodiment, detailed descriptions of the same parts as the above-described first embodiment or parts that can be easily understood with reference to the first embodiment will be omitted.

First, the first mobile terminal 120 detects sound and determines whether it is a gunshot.

When the sound is judged as gunshot, the gunshot is analyzed by the gunshot analysis data stored in advance to calculate analysis information. That is, unlike the first embodiment, the system server 130 does not receive and analyze sound detection information, but the first mobile terminal 120 analyzes the totality using the totality analysis data itself.

At this time, the method of analyzing the totality may be analyzed using the cluster analysis described in the first embodiment, and information for analysis may be transmitted from another first mobile terminal 120. To this end, the first mobile terminal 120 may share data using WI-FI Direct or Bluetooth, which enables analysis information analyzed through cluster analysis to be connected between terminals without an Internet connection or an AP.

The analysis information calculated from the first mobile terminal 120 may include any one or more of the location of the gun, the type of gun, the gun's specifications, and location information, and is transmitted to the system server 130.

The system server 130 receives the analysis information calculated from the first mobile terminal 120, generates notification information, and serves to transmit the information to the second mobile terminal 40. At this time, the notification information includes analysis information.

Thereafter, the second mobile terminal 40 receives and outputs the notification information generated from the system server 130.

Accordingly, the analysis process is not performed by the system server 130, but the analysis process is performed by the first mobile terminal 120. Therefore, even when the system server 130 is down, a user who needs the firearm detection system 10 can receive a service from the first mobile terminal 120.

On the other hand, although not shown in the figure, as the number of the first mobile terminal 220 and the second mobile terminal 240 increases, the system server 230 for analyzing the totality causes a lot of load.

Therefore, the firearm detection system 10 of the present invention may be configured to analyze the gunshot at any one of the system server 230 and the first mobile terminal 220.

The invention made by the present inventors has been described in detail according to embodiments with reference to the accompanying drawings, but the present invention is not limited to the above embodiments and can be changed in various ways without departing from the gist thereof. to be.

10; Gun detection system 20,120: first mobile terminal
30,130: System server 40: Second mobile terminal
100: first exit 110: second exit
200: first tier 210: second stair

Claims (7)

A first mobile terminal comparing the input sound with a preset value stored in advance, determining whether the sound satisfies the set value, and creating sound sensing information including the sound and location information when the set value is satisfied;
The sound detection information is received from the first mobile terminal to determine whether the sound is a gunshot, and if the sound is gunshot, the sound is analyzed using pre-stored gunshot analysis data to generate the gunshot, the type of gun, A system server for generating notification information including any one or more of the quantity of firearms; And
A second mobile terminal for receiving and outputting the notification information; configured to include, or
The input sound is compared with a previously stored set value to determine whether the sound is a gunshot, and if the sound is gunshot, the sound is analyzed using the pre-stored gunshot analysis data to generate the gunshot location, the type of gun, and the gun A first mobile terminal for calculating analysis information including any one or more of quantity and location information;
A system server that generates notification information including the analysis information calculated by the first mobile terminal; And
And a second mobile terminal that receives and outputs the notification information.
The system server includes evacuation information including 3D virtual building data or indoor map of the place where the gunfire occurred,
The second mobile terminal calculates and outputs an evacuation route using the evacuation information according to the location of the gunshot and the location of the first mobile terminal, and automatically sends an emergency message designated to a predetermined destination.
The evacuation route is a gun detection system, characterized in that either the same direction as the user's movement path using the first mobile terminal or the direction excluding the expected movement path of the shooter. delete According to claim 1,
The first mobile terminal is composed of a plurality, the gun detection system, characterized in that included in the second mobile terminal. According to claim 1,
The system server calculates the location of the gunshot using the sound sensing information transmitted from the plurality of first mobile terminals, respectively. According to claim 1,
The notification information
It includes location information of the first mobile terminal,
The second mobile terminal
Gunshot detection system, characterized in that for outputting the location of the first mobile terminal using the location information. delete According to claim 3,
The first mobile terminal and the second mobile terminal,
When the sound is determined to be gunshot, the gunshot detection system, characterized in that forcibly switching the notification sound and ringtone to silence when the gunshot location is within a predetermined range.

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