JP7043912B2 - Code information generator, command control system, code information generation method, program - Google Patents

Description

The present invention relates to a code information generation device, a command control system, a code information generation method, and a program.

Organizations such as fire departments and police have a command control system. The command control system is equipped with a terminal, displays a map on the terminal, and issues a command to the end of the organization. The related technique is disclosed in Patent Document 1.

Japanese Unexamined Patent Publication No. 2006-112981

In the above-mentioned technique of Patent Document 1, it is described that a mobile phone analyzes a two-dimensional bar code to obtain information such as position coordinates of a destination.

By the way, the computer of the command control system is connected only to the closed network in the own system without having a communication connection with the outside. Even in a command center that has such a command control system, it is possible to give a quick command while browsing the map information that is used by the public and has a rapid expansion of functions, without connecting the computer of the command control system to the outside. Is required.

Therefore, an object of the present invention is to provide a code information generation device, a command control system, a code information generation method, and a program that solve the above-mentioned problems.

According to the first aspect of the present invention, the code information generator is provided inside a command stand terminal connected to a command control system having no communication connection with the outside and displaying map information, and is provided on a predetermined map. A point designation reception unit that accepts the designation of a point, a position information acquisition unit that acquires the position information of the predetermined point based on a code generation instruction, and a code that generates code information used for displaying a map corresponding to the position information. It is characterized by including an information generation unit and an output unit that outputs the code information to a map display device indicating a destination device that is communicated and connected to the outside .

According to the second aspect of the present invention, the command control system is connected to a command control system having no communication connection with the outside, and a code information generation device provided inside the command stand terminal for displaying map information is displayed . A point designation reception unit that accepts designation of a predetermined point on a map, a position information acquisition unit that acquires position information of the predetermined point based on a code generation instruction, and code information used for displaying a map corresponding to the position information. The map display device reads the code information and outputs the code information to the map display device indicating the destination device connected to the outside by communicating with the code information generation unit. It is provided with a map information display unit that displays map information based on the position information included in the information.

According to the third aspect of the present invention, in the code information generation method , a code information generation device provided inside a command stand terminal connected to a command control system having no communication connection with the outside and displaying map information is displayed. Accepts the designation of a predetermined point on the map, acquires the position information of the predetermined point based on the code generation instruction, generates the code information used for displaying the map corresponding to the position information, and communicates with the outside. The code information is output to a map display device indicating a destination device .

According to the fourth aspect of the present invention, the computer of the code information generator is connected to the command control system having no communication connection with the outside, and the computer of the code information generator provided inside the command stand terminal for displaying map information. Is used for a point designation receiving means that accepts the designation of a predetermined point on the displayed map, a position information acquisition means that acquires the position information of the predetermined point based on a code generation instruction, and a map display corresponding to the position information. It is characterized in that it functions as a code information generation means for generating code information to be generated, and an output means for outputting the code information to a map display device indicating a destination device communicated with the outside .

According to the present invention, it is possible to give a quick command while browsing the map information of a fast-expanding function used in the public without connecting the computer of the command control system to the outside.

It is a figure which shows the structure of the command control system by 1st Embodiment of this invention. It is a hardware block diagram of the command stand terminal by 1st Embodiment of this invention. It is a functional block diagram of the command stand terminal by 1st Embodiment of this invention. It is a hardware block diagram of the mobile terminal by 1st Embodiment of this invention. It is a functional block diagram of the mobile terminal by 1st Embodiment of this invention. It is a figure which shows an example of the screen which displays the command stand terminal by 1st Embodiment of this invention. It is a figure which shows the processing flow of the 1st Embodiment command stand terminal and a mobile terminal of this invention. It is a figure which shows the minimum structure of the command stand terminal by 1st Embodiment of this invention. It is a figure which shows the minimum structure of the mobile terminal by 1st Embodiment of this invention. It is a figure which shows the structure of the command control system by the 2nd Embodiment of this invention. It is a hardware block diagram of the command stand terminal by 2nd Embodiment of this invention. It is a functional block diagram of the command stand terminal by the 2nd Embodiment of this invention. It is a hardware block diagram of the reporting terminal according to the 2nd Embodiment of this invention. It is a functional block diagram of the notification terminal according to the 2nd Embodiment of this invention. It is a figure which shows an example of the screen which the report terminal by the 2nd Embodiment of this invention displays. It is a figure which shows the processing flow of the command stand terminal and the report terminal by the 2nd Embodiment of this invention. It is a figure which shows the minimum structure of the command stand terminal by 2nd Embodiment of this invention. It is a figure which shows the minimum structure of the report terminal by the 2nd Embodiment of this invention.

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

(First Embodiment)
First, the first embodiment will be described.
FIG. 1 is a diagram showing a configuration of a command control system 100 according to the same embodiment.
As shown in the figure, the command control system 100 includes a command stand terminal 1 (code information generation device) and a mobile terminal 2 (map display device). The command control system 100 is a system that receives a report from a whistleblower in a fire department, police, or the like.

The command stand terminal 1 is a computer installed on the command stand of a command center such as a fire department or police, and registers case information based on a report from a whistleblower. The case information is information related to the report, and includes personal information such as the selected dispatch vehicle, the location information of the disaster point, the name, age, gender, medical history, and telephone number of the target person. The command stand terminal 1 does not have a communication connection with a public communication network (outside) such as an Internet network in order to prevent leakage of personal information. Further, the command stand terminal 1 executes application software (hereinafter, referred to as "map software") for displaying a pre-installed map to display map information.

The mobile terminal 2 is a portable terminal such as a mobile phone, a smartphone, or a tablet terminal carried by a firefighter or a police officer. The mobile terminal 2 communicates with a public communication network (outside) such as an Internet network, and uses a service for displaying a map provided via the Internet (hereinafter referred to as "map service") to display map information. indicate. The map service provides fast-expanding map information that is used by the public.

FIG. 2 is a hardware configuration diagram of the command stand terminal 1 according to the same embodiment.
As shown in this figure, the command stand terminal 1 has a CPU (Central Processing Unit) 101, a ROM (Read Only Memory) 102, a RAM (Random Access Memory) 103, a large-capacity storage device 104, a communication module 105, an input device 106, and a display. It is a computer equipped with each hardware such as a device 107. The input device 106 is a mouse, a touch panel, a keyboard, or the like, and may include a plurality or all of them. The display device 107 is an organic EL (Electro-Luminescence) display, a liquid crystal display, or the like.

FIG. 3 is a functional block diagram of the command stand terminal 1 according to the same embodiment.
The command stand terminal 1 is activated when the power is turned on, and executes a program stored in advance. As a result, the command stand terminal 1 is provided with a functional configuration of a control unit 11, a storage unit 12, an input unit 13, a point designation reception unit 14, a position information acquisition unit 15, a code information generation unit 16, and an output unit 17.

The control unit 11 controls the command stand terminal 1 in an integrated manner.
The storage unit 12 stores various information. For example, the storage unit 12 stores the reported case information.
The input unit 13 receives inputs such as case information and code generation instructions. The code generation instruction is an instruction input for generating code information used for displaying a map corresponding to location information.

The point designation reception unit 14 receives the designation of a predetermined point on the displayed map.
The position information acquisition unit 15 acquires the position information of a predetermined point based on the code generation instruction.

The code information generation unit 16 generates code information used for displaying a map corresponding to the position information. More specifically, the code information generation unit 16 generates code information used when displaying map information in a predetermined range based on the position information in the map information display function of the code information destination device.
The output unit 17 outputs the code information to the mobile terminal 2 which is connected to the outside by communication.

FIG. 4 is a hardware configuration diagram of the mobile terminal 2 according to the same embodiment.
As shown in this figure, the mobile terminal 2 is a computer equipped with hardware such as a CPU 201, a ROM 202, a RAM 203, a large-capacity storage device 204, a communication module 205, an input device 206, a display device 207, and a camera 208. The input device 206 is a touch panel, operation buttons, and the like, and may include a plurality or all of them. The display device 207 is an organic EL display, a liquid crystal display, or the like.

FIG. 5 is a functional block diagram of the mobile terminal 2 according to the same embodiment.
The mobile terminal 2 is activated when the power is turned on, and executes a program stored in advance. As a result, the mobile terminal 2 is provided with a functional configuration of a control unit 21, a storage unit 22, a communication unit 23, and a map information display unit 24.

The control unit 21 controls the mobile terminal 2 in an integrated manner.
The storage unit 22 stores various information.
The communication unit 23 communicates with the outside.
The map information display unit 24 reads the code information and displays the map information based on the position information included in the code information.

Subsequently, the operation of the command control system 100 according to the same embodiment will be described.
First, at the command center, the operator of the command stand terminal 1 receives the report from the whistleblower, and the dispatch vehicle selected based on the report, the address of the disaster point (predetermined point), the name, gender, age, and medical history of the target person. , The case information such as the telephone number is input to the command stand terminal 1 and registered. The command stand terminal 1 displays map information indicating the position of the disaster point based on the input address.

Since firefighters and police officers head to the disaster point by referring to the map information displayed on the mobile terminal 2, it is necessary to input the location information of the disaster point to the mobile terminal 2. However, since the command stand terminal 1 and the mobile terminal 2 are not connected by communication, the position information cannot be exchanged by communication. In addition, it is troublesome to manually input the location information into the mobile terminal 2. Therefore, in the command control system 100 in the present embodiment, the location information of the disaster point is output from the command stand terminal 1 to the mobile terminal 2 by using the code information.

FIG. 6 is a diagram showing an example of a screen displayed by the command stand terminal 1 according to the same embodiment.
The command stand terminal 1 generates and displays code information used for displaying a map corresponding to the location information of a disaster point based on a code generation instruction from an operator. The code information is a two-dimensional bar code such as a QR (Quick Response) code (registered trademark). In this example, the code information CD1 is displayed in the upper right part of the map MP1 on which the mark MK1 indicating the disaster point is displayed. The map MP1 is map information around the disaster point, that is, map information in a predetermined range based on the disaster point.

The map information display function of the command stand terminal 1 is pre-installed map software, while the map information display function of the mobile terminal 2 is a map service provided via the Internet. That is, the map information display function of the command stand terminal 1 and the map information display function of the mobile terminal 2 are different. Therefore, the command stand terminal 1 generates code information used when displaying map information in a predetermined range based on the position information in the map information display function of the mobile terminal 2. For example, the position information is latitude and longitude. Further, the command stand terminal 1 may include other necessary case information in the code information in addition to the position information.

The mobile terminal 2 captures and reads the code information CD1 displayed on the command stand terminal 1 with the camera 208. As a result, the position information can be easily output from the command stand terminal 1 to the mobile terminal 2 without making a communication connection. The mobile terminal 2 displays map information based on the location information included in the read code information. Specifically, the mobile terminal 2 inputs location information into a map service provided via the Internet, and displays map information in a predetermined range based on a disaster point. As a result, firefighters and police officers can head to the disaster point while browsing the map information displayed on the mobile terminal 2.

FIG. 7 is a diagram showing a processing flow of the command stand terminal 1 and the mobile terminal 2 according to the same embodiment.
Next, the processing flow of the command control system 100 will be described step by step.
First, the code information output processing in the command stand terminal 1 will be described.

The input unit 13 of the command stand terminal 1 accepts the input of the case information (step S101). The storage unit 12 stores the input case information.

Subsequently, the point designation reception unit 14 receives the designation of the disaster point on the displayed map (step S102). For example, the point designation reception unit 14 accepts the input of the address of the disaster point and identifies the disaster point on the map based on the input address. Then, the point designation reception unit 14 displays map information indicating the specified disaster point. For example, the point designation reception unit 14 inputs the address of the disaster point into the map software and displays the map information in a predetermined range based on the disaster point.

Subsequently, the position information acquisition unit 15 determines whether or not the code generation instruction has been accepted (step S103). If the position information acquisition unit 15 has not received the code generation instruction, the process of step S103 is executed again. On the other hand, when the location information acquisition unit 15 receives the code generation instruction, the location information acquisition unit 15 acquires the location information of the disaster point (step S104). For example, the position information acquisition unit 15 acquires the latitude and longitude of the disaster point from the map software.

The code information generation unit 16 generates code information including the acquired position information and necessary case information. (Step S105). For example, the code information generation unit 16 converts text information indicating location information and case information into a code. After that, the output unit 17 displays the code information generated by the code information generation unit 16 (step S106).

Subsequently, the input processing of the code information in the mobile terminal 2 will be described.
The map information display unit 24 of the mobile terminal 2 reads the code information displayed on the command stand terminal 1 (step S201). Subsequently, the map information display unit 24 displays the map information based on the position information included in the read code information (step S202). For example, the map information display unit 24 inputs location information to the map service via the Internet and displays map information in a predetermined range based on the disaster point. Further, the map information display unit 24 may display other case information included in the code information together with the map information. After that, the process ends.

FIG. 8 is a diagram showing the minimum configuration of the command stand terminal 1 according to the same embodiment. The command stand terminal 1 according to the same embodiment may have at least a configuration of a point designation reception unit 14, a position information acquisition unit 15, and a code information generation unit 16.
The point designation reception unit 14 receives the designation of a predetermined point on the displayed map.
The position information acquisition unit 15 acquires the position information of a predetermined point based on the code generation instruction.
The code information generation unit 16 generates code information used for displaying a map corresponding to the position information.

FIG. 9 is a diagram showing the minimum configuration of the mobile terminal 2 according to the same embodiment. The mobile terminal 2 according to the same embodiment may have at least the configuration of the map information display unit 24.
The map information display unit 24 reads the code information and displays the map information based on the position information included in the code information.

In the same embodiment, the mobile terminal 2 has been described as an example of the map display device, but the map display device may be a stationary computer or the like.

As described above, the command control system 100 in the same embodiment has a point designation reception unit 14 that accepts the designation of a predetermined point on the displayed map, and a position information acquisition that acquires the position information of the predetermined point based on the code generation instruction. A command stand terminal 1 including a unit 15 and a code information generation unit 16 that generates code information used for displaying a map corresponding to the position information, and the code information is read into the position information included in the code information. It includes a map information display unit 24 for displaying based map information, and a mobile terminal 2 including the map information display unit 24.

With such a configuration, the position information can be easily passed from the command stand terminal 1 to the mobile terminal 2 by using the code information without manually inputting to the mobile terminal 2. Therefore, it is possible to transfer information securely without fear of virus contamination. Further, since the command stand terminal 1 does not need to be connected to the outside by communication, it is possible to prevent the leakage of personal information. Further, since the code information used for displaying the map corresponding to the position information is generated, the map corresponding to the position information can be displayed on the mobile terminal 2. That is, without connecting the command stand terminal 1 of the command control system 100 to the outside, it is possible to give a quick command while browsing the map information of the function expansion used by the public.

Further, the code information generation unit 16 generates code information used when displaying map information in a predetermined range based on the position information in the map information display function of the code information destination device. With such a configuration, it is possible to display map information indicating a disaster point on the mobile terminal 2 having a map information display function different from that of the command stand terminal 1.

(Second embodiment)
Next, the second embodiment will be described.
Hereinafter, the same reference numerals are given to the same configurations as those of the first embodiment, and the description thereof will be omitted.

FIG. 10 is a diagram showing a configuration of a command control system 100A according to the same embodiment.
As shown in the figure, the command control system 100A includes a command stand terminal 1A (map display device), a mobile terminal 2, and a reporting terminal 3 (code information generation device). The command control system 100A is a system that accepts reports from whistleblowers in fire departments, police, and the like.

The command stand terminal 1A is a computer installed on the command stand of a command center such as a fire department or police, and registers case information based on a report from a whistleblower. The command stand terminal 1A does not have a communication connection with a public communication network (outside) such as the Internet in order to prevent leakage of personal information. Further, the command stand terminal 1A executes the map software installed in advance and displays the map information.

The reporting terminal 3 is a computer that communicates with a public communication network (outside) such as an Internet network and receives a report from a whistleblower via the Internet. For example, the reporting terminal 3 receives the reporting information regarding the reporting by e-mail, a website, or the like. The report information is information indicating the content of the report, and includes personal information such as the address of the disaster point, the name, age, gender, medical history, and telephone number of the target person. Further, the reporting terminal 3 displays map information by using a map service provided via the Internet.

FIG. 11 is a hardware configuration diagram of the command stand terminal 1A according to the same embodiment.
As shown in this figure, the command stand terminal 1A includes a code reader 108 in addition to the configuration of the command stand terminal 1 in the first embodiment shown in FIG. The code reader 108 is a scanner that reads code information. The code reader 108 may be built in the command stand terminal 1A or may be externally connected to the command stand terminal 1A.

FIG. 12 is a functional block diagram of the command stand terminal 1A according to the same embodiment.
As shown in this figure, the command stand terminal 1A includes a map information display unit 18 in addition to the functional configuration of the command stand terminal 1 in the first embodiment shown in FIG.
The map information display unit 18 reads the code information and displays the map information based on the position information included in the code information.

FIG. 13 is a hardware configuration diagram of the reporting terminal 3 according to the same embodiment.
As shown in this figure, the reporting terminal 3 is a computer equipped with hardware such as a CPU 301, a ROM 302, a RAM 303, a large-capacity storage device 304, a communication module 305, an input device 306, and a display device 307. The input device 306 is a mouse, a touch panel, a keyboard, or the like, and may include a plurality or all of them. The display device 307 is an organic EL display, a liquid crystal display, or the like.

FIG. 14 is a functional block diagram of the notification terminal 3 according to the same embodiment.
The reporting terminal 3 is activated when the power is turned on, and executes a program stored in advance. As a result, the reporting terminal 3 has a functional configuration of a control unit 31, a storage unit 32, an input unit 33, a communication unit 34, a point designation reception unit 35, a position information acquisition unit 36, a code information generation unit 37, and an output unit 38. ..

The control unit 31 controls the reporting terminal 3 in an integrated manner.
The storage unit 32 stores various information. For example, the storage unit 32 stores the received report information.
The input unit 33 receives an input such as a code generation instruction.
The communication unit 34 communicates with the outside.

The point designation reception unit 35 receives the designation of a predetermined point on the displayed map.
The position information acquisition unit 36 acquires the position information of a predetermined point based on the code generation instruction.

The code information generation unit 37 generates code information used for displaying a map corresponding to the position information. More specifically, the code information generation unit 37 generates code information used when displaying map information in a predetermined range based on the position information in the map information display function of the code information destination device.
The output unit 38 outputs the code information to the command stand terminal 1A connected to the command control system 100A having no communication connection with the outside.

Subsequently, the operation of the command control system 100A according to the same embodiment will be described.
First, at the command center, the reporting terminal 3 receives the reporting information from the whistleblower via the Internet network by e-mail, website, or the like. The reporting terminal 3 displays map information indicating the position of the disaster point based on the address of the disaster point included in the received report information. For example, the reporting terminal 3 inputs an address to the map service via the Internet and displays map information in a predetermined range based on the disaster point.

Here, in order to issue a dispatch command at the command stand, case information must be registered in the command stand terminal 1A, and the report information received by the report terminal 3 needs to be input to the command stand terminal 1A. However, since the command stand terminal 1A and the reporting terminal 3 are not connected by communication, the reporting information cannot be exchanged by communication. In addition, it is troublesome to manually input the report information to the command stand terminal 1A. Therefore, in the command control system 100A in the present embodiment, the notification information is output from the notification terminal 3 to the command stand terminal 1A using the code information.

FIG. 15 is a diagram showing an example of a screen displayed by the reporting terminal 3 according to the same embodiment.
The reporting terminal 3 generates and displays the code information used for displaying the map corresponding to the location information of the disaster point based on the code generation instruction from the operator. In this example, the code information CD2 is displayed in the upper right part of the map MP2. The map MP2 is map information around the disaster point, that is, map information in a predetermined range based on the disaster point.

The map information display function of the command stand terminal 1A is pre-installed map software, while the map information display function of the reporting terminal 3 is a map service provided via the Internet. That is, the map information display function of the command stand terminal 1A and the map information display function of the reporting terminal 3 are different. Therefore, the reporting terminal 3 generates code information used when displaying the map information in a predetermined range based on the position information in the map information display function of the command stand terminal 1A. For example, the position information is latitude and longitude. Further, the reporting terminal 3 includes other reporting information in the code information in addition to the location information.

The command stand terminal 1A reads the code information CD2 displayed on the reporting terminal 3 with the code reader 108. As a result, the notification information can be easily output from the notification terminal 3 to the command stand terminal 1A without making a communication connection. The command stand terminal 1A generates and registers case information based on the report information included in the read code information. Further, the command stand terminal 1A displays map information based on the position information included in the read code information. For example, the command stand terminal 1A inputs the position information into the map software and displays the map information in a predetermined range based on the disaster point.

FIG. 16 is a diagram showing a processing flow of the command stand terminal 1A and the reporting terminal 3 according to the same embodiment.
Next, the processing flow of the command control system 100A will be described step by step.
First, the output processing of the code information in the reporting terminal 3 will be described.

The communication unit 34 of the reporting terminal 3 receives the reporting information via the Internet (step S301). Subsequently, the point designation reception unit 35 receives the designation of the disaster point on the displayed map (step S302). For example, the point designation reception unit 35 identifies a disaster point on a map based on an address included in the received report information. Then, the point designation reception unit 35 displays the map information indicating the specified disaster point. For example, the point designation reception unit 35 inputs the address of the disaster point into the map service and displays the map information in a predetermined range based on the disaster point.

Subsequently, the position information acquisition unit 36 determines whether or not the code generation instruction has been accepted (step S303). If the position information acquisition unit 36 has not received the code generation instruction, the process of step S303 is executed again. On the other hand, when the location information acquisition unit 36 receives the code generation instruction, the location information acquisition unit 36 acquires the location information of the disaster point (step S304). For example, the location information acquisition unit 36 acquires the latitude and longitude of the disaster point from the map service.

The code information generation unit 37 generates code information indicating the acquired position information and report information. (Step S305). For example, the code information generation unit 37 converts text information indicating location information and report information into a code. After that, the output unit 38 displays the code information generated by the code information generation unit 37 (step S306).

Subsequently, the input processing of the code information in the command stand terminal 1A will be described.
The map information display unit 18 of the command stand terminal 1A reads the code information displayed on the reporting terminal 3 (step S401). Subsequently, the map information display unit 18 displays map information based on the position information included in the read code information (step S402). For example, the map information display unit 18 inputs location information into the map software and displays map information in a predetermined range based on the disaster point. Further, the control unit 11 generates and registers the case information based on the received report information. After that, the process ends.

In the same embodiment, the command stand terminal 1A directly reads the code information displayed on the reporting terminal 3, but the present invention is not limited to this. For example, when the reporting terminal 3 is installed at a position away from the command stand terminal 1A, the command stand terminal 1A cannot read the code information displayed on the reporting terminal 3. In this case, the command stand terminal 1A may read the code information from the remote terminal installed in the vicinity of the command stand terminal 1A. The remote terminal is a computer that is communication-connected to the reporting terminal 3 and remotely displays the screen displayed on the reporting terminal 3.

FIG. 17 is a diagram showing the minimum configuration of the command stand terminal 1A according to the same embodiment. The command stand terminal 1A according to the same embodiment may have at least the configuration of the map information display unit 18.
The map information display unit 18 reads the code information and displays the map information based on the position information included in the code information.

FIG. 18 is a diagram showing the minimum configuration of the reporting terminal 3 according to the same embodiment. The reporting terminal 3 according to the same embodiment may have at least a configuration of a point designation reception unit 35, a position information acquisition unit 36, and a code information generation unit 37.
The point designation reception unit 35 receives the designation of a predetermined point on the displayed map.
The position information acquisition unit 36 acquires the position information of a predetermined point based on the code generation instruction.
The code information generation unit 37 generates code information used for displaying a map corresponding to the position information.

As described above, the command control system 100A in the same embodiment has a point designation reception unit 35 that accepts the designation of a predetermined point on the displayed map, and a position information acquisition that acquires the position information of the predetermined point based on the code generation instruction. A reporting terminal 3 including a unit 36 and a code information generation unit 37 that generates code information used for displaying a map corresponding to the location information, and a reporting terminal 3 that reads the code information and is based on the location information included in the code information. A map information display unit 18 for displaying map information and a command stand terminal 1A including the map information display unit 18 are provided.

With such a configuration, the position information can be easily passed from the reporting terminal 3 to the command stand terminal 1A by using the code information without manually inputting to the command stand terminal 1A. Therefore, it is possible to transfer information securely without fear of virus contamination. Further, since the command stand terminal 1A does not need to be connected to the outside by communication, it is possible to prevent the leakage of personal information. Further, since the code information used for displaying the map corresponding to the position information is generated, the map corresponding to the position information can be displayed on the command stand terminal 1A. That is, without connecting the command stand terminal 1A of the command control system 100A to the outside, it is possible to give a quick command while browsing the map information of the function expansion used in the public.

Further, the code information generation unit 37 generates code information to be used when displaying map information in a predetermined range based on the position information in the map information display function of the code information destination device. With such a configuration, map information indicating a disaster point can be displayed on the command stand terminal 1A having a map information display function different from that of the reporting terminal 3.

The command stand terminals 1, 1A, the mobile terminal 2, and the reporting terminal 3 described above have a computer system inside. The processing process of the command stand terminals 1, 1A, the mobile terminal 2, and the reporting terminal 3 described above is stored in a computer-readable recording medium in the form of a program, and the computer reads and executes this program. The above processing is performed by. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Further, this computer program may be distributed to a computer via a communication line, and the computer receiving the distribution may execute the program.

Further, the above program may be for realizing a part of the above-mentioned functions. Further, a so-called difference file (difference program) may be used, which can realize the above-mentioned function in combination with a program already recorded in the computer system.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention.

Further, one aspect of the present invention can be variously modified within the scope of the claims, and the technical embodiment of the present invention can also be obtained by appropriately combining the technical means disclosed in the different embodiments. Included in the range. Further, the elements described in each of the above-described embodiments and modifications are included, and a configuration in which elements having the same effect are replaced with each other is also included.

1,1A ... Command stand terminal 2 ... Mobile terminal 3 ... Reporting terminal 11 ... Control unit 12 ... Storage unit 13 ... Input unit 14 ... Point designation reception unit 15 ... -Position information acquisition unit 16 ... Code information generation unit 17 ... Output unit 18 ... Map information display unit 21 ... Control unit 22 ... Storage unit 23 ... Communication unit 24 ... Map Information display unit 31 ... Control unit 32 ... Storage unit 33 ... Input unit 34 ... Communication unit 35 ... Point designation reception unit 36 ... Position information acquisition unit 37 ... Code information generation Unit 38 ... Output unit 100, 100A ... Command control system

Claims (10)

It is installed inside the command stand terminal that is connected to the command control system without communication connection with the outside and displays map information.
A point designation reception unit that accepts the designation of a predetermined point on the displayed map, and
A position information acquisition unit that acquires the position information of the predetermined point based on the code generation instruction, and
A code information generator that generates code information used to display a map corresponding to the location information,
An output unit that outputs the code information to a map display device that indicates a destination device that is connected to the outside by communication.
A code information generator equipped with. It is installed inside the map display device that is connected to the outside and displays map information.
A point designation reception unit that accepts the designation of a predetermined point on the displayed map, and
A position information acquisition unit that acquires the position information of the predetermined point based on the code generation instruction, and
A code information generator that generates code information used to display a map corresponding to the location information,
An output unit that outputs the code information to a command stand terminal that indicates a destination device connected to a command control system that does not have a communication connection with the outside.
A code information generator equipped with. The code information generation unit generates the code information used when displaying the map information in a predetermined range based on the position information in the map information display function of the destination device of the code information. The code information generator according to claim 2 . The code information generator installed inside the command stand terminal that is connected to the command control system without communication connection with the outside and displays map information
A point designation reception unit that accepts the designation of a predetermined point on the displayed map, and
A position information acquisition unit that acquires the position information of the predetermined point based on the code generation instruction, and
A code information generator that generates code information used to display a map corresponding to the location information,
An output unit that outputs the code information to a map display device that indicates a destination device that is connected to the outside by communication.
Equipped with
The map display device
A map information display unit that reads the code information and displays map information based on the location information included in the code information.
A command control system equipped with. The code information generator installed inside the map display device that is connected to the outside and displays map information
A point designation reception unit that accepts the designation of a predetermined point on the displayed map, and
A position information acquisition unit that acquires the position information of the predetermined point based on the code generation instruction, and
A code information generator that generates code information used to display a map corresponding to the location information,
An output unit that outputs the code information to a command stand terminal that indicates a destination device connected to a command control system that does not have a communication connection with the outside.
Equipped with
The map display device
A map information display unit that reads the code information and displays map information based on the location information included in the code information.
A command control system equipped with. The code information generation unit generates the code information used when displaying the map information in a predetermined range based on the position information in the map information display function of the destination device of the code information. The command control system according to claim 5 . The code information generator installed inside the command stand terminal that is connected to the command control system without communication connection with the outside and displays map information
Accepting the designation of a predetermined point on the displayed map,
Acquire the position information of the predetermined point based on the code generation instruction, and
Generate code information used to display the map corresponding to the location information,
The code information is output to a map display device indicating a destination device connected to the outside.
How to generate code information. The code information generator installed inside the map display device that is connected to the outside and displays map information
Accepting the designation of a predetermined point on the displayed map,
Acquire the position information of the predetermined point based on the code generation instruction, and
Generate code information used to display the map corresponding to the location information,
The code information is output to the command stand terminal indicating the destination device connected to the command control system without communication connection with the outside.
How to generate code information. The computer of the code information generator installed inside the command stand terminal that is connected to the command control system without communication connection with the outside and displays map information .
Point designation reception means that accepts designation of predetermined points on the displayed map,
A position information acquisition means for acquiring the position information of the predetermined point based on a code generation instruction,
A code information generating means that generates code information used for displaying a map corresponding to the location information.
An output means that outputs the code information to a map display device indicating a destination device that is communicated with the outside.
A program that functions as. The computer of the code information generator installed inside the map display device that is connected to the outside and displays map information ,
Point designation reception means that accepts designation of predetermined points on the displayed map,
A position information acquisition means for acquiring the position information of the predetermined point based on a code generation instruction,
A code information generating means that generates code information used for displaying a map corresponding to the location information.
An output means that outputs the code information to a command stand terminal indicating a destination device connected to a command control system that does not have a communication connection with the outside.
A program that functions as.

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