JP2004110557A - Damage investigation system and disaster investigation method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To support the work to be performed by each local government at a disaster overall and to reduce a burden on each local government. <P>SOLUTION: A processing device 120 of a damage investigation system 1000 specifies a stricken area to be investigated on the basis of map data and inhabitant data in each area. An owner of an investigation mobile device 140 investigates the specified stricken area and transmits investigation results to the processing device 120. The processing device 120 prints the investigation results from an output device 130 as a suffering certificate. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a damage investigation system and a damage investigation method for investigating damage when a disaster occurs.
[0002]
[Prior art]
Each municipal government conducts damage surveys based on the application of victims and issues a disaster certificate in the event of a storm or flood, an earthquake or other natural disaster, or a fire or other man-made disaster.
[0003]
In particular, when a natural disaster occurs, the damage tends to be widespread or large-scale. In such a case, it is not possible to conduct a quick survey and sum up the amount of damage by a method of conducting a survey based on the application of each victim. Without a quick survey, the issuance of a disaster certificate is likely to be delayed, and the payment of benefits and insurance during a disaster may be delayed, resulting in a situation where the lives of the victims may be disrupted.
[0004]
In order to avoid such a situation, various damage investigation systems have been proposed so far.
[0005]
As one example, a disaster countermeasure activity support system described in JP-A-2002-15099 (Patent Document 1) will be described below.
[0006]
FIG. 3 is a functional block diagram of the disaster countermeasure activity support system.
[0007]
The disaster countermeasure activity support system 1000 includes mobile terminals 1200 and 1300 possessed by each worker performing a disaster countermeasure activity, and a center system 1100 located at the disaster countermeasure headquarters.
[0008]
Each of the mobile terminals 1200 and 1300 includes GPS receivers 1210 and 1310, and has a GPS reception function. Each of the mobile terminals 1200 and 1300 transmits location information indicating the location to the center system 1000 when requested by the center system 1000. The center-side system 1000 receives the location information to determine the location of each of the mobile terminals 1200 and 1300, and stores the location where each of the mobile terminals 1200 and 1300 is located. The center-side system 1000 includes a disaster countermeasure activity scenario storage unit 1120 in which a disaster countermeasure activity scenario is stored, and according to the disaster countermeasure activity scenario, reports damage status and other work instruction information to each mobile terminal. 1200 and 1300. The worker of each of the mobile terminals 1200 and 1300 that has received the work instruction information performs damage investigation and other work according to the received work instruction information, and transmits the work result to the center-side system 1000.
[0009]
[Patent Document 1]
JP-A-2002-15099 (page 4-8, FIG. 1)
[0010]
[Problems to be solved by the invention]
The above-mentioned disaster countermeasure activity support system 1000 shown in FIG. 3 has instructions for each worker, a report of a survey result from each worker, and compilation of the reports as main tasks.
[0011]
However, the role of each local government at the time of a disaster is not limited to their duties, but is wide-ranging, such as determining the affected area, extracting the affected areas (residents and buildings), and issuing a disaster certificate. The disaster countermeasure activity support system 1000 cannot cover all the work to be performed by each local government, but only covers a part of the work.
[0012]
The present invention has been made in view of the above points, and a damage investigation system that generally supports the work to be performed by each local government in the event of a disaster and enables the burden on each local government to be reduced. And to provide disaster investigation methods.
[0013]
[Means for Solving the Problems]
To this end, the present invention provides a processing device, an input device for inputting data to the processing device, an output device for outputting data from the processing device, and at least one research portable device. A damage data investigation system, wherein the processing device includes: a map data storage unit that stores map data of each area; a resident data storage unit that stores resident data regarding inhabitants of each area; A disaster area setting unit that generates disaster area data indicating the disaster area, based on the disaster area data and the inhabitants data, a survey target extraction unit that identifies the residents and buildings to be surveyed, A survey data transmission unit for transmitting survey data on the inhabitants and the building identified by the survey object extraction unit to the survey portable device; An investigation result data receiving unit that receives data indicating the transmitted investigation result, and a certificate issuing unit that transmits an instruction to issue a disaster certificate based on the investigation result to the output device. Provide a survey system.
[0014]
The disaster area data can be represented, for example, as image data that graphically represents the disaster area.
[0015]
The inhabitants data includes, for example, household information and building information.
[0016]
This damage investigation system makes it possible to visually set the area to be investigated and automatically extract the information to be investigated by utilizing the map information and the resident record information for the damage investigation target due to the disaster. . This makes it possible to quickly extract a survey target and prevent leakage of the survey target information.
[0017]
Further, when conducting the survey, it is possible to perform information cooperation between the processing device and the survey portable device. This makes it possible to promptly reflect the survey target information and the survey result information input by the survey portable device.
[0018]
The present invention further provides a damage investigation system comprising a processing device, an input device for inputting data to the processing device, an output device for outputting data from the processing device, and at least one investigation portable device. A damage investigation method, wherein the processing device sets a disaster area on a map based on map data of each area, and the processing device sets the disaster area in the first process. Based on the afflicted area and the resident data of the resident in the afflicted area, a second process of specifying the residents and buildings to be surveyed, and the processing device, the surveying device specified in the second process A third step of transmitting survey target data regarding the residents and the building to the survey portable device, and in the survey portable device, based on the survey subject data; A fourth step of transmitting survey result data indicating the result of the survey to the processing device, and a fifth process of instructing the output device to issue a disaster certificate based on the survey result data in the processing device; And a sixth step of issuing the disaster certificate in the output device.
[0019]
Further, the present invention provides a damage investigation system comprising a processing device, an input device for inputting data to the processing device, an output device for outputting data from the processing device, and at least one portable portable device for investigation. A program for controlling the operation of the processing device, wherein the processing device has a map data storage means for storing map data of each area, and a resident data storage means for storing resident data on residents of each area. A stricken area setting means for generating stricken area data indicating the stricken area based on the map data; and a survey target for identifying a resident and a building to be surveyed based on the stricken area data and the resident data. An extracting unit configured to transmit the survey target data regarding the inhabitants and the building identified by the survey target extraction unit to the survey portable device; A data transmitting unit, a survey result data receiving unit that receives data indicating a survey result transmitted from the survey portable device, and a certificate that transmits to the output device an instruction to issue a disaster certificate based on the survey result. And a program for functioning as a certificate issuing means.
[0020]
Further, the present invention provides a damage investigation system comprising a processing device, an input device for inputting data to the processing device, an output device for outputting data from the processing device, and at least one portable portable device for investigation. A program for controlling the operation of the processing device, wherein the processing device has a first step of setting an affected area on a map based on map data of each area, and a first step of setting the first area in the first step. Based on the afflicted area and the inhabitants data of the inhabitants in the afflicted area, a second process of specifying the residents and buildings to be surveyed, and the inhabitants and buildings to be surveyed identified in the second process A third step of transmitting survey target data to the survey portable device, and a survey result data indicating a result of a survey based on the survey target data; Providing a fourth process and a program for executing and a fifth step of instructing the affected certificate based on the survey results data to the output device for receiving from.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a functional block diagram showing a structure of a disaster investigation system 100 according to one embodiment of the present invention.
[0022]
The disaster investigation system 100 includes an input device 110, a processing device 120, an output device 130, and a plurality of investigation portable devices 140.
[0023]
FIG. 1 shows only one of the plurality of research portable devices 140 for simplification of the drawing.
[0024]
The input device 110 includes a keyboard 111 for inputting data, a display 112 for displaying data input via the keyboard 111, and a mouse 113 as a pointer.
[0025]
Data to be input to the processing device 120 is input via the input device 110.
[0026]
The processing device 120 includes a control unit 150, a survey target extraction unit 123, a survey target data transmission unit 126, a survey result data reception unit 127, a certificate issuing unit 129, a map data storage unit 122, a resident data storage And a survey target data storage unit 125 and a survey result data storage unit 128.
[0027]
The output device 130 includes a printer and other printing devices 131.
[0028]
The investigation mobile terminal 140 includes a data reception unit 141, an investigation data processing unit 142, a data transmission unit 143, an investigation target data storage unit 144, and an investigation result data storage unit 145.
[0029]
Next, the function of each processing unit included in the processing device 120 and the research portable device 140 will be described.
[0030]
The map data storage unit 122 stores map data including a house map for each area.
[0031]
The inhabitant data storage unit 124 stores inhabitant data regarding inhabitants of each area. Here, the resident data includes at least household information and building information. Household information is information on the number, gender, age, work place, emergency contact information, medical history, etc. of the members that make up each household.Building information is the site area, volume, Information such as age and structure (whether wooden or reinforced concrete).
[0032]
The damage range setting unit 121 of the processing device 120 graphically draws the range of the stricken area based on the house map stored in the map data storage unit 122, and displays the drawn image data on the display 112.
[0033]
The control unit 150 stores the image data in the map data storage unit 122.
[0034]
Based on the image data stored in the map data storage unit 122 and the household information and the building information stored in the resident data storage unit 124, the research target extraction unit 123 relates to the name and building of the research target resident. The information is stored in the investigation target data recording unit 125 as investigation target data.
[0035]
The investigation target data transmission unit 126 transmits the investigation target data stored in the investigation target data storage unit 125 to the investigation portable device 140.
[0036]
The investigation portable device 140 receives the investigation target data from the investigation target data transmission unit 126 via the data reception unit 141, and stores the received investigation target data in the investigation target data storage unit 144.
[0037]
The survey data processing unit 142 of the survey portable device 140 checks the survey result of the survey target specified by the survey target data stored in the survey target data storage unit 144, that is, the owner of the survey portable device 140 investigates. The obtained result is stored in the survey result data storage unit 145 as survey result information.
[0038]
The data transmission unit 143 of the survey portable device 140 transmits the survey result information stored in the survey result data storage unit 145 to the processing device 120 in response to a request from the processing device 120.
[0039]
The survey result data receiving unit 127 of the processing device 120 receives the survey result information stored in the survey result data storage unit 145 of the survey portable device 140, and stores the received survey result information in the survey result data storage unit 128. I do.
[0040]
In response to an instruction from the input device 110, the certificate issuing unit 129 informs the output device 130 that the investigation result information stored in the investigation result data storage unit 128 should be printed as a disaster certificate. Instruct.
[0041]
The output device 130 that has received the survey result information together with this instruction prints the survey result information using the printer 131.
[0042]
The control unit 120 controls a series of processes of the input device 110, the output device 130, and the processing units 121, 123, 126, 127, and 129 of the processing device 120 and the storage units 122, 124, 125, and 128.
[0043]
The research portable device 140 is configured by a portable notebook personal computer, a PDA (Personal Digital Assistant), or a computer device equivalent thereto.
[0044]
FIG. 2 is a flowchart showing the operation of the damage investigation system 100 shown in FIG. Hereinafter, the operation of the damage investigation system 100 will be described with reference to FIG.
[0045]
First, when a disaster occurs (Step S100) and any damage occurs, the occurrence of the damage is reported to the operator (for example, each local government) of the damage investigation system 100 (Step S110).
[0046]
Thereafter, the damage investigation system 100 starts its operation.
[0047]
First, in response to the notification of the occurrence of damage, the control unit 150 of the processing device 120 generates image data indicating the affected area using the map information stored in the map data storage unit 122 (step S120). Further, control unit 150 displays the generated image data on display 112 along with a map of the area.
[0048]
Further, the control unit 150 stores the generated image data in the map data storage unit 122.
[0049]
The image data generated in this manner can be added or changed at any time.
[0050]
Next, the control unit 150 uses the image data indicating the affected area stored in the map data storage unit 122 and the inhabitants data (household / building information) stored in the inhabitants data storage unit 124 to determine the survey target. The household / building information is extracted (step S130).
[0051]
Next, the control unit 150 stores the extracted household / building information in the survey data storage unit 125 as survey data.
[0052]
Next, the control unit 150 transmits the investigation target data to the data reception unit 141 of the investigation portable device 140 carried by the person in charge of the damage investigation via the investigation target data transmission unit 126 (Step S140). .
[0053]
The data receiving unit 141 stores the received investigation target data in the investigation target data storage unit 144.
[0054]
Upon receiving the survey target data, the owner of the survey portable device 140, that is, the person in charge of the survey, conducts a survey on the residents and the buildings specified by the received survey target data.
[0055]
This survey is conducted, for example, on the safety of the residents, the degree of injury, the degree of damage to the building, and other items according to the situation.
[0056]
The survey result is stored as survey result information in the survey result data storage unit 145 (step S150).
[0057]
Next, the survey result information stored in the survey result data storage unit 145 is transmitted from the survey result data storage unit 145 to the processing device 120 via the data transmission unit 143, and the processing device 120 stores the survey result information in the survey result data. The control unit 150 receives the received survey result information in the receiving unit 127 and stores the received survey result information in the survey result data storage unit 128 (step S160).
[0058]
Next, the control unit 150 issues an instruction to the certificate issuing unit 129 and instructs the output device 130 to print the survey result information stored in the survey result data storage unit 128 as a disaster certificate. Let me tell you. In addition, the control unit 150 transmits the investigation result information to the output device 130.
[0059]
The output device 130 that has received the survey result information together with this instruction prints the survey result information as a disaster certificate using the printer 131 (step S170).
[0060]
The following items are described in the disaster certificate, for example.
[0061]
(1) Date of disaster (2) Disaster area (3) Type of disaster (4) Degree of disaster (5) Injury and illness of residents (including recognition of death)
(6) Other Special Notes As described above, the control unit 150 stores the image data indicating the affected area stored in the map data storage unit 122 and the resident data (household / building) stored in the resident data storage unit 124. ), The household / building information to be investigated is extracted (step S130).
[0062]
Hereinafter, an example of an extraction method for extracting a survey target will be described.
[0063]
The selection of survey targets varies according to the type of disaster. For example, when the disaster is an earthquake, the investigation target is determined as follows according to the seismic intensity.
[0064]
Seismic intensity Surveyed seismic intensity 7 or more All buildings seismic intensity 5-6 Wooden house and reinforced concrete building seismic intensity 5 or less Wooden house If the disaster is a fire, the investigation target is determined according to the structure of the building.
[0065]
For example, all wooden houses are subject to the survey. Houses made of flame-retardant materials or reinforced concrete buildings are not included in the survey.
[0066]
If the disaster is a flood, all buildings will be surveyed regardless of the type of building.
[0067]
As described above, the determination of the investigation target in the affected area is determined according to the type of disaster and the structure of the building. The method of determining the survey target is not limited to this, and can be determined according to the characteristics of the area, the season, and other various factors.
[0068]
According to the disaster investigation system 100 according to the present embodiment, the following effects can be obtained.
[0069]
First, by linking map information with household / building information and other resident information, household / building information that needs to be investigated can be easily extracted. As a result, it is possible to quickly perform the work of extracting the investigation target, and to prevent the problem of the omission of the target.
[0070]
Second, by utilizing the survey portable device 140 for on-site survey work, survey and information input can be performed quickly. As a result, by coordinating information between the research portable device 140 and the processing device 120, it is possible to efficiently carry out a damage investigation in a short period of time even if the investigation target is large and wide. Can be.
[0071]
The operation of the control unit 150 in the damage investigation system 100 according to the above-described embodiment can also be executed by a computer program described in a computer-readable language.
[0072]
When the control unit 150 is operated by a computer program, for example, a memory for storing a program is provided in the control unit 150, and the computer program is stored in the memory. The control unit 150 reads the computer program from the memory and executes the above-described operation according to the computer program.
[0073]
Further, by setting a storage medium storing such a computer program in control unit 150, control unit 150 reads the computer program from the storage medium and executes the above-described operation according to the computer program. It is also possible to do so.
[0074]
Here, the “storage medium” is a concept including any medium on which data can be recorded.
[0075]
Examples of the storage medium include a disk-type storage medium such as a CD-ROM (Compact Disk-ROM) and a PD, a magnetic tape, a MO (Magneto Optical Disk), a DVD-ROM (Digital Video Disk-Read Only Memory), and a DVD. -Memory chips such as a RAM (Digital Video Disk-Random Access Memory), a flexible disk, a RAM (Random Access Memory), a ROM (Read Only Memory), an EPROM (Erasable Programmable Memory), and an EPROM (Erasable Programmable Electronic Memory). ry), a rewritable card type ROM such as a smart media (registered trademark), a flash memory, a compact flash (registered trademark) card, and a hard disk, and any other suitable means for storing a program can be used. .
[0076]
This storage medium is created by programming each function of the above-described control unit 150 using a computer-readable program language, and recording the program in the above-described storage medium capable of recording a program. Can be.
[0077]
Alternatively, a hard disk provided in a server can be used as a storage medium.
[0078]
Also, the storage medium can be created by storing the above-described computer program in the above-described storage medium and reading the computer program by another computer via a network.
[0079]
【The invention's effect】
As described above, according to the disaster investigation system and the disaster investigation method according to the present invention, the work to be performed by each local government in the event of a disaster is generally supported, and the burden on each local government is reduced.
[0080]
Specifically, by linking the map information with the household / building information and other resident information, it is possible to easily and quickly extract household / building information that needs to be investigated.
[0081]
Further, by utilizing the mobile portable device for the on-site investigation, the investigation and the information input can be performed quickly. As a result, by linking the investigation portable device and the processing device, even if the investigation target is large and wide, the damage investigation can be efficiently performed in a short period of time.
[Brief description of the drawings]
FIG. 1 is a functional block diagram of a damage investigation system according to an embodiment of the present invention.
FIG. 2 is a flowchart showing an operation of the damage investigation system shown in FIG.
FIG. 3 is a functional block diagram of a conventional damage investigation system.
[Explanation of symbols]
Reference Signs List 100 disaster investigation system 110 input device 120 processing device 130 output device 140 investigation portable device 111 keyboard 112 display 113 mouse 150 control unit 123 investigation target extraction unit 126 investigation target data transmission unit 127 investigation result data reception unit 129 certificate issuing unit 122 Map data storage unit 124 Resident data storage unit 125 Survey target data storage unit 128 Survey result data storage unit 131 Printer 141 Data reception unit 142 Survey data processing unit 143 Data transmission unit 144 Survey target data storage unit 145 Survey result data storage unit

Claims (7)

A processing unit;
An input device for inputting data to the processing device;
An output device that outputs data from the processing device;
At least one research portable device;
A damage investigation system comprising:
The processing device includes:
A map data storage unit that stores map data for each region;
A resident data storage unit that stores resident data regarding residents in each region,
Based on the map data, a stricken area setting unit that generates stricken area data indicating the stricken area,
Based on the disaster area data and the inhabitants data, a survey target extraction unit that identifies the residents and buildings to be surveyed,
A survey target data transmitting unit that transmits the survey target data regarding the inhabitants and the building identified by the survey target extraction unit to the survey portable device,
A survey result data receiving unit that receives data indicating a survey result transmitted from the survey portable device,
A certificate issuing unit that transmits an instruction to issue a disaster certificate based on the survey result to the output device;
A damage investigation system consisting of: The damage investigation system according to claim 1, wherein the disaster area data is image data that graphically represents the disaster area. 3. The damage investigation system according to claim 1, wherein the resident data includes household information and building information. A processing unit;
An input device for inputting data to the processing device;
An output device that outputs data from the processing device;
At least one research portable device;
The damage investigation method in the damage investigation system consisting of
In the processing device, based on map data of each area, a first step of setting the affected area on a map,
In the processing device, based on the afflicted area and the resident data of the resident in the afflicted area set in the first step, a second step of specifying the residents and buildings to be surveyed,
In the processing device, a third process of transmitting survey target data on the residents and buildings to be surveyed identified in the second process to the survey portable device,
A fourth step of transmitting, to the processing device, survey result data indicating a result of a survey based on the survey target data,
In the processing device, a fifth step of instructing the output device to issue a disaster certificate based on the survey result data,
A sixth step of issuing the disaster certificate in the output device;
Damage investigation method equipped with. The method according to claim 4, wherein the resident data includes household information and building information. A processing unit;
An input device for inputting data to the processing device;
An output device that outputs data from the processing device;
At least one research portable device;
A program for controlling the operation of the processing device in a damage investigation system comprising:
In the processing device,
Map data storage means for storing map data of each region;
A resident data storage means for storing resident data regarding residents in each region,
A stricken area setting means for generating stricken area data indicating the stricken area based on the map data;
Based on the disaster area data and the inhabitants data, a survey target extraction means for identifying the residents and buildings to be surveyed,
Survey target data transmission means for transmitting survey target data regarding the inhabitants and the building identified by the survey target extraction unit to the survey portable device,
Survey result data receiving means for receiving data indicating a survey result transmitted from the survey portable device,
Certificate issuing means for transmitting an instruction to issue a disaster certificate based on the investigation result to the output device,
Program to function as A processing unit;
An input device for inputting data to the processing device;
An output device that outputs data from the processing device;
At least one research portable device;
A program for controlling the operation of the processing device in a damage investigation system comprising:
In the processing device,
A first process of setting the affected area on a map based on the map data of each area;
Based on the afflicted area and the resident data of the resident in the afflicted area set in the first step, a second step of identifying the residents and buildings to be surveyed,
A third process of transmitting survey target data on the residents and buildings to be surveyed identified in the second process to the survey portable device,
A fourth step of receiving survey result data indicating the result of the survey based on the survey target data from the survey portable device,
A fifth step of instructing the output device to issue a disaster certificate based on the survey result data,
The program to execute.

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