JP2005031772A - Disaster information management apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fire information management apparatus for providing information about an appropriate area to a user by combining relevant disaster cause and a pattern of an area, based on the notification of a disaster at the time of the disaster for coping even if the disaster is numerous in kinds. <P>SOLUTION: A disaster current state DB part 3 stores disaster information created from the disaster information incoming to a current state collecting part 6 and transmits a trigger signal including the disaster cause and the area to a pattern storage part 7. After receiving the trigger signal, the storage part 7 selects and transmits a retrieval pattern and a display pattern prepared at each cause and area. A retrieval part 2 searches the DB part 3, a disaster DB part 4 and a normal current state DB part 5 according to the search pattern to retrieve the search result and transmits it to a disaster display part 1. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disaster information management apparatus, and more particularly to a disaster information management apparatus that manages information related to various disasters such as fires, earthquakes, and floods.
[0002]
[Prior art]
According to a conventional database system, it is possible to search and register information related to an administrative division including the point by simply specifying an arbitrary point on the map (see, for example, Patent Document 1).
[0003]
In addition, according to the conventional rain and flood prediction system, it is possible to receive a prediction request from the flood prediction processing terminal, refer to the rain prediction data, and display the flood prediction. Moreover, according to the said system, rainfall prediction data can be hold | maintained and it can distribute to a flood prediction processing terminal (for example, refer patent document 2).
[0004]
Further, according to the conventional WEB disaster information disclosure system, a disaster information disclosure web page is automatically generated according to a predetermined template in the event of a disaster or emergency (see, for example, Patent Document 3).
[0005]
Moreover, according to the conventional telephone number acquisition apparatus, the information which specifies a caller can be displayed with related information by acquiring a caller's telephone number (refer patent document 4).
[0006]
In addition, according to the conventional disaster decision support device, it is possible to automatically select and present a corresponding part of a disaster prevention plan rule prepared in advance in the event of a disaster (see, for example, Patent Document 5).
[0007]
Further, according to the conventional news gathering location specifying device, video recording and position information are recorded on a recording medium in an inseparable relationship with each other (see, for example, Patent Document 6).
[0008]
Further, according to the conventional electronic mail system, the data of the transmission position can be automatically inserted into the electronic mail (for example, refer to Patent Document 7).
[0009]
Further, according to the conventional service system, it is possible to specify the caller and guarantee the reliability of the information by a code for identifying the caller and a random number (for example, refer to Patent Document 8).
[0010]
[Patent Document 1]
JP-A-11-161678
[Patent Document 2]
JP 2002-107462 A
[Patent Document 3]
Japanese Patent Laid-Open No. 2003-030766
[Patent Document 4]
JP 2002-305602 A
[Patent Document 5]
Japanese Patent Laid-Open No. 10-334078
[Patent Document 6]
Japanese Patent Laid-Open No. 2001-111942
[Patent Document 7]
JP 2000-181814 A
[Patent Document 8]
JP 2000-322482 A
[0011]
[Problems to be solved by the invention]
By combining the above-mentioned conventional devices, it was possible to present the relevant part of the countermeasure manual determined in advance in the event of a disaster. However, in the conventional apparatus, when the disaster related information is to be collected, the user has to input, for example, information request items necessary for the disaster. Alternatively, a combination of information request items that may be required in the event of a disaster must be stored in a conventional apparatus in advance, and a function for allowing the user to narrow down combinations of information request items must be prepared. For this reason, there is a problem that it is necessary to perform training so that the user can request appropriate information and select and display appropriate information, or to prepare a large number of templates according to the type of disaster and the region. It was.
[0012]
The present invention has been made to solve such a problem, and can cope with a large number of types of disasters. At the time of a disaster, based on the notification of the disaster, a combination of the corresponding disaster cause and regional pattern is applicable. An object of the present invention is to obtain a disaster information management device that provides an appropriate range of information to a user.
[0013]
[Means for Solving the Problems]
According to the present invention, the disaster information is input, and a current situation collecting unit for creating a disaster notice in which time information is added to the disaster information, the disaster notice from the current situation collecting unit is accumulated, and the cause of the disaster and the disaster occurrence area are identified. A disaster database unit that includes a disaster status database unit that outputs a trigger signal, a past disaster database that records information about past disasters, a disaster prediction database that records prediction information about possible disasters, and information about normal times The recorded normal situation database section, the display pattern and the search pattern are stored in association with the cause of the disaster and the disaster occurrence area, the trigger signal is received from the disaster situation database section, and the disaster included in the trigger signal is stored. Select display and search patterns based on the cause and disaster location information, A pattern storage unit that outputs the display pattern and the search pattern; and the search pattern output from the pattern storage unit is received, and the disaster condition database unit and the disaster are stored using the search conditions included in the search pattern A search unit that obtains a search result from the database unit and the normal situation database unit, stores the search pattern and the search result in association with each other, and sends the search result as disaster-related information; and A disaster information management apparatus comprising: a disaster display unit that receives the disaster-related information, receives a display pattern from the pattern storage unit, and displays the disaster-related information according to the display pattern.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 shows the configuration of a disaster information management apparatus according to Embodiment 1 of the present invention. The disaster information management apparatus of the present invention focuses on the fact that there are many common parts in the information to be displayed even if there are many types of disasters, and organizes the search patterns and display patterns for each cause and area in advance. Prepared in the pattern storage unit 7 to be described later, based on the disaster report, automatically select the appropriate cause of the disaster and the search pattern / display pattern of the area from the pattern storage unit 7 and combine them, so that the appropriate range This information can be automatically provided. As shown in FIG. 1, the disaster information management apparatus according to the present embodiment is provided with a disaster display unit 1 that presents disaster-related information to a user according to a predetermined display pattern. A search unit 2 is connected to the disaster display unit 1. The search unit 2 searches for disaster related information to be displayed by the disaster display unit 1 from the disaster status database unit 3, the disaster database unit 4, and the normal time status database unit 5 using search conditions included in a predetermined search pattern. . The disaster status database unit 3 accumulates disaster reports from the status collection unit 6 described later, and sends information including the cause of the disaster and the disaster occurrence area as a trigger signal to the pattern storage unit 7 described later. The disaster database unit 4 includes a past disaster database in which information on past disasters is recorded and a disaster prediction database in which prediction information on anticipated disasters are recorded. The search database 2 accepts search conditions and stores these two databases. Search and send the search result to the search unit 2. The normal-time situation database 5 includes a database in which information on residents or industries during normal times is recorded, receives search conditions from the search unit 2, searches the database, and sends the search results to the search unit 2. A current status collection unit 6 and a pattern storage unit 7 are connected to the disaster status database 3. The current status collection unit 6 receives disaster information at the time of a disaster, creates a disaster report that supplements the disaster information with the time, the reporter, and the reporting point, and sends the disaster report to the disaster status database unit 3. The pattern storage unit 7 stores in advance the display pattern as shown in FIG. 2 and the search pattern as shown in FIG. 3 in association with the disaster cause / region, and causes the disaster cause / disaster occurrence from the disaster current state database unit 3. A trigger signal including local information is received, a display pattern and a search pattern are selected based on the trigger signal, and the display pattern is sent to the disaster display unit 1 and the search pattern is sent to the search unit 2.
[0015]
Next, the operation will be described.
[0016]
(Disaster display section)
First, the disaster display unit 1 will be described. When the disaster information arrives at the current status collection unit 6, the disaster display unit 1 displays a display pattern for displaying the disaster related information input from the search unit 2 and the disaster related information input from the pattern storage unit 7. Receiving and presenting disaster related information to the user according to the display pattern.
[0017]
FIG. 2 is a diagram for explaining the display pattern. The display pattern specifies a format for displaying disaster-related information in the display frame. The display frame includes, for example, a reference plane 41, a time management 42, and an information plane group 43. The reference plane 41 is for designating a display position and a display schedule. For example, the reference plane 41 includes a plurality of frames such as a map area for displaying a map, a statistical area for displaying statistical information, and an image area for displaying an image. Each display unit can hold a display schedule. The time management 42 holds the time or time zone of the disaster related information being displayed. The information surface group 43 includes information surfaces corresponding to search units of the search pattern. Each information plane holds disaster-related information displayed in the display unit and a display density distribution. Search units include, for example, past disasters, disaster predictions, normal times, damages, causes, and countermeasures. The display density distribution refers to an information amount for each display area, for example, a designation of the number of icons and numerical values. An information surface having a display density distribution of 0 over the entire area is not displayed. Each information surface has a function of displaying an appropriate amount by selecting information when a display density distribution is given. Each information surface has a mechanism for changing the display in synchronization with the enlarged / reduced display of the reference surface 41. Each information surface has a mechanism for changing the display in synchronization with the change of the display time or time width of the time management 42. For example, if the display range of the map is expanded 10 times on the reference plane 41, the information display on the information plane indicating the cause status, for example, is also changed to the above range and displayed according to the designated display density distribution. Further, for example, if the display time is changed to 10 minutes after 3 hours, the information display on the information surface indicating the cause status is also changed to the time range accordingly and displayed according to the specified display density distribution. The
[0018]
The display pattern includes the display content of the reference surface, the display time of time management, and the display density distribution of each information surface. For example, a map around Mt. Iwaki is assigned to the reference plane, the target display time is changed from 11:45 to 12:00 on February 21, 2003, and the lava flow is displayed on the cause status surface, so that the area near the top of Mt. As the display density is assigned and the Iwakiyama hazard map is displayed on the disaster prediction plane, the display density assigned to the range corresponding to the hazard map constitutes one display pattern. By this display pattern, the lava flow range at the target display time and the lava flow range prediction after the display time can be listed.
[0019]
The disaster display unit 1 also accepts an information request accompanied by a search condition and display format designation from the user, sends the search condition to the search unit 2 for search, obtains the result, and displays it in the specified display format. .
[0020]
(Search part)
Next, the search unit 2 will be described. When disaster information arrives at the current status collection unit 6, the search unit 2 accepts the search pattern from the pattern storage unit 7, and is included in the disaster status database unit 3, the disaster database unit 4, and the normal time status database unit 5 in the search pattern. The search condition is sent, a search result based on the search condition is acquired, the search pattern and the search result are stored in association with each other, and the search result is sent to the disaster display unit 1 as disaster related information.
[0021]
Further, an update notification request is sent to the disaster present state database unit 3 according to the search pattern, and an update notification is set if there is an update regarding the search result acquired by the search pattern.
[0022]
FIG. 3 is a diagram for explaining a search pattern. A search pattern is a set of search conditions prepared according to a cause situation and a region, and has a correspondence with an information surface of a display pattern. In FIG. 3, a search pattern 31 shows a framework of search patterns for the normal situation database unit 3 and the disaster database unit 4. The search pattern 32 indicates a framework of search patterns for the disaster present state database unit 5. The search result is assigned to the corresponding display pattern information surface.
[0023]
Search pattern 31 includes examples of search patterns for normal situations, disaster predictions, and past disasters that are searched by narrowing down the region, and examples of information attributes of normal situations under the conditions of residents, important facilities, and industrial conditions. Each of these is enumerated. In other words, examples of information attributes of the status of residents include population and housing, and examples of information attributes of status of important facilities include dangerous facilities, administrative facilities, roads / railways, power transmission / gas, telephones / mobile base stations, etc. Yes, examples of information attributes of the industrial situation include production and land use. The search result is held as a set of the region and the attribute value of the information attribute. The search pattern for the normal situation includes a search sentence for searching the normal situation database on the condition of the region. Search results include, for example, the status of residents, the status of important facilities, and the status of industries. The search result is assigned to the information surface of the normal situation in the display pattern.
[0024]
The search pattern 32 lists frame examples of search patterns for damage status, cause status, and countermeasure status that are searched by narrowing down the region and time range, and examples of information attributes. Examples of information attributes for damage status include damage to residents (dead, unknown, injured, evacuation), damage to houses (completely destroyed, partially destroyed, evacuated (households)), damage to important facilities (dangerous facilities, administrative facilities, transportation of goods, Energy transport, information transmission), and industrial damage (damage amount, damage area). Examples of cause attribute information attributes include natural disasters (earthquakes (earthquake location, scale, seismic intensity distribution, aftershock history, fault location, landslide)), wildfires, tsunamis (tsunami area, wave height distribution), typhoons (center location, Central pressure, wind speed distribution, rainfall distribution, wake), eruption (eruption position, volcanic height, pyroclastic flow, volcanic eruption, falling ash), flood (breaking position, flooded area, rainfall distribution)), accident (urban fire, traffic), surroundings (Weather) etc. Examples of information attributes of countermeasure status include fire fighting, police, local administration, and public enterprises. The search result is held as a set of the region / time region and the attribute value of the information attribute. The search pattern for damage status includes a search statement for searching the disaster status database on the condition of the region and the time zone. The search results include, for example, resident damage, house damage, important facility damage, industrial damage, and the like. The search result is assigned to the damage status information surface of the display pattern.
[0025]
The search unit 2 also receives a search condition from the disaster display unit 1, causes the disaster current state database unit 3, the disaster database unit 4, and the normal time state database unit 5 to search, obtains the search results, and sends them to the disaster display unit 1. To do.
[0026]
(Disaster Status Database Department)
Next, the disaster status database unit 3 will be described. When disaster information arrives at the current status collection unit 6, the disaster status database unit 3 sequentially accumulates disaster reports from the current status collection unit 6, and sends a trigger signal including the cause and area of the disaster to the pattern storage unit 7.
[0027]
FIG. 4 is a diagram showing the relationship between the disaster status database unit 3 and the current status collection unit 6 in FIG. In FIG. 4, a disaster report composed of time, reporter, report point, and information is sent from the current status collection unit 6 to the disaster status database unit 3 and accumulated therein. Here, the information medium is, for example, a FAX image, an e-mail body, telephone recording, or the like. The disaster report information is analyzed according to a predetermined rule, and searchable attribute values are extracted.
[0028]
A block 21 in FIG. 4 describes an example of the details of the disaster notification accumulated in the disaster status database unit 3. If the disaster report is analyzed as a refuge report, for example, the reporter and the report point are interpreted as a refuge and the information is interpreted as the number of persons accommodated. If the disaster report is a hospital report, for example, the reporter and the report point are interpreted as a hospital, and the information is interpreted as the number of accommodated patients. If the disaster report is a cause status report, for example, the report point is interpreted as the cause point and the information is interpreted as the cause state. If the disaster report is a countermeasure personnel dispatch report, for example, the reporter and report point are interpreted as the dispatch source, and the information is interpreted as the dispatch destination and the dispatch number. As a result of the analysis, if the disaster report is a cause status report, the cause of the disaster is extracted and the pair with the report point is used as a trigger signal. Otherwise, only the reporting point is the trigger signal. For example, if the reporter is a disaster report belonging to an evacuation center, and the information is a fax image based on a given format and the number of evacuations can be extracted from the fax contents, the disaster report consisting of the time, the evacuation center, and the number of evacuations Is stored as a disaster report different from the disaster report having the original FAX image, and the point is sent to the pattern storage unit 7 of FIG. 1 as a trigger signal. Also, for example, if the whistleblower is the Fire Department and the information is voice based on a given format and the cause can be extracted from the voice, create a disaster report consisting of the time, whistleblower, cause point, and cause status Then, the set of the point and the cause situation is sent to the pattern storage unit 7 as a trigger signal.
[0029]
The disaster status database unit 3 also sends the disaster report selected in accordance with the update notification request designated by the search unit 2 to the search unit 2 as an update notification.
[0030]
The disaster current state database unit 3 also receives a search condition from the search unit 2, searches its own database in which disaster reports are accumulated, and sends the search result to the search unit 2.
[0031]
(Disaster Database Department)
Next, the disaster database unit 4 will be described. The disaster database unit 4 includes at least a past disaster database in which information on past disasters is recorded, and a disaster prediction database in which prediction information on disasters such as a hazard map is recorded. The past disaster database and the disaster prediction database are searched, and the result is sent to the search unit 2.
[0032]
FIG. 5 is a diagram illustrating an example of the disaster database unit 4. The disaster database unit 4 includes a past disaster database and a disaster prediction database, and stores a general record and a detailed record, respectively. Block 51 describes a past disaster / forecast prediction summary record and a past disaster / forecast disaster detail record. The general record includes a name, date / time, place, and information, and information media includes an image, a map, a moving image, a link to a stream, and the like. A detailed record consists of a name, date / time, place, and keyword. Here, the keywords are those extracted from the above information and listed. It also has a concept hierarchy for keyword search and a concept rule for date and time search. FIG. 5 also shows a conceptual hierarchy example 52 for keyword search. In the conceptual hierarchy example 52, there are building fires, city fires, and forest fires as subordinate concepts of fire, and there are names of individual past fire disasters as subordinate concepts. FIG. 5 shows a conceptual rule example 53. The conceptual rule example 53 shows the relationship between time and morning / daytime / night (evening / late night) or the relationship between date and time and four seasons (spring, rainy season, summer, autumn, winter).
[0033]
(Normal hours DB section)
Next, the normal situation database section 5 will be described. The normal situation DB unit 5 includes an area distribution database that records at least the area distribution regarding residents and industries, receives search conditions from the search unit 2, searches the area distribution database, and sends the results to the search unit 2. Further, for example, it has external information acquisition / storage means for receiving and storing external information such as weather information via a communication network such as the Internet. Also, external information search means for searching for the external information using the search pattern as needed without accumulating the external information by holding predetermined external information in association with the search pattern have.
[0034]
FIG. 6 is a diagram for explaining an example of the normal situation database section 5. In the normal state database section 5, regional information records are accumulated. The area information record includes a place name, an attribute name, and data. Block 61 describes an example of a regional hierarchy prepared for place names. Block 61 is an example of a regional hierarchy centered on the example of Aomori Prefecture, and can be tabulated and subdivided from Tohoku to Aomori City. Block 62 describes an example of an industry hierarchy prepared for attributes. The concept of the industrial hierarchy includes, for example, agriculture, forestry, fishery, mining, house value, population, and the like. The block 62 mainly shows an example in which the production amount for each industrial field is assumed. In particular, agriculture is described as an example, and attribute names include rice, cereals, vegetables, feed, fruit trees, and the like. Block 63 describes an example of a conceptual hierarchy prepared for data. If the concept is agriculture, the data format includes, for example, cultivated area, yield, number of workers, and the like, and if the concept is fishery, the data format includes, for example, catch, number of workers, and the like. A block 63 indicates that a data format is prepared for each concept, and that a search can be performed with reference to the data format.
[0035]
(Current Status Collection Department)
Next, the current status collection unit 6 will be described. When disaster information arrives at the current status collection unit 6 from the information source, the current status collection unit 6 accepts the disaster information, creates a disaster report that supplements the time, the reporter, and the reporting point, and sends it to the disaster status database unit 3 . For example, when disaster information is received by telephone, a disaster report is created from the reporter and report point that can be estimated from the sender telephone number, the reception time, and the telephone recording. Also, by having means to describe access means to the information source, when missing is detected when converting from disaster information to disaster report, the access means is presented as missing supplement means to supplement the missing can do. That is, in the case of disaster information by telephone, since the access means becomes the sender telephone number, the sender telephone number is presented.
[0036]
The current status collection unit 6 also accepts a disaster report that the user interprets and creates based on the disaster information, and sends it to the disaster status database unit 3.
[0037]
(Pattern accumulation unit)
Next, the pattern storage unit 7 will be described. The pattern storage unit 7 stores the correspondence between the display pattern and the search pattern and the cause / region in advance. When the disaster information arrives at the current state collection unit 6, the disaster state database unit 3 identifies the cause of the disaster and the disaster occurrence region. A trigger signal including information is received, a display pattern and a search pattern are selected based on the trigger signal, and the selected display pattern is sent to the disaster display unit 1 and the search pattern is sent to the search unit 2, respectively. For example, it accepts a trigger signal for a forest fire in Aomori City from the disaster status database section 3 and selects a display pattern corresponding to the forest fire to the disaster display section 1, and also corresponds to the area Aomori City and the above display pattern. The search pattern to be selected is selected and sent to the search unit 2. Here, for example, the normal pattern is displayed as a map and a statistical table, an alarm is issued every time the cause status is updated, and the cause status is specified to be displayed in the map and image area. is assumed. Also, here, for example, a search pattern such as searching for a normal situation around Aomori city, searching for a cause status, and issuing an update notification request is assumed.
[0038]
(Operation: Automatic display)
FIG. 7 is a diagram for explaining an operation of automatically displaying information when disaster information arrives. As shown in FIG. 7, first, in the disaster information receiving step S11, the current status collection unit 6 receives the disaster information, creates a disaster report that supplements the time, the reporter, and the reporting point, and the disaster status database unit 3 The disaster report is accumulated and a trigger signal including the cause of the disaster and the region is sent to the pattern accumulation unit 7.
[0039]
Next, in the pattern automatic selection step S12, the pattern accumulating unit 7 receives a trigger signal from the disaster present state database unit 3 and refers to the correspondence between the accumulated display pattern / search pattern and the cause / region. The display pattern to be transmitted is sent to the disaster display unit 1, and the search pattern is sent to the search unit 2.
[0040]
Next, in the display step S13, the search unit 2 accepts the search pattern from the pattern storage unit 7, and the search condition included in the search pattern is stored in the disaster status database unit 3, the disaster database unit 4, and the normal time status database unit 5. The search result is acquired, the search pattern and the search result are stored in correspondence with each other, and the search result is sent to the disaster display unit 1 as disaster related information. The disaster display unit 1 receives the disaster related information and the display pattern from the pattern storage unit 7 and presents the disaster related information to the user according to the display pattern.
[0041]
As described above, the disaster information management apparatus according to the present embodiment pays attention to the fact that there are many common parts in the information to be displayed even if there are many types of disasters. Patterns are organized in advance and incorporated into the system, and based on the disaster report, the corresponding disaster cause and area search / display patterns are selected, and combinations of these patterns provide an appropriate range of information to the user as much as possible. Provided automatically. Specifically, as described above, the disaster information that has arrived at the current state collecting unit 6 is shaped and accumulated in the disaster current state database unit 3, and the trigger signal created by extracting the cause of the disaster and the disaster occurrence area from the disaster information. Is sent to the pattern storage unit 7, the display pattern and the search pattern corresponding to the trigger signal received by the pattern storage unit 7 are selected, the display pattern is sent to the disaster display unit 1, and the search pattern is sent to the search unit 2. , Respectively, and the search is performed in the disaster current state database unit 3, the disaster database unit 4, and the normal state current state database unit 5 with the search conditions included in the search pattern, and the disaster display unit 1 sends the above to the user according to the display pattern. Since disaster-related information is presented, the search / display panel for the cause of the disaster and the area where the disaster occurred is based on the disaster report. Search patterns are automatically selected from the pattern storage unit 7 and combined, and search and display are performed based on the selected combinations. Therefore, it is possible to automatically provide a user with an appropriate range of information, and to perform training. Even users who have not passed through can perform disaster information management work.
[0042]
In the above description, the example has been described in which the normal situation database 5 has a database that records the regional distribution of residents and industries. However, the present invention is not limited to this, and the normal situation database unit 5 stores the database. It is also possible to have a search function for external information, and in that case, external information can be searched on demand without accumulating the external information, and the capacity of the normal state database 5 can be reduced. , Can provide information closer to the present.
[0043]
In addition, when the disaster information is missing in the current status collecting unit 6, the current situation collecting unit 6 may have an information supplementing means for detecting the lack and supplementing the information. Even a non-user can detect the loss of disaster information and automatically supplement the supplement, and can perform disaster information management work.
[0044]
【The invention's effect】
According to the present invention, disaster information is input, a current status collection unit that creates a disaster report in which time information is added to the disaster information, the disaster report from the current status collection unit is accumulated, and the cause of the disaster and the disaster occurrence area are identified. A disaster database unit that includes a disaster status database unit that outputs a trigger signal, a past disaster database that records information about past disasters, a disaster prediction database that records prediction information about possible disasters, and information about normal times The recorded normal situation database section, the display pattern and the search pattern are stored in association with the cause of the disaster and the disaster occurrence area, the trigger signal is received from the disaster situation database section, and the disaster included in the trigger signal is stored. Select display and search patterns based on the cause and disaster location information, A pattern storage unit that outputs the display pattern and the search pattern; and the search pattern output from the pattern storage unit is received, and the disaster condition database unit and the disaster are stored using the search conditions included in the search pattern A search unit that obtains a search result from the database unit and the normal situation database unit, stores the search pattern and the search result in association with each other, and sends the search result as disaster-related information; and The disaster information management apparatus includes a disaster display unit that receives the disaster-related information, receives a display pattern from the pattern storage unit, and displays the disaster-related information according to the display pattern. It is possible to respond to many cases, and in the event of a disaster, it is applicable based on the report of the disaster That by a combination of patterns of accidents caused and disaster area, to provide information appropriate range to the user.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a disaster information management apparatus according to Embodiment 1 of the present invention.
FIG. 2 is an explanatory diagram of a display pattern of the disaster information management apparatus according to Embodiment 1 of the present invention.
FIG. 3 is an explanatory diagram of a search pattern of the disaster information management device according to the first embodiment of the present invention.
FIG. 4 is an explanatory diagram of a current status collection unit and a disaster current status database unit of the disaster information management apparatus according to the first embodiment of the present invention.
FIG. 5 is an explanatory diagram of a disaster database unit of the disaster information management apparatus according to Embodiment 1 of the present invention.
FIG. 6 is an explanatory diagram of a normal situation database section of the disaster information management apparatus according to Embodiment 1 of the present invention;
FIG. 7 is a flowchart showing the operation of the disaster information management apparatus according to Embodiment 1 of the present invention when disaster information arrives.
[Explanation of symbols]
1 disaster display section, 2 search section, 3 disaster status database section, 4 disaster database section, 5 normal status database section, 6 current status collection section, and 7 pattern storage section.

Claims (3)

A current status collecting unit that inputs disaster information, adds time information to the disaster information, and outputs it;
A disaster status database unit that accumulates disaster reports from the current status collection unit and outputs a trigger signal including a disaster cause and a disaster occurrence area;
A disaster database unit comprising a past disaster database that records information about past disasters, and a disaster prediction database that records prediction information about possible disasters;
The normal situation database section, which records normal time information,
One or more display patterns and search patterns are stored in association with disaster causes and disaster occurrence areas, and the trigger signal from the disaster status database unit is received and included in the trigger signal from the display pattern and search pattern. A pattern storage unit for selecting and outputting a display pattern and a search pattern corresponding to information on the disaster cause and disaster occurrence area,
The search pattern output from the pattern storage unit is received, and using the search conditions included in the search pattern, a search result is obtained from the disaster current state database unit, the disaster database unit, and the normal state current state database unit. A search unit that stores the search pattern and the search result in association with each other, and sends the search result as disaster-related information;
A disaster information comprising: a disaster display unit that receives the disaster-related information from the search unit, receives a display pattern from the pattern storage unit, and displays the disaster-related information according to the display pattern Management device. The disaster information management apparatus according to claim 1, wherein the normal-time situation database unit further includes external information search means for searching for external information. 3. The disaster information management apparatus according to claim 1, wherein the current status collection unit includes an information supplement unit that detects and supplements when the input disaster information is missing. 4.

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