JP2006279129A - System for information communication - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for information communication capable of quickly and surely obtaining well-being information on the occurrence of a disaster and carrying out transmission of the well-being information in such a way that the privacy of subscribers is guaranteed. <P>SOLUTION: The information communication system is configured such that it comprises a central processing unit 102 and a plurality of terminals, and the central processing unit includes: an affected status database 102 for registering a disaster status for each district; a terminal positional information database 106 for registering each of districts where a plurality of base stations or a plurality of terminals exist; and a well-being information disclosure permission database 5 to which possessors of the plurality of terminals apply setting of opposite parties of transmission of well-being information, and on the occurrence of a disaster, the central processing unit selects a terminal of a possessor whose well-being information is to be transmitted on the basis of the affected status database and the terminal positional information database, and transmits the well-being information of the district corresponding to the selected terminal to an opposite party to which the transmission of the well-being information is permitted on the basis of the well-being information disclosure permission database. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an information communication system, and more particularly to an information communication system capable of confirming safety information while ensuring privacy.

  When a large-scale disaster such as an earthquake, tsunami, or typhoon occurs, in order to confirm the safety of people living in the area where the disaster occurred or people working in the area have been damaged, Often people acquaintances and relatives call the victims' homes and workplaces to check their safety directly. In such a case, in a large-scale disaster, the number of victims is inevitably increased, and telephones from safety confirmation persons who want to confirm the safety of the disaster victims are concentrated in a specific area, and the telephone line exceeds the processing capacity. May end up. In addition, when a disaster victim wants to inform a safety confirmation person of his / her safety, the telephone line has already exceeded its processing capacity, and it is difficult to convey safety information from the disaster victim to an acquaintance or relative. Many.

  A communication system (for example, see Patent Document 1) for solving this problem has been proposed. This will be described with reference to FIG. The communication system shown in FIG. 4 is connected to a telephone station 401 via a wireless line, receives safety information transmitted from the mobile phone 402 for inputting safety information, and registers and manages each mobile phone. The telephone station 401 that converts the safety information into a display format by voice or the Internet and outputs it, and the other party who is connected to the telephone station 401 via a communication line and wants to check the safety information input by an input means (for example, a push button) The telephone number is entered, the safety information is inquired to the telephone office 401, the telephone 403 confirms the safety information by voice, and the telephone office 401 is connected to the Internet via the input means (for example, a keyboard). Enter the phone number of the other party whose safety information you want to check, make an inquiry about the safety information to the telephone office 401, and display the safety information It is equipped with a personal computer 404 to be confirmed by location.

  The mobile phone 402 includes input means such as a numeric keypad, and the input means inputs safety information of the person in a predetermined format and transmits it to the telephone station 401. Here, for example, a configuration for inputting safety information from a mobile phone will be described. However, it is not limited to a mobile phone to input safety information, but a communication terminal such as a telephone connected to a telephone line or a personal computer connected to the Internet. It does not matter.

  In addition, the telephone office 401 manages the safety information transmitted from the mobile phone by registering it in a safety information storage memory (not shown) for each mobile phone number. The safety information corresponding to the telephone number input by the input means such as the push button 403 is searched from the safety information storage memory, and the stored safety information is, for example, voice information converted by voice information conversion means (not shown). And output to the telephone set 403. In response to the inquiry from the personal computer 404, the safety information corresponding to the telephone number input by the input means such as the keyboard of the personal computer is retrieved from the safety information storage memory, and the stored safety information is, for example, HTML (Hypertext Markup (Language) and other formats.

  In addition, the telephone station 401 forcibly disconnects the line after outputting a safety information as voice information after a predetermined time has elapsed or after a predetermined number of times voice information has been generated, in response to an inquiry from the telephone 403. In response to an inquiry from the personal computer 404, after a certain period of time has elapsed after the safety information is output in a predetermined format, the line is forcibly disconnected.

  By configuring as described above, it is possible to easily obtain safety information at the time of a disaster, but at the time of a disaster, a communication request or safety information for confirming safety from a landline, mobile phone or the Internet is notified. Because the communication request for rushing is inundated, the communication request exceeding the limited telephone line becomes congested and the wired line and the wireless line are not functioning, and the communication function such as emergency call is hindered. Realization of a safety information confirmation system is desired.

JP 2004-254197 A

  In the conventional system, despite the high possibility of communication congestion in the affected area when a disaster occurs, there are many problems such as requiring registration of safety information and a response to it, etc. In order to hinder communication, realization of a highly reliable safety information confirmation system is desired.

  An object of the present invention is to provide an information communication system in which safety information can be confirmed with high reliability when a disaster occurs.

  Another object of the present invention is to provide an information communication system that guarantees privacy and facilitates confirmation of safety information.

  Still another object of the present invention is to provide an information communication system in which safety information confirmation is promptly transmitted when a disaster occurs.

  An information communication system according to the present invention includes a central processing unit, a plurality of base stations, and a plurality of terminal devices registered in each of the plurality of base stations. The disaster situation database for registering the situation, the terminal location information database for registering the areas where the plurality of base stations or the plurality of terminal devices are located, and the parties to whom the owners of the plurality of terminal devices transmit safety information are set. Comprising a safety information disclosure permission database, and when the disaster occurs, the central processing unit selects the terminal device of the owner of the safety information to be sent based on the disaster situation database and the terminal location information database, and the selected terminal Based on the safety information disclosure permission database, the safety information of the corresponding area of the device is sent to the other party who is permitted to transmit the safety information. Nay configured to transmit the information.

  In the information communication system of the present invention, the disaster situation database is configured by a data table in which warning levels are registered in accordance with a predetermined criterion for each region.

  Further, in the information communication system of the present invention, the safety information disclosure permission database includes a plurality of terminal devices registered for each region, and permission information of the safety information to be sent corresponding to each of the plurality of terminal devices. It is a database in which terminal devices are registered.

  Further, in the information communication system of the present invention, the safety information of the corresponding area of the selected terminal device is transmitted to the other party permitted to transmit the safety information based on the safety information disclosure permission database. In this case, it is configured such that a priority order is determined for a partner who is permitted to transmit the safety information, and the safety information is transmitted according to the priority order.

  Further, in the information communication system of the present invention, the registration of the permission of the safety information to be sent is based on a predetermined number of connections or a predetermined connection time for each communication partner of a plurality of terminal devices registered for each region. It is configured to register a terminal device for permission of safety information to be sent.

  Further, in the information communication system of the present invention, the terminal device for permitting the safety information to be sent is registered based on a predetermined number of connections or a predetermined connection time for each communication partner of the plurality of terminal devices registered for each region. In this case, the registration is confirmed with the subscribers of the plurality of terminal devices registered for each region.

  In the information communication system of the present invention, when selecting the terminal device of the owner of the safety information to be sent based on the disaster situation database and the terminal location information database, the area where the terminal device is located or the terminal device An information communication system, wherein a priority order is determined for each group and the safety information is transmitted according to the priority order.

  As described above, according to the present invention, in a disaster area where there is a high possibility that the communication line is congested immediately after the occurrence of the disaster, whether there is a possibility of the disaster on the confirmer side without the safety registration work on the victim side. Can be grasped. In addition, since the confirmation of the disaster situation itself can be referred to a server other than the disaster area, an effect of suppressing unnecessary traffic generation can be expected. Furthermore, since the notification of the start of the safety confirmation service is limited to the communication destination pre-registered by the disaster victim, the minimum privacy can be guaranteed. In addition, since a service start notification is sent to a user who is likely to need such a safety information service, the existence and details of the service in advance are given as an advantage on the user side. There is no need to grasp the information communication system, and a highly reliable information communication system can be realized for the user.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing a schematic configuration of an embodiment of the present invention. In FIG. 1, 100a1, 100a2,... 100al, 100b1, 100b2,... 100bm, 100g1, 100g2,. Note that the terminal device 100 is collectively referred to as a terminal device 100. 101-1, 101-2,... 101 -N represent base station radio apparatuses (hereinafter referred to as “base stations”). Each base station 101 has a plurality of terminal devices 100. For example, the base station 101-1 has l terminal apparatuses 100 such as 100 a 1, 100 a 2,. Similarly, the base station 101-2 includes m terminal apparatuses 100 such as 100b1, 100b2,... 100bm. In addition, the base station 101-N includes n terminal devices 100 such as 100g1, 100g2,. Each base station 101 and the terminal device 100 are connected via the Internet when connected via a wireless line, when connected via a telephone line, or in the case of a computer terminal such as a personal computer. There is also a case. In the case of such an Internet, the base station may be a provider.

  Reference numeral 102 denotes a central processing unit, which is installed in, for example, a mobile disaster prevention center of a mobile phone company, a government office, a prefectural office or a municipality. The central processing unit 102 includes a disaster situation database 104, a safety information disclosure permission database 105, a terminal location registration information database 106, a notification processing unit 107, a safety confirmation data generation unit 108, and a server 109. The central processing unit 102 includes various important databases as will be described later, and is not installed in one place so that these data are not lost in the event of a disaster, but installed in a plurality of places. Is normal. Here, each configuration will be described in detail.

  First, the terminal location registration information database 106 will be described. Each base station 101 registers the position information of the terminal device 100 existing in the area of the base station 101 of its own terminal device in the terminal location registration information database 106. For example, the data table registered in the terminal location registration information database 106 is shown in Table 1.

表１において、例えば、基地局１０１−１には、この基地局１０１−１に登録されている端末装置の登録端末番号（ＩＤ番号でも良い。）１００ａ１、１００ａ２、・・１００ａｌが、同様に、基地局１０１−２および１０１−Ｎにも、それぞれ、端末装置の登録端末番号１００ｂ１、１００ｂ２、・・１００ｂｍおよび登録端末番号１００ｇ１、１００ｇ２、・・１００ｇｎが登録されている。このように全ての端末装置１００がいずれかの基地局１０１に登録されている。登録の方法は、例えば、端末装置が存在している場所の現住所により登録する方法あるいはＧＰＳ（Global Positioning System）衛星からの経度、緯度情報から位置情報を検出し、この位置情報を登録する方法等がある。なお、被災地の安否情報を扱うので、できるだけ地域として基地局単位でまとまった端末装置を登録する方が良い。なお、基地局１０１のみ位置登録をすることもできる。この場合は、その基地局１０１に登録されている端末装置１００は、全て同一の位置（または地域）が登録される。

In Table 1, for example, the base station 101-1 includes registered terminal numbers (or ID numbers) 100a1, 100a2,... 100al of terminal devices registered in the base station 101-1, Also registered in base stations 101-2 and 101-N are registered terminal numbers 100b1, 100b2,... 100bm and registered terminal numbers 100g1, 100g2,. In this way, all the terminal devices 100 are registered in one of the base stations 101. The registration method is, for example, a method of registering based on the current address of the place where the terminal device exists, or a method of detecting position information from longitude and latitude information from a GPS (Global Positioning System) satellite and registering this position information. There is. In addition, since the safety information of a stricken area is handled, it is better to register terminal devices that are grouped in units of base stations as much as possible. Only the base station 101 can be registered. In this case, all the terminal devices 100 registered in the base station 101 are registered at the same position (or region).

  The disaster situation determination unit 103 will be described. When a disaster occurs, the disaster situation determination unit 103 determines the location and scale of the disaster, recognizes the area where the disaster is expected or the vicinity thereof, and registers it in the disaster situation database 104. For example, this disaster situation determination unit 103 determines a warning level for various disasters as shown in Table 2, and performs disaster prevention activities such as evacuation to local residents according to the warning level. This is the standard.

表２において、警戒の種類は、例えば、地震警報、津波警報、水害警報、台風警報等がある。発信元は、それぞれ住民の生命、財産を守る国の防災機関がこれを扱うようになされている。また、災害の警戒レベルは、例えば、大、中、小で、それぞれ災害の規模、大きさに関係する。例えば、地震警報の場合、震度５以上は、物が壊れたり、家屋が破損したりと言うように住民の生命の安全に関係するので、避難等の処置を講ずる必要がある。同様に、津波警報、水害警報、台風警報等でも防災機関で定めた基準に従って、地域住民に警報が出される。この警報に従って防災機関は、被災状況判定部１０３を操作して後述する災害状況データベース１０４を作成する。

In Table 2, the types of warning include, for example, earthquake warning, tsunami warning, flood damage warning, typhoon warning, and the like. The source is handled by the national disaster prevention agencies that protect the lives and property of the residents. Moreover, the alert level of a disaster is large, medium, and small, for example, and is related to the scale and magnitude of the disaster, respectively. For example, in the case of an earthquake warning, seismic intensity 5 or higher is related to the safety of the lives of residents, such as things being broken or houses being damaged, so it is necessary to take measures such as evacuation. Similarly, tsunami warnings, flood warnings, and typhoon warnings are issued to local residents according to the standards set by the disaster prevention agency. In accordance with this warning, the disaster prevention agency operates the disaster situation determination unit 103 to create a disaster situation database 104 described later.

  The disaster situation determination unit 103 is, for example, an input terminal installed in a disaster prevention organization, and a monitoring staff of the disaster prevention organization inputs a warning level for each region according to the warning level determination criteria shown in Table 2 at the time of the disaster. For earthquakes, seismometers are installed at various locations, and for tsunamis, measurements are made at each port facility. For flood damage, water level meters are installed in each river and dam, and for typhoons, the Meteorological Agency measures the wind speed for typhoon information, etc., so the monitoring personnel of the disaster prevention organization can input terminals based on such information. Enter from. When the disaster situation determination unit 103 is configured by a data processing input device such as a personal computer, a warning level table serving as a reference shown in Table 2 is stored in a storage unit (not shown) of the data processing input device. Compared with the data sent from each area of the stricken area, the warning level of the area can be automatically input.

  Next, creation of the disaster situation database 104 will be described. In the disaster situation database 104, for example, a data table as shown in Table 3 is created. When the disaster situation monitoring unit inputs the damage status from the disaster status determination unit 103 first according to the warning level determination criteria shown in Table 2 when the disaster occurs, and when the disaster status determination unit 103 automatically inputs In any case, the disaster situation database 104 as shown in Table 3 is created.

表３は、各地区Ａ、Ｂ、Ｃ、・・・Ｎについて、各警報の種類と、警戒レベル大、中、小が示されている。即ち、地震が発生した場合、各地区に設置されている地震計から震度情報が送られてくるので、この震度と表２で定めている警戒レベルとを比較し、例えば、Ａ地区の震度が６の場合、警戒レベル大が登録される。Ｂ地区では、震度が５であるので、同様に、警戒レベル大が登録される。Ｄ地区では、震度が１であるので、警戒レベル小が登録される。また、津波の場合、Ａ地区では、津波の高さ０．５〜１ｍであり、表２から警戒レベル中が登録される。このように災害状況データベース１０４には、防災機関に登録されている全ての地区について、災害が発生した時に警戒レベルが登録される。なお、表３において、括弧内の数字は、計測器から送られてくるデータを示す。

Table 3 shows the types of warnings and the warning levels large, medium, and small for each of the districts A, B, C,. That is, when an earthquake occurs, seismic intensity information is sent from seismometers installed in each area. Compare this seismic intensity with the alert level defined in Table 2, for example, the seismic intensity in A area is In the case of 6, the high alert level is registered. In the B area, since the seismic intensity is 5, similarly, a high alert level is registered. In district D, since the seismic intensity is 1, a low alert level is registered. In the case of a tsunami, in area A, the height of the tsunami is 0.5 to 1 m, and a warning level is registered from Table 2. Thus, in the disaster situation database 104, a warning level is registered when a disaster occurs for all the districts registered with the disaster prevention agency. In Table 3, numbers in parentheses indicate data sent from the measuring instrument.

  Next, the safety information disclosure permission setting database 105 will be described. This safety information disclosure permission setting database 105 registers in advance who the subscriber who owns the terminal device 100 registered in each base station 101 sends his / her safety information to in the event of a disaster, It is a database that is set up for the purpose of protecting the privacy of subscribers. For this purpose, first, as shown in Table 4, a data table showing the relationship between each of the districts A, B,... N and the base station 101 located in the district is prepared.

これは、例えば、防災機関が地図上で、事前に防災の観点から適宜定めた地区を区分けし、この地区に位置する基地局とを対応付けて作成され、安否情報開示許可設定データベース１０５に格納しておく。次に、各基地局１０１毎に登録されている端末装置１００毎に安否情報の情報開示許可を表５に示すようなデータベースとして登録する。

This is created, for example, by a disaster prevention agency on a map, dividing an area appropriately determined in advance from the viewpoint of disaster prevention, and associated with a base station located in this area, and stored in the safety information disclosure permission setting database 105 Keep it. Next, information disclosure permission of safety information is registered as a database as shown in Table 5 for each terminal device 100 registered for each base station 101.

表５は、各地区と、各地区に位置する基地局と、各基地局に登録されている登録端末装置および各登録端末装置が安否情報を開示する場合の情報開示許可の相手先端末装置を関連付けたデータベースである。例えば、Ａ地区で、基地局１０１−１に登録されている端末装置１００ａ１は、情報開示許可するのは、端末装置２００ａ１、２００ａ５、・・・である。同様に、Ｂ地区では、基地局１０１−２に登録されている端末装置１００ｂ１は、情報開示許可するのは、端末装置２００ｄ３、・・・であり、他の端末装置１００についても同様である。

Table 5 shows each terminal, the base station located in each area, the registered terminal device registered in each base station, and the partner terminal device for which information disclosure is permitted when each registered terminal device discloses safety information. It is an associated database. For example, in the A district, the terminal device 100a1 registered in the base station 101-1 is permitted to disclose information to the terminal devices 200a1, 200a5,. Similarly, in the B area, the terminal device 100b1 registered in the base station 101-2 permits the disclosure of information to the terminal device 200d3, and the same applies to the other terminal devices 100.

  Here, a registration method of information disclosure permission in the safety information disclosure permission setting database 105 will be described. First, information disclosure permission registration is a safety information disclosure permission setting database from each terminal device including disclosure permission information including a destination and a notification method for notifying safety information when a subscriber of each terminal device suffers in advance. 105 is registered. If it is troublesome for the subscriber to manually register in the database as needed, registration can be performed as follows. This will be described with reference to FIG.

  FIG. 3 is a flowchart showing an embodiment in which information disclosure permission is automatically registered in the safety information disclosure permission setting database 105. In FIG. 3, first, in step 301, a terminal device of a subscriber who needs a safety information disclosure permission setting is specified. For example, when the terminal device 100a1 registered in the base station 101-1 in the A area desires registration of safety information disclosure permission, the central processing unit 102 selects the terminal device 100a1.

  In step 302, it is determined whether or not the terminal device 100a1 has already been set for safety information disclosure permission. If it has been set, the setting operation is terminated. If not, the process proceeds to step 303.

  In step 303, the call history information relating to the identified terminal device is updated. That is, the call history information of the terminal device 100a1 specified in step 301 is updated. This is to delete past call history and collect information on permission to disclose safety information.

  In step 304, a terminal device having n or more calls is registered. For example, the terminal device 100a1 counts the number of calls with the other party who normally calls, and records, for example, the terminal device of the other party who has made a call five times or more per week. For example, if the terminal devices 200a1, 200a5,..., 200a3, 200a7,... Shown in Table 5 are the other parties who talked 5 times or more per week, these terminal devices are recorded, and the process proceeds to step 305.

  In step 305, a terminal device having a duration of T minutes or more is recorded. That is, the terminal device that has been talking for 10 minutes or more is recorded from among the terminal devices selected in step 304. The call time may be an accumulated time or a one-time call time, and can be determined as appropriate. For example, if the terminal devices 200a1, 200a5,... Shown in Table 5 are terminal devices that have been talking for more than 10 minutes, the terminal devices 200a1, 200a5,. . Steps 304 and 305 are information on permission of disclosure of safety information based on the number of calls and the call time. In other words, a partner with a large number of calls and a long conversation time is often a relative or a close acquaintance, and is recorded as a safety information disclosure permitted partner. In this embodiment, the safety information disclosure permission information is used based on the number of calls and the call time. However, the safety information is disclosed based on only one of the information and information other than the number of calls and the call time. Needless to say, it may be permission information and can be appropriately determined when the system is constructed.

  Step 306 is a step of displaying the safety information disclosure permission terminal devices 200a1, 200a5,... Recorded in steps 304 and 305. As described above, since the safety information is information including privacy, it is necessary that the safety information is not transmitted to a partner not intended by the subscriber. Therefore, the terminal device 200a1, 200a5,... Of safety information disclosure permission recorded in steps 304 and 305 is a terminal device for confirming whether or not the terminal device 100a1 is a terminal device permitted to disclose safety information. This is a step for displaying on the display device 100a1 and for confirmation by the subscriber.

  Step 307 is a registration step. In step 306, the terminal device confirmed by the owner of the terminal device 100 a 1 on the display device of the terminal device 100 a 1 is registered in the safety information disclosure permission setting database 105. With this configuration, the subscriber selects the terminal device permitted to disclose the safety information by himself, and instead of manually inputting the terminal device, the central processing unit 102 sets the terminal device permitted to disclose the safety information in the state of a daily call. Since it selects automatically, there is an advantage that registration becomes extremely easy. Further, since the user can be automatically prompted to register for disclosure permission based on the individual communication history, the burden on the user is reduced.

  Step 308 is a step of initializing the communication history. Each step described above is repeatedly executed for each terminal device 100. Thereby, the safety information disclosure permission setting database 105 can be created for the terminal devices registered in all the districts.

  Next, the operation of the information communication system capable of confirming the safety information shown in FIG. 1 will be described. First, when a disaster occurs, as described above, the disaster situation manager 103 creates the disaster situation database shown in Table 3 manually or automatically according to the alert level shown in Table 2. . At this time, as described above, the safety information disclosure permission setting database 105 is registered with the contents shown in Table 5. The terminal location registration information database 106 is registered with the contents shown in Table 1. Therefore, when a disaster occurs, the safety confirmation data generation unit 108 collates the contents of the terminal location registration information database 106 and the disaster situation database 104, and the safety confirmation data regarding the terminal device 100 that has performed location registration in the disaster area. Is generated. The generated data is stored in the data confirmation server 109.

  A specific case where an earthquake occurs will be described. The safety confirmation data generation unit 108 checks the contents of the terminal location registration information database 106 and the disaster situation database 104, and the terminal devices 100a1, 100a2,. Instructed to evacuate to schools. The same instructions are given for district B. Area C is in a warning level, waiting at home, and area D is in a low warning level, and information such as no damage is created for each terminal device of each subscriber along with the damage status. Accumulated. The contents of the data confirmation server 109 are shown in Table 6.

表６は、地震の場合の警戒レベルと、該当する端末装置および防災機関が地域住民に発令した警戒情報（ここでは、安否情報と称する。）を示すもので、この内容がデータ確認用サーバー１０９のデータベースとして登録される。この安否情報は、例えば、文字情報として後述する通知処理部１０７を介して送信される。なお、安否情報には、種々のものがあり、必要に応じて適宜防災機関で入力することができる。また、文字情報に替えて音声情報とすることもできる。なお、データ確認用サーバー１０９は、本実施例では、中央処理装置１０２の内部に設けるようにしたが、被災地とは離れた場所に設置することもできる。

Table 6 shows the alert level in the event of an earthquake and the alert information (herein referred to as safety information) issued to the local residents by the corresponding terminal device and disaster prevention agency. It is registered as a database. This safety information is transmitted, for example, as character information via a notification processing unit 107 described later. There are various types of safety information, which can be appropriately input by a disaster prevention organization as necessary. Moreover, it can also be set as audio | voice information instead of character information. In this embodiment, the data confirmation server 109 is provided inside the central processing unit 102. However, the data confirmation server 109 can also be installed at a location away from the disaster area.

  The notification processing unit 107 collates the contents of the safety information disclosure permission setting database 105 and the data confirmation server 109, and the subscriber of the terminal device 100 registered in each of the districts A, B,. Safety information is automatically transmitted to a terminal device that has given permission for disclosure. Specifically, referring to the data confirmation server 109, that is, it is read from the database shown in Table 6 that the subscriber of the terminal device 100a1 is in an area of a high alert level and is currently evacuating to the school X. As shown in Table 5, for example, the subscriber of the terminal device 100a1 is in an area of a high warning level with respect to the terminal devices 200a1, 200a5,... Notify that. With this configuration, safety information can be automatically sent only to the person that the subscriber wants to send immediately after the disaster in the disaster area, and the information to be sent is text or voice information. There will be no congestion. Further, it is possible to automatically and easily grasp the presence or absence of the possibility of disaster on the confirmer side without the safety registration work on the victim side. Further, when the data confirmation server 109 is installed in a place other than the disaster area, the confirmation of the disaster situation can be inquired by the data confirmation server 109 installed in a place other than the disaster area, which is unnecessary. The effect of suppressing traffic generation can also be expected. Furthermore, since the transmission of safety information is limited to transmission destinations registered in advance by the disaster victim, privacy can be guaranteed. Note that the notification processing unit 107 can also notify the terminal device for which the safety information disclosure permission is set based on the safety information disclosure permission setting database 105 of the subscriber's safety information, only to start the service first. Then, it can be configured to access the designated destination.

  FIG. 2 is a schematic configuration diagram showing another embodiment of the present invention. In FIG. 2, 201 indicates a disaster area, 202 indicates a neighborhood area of the disaster area, and 203 indicates a non-disaster area. In addition, the same code | symbol is attached | subjected to the same thing as FIG. The difference from the embodiment shown in FIG. 1 is that the regions are ranked according to the disaster situation. For example, based on the determination result of the damage status determination unit 103, the area covered by the base station 101-1 is the damaged area, the area covered by the base station 101-2 is the vicinity area, and the base station 101-N covers It shows the case where the area to become a non-affected area. In this case, the central processing unit 102 is configured to give priority to the transmission of the safety information according to the disaster situation and transmit the safety information. That is, for example, for the terminal devices 100g1, 100g2,... 100gn installed in the non-disaster area 203, the information disclosure permission destination is registered in the safety information disclosure permission setting database 105 as shown in Table 5 in advance. Even if the terminal device 100g1, 100g2,... 100gn is not notified of the safety information. Then, safety information is transmitted according to the safety information disclosure permission setting database 105 for the terminal device 100 located in the disaster area 201 and its neighboring area 202. Of course, the safety information is not notified unless the terminal device 100 permitted to disclose safety information is registered in advance. In the embodiment shown in FIG. 2, the priority order is determined for each region, but the terminal devices can be grouped and the priority order can be set for each group. Furthermore, it is also possible to give priority to terminal devices that are permitted to disclose information shown in Table 5, that is, terminal devices that notify safety information, and transmit safety information according to the priority. In this way, calls can be restricted according to priority, so that effective use of the telephone line can be achieved.

  In this way, the central processing unit 102 sets a priority order for each region or for each group of terminal devices according to the occurrence state of communication line congestion at the time of a disaster, for example, a high priority, that is, Since it is also possible to preferentially transmit the safety information of the residents in the area or group where the damage is large, a very flexible system can be configured as an information communication system capable of confirming the safety information.

  Although the present invention has been described in detail above, the present invention is not limited to the embodiments of the information communication system described herein, and is widely applicable to information communication systems that can confirm safety information other than the above. It goes without saying that you can do it.

It is a schematic block diagram for demonstrating one Example of this invention. It is a schematic block diagram for demonstrating other Example of this invention. It is a flowchart for demonstrating the setting of the safety information disclosure permission of one Example of this invention. It is a figure which shows an example of the communication system which transmits the conventional safety information.

Explanation of symbols

  100, 200: Terminal device, 101: Base station, 102: Central processing unit, 103: Disaster situation determination unit, 104: Disaster situation database, 105: Safety information disclosure permission setting database, 106: Terminal location registration information database, 107: Notification processing unit, 108: Safety confirmation data generation unit, 109: Safety information confirmation server, 201: Disaster area, 202: Neighborhood of the disaster area, 203: Non-stricken area, 401: Telephone office, 402: Mobile phone, 403: Telephone, 404: PC.

Claims (3)

  A central processing unit, and a plurality of base stations and a plurality of terminal devices registered in each of the plurality of base stations, the central processing unit includes a disaster situation database for registering a disaster situation for each region; A terminal location information database in which the areas where the plurality of base stations or the plurality of terminal devices are located and a safety information disclosure permission database in which an owner of the plurality of terminal devices sets a partner to which the safety information is transmitted, When the disaster occurs, the central processing unit selects the terminal device of the owner of the safety information to be sent based on the disaster situation database and the terminal location information database, and obtains the safety information of the corresponding area of the selected terminal device. The safety information is transmitted to a partner who is permitted to transmit the safety information based on the safety information disclosure permission database. Information and communication systems to be.   2. The information communication system according to claim 1, wherein the safety information disclosure permission database includes a plurality of terminal devices registered for each region, and permission information of the safety information to be sent corresponding to each of the plurality of terminal devices. An information communication system, which is a database in which terminal devices are registered.   2. The information communication system according to claim 1, wherein the safety information in the corresponding area of the selected terminal device is transmitted to the other party permitted to transmit the safety information based on the safety information disclosure permission database. In the case, the information communication system is characterized in that a priority order is determined for a partner who is permitted to transmit the safety information, and the safety information is transmitted according to the priority order.

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