JP2017079023A - Disaster information management system, server device for use in the same and terminal device therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a disaster information management system that allows information sharing among a plurality of servers to be made via terminal devices of users.SOLUTION: A disaster information management system is composed of: a single server device; and a plurality of terminal devices capable of data communication with the server device by wireless communications. As a computation processing device, the server device is configured to: serve as management means for unitarily managing personal information on an owner and disaster relevant information to be input from each of the plurality of terminal devices; serve as retrieval means for retrieving presence or absence of requested items included in the disaster relevant information on the basis of information to be unitarily managed; serve as retrieval means for organizing a rescue team for rescuing injured persons, allocating the injured person to be cared, and retrieving an optimal route having dangerous sites avoided for rescue purposes; and serve as transmission means for transmitting the presence or absence of the requested item to be retrieved by the retrieval means and the optimal route to be retrieved by the retrieval means to each of the plurality of terminal devices as secondary information.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a disaster information management system, a server device that constitutes the system, and a terminal device that performs wireless communication with the server device. In particular, in an environment where a commercial information communication network such as the Internet or a mobile phone network cannot be used at a disaster occurrence site, various information is managed in a unified manner and provided to the user of the terminal device, and the system The present invention relates to a configuring server device and a terminal device that performs wireless communication with the server device.

  In the event of a disaster, it is very important to collect and share information on disaster sites necessary for rescue of victims and supply of support supplies. Conventionally, such information has been collected and shared using methods such as writing on paper and then posting it to a shelter or sending a message to others. However, the above-described method has a problem that it takes time for information to propagate to many people and an information error due to a message occurs.

  In order to solve the above problem, in Patent Document 1, identification information is assigned to support goods and people, and these are managed in a database (DB), so that the support goods can be quickly delivered to the victims and various survivals. A system construction method for supporting a support service is disclosed. However, this system focuses on the distribution method of relief supplies and the settlement of expenses associated therewith, and is not intended to support the establishment of a system for initial lifesaving. Information sharing among multiple shelters is not considered.

JP 2013-225259 A

“Advancing triage,” JST News, Vol.6, No.9, December 2009.http: //www.jst.go.jp/pr/jst-news/2009/2009-12/page08.html Ion Stoica, Robert Morris, David Karger, M. Frans Kaashoek, and Hari Balakrishnan, “Chord: A scalable peer-to-peer lookup service for Internet applications,” SIGCOMM 2001, Aug. 2001.

  The system in the above prior art focuses on the distribution method of support goods and the expense settlement associated therewith, and is not intended to support the construction of an initial period for lifesaving. Information sharing among multiple shelters is not considered.

  Accordingly, an object of the present invention is to solve the above-mentioned problem, and not only promotes information sharing between disaster victims or rescuers, but also cannot use information communication networks such as the Internet and mobile phones. An object of the present invention is to provide a disaster information management system that enables information sharing between a plurality of isolated servers through a user terminal device.

In one aspect, a disaster information management system according to the present invention that solves the above problems is a disaster information management system used in an environment where a public communication network cannot be used at all. One server device and the server device And a plurality of terminal devices capable of data communication by wireless communication, and the server device, as an arithmetic processing device, receives owner personal information and disaster related information input from each of the plurality of terminal devices. Functions as a centralized management means,
Based on the information centrally managed by the management means, it functions as a search means for searching for the presence or absence of the required supplies contained in the disaster related information, and forms a rescue team and rescues the victim Functions as search means for searching for an optimum route that avoids a dangerous spot for allocation and rescue, and further uses the presence / absence of requested materials searched by the search means and the optimum route searched by the search means as secondary information It functions as a transmission means for sending to each terminal device.

  In one aspect, the disaster information management system according to the present invention that solves the above-mentioned problems includes, as a first aspect, at least a request / supply of supplies, a dangerous location, and triage information of a sick person as the disaster related information. It is characterized by.

  In one aspect of the disaster information management system according to the present invention for solving the above problems, as a second aspect, the plurality of terminal devices have input means for inputting material request and supply information, and the server device The search means performs the supply and demand comparison of the goods based on the information collected from the terminal device, and the result of the comparison is the secondary information corresponding to the information indicating that the supply of the goods is requested or supplied. Is output as

  In one aspect, the disaster information management system according to the present invention for solving the above-mentioned problems is characterized in that, as a third aspect, the search means displays a dangerous location, a refuge, and the location information of the input material on a map. The route information that allows the victim or rescuer to avoid the danger spot and reach the destination in the shortest is displayed on the map, and the location information and route information of the material displayed on the map are displayed on the secondary It is output as information.

  In the disaster information management system according to the present invention that solves the above-mentioned problems, in the above aspect, as a fourth aspect, when the server device is lost, the plurality of terminal devices that constitute the system, Peer to Peer ( P2P) A communication network is configured, and the server device has information to be originally managed.

  The disaster information management system according to the present invention that solves the above problems has, as a second aspect, a plurality of disaster information management systems according to the one aspect, and a plurality of server devices in each of the plurality of disaster information management systems. In a situation where direct communication is not possible between the server devices, the server device has means for exchanging information stored in the server devices through a mobile terminal passing between the server devices.

  The disaster information management system according to the present invention that solves the above-mentioned problems is the first or second aspect, wherein the one server device or the plurality of server devices and the plurality of terminal devices are connected to a VPN (Virtual Private Network, virtual A private network) is dynamically configured, and data is transferred between the plurality of terminal devices or the server device using the VPN.

  The one server device or the plurality of server devices in the first or second aspect used in the disaster information management system according to the present invention that solves the above-described problem is a database for managing information as the management means, A map server for processing the map information used when searching for the presence of requested goods by the search means and / or searching for the optimum route by the search means, and for creating the secondary information using the map information And a user interface.

  The terminal device used in the first aspect of the disaster information management system according to the present invention that solves the above-mentioned problem has arithmetic processing means, and display means for displaying information processed by the arithmetic processing means on a screen; The patient is triaged by inputting necessary items according to the screen display sequentially displayed on the display means.

  If the configuration of the present invention is used, the rescue operations and the distribution of supplies at the disaster site, which have been conventionally performed using a bulletin board and a telephone, are centrally managed, and can be quickly performed while avoiding confusion.

It is a conceptual diagram which shows one structural example of embodiment of the information management system at the time of a disaster according to this invention. The figure shows the process of organizing a rescue team using information stored in a database in the server device. It is a figure which shows the procedure flow of a triage. It is a figure which shows the input screen of the triage which the doctor etc. for the patient information input performs. It is an example of the information output function of a terminal device. It is an example of a screen structure of a terminal device. 6 is an example of a screen that appears when the “demand” button in FIG. 5 is pressed. It is a figure which shows the processing flow between a terminal device and a server apparatus when a material request | requirement is a form of search condition input from a terminal device. It is an example of a menu screen in the case of providing supplies owned by oneself. The processing flow when material supply is made from the terminal device is shown. It is a figure explaining the example which mutually shares the information accumulate | stored in the server apparatus via a terminal device, when server apparatuses cannot communicate directly. It is a figure which shows a response | compatibility when a server apparatus exists in the position which a failure or a radio wave does not reach. It is the figure which arranged the function which should be provided in a server apparatus and each terminal device from the surface of mounting.

  Embodiments according to the present invention will be described below with reference to the drawings. In addition, this embodiment is for understanding of this invention, Comprising: Application of this invention is not limited to this. The technical scope of the present invention includes the description of the scope of claims and the scope similar thereto.

FIG. 1 is a conceptual diagram showing an example of the configuration of an embodiment of a disaster information management system according to the present invention. A plurality of portable terminal devices 2 (2 _{1 to} 2n) having a communication function with the server device 1 are included.

  The portable terminal device 2 used in this embodiment is prepared as a dedicated terminal for executing the present invention, and is prepared in such a way that it is directly distributed to a disaster victim or rescuer at an evacuation site or the like. Alternatively, it may be realized by installing software for executing the present invention in a mobile terminal, a smartphone, or a tablet terminal used by everyday people. Therefore, in the description of the present invention, the portable terminal device is hereinafter simply referred to as a terminal device.

Each terminal device 2 and server device 1 can exchange information by wireless communication 3. The wireless communication 3 supports multi-hop communication. For example, in FIG. 1, the terminal device 2 ₃ is also in a position that can not communicate directly with the server device 1 via the terminal 2 ₂ and the terminal device 2 _1, can communicate with the server device 1.

  In such an embodiment configuration, for realizing the present invention, the server device 1 is an arithmetic processing device, and centrally manages the owner's personal information and disaster related information input from each of the plurality of terminal devices. Rescue team for functioning as a search means for searching for the presence or absence of the required supplies contained in the disaster related information based on information centrally managed by the management means, and to rescue the victim Functions as search means for searching for an optimum route that avoids a dangerous spot for rescue, and the presence or absence of requested materials searched by the search means and search by the search means It functions as a transmission means for sending the optimum route as secondary information to each terminal device.

  Specifically, the server device 1 includes a database 10, a map server 11, a database synchronization mechanism 12, and a graphical user interface (GUI) 13.

  The map server 11 provides map information in response to a request from a management program (not shown) in the terminal device 2 or the server device 1.

  The database 10 stores various information to be described later, and has a function of organizing and integrating the stored information through the GUI 13.

  When there are a plurality of server devices, the database synchronization mechanism 12 adjusts the information stored in the database 10 in each server device 1 to be the same between the server devices (this is called synchronization). belongs to. The GUI 13 has a function of manipulating data stored in the database 10.

In the application of the present invention, the server device 1 is basically installed in a shelter or the like and does not move frequently. On the other hand, it is assumed that the terminal device 2 moves. The wireless communication 3 between the plurality of terminal devices 2 _{1 to} 2n or between the terminal device 2 and the server device 1 can be constructed using a standard wireless LAN such as IEEE802.11b, and is standardized as a routing protocol. If a dynamic routing method such as the (Ad hoc On-Demand Distance Vector) protocol is adopted, the above-described multi-hop communication can be realized.

  Here, when the terminal device is realized by installing software for executing the present invention, a mechanism is provided in which the software is placed on the server device 1 and downloaded to the terminal device 2 using the wireless communication 3. You may do it. In a situation where a public communication network such as the Internet can be used, the software is placed in a commercial software distribution service or a dedicated download mechanism, and downloaded from the terminal device 2 via the public communication network. May be.

  Instead of waiting for a signal from the server device 1, the user may directly operate the application software so that the function on the terminal device side of the present invention appears.

  FIG. 2 illustrates a process of organizing a rescue team using information stored in the database 10 in the server device 1. First, the person who becomes a team member is selected from the registrant list 100, and the rescue team 101 is formed. In FIG. 2, registrants 1, 3, 4, and 7 are selected as members of the first rescue team 101A and registrants 2, 5, and 6 are selected as members of the second rescue team 101B as the rescue team 101. . Next, for each of the organized rescue teams 101A and 101B, the injured person in charge is selected from the injured person list 102 and created as the in charge list 102.

  In FIG. 2, the victims in charge of the rescue team 101A are the victim 1, the victim 3, and the victim 5 in the list 102A. Similarly, the victims in charge of the rescue team 101B are the victim 2 and the victim 4 in the charge list 102B. Further, the position of the rescuer is recognized based on the position information of the victim list 102, the location is displayed on the map acquired from the map server 11 of FIG. The meeting points to be gathered and the rescue routes 103A and 103B to follow the route from the gathering point and rescue the responsible victim are created for each of the rescue teams 101A and 101B.

  After the above preparation is completed, each rescue team information is sent to the terminal device 2 of the member using wireless communication. In FIG. 2, the team information of the rescue team 101A is sent to registrants 1, 3, 4, and 7 that are its members. Similarly, the team information of the rescue team 101B is sent to registrants 2, 5, and 6 that are its members.

  The series of database operations described above may be performed using the GUI 13, or from the registrant's profile, for example, if the registrant is a doctor, information on specialized fields such as brain surgery and orthopedics, and detailed information on the victim It may be performed by a method in which team information is automatically created by the database 10 by matching the obtained information, for example, symptoms such as head trauma and fracture, more appropriately matching the registered person and the victim. Also, the carrying material information 104A and 104B may be automatically created based on the inventory material list 104 according to the symptoms of the patient.

  Further, addition / deletion of team members, change of a charge list, addition of carrying goods, etc. can be performed at an arbitrary time, and the changed information is forcibly or periodically transmitted from the server device 1 side to the team member's terminal. Transmitted to the device 2. Further, the changed information may be sent in response to a data exchange request from the terminal device 2.

  On the other hand, the functions provided on the terminal device 2 side are roughly divided into two, one is an information input function and the other is an information output function.

  For the information input function, a GUI is provided that allows information input regarding the registrant, supplies, and victim (triage) in FIG. Personal information such as the registrant's profile, ie name, gender, age, attributes (doctor, firefighter, nurse, first aid, volunteer, victim, etc.), expertise, gender, etc. Input by the user of the device 2.

  As for material information, an input screen is prepared, and it is possible to input the material name, quantity, provision / request classification, provision / request location, and other supplementary items. In addition, supplies such as blankets and foods that are needed in an emergency may be prepared in advance as a menu, and an input screen for selecting the supplies may be prepared to facilitate input on the terminal device 2. Good.

  The patient information is input by providing an input screen for triage performed by a doctor or the like. 3A and 3B are examples. The flowchart shown in FIG. 3A shows the procedure of the triage method generally called the START method. This is a task of assigning a priority to rescue by color-coding the victim in four stages (red, yellow, green, black) according to the mode, and attaching a tag of that color to the left arm of the victim.

  In the present invention, the necessary information is entered in the terminal device 2 in the past, where information was written on the triage tag with a pen and directly attached to the target victim. It is intended to manage the person in a unified manner.

In FIG. 3B, when information is input according to the input screen ([1] to [7]) of the terminal device 2 corresponding to each determination point in the flowchart, four types of colors (rescue priority) are determined. The
[Number] in FIG. 3B corresponds to the procedure in FIG. 3A.

  In the present embodiment, in order to identify the victim, a unique barcode is assigned to the triage tag, and the barcode is read using the barcode reader function of the terminal device 2. As a result, the triage tag actually attached to the victim and the input information are stringed so that the information on the victim registered by the information registered in the database 10 can be determined.

  When the “ID scan” button 20 on the lower side of the screens [8] to [11] in FIG. 3B is pressed, the barcode reader function of the terminal device is activated. Furthermore, using the GPS reception function of the terminal device 2, the victim's geographical location is also registered on the database 10 at the same time. It is also possible to manually input an ID number that guarantees uniqueness attached to a triage tag instead of a barcode. Here, when manually inputting the ID, a relatively short number that does not overlap in the vicinity of the triage tag is printed as the ID, and after manually inputting the ID, the ID of the terminal device 2 and its position information It is also possible to generate an ID that secures uniqueness in the terminal device 2 or the server device 1 in consideration of the date and time and use it.

  In addition, the triage information may be acquired by another method instead of the triage method described above. For example, Non-Patent Document 1 proposes an electronic triage tag having a sensor and a wireless communication function. Using this, a method of directly giving triage information to the server apparatus of FIG. 1 may be used.

  In addition, in the triage, a picture of the human body is displayed on the terminal device screen so that the injured part of the injured person can be easily input, and the injured part is instructed by touching the screen. A list of typical wound names may be displayed, and the status of the disabled person may be input by selecting a corresponding wound name from the list. For example, when touching the arm part of the human body displayed on the screen, the names of injuries such as broken bones, bruises, and lacerations appear, and the input is completed by selecting the item from among them. In addition, the above-described triage may be automatically performed based on the information on the input injury / illness location.

  FIG. 4 is an example of the information output function of the terminal device 2. On the map, the evacuation site 30 (31) and the current position 32 of the terminal device 2 are displayed, and points that cannot be passed due to a disaster or the like are also displayed as “x”. It also shows where the goods requested by the user (in FIG. 4, water 33 and food 34) are located.

  Furthermore, when seeking water 33 and going to the refuge 31, a safe and shortest guide route 35 is also displayed. The inaccessible place is a place where the owner of each terminal device 2 inputs information on the place and is registered in the database 10 of the server device 1. The search for the guidance route 35 is performed by the map server 11 in the server device of FIG. 1 and the result is sent to the terminal device 2. This map display is also used as a route display when the rescue team described above heads for the rescue of the victim.

  Each terminal device 2 can use a function of actually guiding (navigating) the route of the owner of the terminal device 2 to the destination according to the guidance route 35 using voice or screen display. Even on land, you may make it reach the destination without hesitation.

  FIG. 5 is a screen configuration example of the terminal device 2. Each of (a) to (sa) on the screen is a button, and the corresponding operation can be performed by pressing the corresponding button. When the button (a) is pressed, the rescue team information configured in FIG. 2 is displayed. The button (a) is used to display a setting menu, and is used when inputting information related to his / her profile, terminal display format, and the like. The button (c) is used to make a demand (demand) for goods. On the contrary, the button (d) is used to input the information when supplies can be supplied. The button (e) is used to grasp and display various situations. The displayed contents are also used for displaying the map information of FIG. 4 and, if participating in the rescue team, the communication items regarding the team. The button (f) is used when inputting an inaccessible place or danger information.

  The button (ki) is a button for exchanging data. When the button is pressed, the data held in the terminal device 2 is transmitted to the server device 1 and new information from the server device 1 is transmitted. Receive. Even if this button (ki) is not pressed, the terminal device 2 communicates with the server device 1 for data exchange at regular intervals, but is used when it is desired to immediately exchange data.

  The button (c) is used when transmitting the position information of the terminal device 2 to the server device 1. The position information of the terminal device 2 can be automatically and periodically sent to the server device 1 by setting. When the MENU button is pressed, a screen (e) is displayed. This is an initial screen when the terminal device 2 uses the system of the present invention. The TRIAGE button (co) is a button used when performing triage. When pressed, the screen shifts to the screen of FIG.

  In actual triage, when a large button labeled “TRIAGE” in the center of the screen of FIG. 5C is pressed, a screen according to the flowchart shown in FIG. 3A is displayed. When the REPORTS button (press) is pressed, a report screen shown in FIG. 5 (d) that displays the result of triage performed by the terminal device 2 appears.

  Here, menus that can be used in the terminal device 2 are restricted by the attributes of users such as doctors, firefighters, volunteers, and victims, thereby avoiding unnecessary operations and confusion. FIG. 5A is a terminal device screen of doctors participating in the rescue team. Buttons (a), (c), (e), that is, “setting” and “demand” and “supply” buttons of goods cannot be pressed. It becomes like this. This is to make sure that no material-related input is made during the rescue operation, and that the personal profile cannot be changed while on duty.

  On the other hand, the screen of FIG. 5 (b) is a screen of the victim's terminal device, and the “team information” button (a), the triage button (co) in the lower right and the report button (sa) are not required for the rescue team. It is in a state that cannot be used. In this way, erroneous operation is prevented by automatically limiting the menu buttons that can be used according to the attribute (position) of the terminal device owner.

  The attribute of the owner of the terminal device 2 can be changed according to the situation, for example, from the position of the disaster victim to the position of the volunteer, and the menu that can be used changes accordingly. Further, when engaged in a rescue operation as a member of a rescue team, it is possible to control the attribute so that it cannot be changed by an individual by a command from the server device 1.

  FIG. 6 is an example of a screen that appears when the “demand” button (c) in FIG. 5 is pressed. Through this screen, input necessary information and quantity, necessary date and time, receiving method, information 60 on whether or not the goods can be paid (paid / free), and press the “Search” button 61. If there is a hit, the list 62 is displayed. If there is no hit, 63 is displayed.

  Further, instead of manually inputting the name of the goods as a keyword, it may be selected from the menu 64. Regarding the designation of a place, an area may be designated by displaying a map and designating a point or range on the map.

  FIG. 7 shows a processing flow between the terminal device 2 and the server device 1 when the “demand” button (c) in FIG. 5 is pressed, that is, when a material request is in the form of a search condition input from the terminal device 2. Is shown.

  When the search condition is input from the terminal device 2 (step S1), the input information is transmitted to the server device 1 (step S2). In the server device 1, it is determined whether there is information on a material that matches the search condition registered in the database 10 (step S 3). If there is a match (step S 3), the search results are rearranged (step S 4). ), And transmits it to the terminal device 2 that has transmitted the “demand request”.

  The terminal device 2 selects a search result (step S5), and transmits the selection result to the server device 1 (step S6). Thereby, the demand processing is successful (step S7).

  On the other hand, in step S3, when there is nothing that matches the search condition (step S3, none), the fact is notified to the terminal device 2. Therefore, the corresponding terminal device 2 determines whether or not the demand request item sent earlier is registered in the server device 1.

  When waiting for a matching supply item, when registering as it is in the server device 1 (step S8, Yes), the supply of the matching supply item is waited for a certain period (step S9). When the server device 1 searches for the availability of the matching supplies, the server device 1 notifies the corresponding terminal device 2 (step S10). Subsequent processing leads to processing of steps S4-S7 described above.

  In step S8, when not registering in the server apparatus 1 (step S8, No) and when a predetermined period is exceeded in the matching supply waiting (step S9), the time is expired and the previous demand request has failed.

  FIG. 8 is an example of a menu screen in the case of providing the goods owned by the user, and is a screen that appears on the terminal device 2 when the “Supply” button (d) in FIG. 5 is pressed. After inputting the information 70 of supplies that can be supplied, when the registration button 71 of “Supply” is pressed, the supplies information is registered in the database 10 of the server device 1 as supplies that can be supplied.

  Here, when there is a request for the registered material from someone already, a display 72 indicating that there is a request for matching immediately appears on the screen, and when the “details” button 73 is pressed, the other person displays the request shown in FIG. Details 74 of the material requirement information entered on the “demand” screen is displayed. If there is no matching request, the supply material information is registered in the database 10 in the server device, and the terminal device 2 displays a screen display 75 to that effect.

  FIG. 9 shows a processing flow when the “Supply” button (d) in FIG. 8 is pressed, that is, when supply of goods is made from the terminal device 2.

  When supply information is input from the terminal device 2 (step S20), the information is sent to the server device 1 (step S21). The server device 1 registers the received supply information in the database 10 (step S22).

  If there is a supply wait described earlier in FIG. 7 (step S9) and it is within the time (step S23), the server device 1 notifies the corresponding terminal device 2 (step S24). This is confirmed by the user of the terminal device 2 (see step S25, steps S4-S7 in FIG. 7).

  If the waiting for demand is timed out in step S23 (see step S9 in FIG. 7), the supply fails (step S27). However, since the supply data is registered in the database 10, it is possible to immediately supply the supplies for the subsequent demand.

  As described above, supply / demand management of supplies is performed by the server apparatus 1 and the database 10 held by the server apparatus 1. 7 and the request (demand) confirmation process at the time of registration of the goods shown in FIG. 9 are performed according to the information input on the screens of FIGS. It is executed at regular intervals, and the supply and demand of supplies are verified.

  When actually collating, both the consumer terminal device and the supplier terminal device are displayed as collated. The display format conforms to the screen 62 in the case of “search result is present” in FIG. 6 and the screen 72 in the case of “match request is present” in FIG.

  Here, the embodiment described above is a case where there is only one server device 1, but the system of the present invention can be extended and used in a form in which a plurality of server devices are expanded over a wide area. In this case, when the server devices cannot communicate directly, the information stored in the server device 1 can be shared with each other via the terminal device 2.

FIG. 10 shows an example of information sharing between server apparatuses 1 that cannot perform such direct communication. Consider a case where there are _three server devices 1 ₁ , 1 ₂ , 1 ₃ . Terminal 2a downloads the data x stored in the server device 1 ₁ through the movement path a, when arriving at the server device 1 ₂ uploads the entrusted data x to the server device 1 _2. Thus, data of the server device 1 ₁ can shift to the server device 1 _2.

In parallel with the above operation, the terminal device 2b, download data y stored in the server device 1 _2, through the movement path b, consider a state in which an leaps to the server device 1 _3. At that time, the terminal device 2b includes a mechanism capable of passing through the terminal device 2a, and the terminal device 2a passes a copy of the data x to the terminal device 2b.

In this state, when the terminal device 2b reaches the server device 1 _3, since the terminal device 2b has a data y and the data x, the server device 1 _3, the server device 1 ₁ and the server device 1 simultaneously receive _two data it can.

  The above-described data migration is performed in all the terminal devices 2, and many terminal devices 2 pass between the server devices 1, thereby enabling data synchronization between the server devices 1.

  Further, each terminal device 2 does not necessarily have to travel through a predetermined movement route, and efficient data synchronization between the server devices 1 can be realized by repeating data exchange between the above-described terminals.

  In such a case, it is possible to consider a mobile terminal 22c capable of autonomous movement that regularly goes between the server apparatuses 1 as one form of the terminal apparatus. The mobile terminal 22c is a wireless terminal carried by volunteers or medical personnel who regularly travel between the server devices 1 (equivalent to between evacuation centers when installed in an evacuation center), or an in-vehicle wireless terminal that performs planned operations. And drones (unmanned airplanes). In that case, the movement route c is a predetermined route. As a result, data migration between the server apparatuses 1 is possible in a planned manner.

In addition, the mobile terminal 22c is, Luggage data of the terminal device 2d can not communicate directly with any server apparatus, it can also be delivered to the server device 1 _3. As described above, by introducing a terminal device (or a mobile terminal), data synchronization between server devices that cannot be directly communicated can be performed.

  Here, the passing communication of the terminal device 2 may be specifically WiFi or a near field wireless communication function such as Bluetooth (registered trademark) may be used.

  A technique for transferring data via the terminal device 2 including the mobile terminal 22c described above is well known as DTN (Delay Tolerant Network), and the most general method is that each terminal device is connected to other terminal devices. Every time you pass, all your data is exchanged with each other.

  This is an effective method for surely delivering data to the target server device when the passing terminal devices do not know where each other's terminal device goes. However, when each terminal exchanges all the data every time it passes, not only will there be a lot of duplicates of the same data in each terminal, not only need to have a mass storage memory in each terminal device 2, In order to exchange the data, there arises a problem that the possibility of a wireless communication collision (congestion) increases.

  The first method for preventing this is that the user of each terminal device 2 inputs the destination server device name (ID) in advance in his / her terminal device 2 when moving between the server devices 1. is there. Each terminal device 2 (including the mobile terminal 22c) passes by the mutual communication, so that the server device 1 to which the partner terminal device 2 is going to know can be identified. Based on that information, the data to be entrusted to the partner can be selectively selected. Can send.

  For example, if the passing partner terminal device 2 is a terminal that goes to the server device 1c, the data to be sent to the server device 1c is entrusted. Regarding the mobile terminal 22c, the first method is basically applicable because the mobile terminal 22c moves between the server devices 1 in a planned manner. Further, as a second method, there is a method in which a movement history is held in each terminal device 2 and if there is a server device 1 that the partner terminal device 2 frequently visits, the data to be sent to the server device 1 is entrusted. . For example, when the terminal frequently passes the server device 1c, the data to be sent to the server device 1c is entrusted.

  Further, as a third method, if the moving direction of the terminal device 2 that has passed is a direction in which the target server device 1 is geographically located, the terminal device 2 may be entrusted with data directed to the server device 1. is there.

  If there is a large amount of data to be transferred between the server devices 1, all data cannot be downloaded to the terminal device 2 (or the mobile terminal 22c) at a time, so that the data is divided and sent as appropriate.

  The database synchronization mechanism 12 provided in the server device 1 of FIG. 1 performs control for that purpose. The database synchronization mechanism 12 manages which data has already been transmitted among the data held by the database synchronization mechanism 12 (whether it has been entrusted to the terminal). Data received from other server devices 1 is managed in the same manner, and the reception of a plurality of the same data is avoided.

  When it is desired to confirm whether or not the transmitted data is received by another server device 1, the server device 1 that has received the data entrusts the terminal device 2 with an acknowledgment (ACK) packet for the data. Realize with. The ACK packet includes ID information of the server apparatus 1 that received the data, in addition to the transmission source server apparatus ID and the data ID. If the ACK packet reaches the server device 1 that is the transmission source, the server device 1 can recognize which server device has received which data it owns, and thereafter repeatedly send the data. Can be avoided.

  Here, in the above configuration, the destination server device ID of data entrusted to each terminal device 2 from each server device 1 is attached to the data itself. Therefore, the final destination server device ID of each data exchanged in the passing communication between the terminal devices 2 is held in each data until it reaches the destination server device 1.

  Further, when a plurality of server apparatuses 1 are arranged, the server apparatus IDs that should be synchronized with each other are set in advance in each server apparatus 1 even if they cannot communicate directly with each other. Of course, the destination server device ID of the data entrusted to the terminal device 2 is allowed to be an arbitrary ID, that is, a broadcast without being set separately, and an ACK packet is received from the server device 1 to which the data has arrived, and the ACK By referring to the received server device ID held in the packet, it is recognized that the server device 1 exists around the server device ID, and the server device ID of the server device ID to which data synchronization is to be performed is determined. A method of using instead of setting separately may be adopted.

FIG. 11 is a diagram showing a correspondence when the server apparatus 1 is at a position where a failure or radio waves do not reach. In FIG. 11, each terminal device 2 ₁ , 2 ₃ , 2 ₄ , 2 ₇ uses a P2P (Peer to Peer) communication network, and forms a mechanism in which data can be shared even without the server device 1. You can also.

For example, in FIG. 11, the terminal devices 2 of the registrant 1, the registrant 3, the registrant 4, and the registrant 7 constituting the rescue team 101A are respectively represented as a terminal device 2 ₁ , a terminal device 2 _{3, a} terminal device 2 ₄ , The terminal device _{27 is} assumed. As shown in FIG. 11, the team information of the rescue team A has already been distributed to the terminal device 2 ₁ , the terminal device 2 ₃ , and the terminal device 2 _4, and only the terminal device 2 ₇ has not received the information, Furthermore, it is assumed that communication with the server device 1 is impossible. In that case, using the P2P communication network composed of the terminals of registrant 1, registrant 3, registrant 4, and registrant 7, the team of rescue team 101A possessed by registrant 1, registrant 3, and registrant 4 sending all or part of the information to the terminal device 2 _7. Thus, the terminal device 2 ₇ can obtain the team information to receive from the server device 1.

  A specific P2P communication network can be realized by the method of Non-Patent Document 2. In Non-Patent Document 2, the desired data is held in which terminal device 2 using a method called a distributed hash table without sequentially checking all the data held in all the terminal devices 2 participating in the P2P communication network. Can be obtained efficiently by directly communicating with the terminal device 2 that holds the data.

  Furthermore, when exchanging triage information and personal information between the server device 1 and the terminal device 2, in consideration of privacy and security, those that handle each data constitute a VPN (Virtual Private Network). It is also possible to adopt a configuration that prevents communication data from being intercepted from. It is preferable to apply an existing technology called SDN (Software Defined Network) as a specific method for configuring a VPN.

  SDN is a technology that makes it appear as if multiple independent networks (virtual networks) exist physically on one network, and since each virtual network is completely independent, information cannot be exchanged. The VPN can be configured. A virtual network is called a slice in SDN. A function called an SDN controller is realized for slice allocation.

  Here, a communication path for issuing a command to the SDN controller so as to create a slice (virtual network) for performing the data communication from the server device 1 or the terminal device 2 of this system to the SDN controller. And the server device 1 or the terminal device 2 can issue a slice creation command to the SDN controller via the server device 1 through the communication path. If the created slice (virtual network) becomes unnecessary, it can be deleted by sending a slice deletion command from the server device 1 to the SDN controller.

  FIG. 12 is a diagram in which functions to be provided in the server device 1 and each terminal device 2 in order to realize each operation described so far are arranged from the viewpoint of implementation.

  In the present invention, each of the above-described functions is realized by operating four management functions of communication management, medical information management, material information management, dangerous location and map information management in cooperation with each other. Such a function is realized by causing an arithmetic processing unit (CPU) to perform arithmetic operations as functional means corresponding to each function in accordance with a program.

DESCRIPTION OF SYMBOLS 1 Server apparatus 10 Database 11 Map server 12 Database synchronization mechanism 2 Terminal apparatus 22c Mobile terminal 3 Wireless communication 100 Resistant list 101 (101A, 101B) Rescue team 102 Victim list 104 Inventory goods 104A, 104B Carrying goods 103A, 103B Rescue route

Claims (9)

A disaster information management system used in an environment where no public communication network can be used,
One server device,
Consists of a plurality of terminal devices capable of data communication by wireless communication with the server device,
The server device as an arithmetic processing device,
Functions as a management means for centrally managing the owner's personal information and disaster related information input from each of the plurality of terminal devices;
Based on the information centrally managed by the management means, function as a search means for searching for the presence or absence of requested supplies included in the disaster related information,
It functions as a search means to search for the optimal route that avoids danger points for rescue, organization of rescue team to rescue victims, allocation of responsible victims, rescue
Functions as a transmission means for sending to each terminal device as secondary information the presence / absence of the requested material searched by the search means and the optimum route searched by the search means;
Disaster information management system characterized by that. In claim 1,
The disaster information management system characterized in that the disaster related information includes at least a request / supply of supplies, a dangerous location, and triage information of a victim. In claim 1,
The plurality of terminal devices are:
It has an input means to input material requests and supply information,
The search means of the server device includes:
Based on the information collected from the terminal device, the supply and demand of supplies are collated, and the collation result is output as the secondary information corresponding to the information indicating that the supplies are requested or supplied.
Disaster information management system characterized by that. In claim 1,
The search means includes
Dangerous locations, shelters, and location information of the input materials are displayed on the map.
The route information that the victim or rescuer can get to the destination in the shortest time avoiding the dangerous spot is displayed on the map,
The disaster information management system, wherein the location information and route information of the material displayed on the map are output as the secondary information. In claim 1,
When the server device is lost, the plurality of terminal devices constituting the system constitute a Peer to Peer (P2P) communication network, and the server device has information that should be managed originally.
Disaster information management system characterized by that. A plurality of disaster information management systems according to claim 1;
Means for exchanging information stored in the server device through a terminal device passing between the server devices in a situation where direct communication is not possible between the plurality of server devices in each of the plurality of disaster information management systems; Have
Disaster information management system characterized by that. In claim 1 or claim 6,
The one server device or the plurality of server devices and the plurality of terminal devices dynamically configure a VPN (Virtual Private Network),
Using the VPN, data transfer between the plurality of terminal devices or between the server device,
Disaster information management system characterized by that. A server device used in the disaster information management system according to claim 1 or 6,
A database for managing information as the management means;
A map server for processing the map information used when searching for the required material by the search means and / or searching for the optimum route by the search means;
A user interface for creating the secondary information using the map information;
The server apparatus characterized by having. A terminal device used in the disaster information management system according to claim 2,
Having arithmetic processing means;
Display means for displaying information processed by the arithmetic processing means on a screen;
Triage the victim by inputting necessary items according to the screen display sequentially displayed on the display means,
A terminal device characterized by that.