JP2016153979A - Safety confirmation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To quickly and surely enable the mail notification of safety confirmation to a holder of a radio terminal located in an object area.SOLUTION: Apart from a general communication network 108, a LAN 104 makes connections among a safety confirmation server 105, a data master server 106, a client computer 107 and a central control unit 101 of a private PHS system 100, the safety confirmation server 105 generates a safety confirmation mail on receiving a start request for safety confirmation from the client computer 107, and transmits the safety confirmation mail to radio terminals 1031 to 103n of users located within a previously registered object area, that is, within the private PHS system 100 through the LAN 104. Safety confirmation result information is generated in accordance with a reception state of a reply mail returned from the radio terminals 1031 to 103n of the users through the LAN 104, and stored in the data master server 106.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a safety confirmation system that uses a local PHS (Personal Handy-phone System) system and can quickly confirm the safety of a PHS wireless terminal holder.

  As is well known, a private PHS system provides a data communication service using a personal computer connected to a PHS wireless terminal or a PHS wireless terminal having a wireless communication function in addition to a voice call service.

  For example, when a user holding a local PHS wireless terminal tries to obtain desired information from an information provider on the Internet, the PHS wireless terminal makes a call to the desired information provider. Then, the PHS wireless terminal and the nearest base station are connected via a wireless line, and then the information provider server is accessed from the base station via the public network and the Internet. When a communication connection is established between the PHS wireless terminal and the server, information corresponding to the request from the PHS wireless terminal is transmitted from the server to the PHS wireless terminal via the communication connection.

  As described above, the data communication service is very convenient because it can send and receive mails and access homepages on the Internet anytime and anywhere. The mail is transmitted from the mail server to the PHS wireless terminal, from the PHS wireless terminal to the server, and from the PHS wireless terminal to the PHS wireless terminal.

  In the data communication service using the email, there is a safety confirmation service for confirming safety at the time of a disaster or the like. If this safety confirmation service is used, for example, the administrator of the mail server or the user of the PHS wireless terminal can confirm the safety of other users in, for example, a remote place or a disaster place by mail. On the other hand, a user in a remote location or a disaster location can inform the administrator or other users of safety via a wireless line and the Internet.

Japanese Patent Laying-Open No. 2005-251088

  By the way, when a disaster occurs, if a general line is used for the holder of the PHS wireless terminal in the premises and safety confirmation is performed by e-mail, not only the holder of the PHS wireless terminal in the premises but also the general person Therefore, it is assumed that the usage rate of the line is greatly increased, and the safety confirmation mail does not reach, or it takes a considerable time to receive the safety confirmation mail.

  An object of the present invention is to provide a safety confirmation system capable of promptly and reliably sending a safety confirmation e-mail to a holder of a wireless terminal located in a target area.

  In order to achieve the above object, an aspect of the present invention includes the following components. That is, safety is achieved between at least one wireless terminal connected to a wireless area configuration unit constituting a wireless area via a wireless line and a server device connected to the wireless area configuration unit via a communication line. In the safety confirmation system for transmitting information related to confirmation, apart from the communication line, it is connected to the dedicated line connecting the server device and the wireless area configuration unit, and the dedicated line or the wireless area configuration unit. A safety confirmation activation request generation unit for generating the safety confirmation activation request, wherein the server device stores at least the identification information of the wireless terminal, and the storage device upon receiving the safety confirmation activation request A safety confirmation mail for requesting a response of the user of the wireless terminal stored in the means is generated, and the generated safety confirmation mail is transmitted via the dedicated line. A transmission means for transmitting to the wireless terminal, a reception means for receiving a reply mail for the safety confirmation mail via the dedicated line, and a safety confirmation for the corresponding user depending on whether the reply mail has arrived. Control means for generating result information.

  According to this aspect, the server device and the wireless area configuration unit are connected by a dedicated line separately from a general communication line, and when receiving a safety confirmation activation request, a safety confirmation mail is generated in the server device, This safety confirmation mail is transmitted via a dedicated line to a user's wireless terminal located in a pre-registered target area, that is, on the premises. Then, the safety confirmation result information is generated according to the reception status of the reply mail returned from the user's wireless terminal via the dedicated line. Therefore, it is possible to promptly confirm the safety without being influenced by the general line.

Moreover, the viewpoint of this invention is equipped with the following embodiments, It is characterized by the above-mentioned.
In the first embodiment, the control means determines whether or not a reply mail from the wireless terminal stored in the storage means is received by the receiving means within a specified time. The safety confirmation mail is retransmitted to the wireless terminal corresponding to the means.

  According to the first embodiment, it is possible to reduce the state in which the safety confirmation mail does not reach by performing the mail notification again to the wireless terminal which has not been able to perform the mail notification such as the power off state or the out-of-service PHS. it can.

  A second embodiment includes a client computer device connected to the dedicated line, capable of accepting a response request for safety confirmation from a user of the wireless terminal and responding to the safety confirmation on behalf of a user, The receiving means receives the safety confirmation response information including the identification information of the requesting wireless terminal from the client computer device via the dedicated line.

  According to the second embodiment, when the user of the wireless terminal cannot confirm the safety, for example, when the safety confirmation can be performed using another means, the operator of the client computer device displays the WEB screen instead of the user of the wireless terminal. It is possible to make a safety response on behalf of a surrogate, and to quickly aggregate safety responses.

  According to the present invention, the safety confirmation mail is notified to the target area, that is, the holder of the wireless terminal located in the premises, using the private line of the premises PHS system, so that it can be promptly performed without being influenced by the general line. Safety confirmation can be performed.

  It is possible to reduce the state where the safety confirmation mail does not reach by performing the mail notification again to the wireless terminal that has not been able to perform the mail notification such as the power OFF state or the PHS outside the service area.

  When the safety of the wireless terminal holder cannot be confirmed, such as when the safety confirmation can be made using another means, the safety response can be made on behalf of the wireless terminal holder on behalf of the WEB screen, and the safety response is promptly made. Can be aggregated.

  By adding safety confirmation as a function of the conventional on-site PHS system, the competitiveness of the market can be enhanced.

1 is a schematic configuration diagram of a communication system having a safety confirmation service function according to Embodiment 1 of the present invention. 5 is a flowchart illustrating a control procedure and control contents of a safety confirmation server according to the first embodiment. The figure which shows an example of the setting screen regarding safety confirmation. The figure which shows an example of the proxy safety response screen concerning Example 2 of this invention. The figure which shows an example of the starting screen of the safety confirmation concerning the said Example 1. FIG. The schematic block diagram of the communication system provided with the safety confirmation service function concerning Example 3 of this invention. The schematic block diagram of the communication system provided with the safety confirmation service function concerning Example 4 of this invention. The flowchart which shows the control procedure and control content of the safety confirmation server at the time of starting safety confirmation with the voice concerning the said Example 4. FIG. The flowchart which shows the control procedure and control content of the safety confirmation server concerning Example 5 of this invention. The figure which shows an example of the WEB screen of the client computer for managing the entrance or leaving of the user concerning the said Example 5. FIG. The figure which shows an example of the position display screen of the non-responder concerning Example 6 of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Since the present invention can be preferably applied to a private wireless system, the following description will be made assuming a private PHS system using PHS.

  FIG. 1 is a schematic configuration diagram of a communication system (safety confirmation system) having a safety confirmation service function according to the first embodiment of the present invention. Reference numeral 100 denotes a local PHS system as a wireless area configuration unit provided in a company or a specific area, for example, a central control device 101, a plurality of base stations 102 (only one is shown in FIG. 1), and a radio using PHS. Terminals 1031 to 103n (n is a natural number).

  The plurality of base stations 102 are geographically distributed in the service area covered by the local PHS system, and one or a plurality of base stations 102 form a radio area. The plurality of wireless terminals 1031 to 103n are connected via a wireless line in a cell formed by the base station 102. The wireless terminals 1031 to 103n include a portable information terminal having a data communication function and a wireless access function, and a portable telephone connected with a personal computer in addition to a portable telephone having only a call function.

  The base station 102 is connected to the central controller 101 via a LAN (Local Area Network), the Internet, or a metal cable. The central controller 101 is for accommodating a plurality of base stations 102 and exchanges voice or data between the plurality of base stations 102 or between the plurality of base stations 102 and the communication network 108.

  Further, for example, a safety confirmation server 105, a data master server 106, and a client computer 107 as a safety confirmation activation request generation unit are connected to the central control apparatus 101 via a communication network 108, for example. Furthermore, a plurality of information providing servers (not shown) and information terminals (not shown) are connected to the communication network 108.

  The safety confirmation server 105 is a server that plays a central role for implementing the safety confirmation service according to the present invention. The data master server 106 stores safety confirmation result information obtained by the safety confirmation server 105, and can be connected to the safety confirmation server 105 via the communication network 108.

  The client computer 107 is a terminal of a management center that operates the safety confirmation server 105 and can be connected to the safety confirmation server 105 via the communication network 108.

  By the way, in the first embodiment, the central control device 101, the safety confirmation server 105, the data master server 106, and the client computer 107 are connected by a LAN (Local Area Network) 104 as a dedicated line of the local PHS system 100. Connected.

  The safety confirmation server 105 includes a CPU 1051 composed of a microprocessor, and a program memory 1053, a disaster information database 1054, and a user information database 1055 as storage means are connected to the CPU 1051 via a bus 1052. Yes. Further, a communication interface unit 1056 is also connected to the CPU 1051. The communication interface unit 1056 performs information transmission with the LAN 104 or the communication network 108 according to a predetermined protocol.

  The disaster information database 1054 stores information related to earthquake occurrence, tsunami arrival, explosion / fire, toxic gas leakage, heavy rain / debris flow occurrence, safety confirmation training, and the like. These pieces of information are added or updated every time new disaster information is provided from the providing server on the communication network 108, and also when a processing operation for adding or updating information is performed in the client computer 107. Added or updated.

  The user information database 1055 stores the identification information (PHS number) of the wireless terminals 1031 to 103n, the mail address, and the personal information of the user in association with the user identification information (user ID). The personal information is composed of, for example, a name and affiliation. FIG. 4 described later shows an example of personal information.

  By the way, in the program memory 1053, a user management control program 1053a used by the CPU 1051, a safety confirmation transmission program 1053b as a transmission means, a safety confirmation reception program 1053c as a reception means, and a safety confirmation control program as a control means. 1053d and the safety confirmation information browsing control program 1053e are stored.

  The user management control program 1053a stores the user information in the user information database 1055 when a user information registration request is received from the user's wireless terminals 1031 to 103n. Further, even when a user information registration request arrives from the client computer 107 instead of the user, the user information is stored in the user information database 1055. The stored user information can be similarly changed from the user's wireless terminals 1031 to 103n and the client computer 107.

  Upon receipt of the safety confirmation activation request coming from the client computer 107, the safety confirmation transmission program 1053b responds from the user information database 1055 to the safety confirmation target area, that is, the wireless terminals 1031 to 103n of the users existing on the premises. Is generated and sent via the LAN 104.

  The safety confirmation receiving program 1053c receives a reply mail of the safety confirmation mail. Also, proxy response information from the client computer 107 is received. The safety confirmation control program 1053d monitors reception of the reply mail by the safety confirmation reception program 1053c, generates safety confirmation result information based on the result, and stores it in the data master server 106. Further, a user who is not confirmed to receive a reply mail even after a certain time has passed since the transmission of the safety confirmation mail is detected, and the safety confirmation mail is retransmitted to this user.

  The safety confirmation information browsing control program 1053e reads the safety confirmation result information of the corresponding user from the data master server 106 when a browsing request for the safety confirmation result information is received from the client computer 107, and the read safety confirmation result. Information is transmitted to the client computer 107.

  The data master server 106 stores safety confirmation result information obtained by the safety confirmation control of the safety confirmation server 105. The safety confirmation result information includes information indicating whether the safety of the user is confirmed or not confirmed, and information indicating a detailed state when the safety is confirmed.

  Next, the operation of the safety confirmation server 105 configured as described above will be described. FIG. 2 is a flowchart showing the control procedure and control contents of the safety confirmation server 105, and FIGS. 3 to 5 are WEB screens of the client computer 107 for starting safety confirmation. FIG. 4 will be described later in a second embodiment.

  First, settings related to safety confirmation are performed as follows. That is, when a disaster occurs, the operator of the client computer 107 downloads the setting screen related to the safety confirmation shown in FIG. 3 from the safety confirmation server 105, and in this setting screen, “interval between sending the second mail notification from the simultaneous mail notification” "300" is set to "300 seconds", "Number of transmissions to PHS targeting unanswered" 301 is set to "3 times", and "Transmission interval to PHS targeting unanswered" 302 is set to " “120 seconds”, “number of transmissions to PHS for which email notification has not been received” 303 is set to “3 times”, and “transmission interval to PHS for which email notification has not been received” 304 is set to “600 seconds” It is set and transmitted to the safety confirmation server 105.

  Subsequently, when the operator of the client computer 107 downloads the safety confirmation activation screen shown in FIG. 5 from the safety confirmation server 105, inputs the disaster information 500, and clicks “safety confirmation activation” 501, the safety confirmation server 105 receives the safety confirmation server 105. Send confirmation start request. The disaster information 500 includes earthquake occurrence, tsunami arrival, explosion / fire, toxic gas leakage, heavy rain / debris flow occurrence, safety confirmation training, etc. stored in the disaster information database 1054.

  When receiving the safety confirmation activation request from the client computer 107 (step ST2a), the safety confirmation server 105 selects a user existing in the safety confirmation target area from the user information database 1055. Then, the safety confirmation server 105 generates a safety confirmation mail and transmits it all at once to the safety confirmation target users via the LAN 104 (step ST2b).

  This safety confirmation mail includes the URL of the safety confirmation server 105, and when the user accesses this URL by a click operation, a reply mail creation screen is displayed. This reply e-mail creation screen already has the title and destination address, and the user selects either “safe”, “slightly injured” or “serious injury” in this reply e-mail creation screen and clicks the send button Then, a reply mail is automatically transmitted.

  In step ST2c, the safety confirmation server 105 monitors the arrival of a reply mail. When the reply mail is received (Yes), the safety confirmation server 105 identifies the user who has replied based on the content of the reply mail. And the safety confirmation result information about the said user is created, and this safety confirmation result information is stored in the data master server 106 (step ST2d).

  On the other hand, in step ST2c, for users who do not receive a reply mail (No), the safety confirmation server 105 monitors whether “300 seconds” have elapsed since the simultaneous mail notification. (No), the process proceeds to step ST2c, and if it has elapsed (Yes), it is monitored whether or not the number of transmissions is “3” (step ST2f).

  Here, if the number of transmissions does not become “3” (No), the safety confirmation server 105 transmits a safety confirmation mail to the wireless terminals 1033 and 1034 that have not responded via the LAN 104 (step ST2g). In step ST2h, the safety confirmation server 105 monitors the arrival of the reply mail. When the reply mail is received (Yes), the process proceeds to the process in step ST2d.

  On the other hand, in step ST2h, for a user who does not receive a reply mail (No), the safety confirmation server 105 monitors whether or not “120 seconds” have elapsed since the second mail notification (step ST2i). If not (No), the process proceeds to Step ST2h, and if it has elapsed (Yes), the process of Steps ST2f to ST2i is performed until the process proceeds to Step ST2f and the number of transmissions becomes “3”. Repeatedly.

  Then, when the process proceeds to step ST2f and the number of transmissions becomes “3” (Yes), the safety confirmation server 105 is turned off, out of service area, etc., for example, wireless terminals 1037 to 103n that are not confirmed yet. Whether or not the number of transmissions becomes “3” is monitored (step ST2j). Here, since the safety confirmation mail has not been transmitted yet, the process proceeds to step ST2k, and the safety confirmation mail is transmitted to all the wireless terminals 1037 to 103n that have not been notified (step ST2k).

  In step ST21, the safety confirmation server 105 monitors the arrival of the reply mail. When the reply mail is received (Yes), the safety confirmation server 105 proceeds to the process of step ST2d. On the other hand, in step ST21, for users who do not receive a reply mail (No), the safety confirmation server 105 monitors whether “600 seconds” have elapsed since the simultaneous mail notification (step ST2m). If not (No), the process proceeds to step ST21, and if it has elapsed (Yes), the process proceeds to step ST2j to monitor whether the number of transmissions is “3”.

  Here, if the number of transmissions does not reach “3” (No), the safety confirmation server 105 repeatedly executes the processes of the above-described steps ST2j to ST2m. On the other hand, when the number of transmissions becomes “3” (Yes), the safety confirmation server 105 monitors the arrival of the reply mail in Step ST2n, and when the reply mail is received (Yes), the above-described Step ST2d. Transition to processing. On the other hand, in step ST2n, for users who do not receive a reply mail (No), the safety confirmation server 105 determines whether “600 seconds” have elapsed since the simultaneous mail notification or the user is located in the safety confirmation target area. Whether or not the end condition is satisfied is monitored (step ST2o), and if it has not elapsed or the end condition is not satisfied (No), the process proceeds to step ST2n. Alternatively, if the termination condition is satisfied (Yes), the safety confirmation is terminated.

  The operator of the client computer 107 can display the safety confirmation result of each of the wireless terminals 1031 to 103n stored in the data master server 106 on a display unit (not shown), for example, to confirm the safety of a user on the premises. it can.

  As described above, in the first embodiment, the safety confirmation server 105, the data master server 106, the client computer 107, and the central control device 101 of the local PHS system 100 are separated from the general communication network 108. A safety confirmation mail is generated when a safety confirmation activation request is received from the client computer 107 in the safety confirmation server 105, which is connected by the LAN 104, which is a dedicated line of the PHS system 100, and the safety confirmation mail is registered in advance. Transmission is performed via the LAN 104 to the wireless terminals 1031 to 103n of the users located in the area, that is, in the local PHS system 100. Then, safety confirmation result information is generated according to the reception status of the reply mail returned from the user's wireless terminals 1031 to 103n via the LAN 104 and stored in the data master server 106. Therefore, it is possible to quickly confirm safety without being influenced by the communication network 108 serving as a general line.

  In addition, according to the first embodiment, the wireless terminals 1034 and 1035 that have not been able to perform the mail notification such as the power-off state or being out of the service area are again notified by the mail so that the safety confirmation mail does not reach. Can be reduced.

  In the second embodiment, when the safety of the wireless terminal 1036 can be confirmed using another means such as a fixed telephone, such as when the holder of the wireless terminal 1036 cannot respond to safety, the proxy is displayed on the WEB screen instead of the holder of the wireless terminal 1036. A safety response can be made.

  In the safety confirmation server 105, a list of unacknowledged safety confirmation subjects is created based on the safety confirmation result information stored in the data master server 106, and when the browsing request for the list comes from the client computer 107, the list is displayed. Downloaded. An example is shown in FIG. In this state, in the client computer 107, an operator who performs a proxy response for safety confirmation selects and specifies the holder “user ID: 1000000” of the wireless terminal 1036, and selects and specifies “safe” in the proxy response selection area 400. To do.

  Then, the client computer 107 transmits safety confirmation response information including the identification information (PHS number) of the requesting wireless terminal 1036 and the user ID to the safety confirmation server 105 via the LAN 104.

  The safety confirmation receiving program 1053c of the safety confirmation server 105 receives the safety confirmation response information sent from the client computer 107.

  As described above, in the second embodiment, when the user of the wireless terminal 1036 cannot make a safety response and when the safety confirmation can be performed using another means, the operator of the client computer 107 instead of the user of the wireless terminal 1036. Can make a safety response on behalf of the WEB screen, and can quickly aggregate the safety responses.

  In the third embodiment, safety confirmation can be activated by the contact input 600.

  FIG. 6 is a schematic configuration diagram of a communication system having a safety confirmation service function according to the third embodiment of the present invention. In FIG. 6, the same parts as those in FIG.

  A contact input 600 is connected to the LAN 104 as a safety confirmation activation request generation unit. To this contact input 600, a push button 601, a seismometer 602, and the like are connected.

Next, the operation of the safety confirmation server 105 configured as in the third embodiment will be described.
First, the safety confirmation is activated as follows. That is, when a disaster occurs, when the operator near the contact input 600 presses the push button 601 or when the seismometer 602 measures, for example, “seismic intensity 3”, the safety input is started from the contact input 600 to the safety confirmation server 105. A request is sent.

  When receiving the safety confirmation activation request from the contact input 600, the safety confirmation server 105 selects a user existing in the safety confirmation target area from the user information database 1055. Then, the safety confirmation server 105 generates a safety confirmation mail and transmits it all at once to the safety confirmation target users via the LAN 104.

  The safety confirmation server 105 monitors the arrival of a reply mail. When the reply mail is received, the safety confirmation server 105 identifies the user who replied based on the content of the reply mail. Then, safety confirmation result information about the user is created, and the safety confirmation result information is stored in the data master server 106.

  On the other hand, for a user who does not receive a reply mail, the safety confirmation server 105 monitors whether, for example, “300 seconds” have elapsed since the simultaneous mail notification. Monitor whether or not

  If the number of transmissions does not reach “3”, the safety confirmation server 105 transmits a safety confirmation mail via the LAN 104 to the wireless terminals 1033 and 1034 that have not responded. Then, the safety confirmation server 105 monitors the arrival of the reply mail, and for the user who does not receive the reply mail, the safety confirmation server 105 monitors whether “120 seconds” have elapsed since the second mail notification. However, if it has elapsed, the safety confirmation mail is repeatedly transmitted until the number of transmissions reaches “3”.

  When the number of transmissions reaches “3”, the safety confirmation server 105 transmits a safety confirmation mail to, for example, the wireless terminals 1037 to 103n that have not yet been notified, such as being powered off or out of service area.

  As described above, according to the third embodiment, the same effects as those of the first embodiment can be obtained. For example, even when the operator of the client computer 107 is absent, the safety of the operator near the contact input 600 can be improved. Confirmation can be activated. Also, by using the seismometer 602, safety confirmation can be automatically activated in the event of a disaster.

  In the fourth embodiment, safety confirmation is started by voice guidance from the wireless terminals 1031 to 103n, the fixed telephone 700 as a safety confirmation activation request generation unit, and the like.

  FIG. 7 is a schematic configuration diagram of a communication system having a safety confirmation service function according to the fourth embodiment of the present invention. In FIG. 7, the same parts as those in FIG.

  A fixed telephone 700 is connected to the central controller 101 of the local PHS system 100. On the other hand, the safety confirmation server 105 is provided with a voice board 1057. The voice board 1057 generates a predetermined voice guidance when the safety confirmation is activated, and notifies the fixed telephone 700 or the wireless terminals 1031 to 103n which are calling telephone terminals via the LAN 104, for example.

  Next, the operation of the safety confirmation server 105 configured as in the fourth embodiment will be described. FIG. 8 is a flowchart showing the control procedure and control contents of the safety confirmation server 105 when starting safety confirmation by voice.

  It is assumed that the user of the fixed telephone 700 accesses the safety confirmation server 105 by dialing a special number. Then, the safety confirmation server 105 generates a voice guidance “This is the XX area safety confirmation dial. Please enter your password. Please hang up the phone to cancel” with the voice board 1057, and this voice guidance is fixed. It is sent to the telephone set 700 (step ST8a).

  It is assumed that the user of the fixed telephone 700 inputs a password using the numeric keypad of the fixed telephone 700 according to the voice guidance. Then, a DTMF signal representing the password is sent to the safety confirmation server 105.

  The safety confirmation server 105 moves from step ST8b to step ST8c, and determines whether or not the input password matches the password stored in the voice board 1057. Here, if they do not match (No), the safety confirmation server 105 generates a voice guidance “Password mismatch” by the voice board 1057, and sends this voice guidance to the fixed telephone 700 (step ST8d).

  On the other hand, if they match (Yes), the safety confirmation server 105 uses the voice board 1057 to “select an event that activates safety confirmation. Enter 1 if an earthquake occurs. "Please hang up when canceling" voice guidance is generated, and this voice guidance is sent to the fixed telephone 700 (step ST8e).

  It is assumed that the user of the fixed telephone 700 inputs an event using the numeric keypad of the fixed telephone 700 according to the voice guidance. Then, a DTMF signal representing the event is sent to the safety confirmation server 105.

  The safety confirmation server 105 moves from step ST8f to step ST8g, and determines whether or not the input value matches the input value stored in the voice board 1057. Here, if the input value is not normal (No), the safety confirmation server 105 generates a voice guidance “input error” by the voice board 1057, and sends this voice guidance to the fixed telephone 700 (step ST8h). .

  On the other hand, if the input value is normal (Yes), the safety confirmation server 105 activates “YY safety confirmation by voice board 1057. If it is OK, enter 1 to enter another 9 Please hang up the phone if you want to cancel. "Is sent to the fixed telephone 700 (step ST8i).

  It is assumed that the user of the fixed telephone 700 inputs “9” using the numeric keypad of the fixed telephone 700 according to the voice guidance. Then, a DTMF signal representing “9” is sent to the safety confirmation server 105.

  Then, the safety confirmation server 105 moves from step ST8j to step ST8e. On the other hand, it is assumed that the user of the fixed telephone 700 inputs a key other than “1” and “9” using the numeric keypad of the fixed telephone 700 according to the voice guidance. Then, a DTMF signal representing the key is sent to the safety confirmation server 105. The safety confirmation server 105 moves from step ST8j to step ST8k, generates a voice guidance “input error”, and sends this voice guidance to the fixed telephone 700.

  Furthermore, it is assumed that the user of fixed telephone 700 inputs “1” using the numeric keypad of fixed telephone 700 according to the voice guidance. Then, a DTMF signal representing “1” is sent to the safety confirmation server 105. The safety confirmation server 105 monitors whether or not the same safety activation is in progress (step ST81), and if it is not in the same safety activation (No), the voice board 1057 "accepts the activation of safety confirmation. Please turn off. ”And the voice guidance is transmitted to the fixed telephone 700.

  On the other hand, if the same safety is being activated (Yes), the safety confirmation server 105 generates a voice guidance “The same safety confirmation is activated. Please hang up.” By the voice board 1057. Is sent to the fixed telephone 700.

  In addition to the fixed telephone 700, the same can be implemented with the wireless terminals 1031 to 103n.

  The safety confirmation server 105 selects users existing in the safety confirmation target area from the user information database 1055. Then, the safety confirmation server 105 generates a safety confirmation mail and transmits it all at once to the safety confirmation target users via the LAN 104.

  The safety confirmation server 105 monitors the arrival of a reply mail. When the reply mail is received, the safety confirmation server 105 identifies the user who replied based on the content of the reply mail. Then, safety confirmation result information about the user is created, and the safety confirmation result information is stored in the data master server 106.

  On the other hand, for a user who does not receive a reply mail, the safety confirmation server 105 monitors whether, for example, “300 seconds” have elapsed since the simultaneous mail notification. Monitor whether or not

  If the number of transmissions does not reach “3”, the safety confirmation server 105 transmits a safety confirmation mail via the LAN 104 to the wireless terminals 1033 and 1034 that have not responded. Then, the safety confirmation server 105 monitors the arrival of the reply mail, and for the user who does not receive the reply mail, the safety confirmation server 105 monitors whether “120 seconds” have elapsed since the second mail notification. However, if it has elapsed, the safety confirmation mail is repeatedly transmitted until the number of transmissions reaches “3”.

  When the number of transmissions reaches “3”, the safety confirmation server 105 transmits a safety confirmation mail to, for example, the wireless terminals 1037 to 103n that have not yet been notified, such as being powered off or out of service area.

  As described above, according to the fourth embodiment, the same operational effects as those of the first embodiment can be obtained. For example, even when the operator of the client computer 107 is absent, the fixed telephone 700 or the wireless terminals 1031 to 103n can be used. Safety confirmation can be activated by a simple key operation according to voice guidance by a person.

  In the fifth embodiment, safety confirmation can be performed in conjunction with entry / exit management information.

  FIG. 9 is a flowchart showing the control procedure and control contents of the safety confirmation server 105, and FIG. 10 is a WEB screen of the client computer 107 for managing the entry or exit of the user.

  First, the operator of the client computer 107 downloads the entry / exit status display screen shown in FIG. 10 from another management server (not shown). In the entry / exit status display screen, the entry / exit status display area 1000 is displayed in a management system (not shown) of the local PHS system 100 when, for example, a user (user ID: 2000000) holding the wireless terminal 1037 leaves the office. It becomes "entrance" by holding the employee ID card. Further, for example, when a user (user ID: 2002001) holding the wireless terminal 1039 leaves the company, the employee ID card is placed over the management system (not shown) of the local PHS system 100 to become “retirement”.

  In addition, the operator of the client computer 107 sets “300 seconds” as the “interval between sending the second mail notification from the simultaneous mail notification” 300 to “300 seconds” on the safety confirmation setting screen. "Number of transmissions to 301" is set to "3 times", "Transmission interval to PHS targeting unanswered" 302 is set to "120 seconds", and "Number of transmissions to PHS for which email notification has not been received" "303" is set to "3 times", "Transmission interval to PHS for which email notification has not been received" 304 is set to "600 seconds", and the information is transmitted to the safety confirmation server 105, and the entry / exit status display screen is displayed Transmit to the confirmation server 105.

  When the entrance / exit status display screen is sent from the client computer 107, the safety confirmation server 105 stores the entrance / exit status information in the user information database 1055.

  Subsequently, when the operator of the client computer 107 downloads a safety confirmation activation screen from the safety confirmation server 105, inputs the disaster information 500, and clicks “safety confirmation activation” 501, a safety confirmation activation request is sent to the safety confirmation server 105. Send.

  When the safety confirmation server 105 receives the safety confirmation activation request from the client computer 107 (step ST9a), the safety confirmation server 105 specifies the safety confirmation target area and selects a user existing in the safety confirmation target area from the user information database 1055. Then, the safety confirmation server 105 generates a safety confirmation mail and transmits it all at once to the safety confirmation target users via the LAN 104 (step ST9b).

  This safety confirmation mail includes the URL of the safety confirmation server 105, and when the user accesses this URL by a click operation, a reply mail creation screen is displayed. This reply e-mail creation screen already has the title and destination address, and the user selects either “safe”, “slightly injured” or “serious injury” in this reply e-mail creation screen and clicks the send button Then, a reply mail is automatically transmitted.

  In step ST9c, the safety confirmation server 105 monitors the arrival of the reply mail. When the reply mail is received (Yes), the safety confirmation server 105 identifies the user who replied based on the content of the reply mail. And the safety confirmation result information about the said user is created, and this safety confirmation result information is stored in the data master server 106 (step ST9d).

  On the other hand, in step ST9c, for users who do not receive a reply mail (No), the safety confirmation server 105 monitors whether or not “300 seconds” have elapsed since the simultaneous mail notification. (No), the process proceeds to step ST9c, and if it has elapsed (Yes), it is monitored whether or not the number of transmissions is “3” (step ST9f).

  Here, if the number of transmissions does not become “3” (No), the safety confirmation server 105 selects an unanswered wireless terminal 1033, 1034, 1035, for example, and enters the wireless terminal 1033, 1034, 1035. A safety confirmation email is transmitted via the LAN 104 (step ST9g). The selection of the wireless terminals 1033, 1034, and 1035 is performed based on the entry / exit state information stored in the user information database 1055.

  In step ST9h, the safety confirmation server 105 monitors the arrival of the reply mail. When the reply mail is received (Yes), the safety confirmation server 105 proceeds to the process in step ST9d.

  On the other hand, in step ST9h, for a user who does not receive a reply mail (No), the safety confirmation server 105 monitors whether or not “120 seconds” have elapsed since the second mail notification (step ST9i). If not (No), the process proceeds to step ST9h, and if it has elapsed (Yes), the process proceeds to step ST9f and the processes in steps ST9f to ST9i until the number of transmissions is “3”. Repeatedly.

  Then, when the process proceeds to step ST9f and the number of transmissions reaches “3” (Yes), the safety confirmation server 105 is turned off, out of service area, etc., for example, wireless terminals 1037 to 103n that are not yet notified. Whether or not the number of transmissions becomes “3” is monitored (step ST2j). Here, since the safety confirmation mail has not yet been transmitted, the process proceeds to step ST9k, and the safety confirmation mail is transmitted to all the safety confirmation target wireless terminals 1037 to 103n that have entered the safety target area and have not yet been notified ( Step ST9k).

  In step ST91, the safety confirmation server 105 monitors the arrival of the reply mail. When the reply mail is received (Yes), the safety confirmation server 105 proceeds to the process of step ST9d. On the other hand, in step ST91, for users who do not receive a reply mail (No), the safety confirmation server 105 monitors whether “600 seconds” have elapsed since the simultaneous mail notification (step ST9m). If not (No), the process proceeds to step ST91, and if it has elapsed (Yes), the process proceeds to step ST9j to monitor whether the number of transmissions is “3”.

  Here, if the number of transmissions does not become “3” (No), the safety confirmation server 105 repeatedly executes the processes of Step ST9j to Step ST9m. On the other hand, when the number of transmissions reaches “3” (Yes), the safety confirmation server 105 monitors the arrival of the reply mail in Step ST9n, and when the reply mail is received (Yes), the above-described Step ST9d. Transition to processing. On the other hand, in step ST9n, for users who do not receive a reply mail (No), the safety confirmation server 105 determines whether “600 seconds” have elapsed since the simultaneous mail notification or the user is located in the safety confirmation target area. Whether or not (step ST9o), and if it has not elapsed (No), the process proceeds to step ST9n, if it has elapsed or if the user is not located in the safety confirmation target area (Yes), the safety confirmation ends.

  As described above, according to the fifth embodiment, after the simultaneous mail notification, the wireless terminal that is not responding and the wireless terminal that has not received the mail notification is linked to the access management information. Safety notification can be efficiently performed by notifying only the holder of the mail. In addition, by displaying the entry / exit status, it is possible to determine whether the holder of the wireless terminal has entered the premises.

  In the sixth embodiment, safety confirmation is performed in conjunction with position display information.

  In the user information database 1055 of the safety confirmation server 105, position information indicating the current position of the user is also stored. This location information is obtained, for example, by obtaining location registration information (identification information of the base station 102 or latitude / longitude information indicating the location of the base station 102) of the wireless terminals 1031 to 103n possessed by the user from the exchange of the communication network 108. Stored and updated regularly. When the wireless terminals 1031 to 103n are equipped with a GPS (Global Positioning System) receiver, the latitude and longitude information of the wireless terminals 1031 to 103n calculated based on the reception data of the GPS receiver is periodically May be acquired and stored as position information.

  Next, the operation of the safety confirmation server 105 in the sixth embodiment will be described.

  First, settings related to safety confirmation are performed as follows. That is, in the event of a disaster, the operator of the client computer 107 downloads a setting screen related to safety confirmation from the safety confirmation server 105, and in this setting screen, “interval between simultaneous mail notification and second mail notification transmission” 300 is set to “ “300 seconds”, “number of transmissions to PHS targeting unanswered” 301 is set to “3 times”, and “transmission interval to PHS targeting unanswered” 302 is set to “120 seconds”. Set “number of transmissions to PHS for which email notification has not been received” 303 is set to “3 times”, “transmission interval to PHS for which email notification has not been received” 304 is set to “600 seconds”, Transmit to the confirmation server 105.

  Subsequently, when the operator of the client computer 107 downloads a safety confirmation activation screen from the safety confirmation server 105, inputs the disaster information 500, and clicks “safety confirmation activation” 501, a safety confirmation activation request is sent to the safety confirmation server 105. Send.

  The safety confirmation server 105 selects users existing in the safety confirmation target area from the user information database 1055. Then, the safety confirmation server 105 generates a safety confirmation mail and transmits it all at once to the safety confirmation target users via the LAN 104.

  The safety confirmation server 105 monitors the arrival of a reply mail. When the reply mail is received, the safety confirmation server 105 identifies the user who replied based on the content of the reply mail. Then, safety confirmation result information about the user is created, and the safety confirmation result information is stored in the data master server 106.

  On the other hand, for a user who does not receive a reply mail, the safety confirmation server 105 monitors whether, for example, “300 seconds” have elapsed since the simultaneous mail notification. Monitor whether or not

  If the number of transmissions does not reach “3”, the safety confirmation server 105 transmits a safety confirmation mail via the LAN 104 to the wireless terminals 1033 and 1034 that have not responded. Then, the safety confirmation server 105 monitors the arrival of the reply mail, and for the user who does not receive the reply mail, the safety confirmation server 105 monitors whether “120 seconds” have elapsed since the second mail notification. However, if it has elapsed, the safety confirmation mail is repeatedly transmitted until the number of transmissions reaches “3”.

  When the number of transmissions reaches “3”, the safety confirmation server 105 transmits a safety confirmation mail to, for example, the wireless terminals 1037 to 103n that have not yet been notified, such as being powered off or out of service area.

  After the safety confirmation activation is completed, the operator of the client computer 107 downloads the safety confirmation result of each of the wireless terminals 1031 to 103n stored in the data master server 106, and displays the non-responder shown in FIG. 11 on the display unit (not shown). Display the position display screen.

  The position display area 1100 of the position display screen indicates that, for example, a user (user ID: 3000000) holding the wireless terminal 1031 is located in, for example, “Meeting Room 1” on the premises. For example, the user (user ID: 3004001) holding the wireless terminal 1037 is located at, for example, “manufacturing site 1” within the campus. Is shown.

  As a result, the operator of the client computer 107 can confirm the position of the non-responder in addition to the safety of the non-responder on the premises, and thereby, the rescue measures for the non-responder can be appropriately and quickly taken. it can.

  As described above, according to the sixth embodiment, the user's position of the wireless terminals 1031 and 1036 that do not return a safety confirmation response can be displayed by performing safety confirmation in conjunction with the position display information. As a result, it is possible to appropriately and promptly take relief measures for non-responders.

(Other examples)
Other types and configuration of wireless terminals used by users, configuration of safety confirmation server, type of dedicated line, user management control program, safety confirmation transmission program, safety confirmation reception program, safety confirmation control program, safety confirmation information The procedure and contents of the browsing control program can be variously modified and implemented without departing from the present invention.

DESCRIPTION OF SYMBOLS 100 ... Local PHS system 101 ... Central control apparatus 102 ... Base station 105 ... Safety confirmation server 106 ... Data master server 107 ... Client computer 108 ... Communication network 400 ... Proxy response selection area 500 ... Disaster information , 600 ... Contact input, 601 ... Push button, 602 ... Seismometer, 700 ... Fixed telephone, 1000 ... Status display area, 1031 to 103n ... Wireless terminal, 1051 ... CPU, 1052 ... Bus, 1053 ... Program memory, 1053a ... Use Person management control program, 1053b ... safety confirmation transmission program, 1053c ... safety confirmation reception program, 1053d ... safety confirmation control program, 1053e ... safety confirmation information browsing control program, 1054 ... disaster information database, 1055 ... user information database, 056 ... communication interface unit, 1057 ... sound board,
1100: Position display area.

Claims (3)

Confirmation of safety between at least one wireless terminal connected to a wireless area constituent unit constituting a wireless area via a wireless line and a server device connected to the wireless area constituent unit via a communication line. In the safety confirmation system that transmits related information,
Separately from the communication line, a dedicated line for connecting the server device and the wireless area configuration unit,
A safety confirmation activation request generating unit that is connected to the dedicated line or the wireless area configuration unit and generates the safety confirmation activation request;
The server device
Storage means for storing at least identification information of the wireless terminal;
Upon reception of the safety confirmation activation request, a safety confirmation mail for requesting a response of the user of the wireless terminal stored in the storage means is generated, and the generated safety confirmation mail is transmitted to the wireless communication device via the dedicated line. A transmission means for transmitting to the terminal;
Receiving means for receiving a reply mail to the safety confirmation mail via the dedicated line;
Control means for generating safety confirmation result information relating to the corresponding user in accordance with the presence or absence of the return mail;
A safety confirmation system comprising:   The control means determines whether or not a reply mail from the wireless terminal stored in the storage means by the receiving means is received within a specified time, and if not received, the wireless terminal corresponding to the transmitting means The safety confirmation system according to claim 1, wherein the safety confirmation mail is retransmitted with respect to. A client computer device connected to the dedicated line, capable of accepting a response request for safety confirmation from a user of the wireless terminal and responding to the safety confirmation on behalf of a user;
2. The safety confirmation system according to claim 1, wherein the receiving unit of the server device receives safety confirmation response information including identification information of a requesting wireless terminal from the client computer device via the dedicated line. .