JP2011014096A - Safety confirmation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow acquisition of state information showing a use state of equipment which a person whose safety should be confirmed uses, even for the case where there is no change in the use state of the equipment.SOLUTION: A network interface of a monitoring server 20 periodically transmits an acquisition indication message indicating acquisition of state information of doors 5-1 to 5-3, to a monitoring terminal 10 and receives state information transmitted from the monitoring terminal 10. A wireless LAN interface of the monitoring terminal 10 receives the acquisition indication message transmitted from the monitoring server 20. Door opening/closing sensors 101-1 to 101-3 of the monitoring terminal 10 acquire state information of doors 5-1 to 5-3, in response to reception of the acquisition indication message by the wireless LAN interface. The wireless LAN interface of the monitoring terminal 10 transmits the state information acquired by the door opening/closing sensors 101-1 through 101-3 to the monitoring server 20.

Description

  The present invention relates to a safety confirmation system.

  Conventionally, as a monitoring system to ensure the security of the entire building and the floor of the building, when the opening and closing of the door occurred, the opening and closing of the door was detected in the monitoring center, etc. Is known, and a monitoring system that centrally monitors entry / exit and locking leakage (see, for example, Patent Document 1) is known.

JP 2005-71064 A

  However, in a conventionally known monitoring system, a device installed in a door detects a change in state triggered by opening / closing of the door, and notifies the monitoring center only when a change in state is detected. Therefore, there is a problem that when the door state has not changed, the monitoring center cannot obtain any notification.

  For example, when opening and closing a door, that is, when the door usage state is monitored and the safety of a person using the door is confirmed, if the door is not opened or closed, information is not transmitted from the device installed on the door to the monitoring center. There is a problem that no information can be obtained at the monitoring center while the door is not opened or closed.

  The present invention has been made in view of the above circumstances, and obtains state information that is information indicating the use state of the equipment even when the use state of the equipment used by the safety confirmation target has not changed. It aims at providing the safety confirmation system which can be done.

  The present invention comprises a monitoring terminal that acquires state information that is information indicating a usage state of equipment used by a safety confirmation target person, and a monitoring server that manages the state information acquired by the monitoring terminal. In the confirmation system, the monitoring server periodically transmits an acquisition instruction message for instructing acquisition of the state information to the monitoring terminal, and the state information transmitted from the monitoring terminal. And a server receiving unit for receiving, the monitoring terminal receives the acquisition instruction message transmitted from the monitoring server, and the status information when the terminal receiving unit receives the acquisition instruction message A safety confirmation system comprising: a sensor unit that acquires the status information; and a terminal transmission unit that transmits the status information acquired by the sensor unit to the monitoring server. That.

  With this configuration, the server transmission unit of the monitoring server periodically transmits an acquisition instruction message instructing acquisition of state information to the monitoring terminal. The server receiving unit of the monitoring server receives state information transmitted from the monitoring terminal. The terminal receiving unit of the monitoring terminal receives the acquisition instruction message transmitted from the monitoring server. The sensor unit of the monitoring terminal acquires state information when the terminal receiving unit receives the acquisition instruction message. The terminal transmission unit of the monitoring terminal transmits the status information acquired by the sensor unit to the monitoring server.

  Therefore, even when the usage state of the facility used by the safety confirmation target has not changed, the monitoring server can acquire state information that is information indicating the usage state of the facility.

  In the safety confirmation system of the present invention, when the monitoring server determines that the state information has not changed for a certain period based on the state information, the message transmits a message to a predetermined contact address. A transmission control unit is provided.

  With this configuration, the message transmission control unit of the monitoring server transmits a message to a predetermined contact when it is determined that the state information has not changed for a certain period based on the state information. Therefore, the state of the subject of the safety confirmation can be confirmed by the message.

  In the safety confirmation system of the present invention, the monitoring server includes a storage unit that stores the status information received by the server reception unit, and the server transmission unit is connected to itself via a network. The state information stored in the storage unit is read based on a request from the terminal and transmitted to the terminal device.

  With this configuration, the storage unit of the monitoring server stores the state information received by the server reception unit. The server transmission unit of the monitoring server reads the state information stored in the storage unit based on a request from the terminal device connected to itself via the network, and transmits it to the terminal device. Therefore, the user can browse the usage state of the equipment used by the safety confirmation target person via the network.

  In the safety confirmation system of the present invention, when the monitoring server determines that the status information has not changed for a certain time based on the status information, the transmission interval of the acquisition instruction message periodically transmitted A transmission interval changing unit for changing the transmission interval.

  With this configuration, the transmission interval changing unit of the monitoring server changes the transmission interval of the acquisition instruction message that is periodically transmitted when it is determined that the state information has not changed for a certain time based on the state information. Therefore, when there is little change in the state information of the equipment used by the safety confirmation target person, the transmission of the acquisition instruction message can be reduced.

  ADVANTAGE OF THE INVENTION According to this invention, even when the utilization state of the equipment which the subject person of safety confirmation uses has not changed, the state information which is the information which shows the utilization state of an equipment can be acquired.

It is a system configuration figure showing the composition of the safety confirmation system in one embodiment of the present invention. It is a network block diagram which showed the network structure of the safety confirmation system in this embodiment. It is the functional block diagram which showed the structure of the monitoring terminal in this embodiment. It is the functional block diagram which showed the structure of the monitoring server in this embodiment. It is the flowchart which showed the procedure of the main operation | movement of the monitoring terminal in this embodiment. It is the flowchart which showed the procedure of the monitoring operation | movement of the monitoring terminal in this embodiment. It is the sequence diagram which showed the flow of the data between the terminal for monitoring in this embodiment, and the monitoring server. It is the flowchart which showed the procedure of the operation | movement at the time of the monitoring server in this embodiment transmitting mail to a contact address.

  Hereinafter, an embodiment of a safety confirmation system according to the present invention will be described with reference to the drawings. FIG. 1 is a system configuration diagram showing the configuration of the safety confirmation system in the present embodiment.

  In the example shown in the figure, a monitoring terminal 10 is installed in the contract user's home 1, and a monitoring terminal is installed in the doors 5-1 to 5-3 of the contract user's home 1 (equipment used by the target person for safety confirmation). 10 are provided with door opening / closing sensors 101-1 to 101-3. A monitoring server 20 is installed in the monitoring company 2. In addition, as the contact 3, a mobile terminal 30 that can receive mail such as a mobile phone is set.

  The monitoring terminal 10 monitors the open / closed state of the doors 5-1 to 5-3 via the door open / close sensors 101-1 to 101-3, acquires the state information of the doors 5-1 to 5-3, The acquired state information is transmitted to the monitoring server 20. The monitoring server 20 centrally manages the status information of the doors 5-1 to 5-3 of the contract user home 1 based on the status information transmitted from the monitoring terminal 10. Moreover, when the status information of the doors 5-1 to 5-3 of the user's house 1 satisfies the state registered in advance, the monitoring server 20 transmits an alarm mail to the contact 3 in which the mail address is registered in advance. . The contact 3 receives the alarm mail transmitted from the monitoring server 20.

  For example, the state information of the doors 5-1 to 5-3 is monitored, and the state has not changed for a certain period of time. If not, the monitoring server 20 transmits an alarm mail to the contact 3. By seeing this alarm mail, it is possible to confirm the safety of the safety confirmation target person.

  Note that the safety confirmation target is a person who is active in the area. In addition, in the present embodiment, the doors 5-1 to 5-3 are described as an example of equipment used by the safety confirmation target person. However, the present invention is not limited thereto, and is installed in an area where the safety confirmation target person is active. If it is, For example, there are things installed in buildings in the area (windows, doors, beds, refrigerators, pots, etc.) and electricity, gas, and water supplied to buildings in the area. Sensors included in the monitoring terminal 10 may be provided in these facilities, and state information that is information indicating the use state of the facilities may be acquired.

  FIG. 2 is a network configuration diagram showing a network configuration of the safety confirmation system in the present embodiment. In the example shown in the figure, the monitoring server 20 is connected to the Internet 40 through a wired connection. The monitoring terminal 10 is connected to the Internet 40 through a wireless LAN in a communicable state. Thereby, the monitoring terminal 10 and the monitoring server 20 can communicate with each other via the Internet 40.

  FIG. 3 is a functional block diagram showing the configuration of the monitoring terminal 10 in the present embodiment. The monitoring terminal 10 includes door opening / closing sensors 101-1 to 101-3 (sensor unit), a wireless LAN interface 102 (terminal transmission unit, terminal reception unit), a PCI bus 103, a bridge 104, and a CPU 105 (Central Processing). Unit, central processing unit), USB 106 (Universal Serial Bus, Universal Serial Bus), RAM 107 (Random Access Memory, random access memory), SSD 108 (Solid State Drive, flash memory drive), I / O Bus 109 (Input / Output bus, input / output bus), I / O interface 110, keyboard 111, mouse 112, display 113, and AC power supply unit 114 (Alternating Current power supply unit, AC power supply unit).

  Door open / close sensors 101-1 to 101-3 detect the opening and closing of the doors 5-1 to 5-3. That is, the door open / close sensors 101-1 to 101-3 detect the usage state of the doors 5-1 to 5-3. The wireless LAN interface 102 mediates communication with the Internet 40 using a wireless LAN. The PCI bus 103 is a data transfer path.

  The bridge 104 relays data transfer to the PCI bus 103 and the I / O bus 109. The CPU 105 controls the monitoring terminal 10. The USB 106 mediates connection with other devices compatible with the USB standard. The RAM 107 temporarily stores information used by the monitoring terminal 10. The SSD 108 stores a measurement AP 1081 (measurement application program, measurement application program) that defines the operation of the monitoring terminal 10 and an OS 1082 (operating system, operating system).

  The I / O bus 109 is a data transfer path. The I / O interface 110 mediates connection between a device that performs various inputs and outputs and the I / O bus 109. The keyboard 111 and the mouse 112 accept input from the operator. The display 113 displays information. The AC power supply unit 114 acquires power from the outside and supplies the power to each unit of the monitoring terminal 10.

  The PCI bus 103 and the bridge 104 are connected in a state where information can be input and output. The I / O bus 109 and the bridge 104 are connected in a state where information can be input and output. The I / O bus 109 and the I / O interface 110 are connected in a state where information can be input and output.

  The door opening / closing sensors 101-1 to 101-3 and the wireless LAN interface 102 are connected to the PCI bus 103 in a state where information can be input and output. The CPU 105, the USB 106, the RAM 107, and the SSD 108 are connected to the bridge 104 in a state where information can be input and output. The keyboard 111, the mouse 112, the display 113, and the AC power supply unit 114 are connected to the I / O interface 110 in a state where information can be input and output.

  FIG. 4 is a functional block diagram showing the configuration of the monitoring server 20 in the present embodiment. The monitoring server 20 includes a network interface 202 (server transmission unit, server reception unit), PCI bus 203, bridge 204, CPU 205, USB 206, RAM 207, HDD 208 (Hard Disk Drive, hard disk drive), I / O An O bus 209, an I / O interface 210, a keyboard 211, a mouse 212, a display 213, and a DC power source 214 (Direct Current power source, DC power source) are provided.

  The network interface 202 mediates communication with the Internet 40 using a wired LAN. The PCI bus 203 is a data transfer path.

  The bridge 204 relays data transfer to the PCI bus 203 and the I / O bus 209. The CPU 205 controls the monitoring server 20. The USB 206 mediates connection with other devices compatible with the USB standard. The RAM 207 temporarily stores information used by the monitoring server 20. The HDD 208 stores a monitoring AP 2081 (monitoring application program, monitoring application program) that defines the operation of the monitoring server 20, middleware 2082, and an OS 2083.

  The I / O bus 209 is a data transfer path. The I / O interface 210 mediates the connection between various input / output devices and the I / O bus 209. The keyboard 211 and the mouse 212 accept input from the operator. The display 213 displays information. The DC power supply unit 214 obtains electric power from the outside and supplies it to each unit of the monitoring server 20.

  The PCI bus 203 and the bridge 204 are connected in a state where information can be input and output. The I / O bus 209 and the bridge 204 are connected in a state where information can be input and output. The I / O bus 209 and the I / O interface 210 are connected in a state where information can be input and output.

  The network interface 202 is connected to the PCI bus 203 in a state where information can be input and output. The CPU 205, USB 206, RAM 207, and HDD 208 are connected to the bridge 204 in a state where information can be input and output. The keyboard 211, the mouse 212, the display 213, and the DC power supply unit 214 are connected to the I / O interface 210 in a state where information can be input and output.

  Next, the main operation of the monitoring terminal 10 will be described with reference to FIG. FIG. 5 is a flowchart (main flow) showing a procedure of main operations of the monitoring terminal 10 in the present embodiment.

  (Step S101) Before monitoring the doors 5-1 to 5-3, the CPU 105 of the monitoring terminal 10 initializes each unit included in the monitoring terminal 10, and reads and executes the measurement AP 1081 stored in the SSD 108. To do. The operations of the CPU 105 in the following steps S102 to S107 are operations based on the measurement AP 1081. Thereafter, the process proceeds to step S102.

  (Step S102) The CPU 105 acquires state information of the doors 5-1 to 5-3 via the door opening / closing sensors 101-1 to 101-3. Thereafter, the process proceeds to step S103. Note that the state information acquired by the CPU 105 at this time is information indicating the open / closed state of the door, the time when the information was acquired, and the open / close sensor ID. The open / close sensor ID is an ID that can uniquely identify the door open / close sensors 101-1 to 101-3. In the present embodiment, the opening / closing sensor ID of the door opening / closing sensor 101-1 is 1011. The door opening / closing sensor 101-2 has an opening / closing sensor ID of 1012. The door opening / closing sensor 101-3 has an opening / closing sensor ID of 1013.

  (Step S103) The CPU 105 starts a monitoring timer. Thereafter, the process proceeds to step S104. Thereby, the time which passed since acquiring the information of doors 5-1 to 5-3 at Step S102 can be grasped.

(Step S104) The CPU 105 causes the SSD 108 to store the information on the doors 5-1 to 5-3 acquired in Step S102. Thereafter, the process proceeds to step S105.
(Step S105) The CPU 105 starts a monitoring function. Thereafter, the process proceeds to step S106.
(Step S106) The CPU 105 performs monitoring. Thereafter, when monitoring is terminated, the process proceeds to step S107. Details of the monitoring will be described later.
(Step S107) The CPU 105 stops the monitoring function and ends the process.

  Next, the monitoring operation of the monitoring terminal 10 will be described with reference to FIG. FIG. 6 is a flowchart (monitoring flow) showing the procedure of the monitoring operation of the monitoring terminal 10 in the present embodiment. This flowchart is a flowchart showing details of the operation in step S106 in FIG.

  (Step S1061) The CPU 105 starts monitoring the doors 5-1 to 5-3. Thereafter, the process proceeds to step S1062.

  (Step S1062) When the CPU 105 detects that the doors 5-1 to 5-3 are opened / closed via the door opening / closing sensors 101-1 to 101-3, or the monitoring server 20 transmits the wireless terminal station LAN interface 102. If the acquisition instruction message for the state information of the doors 5-1 to 5-3 is received through the process, the process proceeds to step S1063. At this time, the CPU 105 is instructed to acquire state information from the opening / closing sensor IDs of the door opening / closing sensors 101-1 to 101-3 installed in the opened / closed doors 5-1 to 5-3 or the monitoring server 20. Open / close sensor IDs installed in the doors 5-1 to 5-3 are acquired.

  (Step S1063) The CPU 105 acquires the states of the doors 5-1 to 5-3 via the door opening / closing sensors 101-1 to 101-3 specified by the opening / closing sensor ID acquired in step S1062. Thereafter, the process proceeds to step S1064. Note that the information acquired by the CPU 105 at this time is information indicating an open / closed state of the door and a time when the information is acquired.

  (Step S1064) The CPU 105 obtains the information of the doors 5-1 to 5-3 acquired in step S1063 and the opening / closing sensor IDs of the door opening / closing sensors 101-1 to 101-3 installed in the door from which the information is acquired. It is stored in the SSD 108. Thereafter, the process proceeds to step S1065.

  (Step S1065) The CPU 105 adds the type of trigger that triggered the acquisition of information on the doors 5-1 to 5-3 in step S1062 to the information stored in the SSD 108 in step S1064. Thereafter, the process proceeds to step S1066. The trigger that the CPU 105 adds to the SSD 108 at this time is a “door opening / closing opportunity” when the opening / closing of the doors 5-1 to 5-3 is triggered. When a status information acquisition instruction message is received, it is a “server request opportunity”.

  (Step S1066) The CPU 105 activates an application for transmitting the status information of the doors 5-1 to 5-3 stored in the SSD 108 to the monitoring server 20. Thereafter, the process proceeds to step S1067.

  (Step S1067) The CPU 105 transmits the status information of the doors 5-1 to 5-3 stored in the SSD 108 and the ID of the monitoring terminal 10 to the monitoring server 20. Thereafter, the process proceeds to step S1068. The ID of the monitoring terminal 10 is an ID that can uniquely identify the monitoring terminal 10.

  (Step S1068) The CPU 105 stops the application for transmitting the status information of the doors 5-1 to 5-3 activated in Step S1066 to the monitoring server 20, and ends the transmission process. Thereafter, the process returns to step S1061.

  The CPU 105 of the monitoring terminal 10 executes the processing of steps S1061 to S1068 until the monitoring of the doors 5-1 to 5-3 is finished. Further, when the monitoring of the doors 5-1 to 5-3 is finished, the CPU 105 of the monitoring terminal 10 proceeds to the process of step S107 in the flowchart shown in FIG.

  Thereby, the monitoring terminal 10 receives the state information acquisition instruction message for the doors 5-1 to 5-3 from the monitoring server 20 when the doors 5-1 to 5-3 are opened and closed. The state information of the doors 5-1 to 5-3 can be transmitted to the monitoring server 20.

  Next, an operation when the monitoring server 20 transmits an acquisition instruction message for the state information of the doors 5-1 to 5-3 to the monitoring terminal 10 will be described. In the present embodiment, an interval (cycle) at which the monitoring server 20 periodically transmits an acquisition instruction message is a periodic acquisition cycle X. The monitoring server 20 transmits an acquisition instruction message for the state information of the doors 5-1 to 5-3 to the monitoring terminal 10 every periodic acquisition period X. The periodic acquisition period X is a value that can be arbitrarily changed by the user.

  It is also possible to automatically change the periodic acquisition cycle X. Hereinafter, an example will be described in which the periodic acquisition period X is automatically changed to a fixed multiple when the door open / close state continues the same for a certain number of times.

  The number of times that the door open / close state included in the state information of the door 5-1 transmitted from the monitoring terminal 10 is continuously in the same state is defined as “parameter Y”. Further, a magnification that makes the periodic acquisition period X a fixed multiple is set to “parameter Z”. For example, when the periodic acquisition cycle X is set to “5 minutes” and the open / close state of the door is the same state three times, when the periodic acquisition cycle X is set to be doubled, the periodic acquisition cycle X = 5 Parameter Y = 3 and parameter Z = 2. In this case, after X × Y = 5 × 3 = 15 minutes, the periodic acquisition period X is automatically changed to X × Z = 5 × 2 = 10 minutes. The periodic acquisition cycle X is changed by the CPU 205 (transmission interval changing unit) of the monitoring server 20. Thereby, when there is little change of the state information of the door 5-1 which is the equipment used by the safety confirmation target person, the transmission of the acquisition instruction message can be reduced.

  Next, a data flow between the monitoring terminal 10 and the monitoring server 20 will be described with reference to FIG. FIG. 7 is a sequence diagram showing a data flow between the monitoring terminal 10 and the monitoring server 20 in the present embodiment.

  Steps S201 to S203 show the data flow when the trigger is “door opening / closing trigger”. Steps S210 to S216 indicate the flow of data when the trigger is “server request opportunity”.

Hereinafter, a data flow when the trigger is “door opening / closing trigger” will be described.
(Step S201) When the door opening / closing sensors 101-1 to 101-3 of the monitoring terminal 10 detect the opening / closing of the doors 5-1 to 5-3, the CPU 105 executes the door opening / closing sensors 101-1 to 101-3. An open / close notification is output to the measurement AP.

  (Step S202) The measurement AP executed by the CPU 105 acquires the state information of the doors 5-1 to 5-3. Subsequently, the measurement AP executed by the CPU 105 transmits the state information of the doors 5-1 to 5-3 to the network interface 202 of the monitoring server 20 via the wireless LAN interface 102. Further, the measurement AP executed by the CPU 105 stores the acquired state information of the doors 5-1 to 5-3 in the SSD 108.

  (Step S203) The network interface 202 of the monitoring server 20 outputs the status information of the doors 5-1 to 5-3 to the monitoring AP executed by the CPU 205. The monitoring AP executed by the CPU 205 stores the status information of the doors 5-1 to 5-3 in the HDD 208.

  As described above, whenever the doors 5-1 to 5-3 are opened and closed, the status information of the doors 5-1 to 5-3 is transmitted from the monitoring terminal 10 to the monitoring server 20 as in steps S201 to S203. Is done.

The data flow when the trigger is “server request opportunity” will be described below.
(Step S <b> 210) The monitoring AP executed by the CPU 205 of the monitoring server 20 outputs an acquisition instruction message (health check request) for status information of the doors 5-1 to 5-3 to the network interface 202.

  (Step S211) The network interface 220 transmits a health check request to the monitoring terminal 10. The measurement AP executed by the CPU 105 of the monitoring terminal 10 acquires the health check request transmitted from the monitoring server 20 via the wireless LAN interface 110.

  (Step S212) The measurement AP executed by the CPU 105 outputs a health check request to the door opening / closing sensors 101-1 to 101-3.

  (Step S213) The door open / close sensors 101-1 to 101-3 acquire the state information of the doors 5-1 to 5-3, and the CPU 105 executes the acquired state information of the doors 5-1 to 5-3. Output to AP.

  (Step S214) The measurement AP executed by the CPU 105 transmits the state information of the doors 5-1 to 5-3 to the network interface 202 of the monitoring server 20 via the wireless LAN interface 102.

  (Step S215) The network interface 202 of the monitoring server 20 outputs the status information of the doors 5-1 to 5-3 to the monitoring AP executed by the CPU 205.

  As described above, every time the acquisition instruction message for the state information of the doors 5-1 to 5-3 is transmitted from the server 20 to the monitoring terminal 10, the monitoring terminal 10 performs monitoring as in steps S210 to S215. The state information of the doors 5-1 to 5-3 is transmitted to the server 20.

  Next, the operation when the monitoring server 20 transmits an alarm mail to the contact 3 will be described with reference to FIG. FIG. 8 is a flowchart showing an operation procedure when the monitoring server 20 according to this embodiment transmits an alarm mail to the contact 3. This operation is performed for each door 5-1 to 5-3 of the contract user house 1. Hereinafter, an example in which the monitoring server 20 manages the door 5-1 will be described. The management server 20 performs the process on the doors 5-2 to 5-3 in the same manner as the door 5-1.

  (Step S301) The CPU 205 (message transmission control unit) of the monitoring server 20 acquires the state information of the door 5-1 transmitted from the monitoring terminal 10 via the network interface 202. Thereafter, the process proceeds to step S302. The state information of the door 5-1 acquired by the CPU 205 at this time includes the ID of the monitoring terminal 10, the opening / closing sensor ID, the time when the state information is acquired, and information indicating the opening / closing state of the door 5-1. The trigger type.

(Step S302) The CPU 205 causes the HDD 208 to store the state information of the door 5-1 acquired in Step S301. Thereafter, the process proceeds to step S303.
(Step S303) The CPU 205 determines whether the trigger type included in the state information of the door 5-1 acquired in step S301 is “door opening trigger” or “server request trigger”. When the CPU 205 determines that it is “door opening trigger”, the process proceeds to step S305, and when it is determined that it is “server request trigger”, the process proceeds to step S304.

  (Step S304) The CPU 205 includes information indicating the opening / closing state of the door 5-1 included in the state information of the door 5-1 acquired in step S301, and the door 5- included in the state information of the door 5-1 acquired last time. 1 is compared with the information indicating the open / close state of 1 and it is determined whether the open / close state of the door 5-1 has changed between when the previous state information is acquired and when the state information is acquired in step S301. If the CPU 205 determines that the open / close state of the door 5-1 has changed, the process proceeds to step S305. If the CPU 205 determines that the open / close state of the door 5-1 has not changed, the process proceeds to step S306.

  (Step S305) The CPU 205 sets a new flag in the state information of the door 5-1 stored in the HDD 208 in Step S302, and resets the accumulated time when the HDD 208 stores the accumulated time. Thereafter, the process proceeds to step S311.

  (Step S306) The CPU 205 calculates a state continuation time which is a time during which the state of the door 5-1 has not changed, and stores the calculated time in the HDD 208 as a cumulative time. Thereafter, the process proceeds to step S307.

  Specifically, when the HDD 208 stores the accumulated time, the CPU 205 reads the accumulated time from the HDD 208. This read accumulated time is defined as the previous accumulated time. Subsequently, the CPU 205 determines the state of the previous door 5-1 from the acquisition time included in the state information of the door 5-1 acquired in step S301 and the acquisition time included in the state information of the door 5-1 acquired last time. The current elapsed time (acquisition period), which is the time from when the information is acquired to when the state information of the door 5-1 is acquired at step S301, is calculated. Subsequently, the CPU 205 adds the previous accumulated time and the current elapsed time to calculate the state duration time.

  (Step S307) The CPU 205 compares the state duration calculated in step S306 with a predetermined threshold, and determines whether or not the state duration is within the threshold range. If the CPU 205 determines that the state continuation time is within the threshold value range, the process proceeds to step S311; otherwise, the process proceeds to step S308. That is, when the door opening / closing time exceeds the threshold, the process proceeds to step S311. This threshold is a value that can be arbitrarily set by the user.

(Step S308) The CPU 205 activates an application for transmitting an alarm mail to the contact 3. Thereafter, the process proceeds to step S309.
(Step S309) The CPU 205 generates an alarm mail notifying that the door has not been opened or closed for a certain time (threshold time), and acquires the mail address of the contact 3 registered in advance. Thereafter, the process proceeds to step S310.

  (Step S310) The CPU 205 transmits the alarm mail generated in Step S309 to the mail address of the contact 3 acquired in Step S309. Thereafter, the process proceeds to step S311.

  (Step S <b> 311) The CPU 205 stands by until the status information of the door 5-1 transmitted from the monitoring terminal 10 is received. When the status information of the door 5-1 is received, the process returns to step S301.

  Through the processing from step S301 to step S311, the monitoring server 20 can detect a door that has not been opened and closed for a certain period of time, and can send the detected result to the contact 3 by e-mail. .

  In addition to the portable terminal 30 that can receive mail, a personal computer (terminal device) that can acquire information using a Web browser may be used as the contact 3. When the personal computer transmits an acquisition request message for the status information of the doors 5-1 to 5-3 to the monitoring server 20 via the network, the network interface 202 of the monitoring server 20 reads from the HDD 208 under the control of the CPU 205. The status information of the doors 5-1 to 5-3 is transmitted to the personal computer. With this configuration, the user can browse the status information of the doors 5-1 to 5-3 using a personal computer.

  As described above, according to the present embodiment, the monitoring server 20 periodically transmits an acquisition instruction message for the state information of the doors 5-1 to 5-3 to the monitoring terminal 10. As a result, even when the doors 5-1 to 5-3 are not opened or closed, that is, when the doors 5-1 to 5-3 are not used by the subject of safety confirmation, the monitoring server 20 can The state information of -1 to 5-3 can be acquired.

  In addition, when the open / closed state of the doors 5-1 to 5-3 is the same for a certain period of time, the monitoring server 20 transmits a mail to the contact 3 registered in advance. For example, door opening / closing sensors 101-1 to 101-3 are installed at the doors that are most frequently opened and closed (such as toilet doors) in general user homes (especially elderly homes), and the doors have not been opened or closed for a certain period of time. In this case, an alarm mail can be transmitted to the portable terminal 30 such as a family registered in advance as the contact 3. Thereby, the family of the subject person of safety confirmation can confirm the state of the subject person of safety confirmation at a place away from the user's house.

  Health-related information is monitored using an external option device that can measure health-related information such as blood pressure, weight, and body fat, and the communication function of the monitoring terminal 10 installed in the contract user's home 1. The monitoring server 20 can analyze the transmitted health-related information and transmit daily health checks and advice to the contract user.

  As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to the above, and various design changes and the like can be made without departing from the scope of the present invention. Is possible.

DESCRIPTION OF SYMBOLS 1 ... Contract user house, 2 ... Monitoring company, 3 ... Contact, 5-1-5-3 ... Door, 10 ... Monitoring terminal, 20 ... Monitoring server, 30 ... Mobile terminal, 40 ... Internet, 101-1 to 101-3 ... Door open / close sensor, 102 ... Wireless LAN interface, 103, 203 ... PCI bus, 104, 204 ... Bridge 105, 205 ... CPU, 106,206 ... USB, 107,207 ... RAM, 108 ... SSD, 109,209 ... I / O bus, 110,210 ... I / O interface, 111, 211 ... keyboard, 112, 212 ... mouse, 113, 213 ... display, 114, 214 ... AC power supply, 202 ... network interface, 08 ··· HDD

Claims (4)

A safety confirmation system comprising a monitoring terminal that acquires state information that is information indicating a usage state of equipment used by a safety confirmation target person, and a monitoring server that manages state information acquired by the monitoring terminal. And
The monitoring server is
A server transmission unit that periodically transmits an acquisition instruction message instructing acquisition of the state information to the monitoring terminal;
A server receiver for receiving the status information transmitted from the monitoring terminal;
With
The monitoring terminal is:
A terminal receiver that receives the acquisition instruction message transmitted from the monitoring server;
When the terminal reception unit receives the acquisition instruction message, a sensor unit that acquires the state information;
A terminal transmission unit that transmits the state information acquired by the sensor unit to the monitoring server;
A safety confirmation system characterized by comprising: The monitoring server is
The apparatus according to claim 1, further comprising: a message transmission control unit configured to transmit a message to a predetermined contact address when it is determined that the state information has not changed for a certain period based on the state information. The safety confirmation system described. The monitoring server is
A storage unit for storing the state information received by the server reception unit;
The server transmission unit reads the state information stored in the storage unit based on a request from a terminal device connected to the server via a network, and transmits the status information to the terminal device. The safety confirmation system according to any one of claims 1 and 2. The monitoring server is
A transmission interval changing unit that changes a transmission interval of the acquisition instruction message that is periodically transmitted when it is determined based on the state information that the state information has not changed for a certain period of time. The safety confirmation system according to any one of claims 1 to 3.

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