JP2011055257A - Communication apparatus, communication method and communication program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To more improve stability of communication in disaster. <P>SOLUTION: A communication apparatus comprises: an information generating means 108 for generating disaster information on the basis of a packet for Earthquake Early Warning received via a WAN interface unit 101; an information registering means 11 for registering in a disaster information table 111 disaster information received via a WLAN interface unit 106 or the disaster information generated; and an information distributing means 12 for distributing the disaster information registered in the disaster information table 111 to any other communicable gateway device. The information registering means 12 is configured to register the disaster information, which is received newly or generated on the basis of a packet for Earthquake Early Warning received newly, in the disaster information table 111 in the case where the disaster information is not registered in the disaster information table 111. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a communication device, a communication method, and a communication program for distributing notification information such as disaster information.

When disasters such as earthquakes and floods occur, it is essential to obtain accurate and new disaster information in order to carry out rescue and evacuation activities in the affected areas.
For example, in the event of an earthquake, the Japan Meteorological Agency sends an emergency earthquake bulletin, and residents in the affected area can check the date and place of the occurrence of the earthquake via TV, radio, disaster prevention administrative radio, mobile phone, etc. I can know.
However, in disaster-stricken areas, the areas where disaster-prevention radios and mobile phones can be used are limited depending on the scale and scope of the disaster, and the frequency of TV and radio viewing varies from person to person. May occur.
For this reason, in disaster areas, disaster information can be confused and residents can be confused, which can interfere with safe rescue and evacuation activities.

For such a problem, a disaster prevention system using multi-hop communication based on an ad hoc function of a wireless LAN has been proposed (for example, see Patent Documents 1, 2, and 3).
According to multi-hop communication, necessary information (disaster information, safety information, etc.) is broadcast and distributed from a predetermined terminal, and other terminals existing in the same wireless zone receive this distributed information. This receiving terminal also broadcasts to other terminals existing in the wireless zone of the receiving terminal.
The necessary information can be distributed to all target terminals by repeating the process of distribution → reception → distribution → reception.
Therefore, by deploying such a terminal in each house, many residents can share the latest disaster information, and the problems described above can be solved.

JP 2008-299597 A JP 2006-319555 A JP 2007-243502 A

However, none of the techniques disclosed in Patent Documents 1 to 3 uses a plurality of information sources, and does not perform control according to the contents of these information.
For this reason, for example, when disaster information is distributed using the ad hoc function disclosed in these documents, transmission efficiency is deteriorated and transmission speed is decreased due to repeated distribution of the same information.
In addition, since disaster information is distributed in a disorderly manner, information recognized by the user is biased, and there is a possibility that the information will be complicated and confused.

  An object of the present invention is to provide a communication device, a communication method, and a communication program for widely and surely informing the latest information unified while avoiding the above-described problem, that is, variation in information at the time of a disaster or the like. There is.

  In order to achieve the above object, the communication device of the present invention includes an information generating means for generating predetermined notification information based on distribution information received via a predetermined interface, and a notification received via an interface different from the interface. Information registration means for registering information or the generated notification information in a predetermined information table, and information distribution means for distributing the notification information registered in the information table to another communication device capable of communication, the information The registration means registers the broadcast information in the information table when the broadcast information generated based on the newly received broadcast information or the newly received distribution information is not registered in the information table. .

  The communication method of the present invention includes a first step of generating predetermined broadcast information based on distribution information received via a predetermined interface, and broadcast information received via an interface different from the interface or the generation A second step of registering the broadcast information registered in the predetermined information table, and a third step of distributing the broadcast information registered in the information table to another communication device capable of communication, This step is a method for registering the broadcast information in the information table when the broadcast information generated based on the newly received broadcast information or the newly received distribution information is not registered in the information table.

  Further, the communication program of the present invention includes an information generation means for generating predetermined notification information based on distribution information received via a predetermined interface, a notification received via an interface different from the interface. Information registration means for registering information or the generated notification information in a predetermined information table, and notification information registered in the information table function as information distribution means for distributing to other communication devices capable of communication, The information registration means functions as means for registering the notification information in the information table when the notification information generated based on the newly received notification information or the newly received distribution information is not registered in the information table. It is a program for making it happen.

  According to the communication apparatus, communication method, and communication program of the present invention, necessary information can be distributed widely and reliably.

It is the block diagram which showed the structure of the home gateway apparatus which concerns on 1st embodiment of this invention. It is explanatory drawing which showed typically the delivery method of the disaster information by the ad hoc communication by the home gateway apparatus of this embodiment. It is a frame block diagram of disaster information concerning this embodiment. It is a table figure which showed the example of a structure of the disaster information registered into a disaster information table. It is a functional block diagram which shows the functional characteristic of the home gateway apparatus which concerns on 1st embodiment of this invention. It is the 1st flowchart which showed the communication method concerning this embodiment. It is the 2nd flowchart which showed the communication method concerning this embodiment. It is the 3rd flowchart which showed the communication method concerning this embodiment. It is the block diagram which showed the structure of the home gateway apparatus which concerns on 2nd embodiment of this invention. It is the block diagram which showed the structure of the home gateway apparatus which concerns on 3rd embodiment of this invention. It is the block diagram which showed the structure of the home gateway apparatus which concerns on 4th embodiment of this invention.

Hereinafter, as a preferred embodiment of the communication device of the present invention, a home gateway device for smoothly delivering disaster information will be described as an example, and will be described in detail with reference to the drawings.
In general, the home gateway apparatus can connect a wide area network and a narrow area network so as to be communicable, and therefore has a protocol conversion function and a line termination function.
The interface includes a wide area interface for connecting to an optical fiber, ADSL (Asymmetric Digital Subscriber Line), CATV (Community Antenna Television), etc., and information such as a LAN (Local Area Network) and a personal computer. A narrow interface for connecting processing terminals is provided.
That is, according to the home gateway device, a user can access the Internet via a wide area network from an information processing terminal such as a personal computer, and can browse or download various information.
In addition to such basic functions, the home gateway device has a telephone network, a digital TV, a recording device, a home network function for connecting to a CCTV, and the like.

Note that the home gateway device and the communication method thereof according to the present embodiment, which will be described later, are realized by processes, means, and functions that are executed by a computer according to instructions of a communication program (software). The program sends a command to each component of the computer to perform predetermined processing and functions as shown below. That is, each processing / means in the home gateway apparatus or the communication method of the present embodiment is realized by specific means in which the communication program and the computer cooperate.
Note that all or part of the program is provided by, for example, a magnetic disk, optical disk, semiconductor memory, or any other computer-readable recording medium, and the program read from the recording medium is installed in the computer and executed. The The program can also be loaded and executed directly on a computer through a communication line without using a recording medium.

[First embodiment]
First, the home gateway apparatus of 1st embodiment of this invention is demonstrated, referring FIGS. 1-8.
FIG. 1 is a block diagram showing the configuration of the home gateway device according to the first embodiment of the present invention.

A WAN interface unit (first interface of the present invention) 101 is an interface for connecting to a wide area network such as a public network, and can be connected to the Internet via, for example, ADSL, optical fiber, CATV, or the like.
That is, the WAN interface unit 101 enables connection to an external device (for example, a Web server or a database device) on the Internet via these wide area networks.
In particular, in the present embodiment, an emergency earthquake warning packet (distribution information of the present invention) distributed from an information distribution server under the jurisdiction of the Japan Meteorological Agency when an earthquake occurs is received via the WAN interface unit 101.

  The routing control unit 102 includes a protocol stack that performs IP routing processing and termination of various protocols. The destination IP address of an IP packet received from the WAN interface unit 101, a LAN interface unit 103, and a WLAN interface unit 106, which will be described later. And, if the received IP packet is addressed to its own device, the protocol stack performs the termination process of the protocol used by the packet.

Specifically, the routing control unit 102 determines that the received IP packet is addressed to itself and is a packet for notifying disaster information (informing information of the present invention) determined in advance. In the case, the received packet is transferred to the disaster information transmitting / receiving unit 105.
Further, when the routing control unit 102 determines that the received IP packet is addressed to its own device and is an emergency earthquake warning packet distributed from the Japan Meteorological Agency, the received packet is sent to the Meteorological Agency distribution data receiving unit 104. Process to transfer to.
Further, when receiving the encapsulated disaster information from the disaster information transmitting / receiving unit 105, the routing control unit 102 performs a process of transferring to the WLAN interface unit 106.

The LAN interface unit 103 is an interface for connecting a LAN.
Specifically, it is an interface for connecting an information processing apparatus such as a personal computer via a LAN.

  When the meteorological agency distribution data receiving unit 104 receives the packet for emergency earthquake warnings distributed from the meteorological agency from the routing control unit 102, the header information of the packet is removed, and only the earthquake information such as the earthquake detection time is extracted. A process of transferring to the disaster information generation unit 108 is performed.

When the disaster information transmission / reception unit 105 receives a packet for notifying the disaster information from the routing control unit 102, the disaster information transmission / reception unit 105 removes the header information of the packet, extracts only necessary disaster information, and transfers it to the disaster information comparison unit 110 I do.
In addition, the disaster information transmission / reception unit 105 encapsulates the disaster information received from the disaster information table registration unit 109 into a predetermined packet for transmission / reception to / from other home gateway devices existing in a certain wireless zone. Then, a process of transferring to the routing control unit 102 is performed.
For example, for broadcast distribution by the UDP protocol, disaster information is encapsulated by specifying a port number and a broadcast address in advance and transferred to the routing control unit 102.

  The WLAN interface unit (second interface of the present invention) 106 implements ad-hoc mode WLAN communication (hereinafter referred to as ad-hoc communication), transmits a packet received from the routing control unit 102 by ad-hoc communication, and ad-hoc communication. A process of sending the received packet to the routing control unit 102 is performed. Ad hoc communication is one of wireless LAN communication methods, and refers to a method in which devices directly communicate with each other without using an access point.

Here, a disaster information distribution method using ad hoc communication, which is a feature of the present embodiment, will be described with reference to FIG.
In FIG. 2, white circles (including black circles) represent the home gateway devices 1a to 1u, respectively, and broken lines represent wireless zones 2a to 2p indicating the communicable range of the antenna 107 that performs wireless LAN.

As shown in the figure, other home gateway devices 1b to 1h are arranged in the range of the wireless zone 2a of the home gateway device 1a, and the home gateway device 1a communicates directly with the other home gateway devices 1b to 1h ( Ad hoc communication) is possible (see the arrow in FIG. 1a).
Further, home gateway devices 1a, 1b, 1g, 1i to 1l arranged in the range of the wireless zone 2h of the home gateway device 1h, home gateway devices 1h, 1j arranged in the range of the wireless zone 2l of the home gateway device 1l, 1k, 1m to 1p and home gateway devices 1l, 1n, 1o, 1q to 1u arranged in the range of the wireless zone 2p of the home gateway device 1p have the same configuration as described above (FIG. 1h, 1h, 1l and 1p). (See arrow starting from).

Next, a method for distributing disaster information to all other home gateway devices starting from the home gateway device 1a will be described.
First, broadcast distribution of disaster information is performed from the home gateway device 1a.
As a result, the home gateway devices 1b to 1h existing in the wireless zone 2a each receive disaster information.

  The home gateway device 1h distributes the received disaster information to the home gateway devices 1i to 1l existing in the wireless zone 2h of the home gateway device 1h. More specifically, the home gateway device 1h registers the disaster information if the received disaster information is not registered in the disaster information table 111, and the disaster information is transferred to the other home gateway devices 1i to 1l using this registration as a trigger. To deliver.

  Subsequently, disaster information is distributed to the home gateway devices 1m to 1p existing in the wireless zone 2l by performing the same processing on the home gateway device 1l, and then the same processing is performed on the home gateway device 1p. Disaster information is distributed to the home gateway devices 1q to 1u existing in the wireless zone 2p.

  In this way, each home gateway device registers the disaster information received from the communication partner in its own device and repeats broadcast distribution to other devices, so that each home gateway device is distributed from all other home gateway devices. Even if there is no server that centrally manages disaster information, it can be confirmed in the same way.

The disaster information generation unit (information generation means) 108 performs processing for generating predetermined disaster information based on the received data.
Specifically, when the earthquake information such as the earthquake detection time is received from the meteorological agency distribution data receiving unit 104, or when the code corresponding to the sensor type is received from the sensor type identifying unit 114 described later, the MAC address storage The MAC address of the own device is read from the unit 112, and the current time is read from the time control unit 113.
Then, disaster information in a prescribed format is generated using these read data as components.

For example, FIG. 3 is a frame diagram illustrating an example of disaster information generated by the disaster information generation unit 108.
FIG. 3A shows a typical example of a disaster information frame, which is “MAC address 301”, “occurrence time 302”, “disaster type 303”, “additional information length 304”, and “additional information 305”. It consists of each field.
The “MAC address 301” is a field for identifying the home gateway device that first received the earthquake or fire information.
“Occurrence time 302” is a field indicating the occurrence time of an earthquake or fire.
The “disaster type 303” is a field indicating the type of disaster information, and can indicate, for example, an earthquake early warning, an earthquake sensor, or a fire sensor.

“Additional information 305” indicates additional information regarding the disaster, and “Additional information length 304” is a field indicating the length of this additional information.
As the additional information, for example, any one or more of the maximum predicted seismic intensity, seismic intensity (1 to 7), strength specification, main motion arrival prediction time, and the like can be added to the frame.
For example, FIG. 3B shows a case where there is no additional information, FIG. 3C shows a case where there is one additional information, and FIG. 3D shows a case where there is two additional information.
As shown in these figures, when adding additional information, a frame is formed by adding the additional information length and the additional information in pairs. Further, when there is no additional information or when the connection of the additional information is terminated, the additional information length is set to “0”.
The generated disaster information is transferred to a disaster information table registration unit 109 described later.

  The disaster information table registration unit 109 registers the disaster information received from the disaster information generation unit 108 and the disaster information comparison unit 110 in the disaster information table 111 (information table of the present invention), and the disaster information is described later by the voice control unit 116. And a process of transferring to the liquid crystal display control unit 118 (notification means of the present invention) and the disaster information transmission / reception unit 105.

  The disaster information comparison unit 110 receives or receives the information of the disaster occurrence source and the disaster type of the disaster information received from the disaster information transmission / reception unit 105 in each disaster information registered in the disaster information table 111 of the own device. The disaster information having the same disaster source and disaster type information as the disaster information already registered is already registered in the disaster information table 111 of the own device, and the occurrence time of the received disaster information is the occurrence time as the registered disaster information If it is newer, the received disaster information is transferred to the disaster information table registration unit 109.

The disaster information table 111 is a memory capable of registering a plurality of disaster information in a predetermined table format.
As described above, the disaster information table 111 is registered or updated by the disaster information table registration unit 109. For example, as shown in FIG.
Specifically, as shown in the figure, “disaster occurrence terminal MAC address”, “occurrence time”, “disaster type”, “additional information length”, “additional information”, and the like can be registered.

  The MAC address storage unit 112 is a memory for storing the MAC address of the own device.

  The time control unit 113 performs processing for delivering the current time in response to a request from the disaster information generation unit 108.

  The sensor type identification unit 114 can set the type of sensor for each terminal of the sensor terminal 115 in advance, and when the sensor terminal 115 detects an alarm, a code corresponding to the alarm is generated as the disaster information generation unit 108. Process to send to.

  The sensor terminal (third interface of the present invention) 115 is a terminal for connecting to an external control output terminal such as a transfer contact provided in the fire sensor or earthquake sensor, and detects an alarm of the fire sensor or earthquake sensor. be able to.

  When receiving the disaster information, the voice control unit 116 generates a beep sound and notifies the user via the speaker 117, and constitutes a notification unit of the present invention.

  Upon receiving the disaster information, the liquid crystal display control unit 118 converts the disaster information represented by a numerical value into a character string, and notifies the user via the liquid crystal screen 119, which constitutes the notification means of the present invention. To do.

Here, functional features of the home gateway device according to the first embodiment of the present invention will be described with reference to FIG.
As shown in the figure, the home gateway device 1 of this embodiment includes an information generation unit 108, an information registration unit 11, and an information distribution unit 12.
Note that the interfaces shown in the figure correspond to the WAN interface unit 101, the WLAN interface unit 106, and the sensor terminal 115.

The information generation means (disaster information generation unit) 108 generates predetermined disaster information based on the distribution information received via the predetermined interface.
That is, the disaster information shown in FIG. 3 is generated based on the earthquake early warning packet (distribution information) received from the Japan Meteorological Agency received by the WAN interface 101.
In addition, the information generation unit 108 similarly generates disaster information based on the alarm detected by the sensor terminal 115.

The information registration unit 11 registers the received disaster information and the generated disaster information in the disaster information table 111.
Specifically, in addition to registering disaster information received via the WLAN interface 106 in the disaster information table 111, disaster information generated based on emergency earthquake warnings and warnings input via the WAN interface 101 and sensor terminals 115 Register in the disaster information table 111.
In particular, in the present embodiment, only when newly received disaster information or generated disaster information is not registered in the disaster information table 111, the disaster information is registered in the disaster information table 111.
In addition, the information registration unit 11 registers the newly received or generated disaster information in the disaster information table 111 and the time when the disaster occurrence time included in the newly received or generated disaster information is registered. Only when it is newer, the received or generated disaster information is registered in the disaster information table 111.
The information registration unit 11 can be realized by a disaster information table registration unit 109, a disaster information comparison unit 110, and a disaster information table 111 as shown in FIG.

The information distribution unit 12 distributes the disaster information registered in the disaster information table 111 to other home gateway devices.
Specifically, the disaster information transmission / reception unit 105 extracts disaster information from the disaster information table 111 and transfers the disaster information to the routing control unit 102, and the routing control unit 102 executes a predetermined distribution process so that the WLAN interface unit 106 and the antenna Disaster information is broadcasted to neighboring home gateway devices via 107.
Therefore, the information distribution unit 12 can be realized by a routing control unit 102, a disaster information transmission / reception unit 105, a WLAN interface unit 106, and an antenna 107 as shown in FIG.

  That is, as shown in FIG. 5, according to the interface (WAN interface 101, WLAN interface 106, sensor terminal 115), information generation means 108, information registration means 11 and information distribution means 12, the home gateway device 1 of the present embodiment. Can be realized.

Next, a communication method in the home gateway device of the present embodiment will be described with reference to FIGS.
FIG. 6 is a flowchart showing a processing procedure when an emergency earthquake warning or an alarm from a sensor terminal is received in the communication method of the present embodiment, and FIG. 7 receives disaster information from another home gateway device. FIG. 8 is a flowchart showing a disaster information delivery procedure performed in accordance with the process shown in FIG. 6 or 7.

  First, after the home gateway apparatus 1 receives the earthquake early warning distributed from the Japan Meteorological Agency, it generates disaster information and distributes it to other home gateway apparatuses in the ad hoc network (that is, in a predetermined wireless zone). The process up to will be described with reference to FIGS.

As shown in FIG. 6, first, the routing control unit 102 determines whether the data received via the WAN interface 101 is an emergency earthquake warning packet (distribution information of the present invention) distributed from the Japan Meteorological Agency. (S1).
As a result, when it is determined that the received data is an emergency earthquake warning packet (S1: YES), the disaster information generation unit 108 generates disaster information (S3).
Specifically, the packet received by the routing control unit 102 is transferred to the Meteorological Agency data receiving unit 104, and the Meteorological Agency data receiving unit 104 extracts the earthquake information from which the header information and the like are removed from the packet, and sends it to the disaster information generation unit 108. Forward.
The disaster information generation unit 108 generates a disaster information frame shown in FIG. 3 based on the received earthquake information.

That is, the MAC address (“disaster occurrence terminal MAC address”) of the home gateway apparatus 1 that first received the distributed packet for earthquake early warning, the disaster occurrence time (“occurrence time”), and the disaster information type (“ Disaster type "), maximum predicted seismic intensity, seismic intensity, strength designation, main motion arrival prediction time, etc. (" additional information etc. ") are extracted and concatenated to generate the disaster information frame shown in FIG.
The disaster information generation unit 108 transfers the generated disaster information to the disaster information table registration unit 109 as new disaster information (in this case, it is assumed that the earthquake early warning has been received for the first time).

Next, as shown in FIG. 8, the disaster information table registration unit 109 registers the disaster information received from the disaster information generation unit 108 in the disaster information table 111 (S21).
Subsequently, the disaster information table registration unit 109 transfers the registered disaster information to the voice control unit 116 and the liquid crystal display control unit 118.
When receiving the disaster information, the voice control unit 116 generates a beep sound and outputs it from the speaker 117. The disaster information is read and the content is output from the speaker 117 by automatic voice.
In addition, when receiving the disaster information, the liquid crystal display control unit 118 converts the received disaster information into a character string and displays it on the liquid crystal screen.
That is, disaster information is notified to the user through these processes (S22).

Further, the disaster information table registration unit 109 transfers the registered disaster information to the disaster information transmission / reception unit 105.
The disaster information transmission / reception unit 105 encapsulates the received disaster information into a packet decided in advance for disaster information and forwards it to the routing control unit 102 for broadcast distribution.
The routing control unit 102 transfers the encapsulated disaster information to the WLAN interface unit 106, and the WLAN interface unit 106 transmits the encapsulated disaster information via the antenna 107 within the wireless communication possible range under the ad hoc mode. Broadcast distribution is performed to other home gateway devices (S23).

In step S1, if the received data is not an emergency earthquake warning packet (S1: NO), it is next determined whether an alarm is detected via the sensor terminal 115 (S2).
For example, the sensor type identification unit 114 determines whether the sensor terminal 115 detects an alarm of a fire sensor or an earthquake sensor.

As a result, when the sensor terminal 115 detects an alarm (S2: YES), the disaster information generation unit 108 generates disaster information (S3).
Specifically, the sensor type identification unit 114 transmits a code corresponding to the detected alarm type to the disaster information generation unit 108, and the disaster information generation unit 108 transmits this code, the current time information from the time control unit 113, and Disaster information is generated based on the own device MAC address information from the MAC address storage unit 112 (see FIG. 3).

  As shown in FIG. 8, the generated disaster information is registered in the disaster information table 111 (S21), the disaster information is notified to the user (S22), and is broadcast to other home gateway devices (S23). ).

  If the sensor terminal 115 does not detect an alarm in step S2 of FIG. 6 (S2: NO), the process is terminated.

  Next, the process from when the home gateway device 1 receives the disaster information distributed by the ad hoc communication from the other home gateway device to the distribution of the disaster information to other home gateway devices in the ad hoc network of the own device Will be described with reference to FIGS.

First, the routing control unit 102 determines whether the data received via the antenna 107 and the WLAN interface unit 106 is disaster information from another home gateway device.
For example, in the protocol stack, whether or not the packet is disaster information can be determined from the destination port number in the UDP header.

As a result, when it is determined that the received data is disaster information from another home gateway device, the routing control unit 102 transfers the data to the disaster information transmitting / receiving unit 105.
The disaster information transmission / reception unit 105 removes header information and the like from the disaster information packet, and transfers the disaster information to the disaster information comparison unit 110.

Here, the disaster information comparison unit 110 determines whether or not the received disaster information is new depending on whether or not the disaster occurrence terminal MAC address and the disaster type included in the received disaster information are registered in the disaster information table 111. Is determined (S11).
As a result, when it is determined that the received disaster information is new (S11: YES), that is, the same data as the disaster occurrence terminal MAC address and the disaster type included in the disaster information is registered in the disaster information table 111. If not, the disaster information is transferred to the disaster information table registration unit 111 as new information and registered (S21 in FIG. 8).
Then, the user is notified based on the disaster information (S22 in FIG. 8), and the disaster information is broadcasted to other home gateway devices within the wireless communicable range under the ad hoc mode (S23 in FIG. 8).

On the other hand, when it is determined in step S11 that the received disaster information is not new (S11: NO), that is, the same data as the disaster occurrence terminal MAC address and the disaster type included in the disaster information is registered in the disaster information table 111. If so, it is next determined whether or not the disaster occurrence time included in the received disaster information is newer than the disaster occurrence time registered in the disaster information table 111 (S12).
As a result, when it is determined that the disaster occurrence time included in the received disaster information is new (S12: YES), the disaster information is transferred as update information to the disaster information table registration unit 111 for update registration (FIG. 8). S21).
Then, the user is notified based on the disaster information (S22 in FIG. 8), and the disaster information is broadcasted to other home gateway devices within the wireless communicable range under the ad hoc mode (S23 in FIG. 8).

  And in step S12 of FIG. 7, when the generation | occurrence | production time contained in the received disaster information is not new (S12: NO), a process is complete | finished.

  In Step S11, when the “disaster type” included in the received disaster information indicates earthquake early warning, this disaster information is generated based on the emergency earthquake early warning distributed from the Japan Meteorological Agency, Even if only the disaster occurrence terminal MAC address is different, the procedure can be regarded as the same disaster information if there is no difference in the occurrence time.

As described above, the home gateway device 1 of the present embodiment has a wireless LAN function capable of ad hoc communication, and can form an ad hoc network with other home gateway devices.
Specifically, according to the home gateway device 1 of the present embodiment, the emergency earthquake bulletin delivered from the Japan Meteorological Agency and the alarm from the alarm device can be received via a predetermined interface and generated based on the received information. Disaster information can be distributed to neighboring home gateway devices by ad hoc communication.

Also, the same disaster information can be distributed to all target home gateway devices by so-called multi-hop communication.
The home gateway device 1 notifies the user of the received disaster information through vision and hearing.

Therefore, the earthquake early warning can be transmitted to the home gateway device in the ad hoc network that cannot receive the earthquake early warning distribution service.
In addition, since it is possible to minimize the influence of a communication infrastructure failure at the time of a disaster, it is possible to reliably obtain disaster information and each user can recognize this smoothly.

In addition, according to the home gateway device 1 of the present embodiment, since control is performed so that old disaster information that has already been received is not distributed, not only smooth data distribution is possible, but also unified information is transmitted to each user. Can be obtained.
That is, no particular device such as a server for centrally managing information is required, and each user can share the latest disaster information.
For this reason, it is possible not only to obtain highly reliable information at all times, but also to prevent the confusion of the user due to the bias of disaster information, which has been a problem at the time of disaster, and effectively.

  Furthermore, since disaster information generated based on local alarms such as fire sensors can be shared by the home gateway device in the ad hoc network, users who do not have such sensors can also share such raw disaster information. It can contribute to the preparation of the next disaster and quick rescue.

[Second Embodiment]
Next, a home gateway device according to a second embodiment of the present invention will be described with reference to FIG.
FIG. 9 is a block diagram showing the configuration of the home gateway device according to the second embodiment of the present invention.
As shown in the figure, the home gateway device 1 of this embodiment is the same as that of the first embodiment in that it includes an information generation means 108, an information registration means 11, an information distribution means 12, and the like.
However, the home gateway device 1 of the present embodiment is different from the first embodiment in that it includes the all-disaster information transmission control unit 120 and the timer 121. Other components are the same as those in the first embodiment.
Therefore, in FIG. 9, the same components as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.

The timer 121 can set a period of time for periodic operation, and notifies all the disaster information transmission control unit 120 that the set time has passed for each set period.
When receiving the notification from the timer 121, the all-disaster information transmission control unit 120 reads all the disaster information registered in the disaster information table 111 and transfers it to the disaster information transmitting / receiving unit 105.

The disaster information transmission / reception unit 105 encapsulates the received disaster information into a packet decided in advance for disaster information and forwards it to the routing control unit 102 for broadcast distribution.
Then, the routing control unit 102 transfers the encapsulated disaster information to the WLAN interface unit 106, and the WLAN interface unit 106 can wirelessly communicate the encapsulated disaster information via the antenna 107 in the ad hoc mode. Broadcast distribution to other home gateway devices in the network.

As described above, the home gateway device 1 according to the present embodiment can avoid the following problems that may occur during a disaster.
For example, if communication is temporarily disabled due to a power interruption or radio wave failure at the time of a disaster, the home gateway device 1 cannot receive the disaster information distributed during that time.
In other words, even if such a failure is recovered, there is no means for the user to know the disaster information distributed during that time, and there is inconvenience and anxiety due to the fact that the user cannot know the situation of the disaster after the recovery.

However, according to the home gateway device 1 of the present embodiment, since control is performed so that disaster information is periodically distributed, after the device that has had a time slot during which disaster information cannot be received due to a failure or the like is restored, In addition, the disaster information is distributed at a predetermined timing and can be received.
Therefore, according to the home gateway device 1 of the present embodiment, the above-mentioned useful effects can be obtained as well as the same effects as the first embodiment.

[Third embodiment]
Next, a home gateway device according to a third embodiment of the present invention will be described with reference to FIG.
FIG. 10 is a block diagram showing the configuration of the home gateway device according to the third embodiment of the present invention.
As shown in the figure, the home gateway device 1 of the present embodiment is the same as that of the first embodiment in that an information generation unit 108, an information registration unit 11, and an information distribution unit 12 are provided.
However, the home gateway device 1 of the present embodiment is different from the first embodiment in that it includes the all-disaster information transmission control unit 120 and the remaining battery capacity detection unit 122. Other components are the same as those in the first embodiment.
Therefore, in FIG. 10, the same components as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.

The rechargeable battery remaining capacity detection unit 122 can set a threshold value of the remaining capacity of the rechargeable battery.
That is, the rechargeable battery remaining capacity detection unit 122 determines whether the home gateway device 1 is driven by a commercial power source or a rechargeable battery, and when the device is driven by a rechargeable battery, When it is detected that the remaining capacity has fallen below a preset threshold, all disaster information transmission control unit 120 is notified.

When receiving the notification from the rechargeable battery remaining capacity detection unit 122, the all-disaster information transmission control unit 120 reads out all the disaster information registered in the disaster information table 111 and transfers it to the disaster information transmission / reception unit 105.
The disaster information transmission / reception unit 105 encapsulates the received disaster information into a packet decided in advance for disaster information and forwards it to the routing control unit 102 for broadcast distribution.

  Then, the routing control unit 102 transfers the encapsulated disaster information to the WLAN interface unit 106, and the WLAN interface unit 106 can wirelessly communicate the encapsulated disaster information via the antenna 107 in the ad hoc mode. Broadcast distribution to other home gateway devices in the network.

As described above, the home gateway device 1 of this embodiment is configured to distribute disaster information at a timing different from that of the above-described embodiment.
That is, when the remaining capacity of the rechargeable battery that is the starting power source of the home gateway device is reduced, all disaster information stored in the disaster information table is broadcast to other home gateway devices in the vicinity.
For this reason, for example, it is possible to avoid the problem that the accumulated information cannot be distributed, for example, the commercial power source cannot be used in a disaster, the capacity of the rechargeable battery is reduced, and as a result, the capacity of the rechargeable battery is lost and communication becomes impossible. Will be able to.

[Fourth embodiment]
Next, a home gateway device according to a fourth embodiment of the present invention will be described with reference to FIG.
FIG. 11 is a block diagram showing a configuration of a home gateway device according to the fourth embodiment of the present invention.
As shown in the figure, the home gateway device 1 of this embodiment is the same as that of the first embodiment in that it includes an information generation means 108, an information registration means 11, and an information distribution means 12.
However, the home gateway device 1 of this embodiment is different from the first embodiment in that it includes a rescue request control unit 123 and a button 124. Other components are the same as those in the first embodiment.
Therefore, in FIG. 11, the same components as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.

The button 124 is a button to be pressed when the user needs a relief request.
When the relief request control unit 123 detects that the button 124 is pressed, the relief request control unit 123 transmits a code corresponding to the relief request (the notification signal of the present invention) to the disaster information generation unit 108.
When the disaster information generation unit 108 receives the relief request code, the disaster information generation unit 108 generates the relief request information based on the code.
Specifically, it is generated using each field when generating the disaster information frame.
For example, relief request information can be generated by designating a code indicating a relief request in the disaster type field.

The disaster information generation unit 108 transfers the generated relief request information to the disaster information table registration unit 109, and the disaster information table registration unit 109 registers this relief request information in the disaster information table 111.
Relief request information is broadcast to other home gateway devices using this registration as a trigger.

Note that a nearby home gateway device that has received the rescue request information can know the rescue request via the speaker 117 and the liquid crystal screen 119.
In this case, the voice control unit 116 can perform control so as to output a beep sound having a type and volume different from those of the disaster information.
Further, the liquid crystal display control unit 118 can perform control so as to output a character string having a color or size different from that of the disaster information.

As described above, the home gateway device 1 according to the present embodiment not only receives or distributes disaster information, but can effectively request relief in the event of a disaster.
For example, if you can't get out of the house due to a collapse of a house due to an earthquake, or if a fire has occurred, you can make a request for help to a nearby user using an ad hoc network, and contribute to quick relief activities Will be able to.

As mentioned above, although the preferred embodiment was shown and demonstrated about the home gateway apparatus 1 of this invention, the home gateway apparatus 1 concerning this invention is not limited only to embodiment mentioned above, Various in the range of this invention. Needless to say, it is possible to implement this change.
For example, the communication apparatus according to the present invention may be another information processing terminal having an ad hoc mode wireless LAN function instead of the home gateway apparatus.
Also, in the flowcharts shown in FIGS. 6 to 8, the latest disaster information can be continuously obtained and notified to the user by always returning to step S1 or step S11 without performing end processing. .

  INDUSTRIAL APPLICABILITY The present invention can be suitably used for a communication apparatus that can access the Internet and has an ad hoc mode wireless LAN function.

1 Home gateway device (communication device)
DESCRIPTION OF SYMBOLS 11 Information registration means 12 Information distribution means 101 WAN interface (1st interface)
102 Routing Control Unit 103 LAN Interface Unit 105 Disaster Information Transmission / Reception Unit 106 WLAN Interface (Second Interface)
108 Disaster information generator (information generator)
109 Disaster information table registration unit (information registration means)
111 Disaster information table (information table)
115 Sensor terminal (third interface)
116 Audio Control Unit 117 Speaker 118 Liquid Crystal Display Control Unit 119 Liquid Crystal Screen 121 Timer 122 Rechargeable Battery Remaining Capacity Detection Unit (Rechargeable Battery Remaining Capacity Detection Unit)
13 Notification means

Claims (15)

Information generating means for generating predetermined notification information based on distribution information received via a predetermined interface;
Information registration means for registering the notification information received via the interface different from the interface or the generated notification information in a predetermined information table;
Information distribution means for distributing the notification information registered in the information table to another communication device capable of communication;
The information registration means
A communication apparatus, wherein the notification information is registered in the information table when the notification information generated based on the newly received notification information or the newly received distribution information is not registered in the information table. The distribution information and the notification information have corresponding predetermined time information,
The information registration means
Newly received broadcast information or broadcast information generated based on newly received distribution information is registered in the information table, and the time included in the broadcast information is included in the broadcast information registered in the information table. The communication apparatus according to claim 1, wherein in the case of newer information, the notification information generated based on the newly received notification information or the newly received distribution information is updated and registered in the information table.   2. A first interface for receiving the distribution information distributed via a predetermined communication network and a second interface for receiving the broadcast information distributed from another communication device. Or the communication apparatus of 2. A third interface for detecting a signal emitted from an external device connected to the communication device;
The information generating means
The communication apparatus according to claim 1, wherein predetermined notification information is generated based on a signal detected via the third interface. The second interface is a wireless LAN compatible interface,
The information distribution means includes
The communication device according to claim 3 or 4, wherein the notification information registered in the information table is distributed to the other communication device existing in a range where wireless communication is possible. Having a timer to set a predetermined period,
The information distribution means includes
The communication device according to claim 1, wherein broadcast information registered in the information table is distributed to the other communication device according to a cycle set in the timer. Rechargeable battery remaining capacity detection means for detecting the remaining capacity of the rechargeable battery that is the drive power source of the communication device,
The information distribution means includes
The communication device according to claim 1, wherein when the remaining capacity of the rechargeable battery becomes equal to or less than a predetermined amount, the notification information registered in the information table is distributed to the other communication device. The information generating means
Generate predetermined notification information according to a predetermined operation,
The information registration means
The communication device according to claim 1, wherein the generated notification information is registered in the information table.   The communication device according to any one of claims 1 to 8, further comprising notification means for notifying the contents when the notification information is received.   The communication apparatus according to any one of claims 1 to 9, further comprising a gateway function for connecting the wide area network and the narrow area network so that communication is possible.   The communication device according to claim 1, wherein the distribution information is an earthquake early warning distributed from the Japan Meteorological Agency. A first step of generating predetermined notification information based on distribution information received via a predetermined interface;
A second step of registering broadcast information received via an interface different from the interface or the generated broadcast information in a predetermined information table;
A third step of distributing the notification information registered in the information table to another communication device capable of communication;
The second step includes
A communication method comprising: registering broadcast information in the information table when broadcast information generated based on newly received broadcast information or newly received distribution information is not registered in the information table. The distribution information and the notification information have corresponding predetermined time information,
The second step includes
Newly received broadcast information or broadcast information generated based on newly received distribution information is registered in the information table, and the time included in the broadcast information is included in the broadcast information registered in the information table. The communication method according to claim 12, wherein, when newer, the notification information generated based on the newly received notification information or the newly received distribution information is updated and registered in the information table. A predetermined communication device,
Information generating means for generating predetermined notification information based on distribution information received via a predetermined interface;
Information registration means for registering broadcast information received via an interface different from the interface or the generated broadcast information in a predetermined information table; and
The notification information registered in the information table functions as information distribution means for distributing to other communication devices capable of communication,
The information registration means;
When the newly received broadcast information or the broadcast information generated based on the newly received distribution information is not registered in the information table, the broadcast information functions as means for registering the broadcast information in the information table. Communication program. The distribution information and the notification information have corresponding predetermined time information,
The information registration means;
Newly received broadcast information or broadcast information generated based on newly received distribution information is registered in the information table, and the time included in the broadcast information is included in the broadcast information registered in the information table. The communication program according to claim 14, wherein, when newer, the communication program causes the information information generated based on the newly received notification information or the newly received distribution information to be updated and registered in the information table.

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