JP2013165467A - Radio communication apparatus and radio communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique to omit a procedure for connection with an opposite apparatus of radio communication when connecting with a network via the opposite apparatus.SOLUTION: A radio communication apparatus comprises: creation means for creating a message; and transmission means which transmits the message before establishing radio communication connection with another apparatus. The radio communication apparatus also comprises: reception means which, before establishing radio communication connection with another apparatus, receives a message from the apparatus; and transmission means which transmits the message from the opposite apparatus received by the reception means, before establishing radio communication connection with a further apparatus.

Description

  Embodiments described herein relate generally to a wireless communication apparatus and a wireless communication method.

  In recent years, various wireless technologies have been provided to users due to the development of wireless communication technologies. For example, a wireless technology such as Bluetooth (registered trademark, hereinafter omitted) has been developed, and various wireless communication devices capable of Bluetooth communication have become widespread. In addition, a usage mode in which a Bluetooth communication partner device is connected to a network such as the Internet is also assumed.

Normally, this is based on the premise that data is transmitted and received after the own device and the counterpart device are connected (see, for example, Patent Document 1).
However, there is a demand for a technique that does not require a connection procedure every time data is transmitted / received, but means for realizing such demand is not known.

JP 2008-116994 A

  An object of the embodiment of the present invention is to provide a technique that omits a connection procedure with a partner device when connecting to a network via a partner device of wireless communication.

  In order to solve the above-described problem, according to the embodiment, a wireless communication apparatus includes a creation unit that creates a message, and a transmission unit that transmits the message before establishing a wireless communication connection with another device. . In addition, the wireless communication device receives a message from the device before establishing a wireless communication connection with another device, and connects the message received from the partner device received by the receiving device to another device. Further comprising transmission means for transmitting before establishing.

  The effect of the invention is not particularly described.

The block diagram which shows one Embodiment of this invention. The block block diagram of the radio | wireless communication apparatus of the embodiment. The figure shown in order to demonstrate an example of the data written in EIR of the embodiment. FIG. 3 is a diagram showing an example of a format of data to be written to EIR of the same embodiment. The sequence diagram of message transmission / reception of the wireless communication apparatus used for the embodiment.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
First, as an overview of the embodiment, when there is message data that must be urgently transmitted in a situation where a certain device cannot connect to the Internet, the message data is included in the EIR defined by Bluetooth, and is transmitted to peripheral devices. The EIR including the data is multicast, and when the data reaches a device connected to the Internet, the data is transmitted from the device to the other party via the Internet.

  As a background to this, even when an emergency such as an earthquake occurs, even when it is desired to send an email urgently, the radio wave reception sensitivity may be poor or the wireless LAN may not be connected. In such a case, a method of transmitting data such as mail to the other party is realized.

  In recent years, smartphones have become popular, and most smartphones are equipped with Bluetooth. In addition, the version is v2.1 or higher, and the Bluetooth used by a PC (Personal Computer) is often v2.1 or higher, and there is no problem as feasibility. In addition, not only email but also Twitter and other types of applications are increasing as apps that communicate with mobile devices such as smartphones.

Hereinafter, embodiments will be described with reference to the drawings. First, FIG. 1 is a conceptual diagram showing a wireless communication device A to a wireless communication device F in the present embodiment.
The wireless communication devices A to E are wireless communication devices that can perform wireless communication with each other by a wireless communication protocol such as Bluetooth, and are exemplified as mobile phones in this embodiment. In the present embodiment, the wireless communication apparatus A is exemplified as a mobile phone, but is not limited thereto. For example, a slate PC, a smartphone, a PDA (Personal Digital Assistant), a stationary PC, a clamshell PC, a weight scale, etc. Various devices can be considered. Similarly to the above, the wireless communication devices B to E are not limited to the DTV, and various devices can be considered.

  The wireless communication system supports Bluetooth Core Spec Ver.2.1 and later versions of the Bluetooth specification, and can use Extended Inquiry Response (EIR), which is a function of Bluetooth Core Spec Ver.2.1.

  Here, the function of Inquiry in Bluetooth including EIR will be briefly described. In Bluetooth, there is an Inquiry function as a function for knowing what kind of Bluetooth communicable device exists within a wireless reachable range. Inquiry can receive a packet describing information such as an address transmitted from a Bluetooth device within a wireless reach. At the time of this transmission / reception, devices do not establish a wireless communication connection, and a wireless communication connection can be established using information on packets transmitted / received by this inquiry. In Bluetooth Core Spec version 2.1, Extended Inquiry Response (EIR) is defined in which the Inquiry response is extended, and the area extended by this EIR is described in Inquiry response before Bluetooth Core Spec Ver.2.1. It became possible to post information that could not be done. In this EIR, various information is used for transmission.

Next, the internal configuration of the wireless communication devices A to E in the present embodiment will be described.
FIG. 2 is a block diagram showing an example of the internal configuration of the wireless communication devices A to E in the present embodiment.
The wireless communication devices A to E include a control unit 11, a memory 12, a timer 13, a wireless control unit 14, and a wireless communication circuit 15. The wireless communication devices A to E have other configurations such as a display unit and a speaker, but the description is omitted here for simplicity.

The control unit 11 is a CPU (Central Processing Unit), for example, and has a function of controlling the entire wireless communication apparatuses A to E in an integrated manner.
The memory 12 is a non-volatile storage medium, for example, and stores various programs and data. The memory 12 may operate as a work memory used by the control unit 11 when executing various processes.

The timer 13 has a function of determining the passage of time.
The wireless control unit 14 has a function of controlling wireless communication performed by the wireless communication circuit 15 with another wireless communication device, and the wireless control unit 14 can execute wireless communication with the other wireless communication device using Bluetooth. Is possible.

  The wireless communication circuit 15 is a circuit having a function of transmitting and receiving a wireless signal in Bluetooth communication. The wireless communication circuit 15 is controlled by the wireless control unit 14 to transmit and receive wireless signals. At least the wireless communication device E can be connected to the Internet.

  Next, EIR transmitted / received by the wireless communication devices A to E will be described. FIG. 3 is a conceptual diagram showing an example of device information of the wireless communication apparatus in the present embodiment. As actual data, the control unit 11 of FIG. 2 controls the memory 12 and is placed in the memory 12.

  The wireless communication devices A to E receive device information from other devices through the inquiry. In the present embodiment, the device information data (200) transmitted by each device and received by other devices is generally used for encrypting a device name (200a), a BD (Bluetooth Device) address, and a public key. Examples include a key to be used and encrypted authentication data.

That is, the information described in the EIR transmitted by the wireless communication devices A to E includes a key used for encryption such as a device name, a BD address, and a public key.
The BD address is an address used for identifying a device when performing Bluetooth.
In public key cryptography, a public key is a key that a device transmits (public) to another device, and a device that transmits a public key uses authentication data encrypted by the other device using this public key. Can be decrypted by the private key possessed by itself. The public key transmitted by a certain device corresponds to the private key that this device has, and the encryption to the data performed by the other device using this public key is decrypted only by the corresponding private key. be able to.

The encrypted authentication data is authentication data encrypted using a key used for encryption of a certain device.
An example of data to be written in the Extended Inquiry Response is shown in FIG. 3 above, but an example of a data format related thereto is shown in FIG. As shown in FIG. 4, by attaching a tag before the data, it is possible to determine what the data in the Extended Inquiry Response is. The wireless control unit 14 takes in the data of the contents of FIG. 3 placed in the memory 12 as a creation means for creating a message, creates such an EIR with a tag, and transmits it from the wireless communication circuit 15.

  That is, a numerical value representing the data length of this data is prefixed to the data consisting of the device name tag and the device name. Hereinafter, similarly, data consisting of an address tag and a BD address, data consisting of an emergency tag and whether it is an emergency, data consisting of a destination tag and a destination address, data consisting of an application tag and an application type, and an effective time tag A numerical value representing the data length of these data is prefixed to the data consisting of the valid time value and the data consisting of the message tag and the message content, and the whole is connected. Of these, the type of application can be specified in addition to email and Twitter.

On the other hand, from the EIR with such a tag received from the wireless communication circuit 15, the wireless control unit 14 forms data placed in the memory 12 in cooperation with the control unit 11.
FIG. 4 is a conceptual diagram showing an example of an EIR data format in this embodiment. In this embodiment, Bluetooth Core Spec version 2.1 or later is used as a wireless communication method, and Extended Inquiry Response which is a function therein is applied. Let us briefly explain Extended Inquiry Response again. In Bluetooth, there is a function called “Inquiry” as a means for knowing what kind of Bluetooth device exists within a wireless reachable range. Inquiry receives device information transmitted from a Bluetooth device within range of radio. At that time, a connection for transmitting device information is not established. From Core Spec version 2.1, Inquiry has been extended as Extended Inquiry Response to transmit up to 240 bytes of information in addition to these device information.

  That is, EIR is information for wireless communication connection (information for establishing a wireless communication connection, information for establishing a wireless communication connection). As an EIR data format, an area in which the data itself is described, and data of this data There is an area where the length is described. In the area where the data itself is described, there are an area indicating the tag of the data and an area where the data indicated by the tag is described.

Immediately before the data such as the device name and the BD address, tags indicating that the data is the data such as the device name and the BD address are attached.
In the area (extended area) extended from the previous version by EIR, a key used for encryption such as a public key and authentication data are described. As described above, it is not permitted in the Bluetooth specification to describe the authentication data in plain text, but in the present embodiment, it is described with encryption (not shown).

  Further, this extended area is used as shown in FIGS. 3 and 4 in this embodiment. For example, for the emergency tag YES (NO), a uniform value is set in the wireless communication devices A to E. The emergency tag is information that instructs a device that has received an EIR that indicates that the emergency tag indicates YES to send a message included in the EIR to the destination indicated by the destination address via the Internet. When not connected, the message, transmission destination address, emergency tag, and the like included in the EIR may be defined as information that the receiving device instructs to include in the EIR for multicasting.

  Next, wireless communication processing performed by the wireless communication apparatus according to the present embodiment will be described. FIG. 5 is a sequence diagram illustrating processing of wireless communication performed by the wireless communication device according to the present embodiment. Before explaining this sequence diagram, the following two points will be touched.

(1) Data expiration date Since data is transmitted in an emergency, it is necessary to reduce the amount of power used as much as possible. Therefore, it is desirable to specify the time to be registered in the EIR, delete it from the EIR when the specified time elapses, and turn off Bluetooth. Alternatively, if the number of devices via EIR exceeds a certain number, it is desirable that there is no device connected to the Internet nearby and that the device is deleted from EIR and Bluetooth is turned off. Both can be handled by writing the valid period and the number of devices (not shown) in the EIR.

(2) Conditions for registering in EIR For example, when data is transmitted from a large number of devices all at once when an earthquake occurs, data that exceeds the capacity of EIR can be transmitted from a large number of devices. There is sex. For nearby devices, it doesn't make much sense to register, because the distance conditions are not so different from the device itself. Therefore, RSSI (Received Signal Strength Indication, Received Signal Strength Indicator or received signal strength) received with EIR can be judged from the nearby device or the far device, so RSSI Prioritize the smaller ones and register them in the EIR.

  RSSI is a circuit or signal for measuring the strength of a signal received by a wireless communication device. RSSI is mainly used for the purpose of controlling the transmission range in wireless communication such as wireless LAN and Bluetooth. This is because if the output is too strong, it will cover unnecessarily far away places, resulting in waste of power and risk of eavesdropping.

  Also, RSSI may be used as a measurement method for realizing a noise cutoff function called squelch. An antenna mark (the sensitivity level is indicated by an increase / decrease in the number of bars) for displaying the reception sensitivity of the mobile phone is also measured and displayed by RSSI.

As a data transmission sequence, FIG. 5 shows a data exchange sequence in the configuration of FIG.
The behavior of devices that are not connected to the Internet is as follows:
The wireless (communication) device A creates data to be transmitted to the other party. (Step S101a)
The data here is data such as a message based on a character input from the user, for example. That is, the wireless device A receives character input from the user and creates data (message) based on the character input. In addition, the wireless device A sets an address corresponding to an operation input from the user as a transmission destination (destination). Then, the wireless device A executes subsequent processing in response to an instruction operation from the user.

The wireless device A writes the created data in the EIR of the Bluetooth module. (Step S102a)
When the wireless device A can be connected to a wireless LAN or a mobile communication network, the wireless device A transmits data via these networks instead of the EIR. In other words, when the wireless device A is instructed to transmit data (message) from the user and cannot transmit the data from a predetermined network (when not connected to the predetermined network), the wireless device A Write to EIR. Here, the wireless device A writes the EIR including the data (message), the address of the message transmission destination (destination), the emergency tag, and the like. The wireless device A stores various information corresponding to each tag in the data area following the device name tag, address tag, emergency tag, destination tag, application tag, valid time tag, and message tag described in FIG. Write.

Wireless device A multicasts the EIR. (Step S103a)
The wireless device B receives the EIR and checks whether there is an emergency tag and the content is “YES”. (Step S104b)
When the emergency tag of the received EIR is “YES”, the wireless device B confirms the valid time. If it is outside the valid time, no further processing is performed. (Step S105b)
The wireless device B confirms whether it can connect to the Internet. (Step S106b)
If wireless device B cannot connect to the Internet, it checks the RSSI of the received EIR and decides whether to write to the EIR. If you have an EIR with an emergency tag from another device, give priority to the one with a small RSSI that seems to be far away. (Step S107b)

If the wireless device B cannot connect to the Internet, the received content is written in its own EIR. (Step S108b)
Wireless device B multicasts the EIR. (Step S109b)
A device that receives an EIR up to a device connected to the Internet performs the same processing as the wireless device B.
The behavior of devices connected to the Internet is as follows:
The wireless device E receives the EIR and confirms whether the content of the emergency tag is “YES”. (Step S111e)
When the emergency tag is “YES”, the wireless device E confirms the valid time. If it is outside the valid time, do nothing. (Step S112e)
The wireless device E confirms whether it can connect to the Internet. (Step S113e)
The wireless device E confirms the application tag. (Step S114e)
The wireless device E transmits data according to the type of application via the Internet. (Step S115e). The data transmission destination is, for example, an address included in a data area following the transmission destination tag.

The device set as the transmission destination receives data via the Internet. (Step S116f)
In general, a connection procedure is required every time data is transmitted / received, but this operation is not necessary in this embodiment. Conventionally, a non-scalable function such as FHS was used, but this embodiment uses a function called Extended Inquiry Response, which is added in Bluetooth Core Spec version 2.1 or later. If a device that cannot connect to the Internet wants to send urgent data, register the data, type of application to be used, effective time, etc. in the EIR, send data to the device one after another, and send a message from the device connected to the Internet. Get sent. In addition, by setting the effective period, the necessary minimum power consumption is obtained.

  In addition, RSSI is checked to preferentially write data coming from as far away as possible. Since this method transmits data by EIR, it is not necessary to establish a connection with the counterpart device. By transmitting data in this way, it is possible to transmit a message to the other party even in a situation where connection to the Internet is not possible.

  As described above, even if the own device is not directly connected to the Internet, the data can be transmitted to the other party by transmitting the data to the devices connected to the Internet one after another.

(Supplement of embodiment)
The following wireless communication apparatus has been described.
1. A wireless communication device comprising means for transmitting data of its own device to a partner device.
2. 2. A wireless communication device according to 1, wherein the wireless device transmits data from its own device wirelessly without establishing a connection between the communication devices.
3. 2. A wireless communication device according to 1, wherein the wireless device receives data from a counterpart device wirelessly without establishing a connection between the communication devices.
4). 4. A wireless communication device according to claim 3, wherein the received data from the counterpart device is written to the own device and transmitted wirelessly without establishing a connection to another device.

5. 5. A wireless communication device according to 4, wherein writing of received data is determined by an RSSI value.
6). 6. A wireless communication device according to 5, wherein writing of received data is determined based on a set valid time.
7). 6. A wireless communication device according to 6, wherein the wireless communication device transmits data via the Internet in accordance with a designated application type.
In addition, this invention is not limited to the said embodiment, In the range which does not deviate from the summary, it can implement in various modifications. For example, in the wireless devices A to E, an application in which a relay mode is entered by a control signal from the carrier side using a 3G line as a mobile phone is possible.

  Various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above-described embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements according to different embodiments may be appropriately combined.

10a Wireless communication device A
10b Wireless communication device B
10c Wireless communication device C
10d Wireless communication device D
10e Wireless communication device E
10f Wireless communication device F
11 Control unit
12 timer
13 memory
14 Wireless controller
15 Wireless communication circuit
200 data
200a Data of wireless communication device A

  Embodiments described herein relate generally to a wireless communication apparatus and a wireless communication method.

In recent years, various wireless technologies have been provided to users due to the development of wireless communication technologies. For example, a wireless technology such as Bluetooth (registered trademark) has been developed, and various wireless communication devices capable of Bluetooth (registered trademark) communication have become widespread. Also, a usage mode in which a Bluetooth (registered trademark) communication counterpart device is connected to a network such as the Internet is also assumed.

Normally, this is based on the premise that data is transmitted and received after the own device and the counterpart device are connected (see, for example, Patent Document 1).
However, there is a demand for a technique that does not require a connection procedure every time data is transmitted / received, but means for realizing such demand is not known.

JP 2008-116994 A

  An object of the embodiment of the present invention is to provide a technique that omits a connection procedure with a partner device when connecting to a network via a partner device of wireless communication.

  In order to solve the above-described problem, according to the embodiment, a wireless communication apparatus includes a creation unit that creates a message, and a transmission unit that transmits the message before establishing a wireless communication connection with another device. . In addition, the wireless communication device receives a message from the device before establishing a wireless communication connection with another device, and connects the message received from the partner device received by the receiving device to another device. Further comprising transmission means for transmitting before establishing.

The block diagram which shows one Embodiment of this invention. The block block diagram of the radio | wireless communication apparatus of the embodiment. The figure shown in order to demonstrate an example of the data written in EIR of the embodiment. FIG. 3 is a diagram showing an example of a format of data to be written to EIR of the same embodiment. The sequence diagram of message transmission / reception of the wireless communication apparatus used for the embodiment.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
First, as an overview of the embodiment, when there is message data that must be urgently transmitted in a situation where a device cannot connect to the Internet, the message data is included in the EIR defined by Bluetooth (registered trademark) , The EIR including the data is multicast to peripheral devices, and when the data reaches a device connected to the Internet, the data is transmitted from the device to the other party via the Internet.

  As a background to this, even when an emergency such as an earthquake occurs, even when it is desired to send an email urgently, the radio wave reception sensitivity may be poor or the wireless LAN may not be connected. In such a case, a method of transmitting data such as mail to the other party is realized.

In recent years, smartphones have become popular, and most smartphones are equipped with Bluetooth (registered trademark) . The version is v2.1 or higher, and PC (Personal
Bluetooth (registered trademark) used by Computer) is often v2.1 or later, and there is no problem as feasibility. In addition, not only email but also Twitter and other types of applications are increasing as apps that communicate with mobile devices such as smartphones.

Hereinafter, embodiments will be described with reference to the drawings. First, FIG. 1 is a conceptual diagram showing a wireless communication device A to a wireless communication device F in the present embodiment.
The wireless communication devices A to E are wireless communication devices that can perform wireless communication with each other by a wireless communication protocol such as Bluetooth (registered trademark) , and are exemplified as mobile phones in this embodiment. . In the present embodiment, the wireless communication apparatus A is exemplified as a mobile phone, but is not limited thereto. For example, a slate PC, a smartphone, a PDA (Personal Digital Assistant), a stationary PC, a clamshell PC, a weight scale, etc. Various devices can be considered. Similarly to the above, the wireless communication devices B to E are not limited to the DTV, and various devices can be considered.

This wireless communication system supports Bluetooth (registered trademark) Core Spec Ver.2.1 or a later version of Bluetooth (registered trademark) specification, and is an extended inquiry function that is a function of Bluetooth (registered trademark) Core Spec Ver.2.1.
Response (EIR) can be used.

Here, the Inquiry function in Bluetooth (registered trademark) including EIR will be briefly described. In Bluetooth (registered trademark), there is what Bluetooth (registered trademark) Inquiry function as a function to know how communicable devices exist in a range wireless arrives. Inquiry can receive a packet describing information such as an address transmitted from a Bluetooth (registered trademark) device within a wireless reachable range. At the time of this transmission / reception, devices do not establish a wireless communication connection, and a wireless communication connection can be established using information on packets transmitted / received by this inquiry. Bluetooth (Registered Trademark) Core Spec version 2.1 defines Extended Inquiry Response (EIR) in which the Inquiry response is extended, and the area expanded by this EIR is before Bluetooth (Registered Trademark) Core Spec Ver.2.1. Can put information that could not be described in the Inquiry response. In this EIR, various information is used for transmission.

Next, the internal configuration of the wireless communication devices A to E in the present embodiment will be described.
FIG. 2 is a block diagram showing an example of the internal configuration of the wireless communication devices A to E in the present embodiment.
The wireless communication devices A to E include a control unit 11, a memory 12, a timer 13, a wireless control unit 14, and a wireless communication circuit 15. The wireless communication devices A to E have other configurations such as a display unit and a speaker, but the description is omitted here for simplicity.

The control unit 11 is a CPU (Central Processing Unit), for example, and has a function of controlling the entire wireless communication apparatuses A to E in an integrated manner.
The memory 12 is a non-volatile storage medium, for example, and stores various programs and data. The memory 12 may operate as a work memory used by the control unit 11 when executing various processes.

The timer 13 has a function of determining the passage of time.
The wireless control unit 14 has a function of controlling wireless communication performed by the wireless communication circuit 15 with other wireless communication devices. The wireless control unit 14 performs wireless communication with other wireless communication devices using Bluetooth (registered trademark). It is possible to execute.

The wireless communication circuit 15 is a circuit having a function of transmitting and receiving a wireless signal in Bluetooth (registered trademark) communication. The wireless communication circuit 15 is controlled by the wireless control unit 14 to transmit and receive wireless signals. At least the wireless communication device E can be connected to the Internet.

  Next, EIR transmitted / received by the wireless communication devices A to E will be described. FIG. 3 is a conceptual diagram showing an example of device information of the wireless communication apparatus in the present embodiment. As actual data, the control unit 11 of FIG. 2 controls the memory 12 and is placed in the memory 12.

The wireless communication devices A to E receive device information from other devices through the inquiry. In the present embodiment, device information data (200) transmitted by each device and received by other devices is generally a device name (200a), a BD (Bluetooth (registered trademark) Device) address, and a public key. And a key used for encryption, encrypted authentication data, and the like.

That is, the information described in the EIR transmitted by the wireless communication devices A to E includes a key used for encryption such as a device name, a BD address, and a public key.
The BD address is an address used for identifying a device when performing Bluetooth (registered trademark) .
In public key cryptography, a public key is a key that a device transmits (public) to another device, and a device that transmits a public key uses authentication data encrypted by the other device using this public key. Can be decrypted by the private key possessed by itself. The public key transmitted by a certain device corresponds to the private key that this device has, and the encryption to the data performed by the other device using this public key is decrypted only by the corresponding private key. be able to.

The encrypted authentication data is authentication data encrypted using a key used for encryption of a certain device.
An example of data to be written in the Extended Inquiry Response is shown in FIG. 3 above, but an example of a data format related thereto is shown in FIG. As shown in FIG. 4, by attaching a tag before the data, it is possible to determine what the data in the Extended Inquiry Response is. The wireless control unit 14 takes in the data of the contents of FIG. 3 placed in the memory 12 as a creation means for creating a message, creates such an EIR with a tag, and transmits it from the wireless communication circuit 15.

  That is, a numerical value representing the data length of this data is prefixed to the data consisting of the device name tag and the device name. Hereinafter, similarly, data consisting of an address tag and a BD address, data consisting of an emergency tag and whether it is an emergency, data consisting of a destination tag and a destination address, data consisting of an application tag and an application type, and an effective time tag A numerical value representing the data length of these data is prefixed to the data consisting of the valid time value and the data consisting of the message tag and the message content, and the whole is connected. Of these, the type of application can be specified in addition to email and Twitter.

On the other hand, from the EIR with such a tag received from the wireless communication circuit 15, the wireless control unit 14 forms data placed in the memory 12 in cooperation with the control unit 11.
FIG. 4 is a conceptual diagram showing an example of an EIR data format in this embodiment. In the present embodiment, Bluetooth (registered trademark) Core Spec version 2.1 or later is used as a wireless communication method, and Extended Inquiry, which is a function therein, is used.
Apply Response. Let us briefly explain Extended Inquiry Response again. In Bluetooth (registered trademark) , there is a function called Inquiry as a means for knowing what kind of Bluetooth (registered trademark) device exists in a range where radio waves can reach. Inquiry receives device information transmitted from a Bluetooth (registered trademark) device within the reach of radio. At that time, a connection for transmitting device information is not established. From Core Spec version 2.1, Inquiry has been extended as Extended Inquiry Response to transmit up to 240 bytes of information in addition to these device information.

  That is, EIR is information for wireless communication connection (information for establishing a wireless communication connection, information for establishing a wireless communication connection). As an EIR data format, an area in which the data itself is described, and data of this data There is an area where the length is described. In the area where the data itself is described, there are an area indicating the tag of the data and an area where the data indicated by the tag is described.

Immediately before the data such as the device name and the BD address, tags indicating that the data is the data such as the device name and the BD address are attached.
In the area (extended area) extended from the previous version by EIR, a key used for encryption such as a public key and authentication data are described. As described above, it is not permitted in the Bluetooth (registered trademark) specification to describe the authentication data as plain text, but in the present embodiment, it is described by encryption (not shown).

  Further, this extended area is used as shown in FIGS. 3 and 4 in this embodiment. For example, for the emergency tag YES (NO), a uniform value is set in the wireless communication devices A to E. The emergency tag is information that instructs a device that has received an EIR that indicates that the emergency tag indicates YES to send a message included in the EIR to the destination indicated by the destination address via the Internet. When not connected, the message, transmission destination address, emergency tag, and the like included in the EIR may be defined as information that the receiving device instructs to include in the EIR for multicasting.

  Next, wireless communication processing performed by the wireless communication apparatus according to the present embodiment will be described. FIG. 5 is a sequence diagram illustrating processing of wireless communication performed by the wireless communication device according to the present embodiment. Before explaining this sequence diagram, the following two points will be touched.

(1) Data expiration date Since data is transmitted in an emergency, it is necessary to reduce the amount of power used as much as possible. Therefore, it is desirable to specify the time for registration in the EIR, delete it from the EIR when the specified time elapses, and turn off Bluetooth (registered trademark) . Alternatively, when the number of devices via EIR exceeds a certain number, it is desirable that there is no device connected to the Internet nearby and that the device is deleted from EIR and Bluetooth (registered trademark) is turned off. Both can be handled by writing the valid period and the number of devices (not shown) in the EIR.

(2) Conditions for registering in EIR For example, when data is transmitted from a large number of devices all at once when an earthquake occurs, data that exceeds the capacity of EIR can be transmitted from a large number of devices. There is sex. For nearby devices, it doesn't make much sense to register, because the distance conditions are not so different from the device itself. Therefore, RSSI (Received Signal Strength Indication, Received Signal
(Strength Indicator or received signal strength) can be used to determine whether the device has arrived from a nearby device or from a distant device. Therefore, the device with the smallest RSSI is preferentially registered in the EIR.

RSSI is a circuit or signal for measuring the strength of a signal received by a wireless communication device. RSSI is mainly used for the purpose of controlling the transmission range in wireless communication such as wireless LAN and Bluetooth (registered trademark) . This is because if the output is too strong, it will cover unnecessarily far away places, resulting in waste of power and risk of eavesdropping.

  Also, RSSI may be used as a measurement method for realizing a noise cutoff function called squelch. An antenna mark (the sensitivity level is indicated by an increase / decrease in the number of bars) for displaying the reception sensitivity of the mobile phone is also measured and displayed by RSSI.

As a data transmission sequence, FIG. 5 shows a data exchange sequence in the configuration of FIG.
The behavior of devices that are not connected to the Internet is as follows:
The wireless (communication) device A creates data to be transmitted to the other party. (Step S101a)
The data here is data such as a message based on a character input from the user, for example. That is, the wireless device A receives character input from the user and creates data (message) based on the character input. In addition, the wireless device A sets an address corresponding to an operation input from the user as a transmission destination (destination). Then, the wireless device A executes subsequent processing in response to an instruction operation from the user.

The wireless device A writes the created data in the EIR of the Bluetooth (registered trademark) module. (Step S102a)
When the wireless device A can be connected to a wireless LAN or a mobile communication network, the wireless device A transmits data via these networks instead of the EIR. In other words, when the wireless device A is instructed to transmit data (message) from the user and cannot transmit the data from a predetermined network (when not connected to the predetermined network), the wireless device A Write to EIR. Here, the wireless device A writes the EIR including the data (message), the address of the message transmission destination (destination), the emergency tag, and the like. The wireless device A stores various information corresponding to each tag in the data area following the device name tag, address tag, emergency tag, destination tag, application tag, valid time tag, and message tag described in FIG. Write.

Wireless device A multicasts the EIR. (Step S103a)
The wireless device B receives the EIR and checks whether there is an emergency tag and the content is “YES”. (Step S104b)
When the emergency tag of the received EIR is “YES”, the wireless device B confirms the valid time. If it is outside the valid time, no further processing is performed. (Step S105b)
The wireless device B confirms whether it can connect to the Internet. (Step S106b)
If wireless device B cannot connect to the Internet, it checks the RSSI of the received EIR and decides whether to write to the EIR. If you have an EIR with an emergency tag from another device, give priority to the one with a small RSSI that seems to be far away. (Step S107b)

If the wireless device B cannot connect to the Internet, the received content is written in its own EIR. (Step S108b)
Wireless device B multicasts the EIR. (Step S109b)
A device that receives an EIR up to a device connected to the Internet performs the same processing as the wireless device B.
The behavior of devices connected to the Internet is as follows:
The wireless device E receives the EIR and confirms whether the content of the emergency tag is “YES”. (Step S111e)
When the emergency tag is “YES”, the wireless device E confirms the valid time. If it is outside the valid time, do nothing. (Step S112e)
The wireless device E confirms whether it can connect to the Internet. (Step S113e)
The wireless device E confirms the application tag. (Step S114e)
The wireless device E transmits data according to the type of application via the Internet. (Step S115e). The data transmission destination is, for example, an address included in a data area following the transmission destination tag.

The device set as the transmission destination receives data via the Internet. (Step S116f)
In general, a connection procedure is required every time data is transmitted / received, but this operation is not necessary in this embodiment. Conventionally, FHS, which is a non-scalable function, was used, but this embodiment is an Extended Inquiry added in Bluetooth ( registered trademark) Core Spec version 2.1 or later.
Use the function called Response. If a device that cannot connect to the Internet wants to send urgent data, register the data, type of application to be used, effective time, etc. in the EIR, send the data to the device one after another, and send a message from the device connected to the Internet. Get sent. In addition, by setting the effective period, the necessary minimum power consumption is obtained.

  In addition, RSSI is checked to preferentially write data coming from as far away as possible. Since this method transmits data by EIR, it is not necessary to establish a connection with the counterpart device. By transmitting data in this way, it is possible to transmit a message to the other party even in a situation where connection to the Internet is not possible.

  As described above, even if the own device is not directly connected to the Internet, the data can be transmitted to the other party by transmitting the data to the devices connected to the Internet one after another.

(Supplement of embodiment)
The following wireless communication apparatus has been described.
1. A wireless communication device comprising means for transmitting data of its own device to a partner device.
2. 2. A wireless communication device according to 1, wherein the wireless device transmits data from its own device wirelessly without establishing a connection between the communication devices.
3. 2. A wireless communication device according to 1, wherein the wireless device receives data from a counterpart device wirelessly without establishing a connection between the communication devices.
4). 4. A wireless communication device according to claim 3, wherein the received data from the counterpart device is written to the own device and transmitted wirelessly without establishing a connection to another device.

5. 5. A wireless communication device according to 4, wherein writing of received data is determined by an RSSI value.
6). 6. A wireless communication device according to 5, wherein writing of received data is determined based on a set valid time.
7). 6. A wireless communication device according to 6, wherein the wireless communication device transmits data via the Internet in accordance with a designated application type.
In addition, this invention is not limited to the said embodiment, In the range which does not deviate from the summary, it can implement in various modifications. For example, in the wireless devices A to E, an application in which a relay mode is entered by a control signal from the carrier side using a 3G line as a mobile phone is possible.

  Various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above-described embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements according to different embodiments may be appropriately combined.

10a Wireless communication device A
10b Wireless communication device B
10c Wireless communication device C
10d Wireless communication device D
10e Wireless communication device E
10f Wireless communication device F
11 Control unit
12 timer
13 memory
14 Wireless controller
15 Wireless communication circuit
200 data
200a Data of wireless communication device A

Claims (11)

  A wireless communication apparatus comprising receiving means for receiving a message and a destination address of the message transmitted from the other device before establishing a wireless communication connection with the other device.   The apparatus further includes a transmission unit configured to transmit the message received from the counterpart device and the transmission destination address received by the reception unit before establishing a wireless communication connection to another device different from the device indicated by the transmission destination address. The wireless communication apparatus according to claim 1. The receiving means receives the message, the transmission destination address, and predetermined accompanying information from the other device,
The wireless communication apparatus according to claim 2, wherein the transmission unit transmits the message, the transmission destination address, and the predetermined incidental information to the other device when the predetermined incidental information is received.   The wireless communication apparatus according to claim 2, wherein the transmission unit transmits the message to the another device when the wireless communication apparatus is not connected to a predetermined network.   3. The wireless communication apparatus according to claim 2, wherein the receiving unit selects a partner device based on a value of received signal strength, and the transmitting unit transmits a message from the partner device.   The wireless communication apparatus according to claim 2, wherein the transmission unit transmits within the valid time set as accompanying information of the message.   The wireless communication apparatus according to claim 2, wherein the transmission unit transmits a message via the Internet according to an application type designated as accompanying information of the message. A creation means for creating a message specifying a destination;
Transmitting means for transmitting the message to an unspecified device before establishing a wireless communication connection with another unspecified device different from the destination;
A wireless communication apparatus comprising:   The wireless communication apparatus according to claim 1 or 8, wherein the message or accompanying information of the message is described in an extended area of an extended inquiry response (EIR) defined in the Bluetooth (R) specification. A creation process to create a message;
A sending step of sending this message before establishing a wireless communication connection with another device;
A wireless communication method including:   A wireless communication method including a receiving step of receiving a message from a device before establishing a wireless communication connection with another device.

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