JP2016158002A - Communication device, and communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance security in a communication system obtaining connection permission automatically, by using a short-range wireless communication having a communication area narrower than an ad hoc network, when connecting a device with ad hoc network constructed by a wireless network.SOLUTION: A communication device has a first communication unit performing wireless communication by using a first communication system in a first communication range, a second communication unit performing wireless communication by using a second communication system in a second communication range, and a disconnection unit for disconnecting the communication established with other communication device by the first communication unit. The second communication unit receives the setting information for establishing communication by the first communication system, the first communication unit performs wireless communication with other communication device which has received the setting information by using the first communication system, and the disconnection unit disconnects the communication established with other communication device by the first communication unit, upon elapsing a time of first time threshold after the state where other communication device is not located in the second communication range.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a communication system.

  When connecting a device to an ad hoc network constructed by a wireless network such as a wireless LAN, there is a technology that uses short-range wireless communication having a communication area narrower than the ad hoc network and performs authentication for automatically obtaining connection permission. Are known.

  A technique is known in which when a beacon transmitted by a wireless LAN access point cannot be acquired, it is determined that the access point is away from the wireless radio wave range, and a new access point is connected (see, for example, Patent Document 1).

  When the device leaves the communication area for short-range wireless communication, the device disconnects communication with the wireless LAN. However, when leaving the communication area for short-range wireless communication, the device may not receive an instruction to disconnect communication with the wireless LAN transmitted by short-range wireless communication. When the instruction to disconnect the communication with the wireless LAN cannot be received, the process for disconnecting the communication with the wireless LAN is not performed by the device, so the connection has been made between the device and the wireless LAN. Will remain. For this reason, the device can access the device via the wireless LAN, and if the device is used by a malicious person, there is a security problem.

  The present invention improves security in a communication system that automatically uses a short-distance wireless communication having a communication area smaller than that of the ad hoc network when a device is connected to the ad hoc network constructed by the wireless network, and automatically obtains connection permission. The purpose is to let you.

A communication device according to an embodiment of the disclosure is:
A first communication unit that performs wireless communication using the first communication method within a first communication range;
A second communication unit that performs wireless communication using the second communication method within the second communication range;
A disconnection processing unit for disconnecting established communication with another communication device by the first communication unit;
Have
The second communication unit receives setting information for establishing communication according to the first communication method;
The first communication unit performs wireless communication with the other communication device that has received the setting information using the first communication method,
The disconnection processing unit, when the time of the first time threshold has elapsed since the other communication device is not in the second communication range, the other communication by the first communication unit. Disconnect established communication with the device.

  According to an embodiment of the disclosure, when connecting a device to an ad hoc network constructed by a wireless network, the short-range wireless communication having a communication area narrower than the ad hoc network is used, and the communication system automatically obtains connection permission. , Can improve security.

It is a figure which shows the structural example of the radio | wireless communications system which concerns on one embodiment. It is a figure which shows the hardware structural example of the 1st radio | wireless communication apparatus which concerns on one embodiment, and a 2nd radio | wireless communication apparatus. It is a figure which shows the hardware structural example of the 3rd radio | wireless communication apparatus which concerns on one embodiment. It is a sequence chart which shows operation | movement of the radio | wireless communications system which concerns on one Embodiment. It is a sequence chart which shows operation | movement of the radio | wireless communications system which concerns on one Embodiment. It is a functional block diagram which shows the radio | wireless communications system which concerns on one embodiment. It is a flowchart which shows operation | movement of the radio | wireless communications system which concerns on one Embodiment. It is a figure which shows the structural example of the radio | wireless communications system which concerns on one modification.

Next, the form for implementing this invention is demonstrated, referring drawings based on the following Examples. Examples described below are merely examples, and embodiments to which the present invention is applied are not limited to the following examples.
In all the drawings for explaining the embodiments, the same reference numerals are used for those having the same function, and repeated explanation is omitted.

<Overview>
<Wireless communication system>
The wireless communication system according to the present embodiment includes a second wireless communication area such as a wireless PAN (Personal Area Network) in a first wireless communication area that performs communication using a first wireless communication method such as a wireless LAN (Local Area Network). The wireless network of the second wireless communication area narrower than the first wireless communication area is formed by the wireless communication method. When the device corresponding to the wireless LAN and the wireless PAN enters the wireless PAN, the device acquires setup information such as authentication information and setting information set in the wireless LAN transmitted from the wireless PAN. The device connects to the wireless LAN using setup information such as authentication information and setting information acquired from the wireless PAN. Further, when the device leaves the wireless PAN, the device performs processing for disconnecting communication with the wireless LAN. That is, the device can communicate via the wireless LAN in a limited wireless communication area that overlaps the second wireless communication area of the wireless PAN in the first wireless communication area of the wireless LAN.

  FIG. 1 shows a wireless communication system according to the present embodiment. The radio communication system according to the present embodiment includes a first radio communication device 100, a second radio communication device 200, and third radio communication devices 300a to 300c. Hereinafter, an arbitrary third wireless communication device among the third wireless communication devices 300a to 300c is referred to as a “third wireless communication device 300”.

  The first wireless communication apparatus 100 can be installed in an access point, a wireless base station, or the like, and forms a first wireless communication area 150 by a first wireless communication method such as a wireless LAN. The second wireless communication apparatus 200 can be installed in an access point, a wireless base station, or the like, and is in the first wireless communication area 150 by a second wireless communication method such as near field communication such as Bluetooth (registered trademark). A second wireless communication area 250 narrower than the first wireless communication area 150 is formed. In the example shown in FIG. 1, the second wireless communication area 250 is included in the first wireless communication area 150.

  The third wireless communication device 300 can be mounted on a portable communication device such as a smartphone, a tablet terminal, a portable game machine, or a node type PC, and is connected to the first wireless communication device 100 and the second wireless communication device 200. Wireless communication is possible. However, the third wireless communication devices 300a to 300c are transmitted by the second wireless communication device 200 when they are located in the overlapping area where the first wireless communication area 150 and the second wireless communication area 250 overlap. Setup information such as authentication information and setting information used when connecting to the first wireless communication apparatus 100 can be acquired. The third wireless communication devices 300a to 300c that have acquired the setup information can perform a connection process with the first wireless communication device 100 using the setup information.

  In the example shown in FIG. 1, since the second wireless communication area 250 is included in the first wireless communication area 150, the overlapping area is the same area as the second wireless communication area 250. Since the third wireless communication devices 300a and 300b are located in the overlapping area, the setup information transmitted by the second wireless communication device 200 can be acquired, and the first wireless communication device 100 can be obtained using the setup information. Connection processing can be performed between Since the third wireless communication device 300c is located in the first wireless communication area but not in the overlapping area, the third wireless communication device 300c cannot acquire the setup information transmitted by the second wireless communication device 200, and the first wireless communication device Connection processing cannot be performed with 100.

  Hereinafter, as an example, a case where a wireless LAN is applied to the first wireless communication system and Bluetooth (registered trademark) is applied to the second wireless communication system will be described. You may make it apply a non-contact radio | wireless (NFC: Near Field Communications), ultrasonic communication, etc. to a 2nd radio | wireless communication system. The wireless communication device 300 may acquire setup information by reading the QR code using a QR code (registered trademark).

<Hardware Configuration of Embodiment>
Next, the hardware configuration of this embodiment will be described. FIG. 2 shows a hardware configuration example of the first radio communication apparatus 100 and the second radio communication apparatus 200 according to the present embodiment. As shown in FIG. 2, the first wireless communication apparatus 100 according to the present embodiment includes a first communication circuit 102 that transmits and receives a wireless signal via an antenna according to the standard of the first wireless communication system. And a first CPU (Central Processing Unit) 104 that controls the operation of the entire first wireless communication apparatus 100. The first wireless communication apparatus 100 also includes a first ROM (Read Only Memory) 106 that stores various data such as a first wireless communication apparatus program used for driving the first CPU 104 and transmission data. . In addition, the first wireless communication device 100 includes a first I / F (Interface) 108 for data transmission via the communication network 2 and the first wireless communication device 100 in a first wireless communication method. A first communication control unit 110 that operates as an access point. The first communication circuit 102, the first CPU 104, the first ROM 106, the first I / F 108, and the first communication control unit 110 are connected by a first bus 140. The first wireless communication device program may be a file in an installable format or an executable format, recorded on a computer-readable recording medium such as a recording medium, and distributed.

  The second wireless communication apparatus 200 according to the present embodiment includes a second communication circuit 202 that transmits and receives wireless signals via an antenna according to the second wireless communication system standard, and the entire second wireless communication apparatus 200. And a second CPU 204 for controlling the operation. The second wireless communication apparatus 200 includes a second ROM 206 that stores various data such as a second wireless communication apparatus program used for driving the second CPU 204 and transmission data. The second wireless communication apparatus 200 operates using the second I / F 208 for data transmission via the communication network 2 and the second wireless communication apparatus 200 as an access point of the second wireless communication system. And a second communication control unit 210 to be operated. The second communication circuit 202, the second CPU 204, the second ROM 206, the second I / F 208, and the second communication control unit 210 are connected by a second bus 240. The second wireless communication device program may be installed in an installable or executable format, recorded on a computer-readable recording medium such as a recording medium, and distributed.

  Here, the first wireless communication device 100 and the second wireless communication device 200 may be configured as a single wireless communication device. In this case, the first I / F 108 and the second I / F 208 are directly connected without passing through the communication network 2.

  FIG. 3 shows a hardware configuration example of the third wireless communication apparatus 300 according to the present embodiment. As shown in FIG. 3, the third wireless communication apparatus 300 of the present embodiment includes a first wireless communication unit 302 that performs wireless communication according to the standard of the first wireless communication method, And a second wireless communication unit 312 that performs wireless communication in accordance with a wireless communication system standard.

  The first wireless communication unit 302 controls the overall operation of the first wireless communication unit 302 and the third communication circuit 304 that transmits and receives wireless signals via the antenna according to the standard of the first wireless communication method. 3 CPU 306. The first wireless communication unit 302 includes a third ROM 308 that stores various data such as a first wireless communication unit program used for driving the third CPU 306 and transmission data, and a second wireless communication unit. 3rd I / F310 for transmitting data between 312 and 312 is provided. The third communication circuit 304, the third CPU 306, the third ROM 308, and the third I / F 310 are connected by a third bus 350. The first program for the wireless communication unit may be recorded in a computer-readable recording medium such as a recording medium and distributed in a file in an installable or executable format.

  The second wireless communication unit 312 controls the overall operation of the second wireless communication unit 312 and the fourth communication circuit 314 that transmits and receives wireless signals via the antenna according to the second wireless communication method standard. 4 CPU 316. The second wireless communication unit 312 includes a fourth ROM 318 that stores various data such as a second wireless communication unit program and transmission data used to drive the fourth CPU 316, and a first wireless communication unit. And a fourth I / F 320 for transmitting data to and from 302. The fourth communication circuit 314, the fourth CPU 316, the fourth ROM 318, and the fourth I / F 320 are connected by a fourth bus 352. The third I / F 310 and the fourth I / F 320 are connected by a bus 354. The second wireless communication unit program may be a file in an installable format or an executable format, and may be recorded and distributed on a computer-readable recording medium such as a recording medium.

<Operation of wireless communication system (1)>
FIG. 4 shows connection processing in the radio communication system according to the present embodiment. In the example illustrated in FIG. 4, the third wireless communication device 300 a establishes communication by performing connection processing with the first wireless communication device 100. The present invention can also be applied to the case where the third wireless communication apparatus 300b performs a connection process with the first wireless communication apparatus 100.

  In step S1, the second wireless communication device 200 forming the second wireless communication area 250 transmits communication range information indicating the second wireless communication area 250 to the third wireless communication device 300a. For example, the second wireless communication apparatus 200 notifies the peripheral device of the presence of the own device by transmitting an advertisement packet via three advertisement channels. The advertisement packet includes communication range information indicating the second wireless communication area 250.

  In step S <b> 2, the third wireless communication apparatus 300 a receives the communication range information transmitted by the second wireless communication apparatus 200 and transmits a response signal for the communication range information to the second wireless communication apparatus 200. The third wireless communication device 300a recognizes that it is located in the second wireless communication area 250 by referring to the communication range information.

  In step S3, when the second wireless communication apparatus 200 receives the response signal transmitted by the third wireless communication apparatus 300a, the second wireless communication apparatus 200 performs pairing processing with the third wireless communication apparatus 300a. As a result, communication can be performed between the second wireless communication device 200 and the third wireless communication device 300a using the second wireless communication method. The second wireless communication apparatus 200 transmits setup information used when connecting to the first wireless communication apparatus 100 forming the first wireless communication area 150 to the third wireless communication apparatus 300a. For example, the second wireless communication apparatus 200 transmits setup information such as a WPS PIN code (unique identification information) for facilitating wireless LAN connection standardized by the Wi-Fi alliance using the second wireless communication system. And transmitted to the third wireless communication apparatus 300a.

  In step S4, when the third wireless communication apparatus 300a receives the setup information transmitted by the second wireless communication apparatus 200, the third wireless communication apparatus 300a uses the setup information to send a setup instruction signal for instructing the first wireless communication apparatus 300a. It transmits to the communication apparatus 100.

  In step S5, the first wireless communication device 100 performs communication setup when receiving the setup instruction signal transmitted by the third wireless communication device 300a. In step S6, the third wireless communication apparatus 300a performs communication setup. As a result, in the overlapping area where the first wireless communication area and the second wireless communication area overlap, the first wireless communication method is used between the third wireless communication device 300a and the first wireless communication device 100. Communication is established.

  As described above, in the wireless communication system according to the present embodiment, the first wireless communication area 150 formed by the first wireless communication device 100 and the second wireless communication formed by the second wireless communication device 200. The third wireless communication apparatus 300 located in the overlapping area of the area 250 can acquire the setup information transmitted by the second wireless communication apparatus 200. Then, the third wireless communication apparatus 300 can perform setup with the first wireless communication apparatus 100 based on the setup information. As a result, the third wireless communication apparatus 300 can communicate with another third wireless communication apparatus 300 via the first wireless communication apparatus 100.

  Here, when the first wireless communication device 100 and the second wireless communication device 200 are configured as one wireless communication device, a setup instruction signal is sent from the second wireless communication device 200 to the first wireless communication device 100. Is sent.

<Operation of wireless communication system (2)>
FIG. 5 shows a disconnection process in the radio communication system according to the present embodiment. In the example shown in FIG. 5, when the third wireless communication apparatus 300 a moves out of the second wireless communication area 250, the third wireless communication apparatus 300 a and the first wireless communication apparatus 100 are not connected. The established communication is disconnected. In the example shown in FIG. 5, when the third wireless communication apparatus 300 b moves out of the second wireless communication area 250, the third wireless communication apparatus 300 b and the first wireless communication apparatus 100 are not connected. The present invention can also be applied to a case where communication established in the above is disconnected.

  In step S11, the second wireless communication device 200 forming the second wireless communication area 250 transmits the communication range information indicating the second wireless communication area 250 to the third wireless communication device 300a at a predetermined timing. To do.

  In step S12, the third wireless communication device 300a and the second wireless communication device 200 have positioning devices such as GPS (Global Positioning System), and each detects the current position of the own device. The third wireless communication apparatus 300a compares the communication range information transmitted by the second wireless communication apparatus 200 with the current position detected by the positioning apparatus, so that the current position is in the second wireless communication area 250. Judge whether there is. Also, the third wireless communication device 300a measures the received signal strength (RSSI) of the communication range information transmitted by the second wireless communication device 200, and converts the received signal strength into a distance. . Then, the third wireless communication device 300a compares the communication range information transmitted by the second wireless communication device 200 with the one obtained by converting the received signal strength into the distance, thereby obtaining the second wireless communication area 250. It may be determined whether or not there is a current position. The third wireless communication device 300a transmits a response signal accompanied by information indicating whether or not the second wireless communication device 200 has a current position in the second wireless communication area 250.

  In step S13, when the second wireless communication apparatus 200 receives a response signal indicating that the current position is outside the second wireless communication area 250 from the third wireless communication apparatus 300a, the second wireless communication apparatus 200 A disconnection instruction signal for instructing to disconnect the communication of the apparatus 200 is transmitted to the third wireless communication apparatus 300a. Note that the radio wave arrival area of the second wireless communication apparatus 200 is set to be wider than the second wireless communication area 250. For this reason, even if the third wireless communication apparatus 300a is located outside the second wireless communication area 250, the disconnection instruction signal transmitted by the second wireless communication apparatus 200 can be received. .

  In step S14, when receiving the disconnection instruction signal transmitted by the second wireless communication apparatus 200, the third wireless communication apparatus 300a instructs the first wireless communication apparatus 100 to disconnect the communication. Send. In step S15, the first wireless communication device 100 performs a process of disconnecting communication. In step S16, the third wireless communication apparatus 300a performs processing for disconnecting communication. Thereby, the communication between the third wireless communication apparatus 300a and the first wireless communication apparatus 100 is disconnected.

  Here, when the first wireless communication device 100 and the second wireless communication device 200 are configured as one wireless communication device, the second wireless communication device 200 changes the first wireless communication device 100 to A communication disconnection instruction signal is transmitted.

  As described above, in the wireless communication system according to the present embodiment, the third wireless communication is performed in the first wireless communication area 150 formed by the first wireless communication device 100 and in the second wireless communication area 250. Communication of the devices 300a-300b can be limited. Therefore, the second wireless communication area 250 is provided to the third wireless communication apparatus 300 that does not have permission to establish communication with the first wireless communication apparatus 100 that forms the first wireless communication area 150. While being located, communication with the first wireless communication apparatus 100 can be established and used.

<First Embodiment>
The radio communication system according to the present embodiment can be applied to the radio communication system described with reference to FIG. The third wireless communication device 300 located in the second wireless communication area 250 and performing wireless communication with the first wireless communication device 100 performs the processing of steps S11 and S12 shown in FIG. 5 at a predetermined timing. Is going. Here, suppose a case where the second wireless communication area 250 is brought close to an area formed by a range where radio waves transmitted by the second wireless communication apparatus 200 reach. In this case, the third wireless communication device 300 located in the second wireless communication area 250 and communicating with the first wireless communication device 100 is outside the second wireless communication area 250. When the user leaves, the radio wave transmitted by the second wireless communication apparatus 200 cannot be received. As a result, the third wireless communication apparatus 300 cannot receive the communication range information and cannot transmit a response to the communication range information. The second wireless communication apparatus 200 cannot receive a response transmitted by the third wireless communication apparatus 300, and therefore cannot transmit a disconnection instruction to the third wireless communication apparatus 300.

  In addition, when the second wireless communication area 250 is brought close to an area formed by a range where radio waves transmitted by the second wireless communication device 200 reach, the third wireless communication device 300 transmits communication range information. May be received near the boundary where the radio wave transmitted by the second wireless communication apparatus 200 arrives. In this case, if the third wireless communication apparatus 300 determines whether or not the current position is in the second wireless communication area 250 based on the received signal strength, the third wireless communication apparatus 300 may be affected by environmental effects such as ambient temperature. In some cases, the variation in the received signal strength of the communication range information in the third wireless communication apparatus 300 increases. As a result, the second wireless communication area where the second wireless communication area 250 has an error in the determination result as to whether or not the current position is present or the third wireless communication device 300 is not moving. The determination of whether the current position is at 250 may vary.

  In the present embodiment, even when the determination as to whether or not the second wireless communication area 250 has a current position varies, it is possible to reduce the repeated connection process and disconnection process.

<Functional configuration of the present embodiment>
FIG. 6 is a functional block diagram of first wireless communication apparatus 100, second wireless communication apparatus 200, and third wireless communication apparatus 300 according to the present embodiment.

  The first wireless communication apparatus 100 includes a first transmission / reception unit 1002, a first connection processing unit 1004, a first disconnection processing unit 1006, and a first communication control unit 1008. Each of these units is configured so that any one of the constituent elements of the first wireless communication device 100 shown in FIG. 2 is in accordance with the first wireless communication device program stored in the first ROM 106. It is a function or means realized by operating according to a command from the CPU 104.

<First Wireless Communication Device 100>
Next, each part of the first wireless communication apparatus 100 will be described in detail. The first transmission / reception unit 1002 of the first wireless communication device 100 is realized by a command from the first communication circuit 102 and the first CPU 104 shown in FIG. 3 transmits and receives various data (information) to and from the wireless communication apparatus 300.

  The first connection processing unit 1004 of the first wireless communication apparatus 100 is realized by a command from the first CPU 1004 shown in FIG. 2, and uses setup information transmitted by the third wireless communication apparatus 300. Communication is established by performing connection processing with the third wireless communication apparatus 300 based on the first wireless communication method.

  The first disconnection processing unit 1006 of the first wireless communication apparatus 100 is realized by a command from the first CPU 104 shown in FIG. 2 and according to a disconnection instruction transmitted by the third wireless communication apparatus 300. The communication with the third wireless communication apparatus 300 is disconnected.

  The first communication control unit 1008 of the first wireless communication apparatus 100 is realized by a command from the first CPU 1004 and the first communication control unit 110 shown in FIG. Communication control is performed based on the first wireless communication method between the third wireless communication apparatus 300 and the first wireless communication apparatus 100 that have been connected in step 1004.

<Second wireless communication apparatus 200>
The second wireless communication apparatus 200 includes a second transmission / reception unit 2002, a second connection processing unit 2004, a second disconnection processing unit 2006, a second communication control unit 2008, and a storage / read processing unit 2010. And a storage unit 2012. Each of these units is configured so that any one of the constituent elements of the second wireless communication apparatus 200 shown in FIG. 2 corresponds to the second wireless communication apparatus program stored in the second ROM 206. It is a function or means realized by operating according to a command from the CPU 204.

(Setup information management table)
In the storage unit 2012, a setup information management DB 2014 configured by a setup information management table as shown in Table 1 is constructed.

セットアップ情報管理テーブルは、第３の無線通信装置３００が第１の無線通信装置１００との間で第１の無線通信方式によって接続する際に使用するＳＳＩＤ(Service Set Identifier)、セキュリティ方式、パスワードなどのネットワークの情報、ＩＰアドレス、ポート番号などのアドレス情報などの接続情報を紐付けることによって対応付けたものである。ＳＳＩＤは無線ＬＡＮの識別情報であり、セキュリティ方式はＷＥＰ、ＷＰＡ、ＷＰＡ２、ＷＰＡ２−ＴＫＩＰ、ＡＥＳなどの暗号化方式の規格によって表される。

The setup information management table includes an SSID (Service Set Identifier), a security method, a password, and the like used when the third wireless communication device 300 is connected to the first wireless communication device 100 by the first wireless communication method. Network information, IP address, port information and other connection information such as address information are associated with each other. The SSID is identification information of the wireless LAN, and the security method is represented by an encryption method standard such as WEP, WPA, WPA2, WPA2-TKIP, or AES.

(Third wireless communication device management table)
In the storage unit 2012, a third wireless communication device management DB 2016 configured by a third wireless communication device management table as shown in Table 2 is constructed.

第３の無線通信装置管理テーブルは、第３の無線通信装置３００の第２の無線通信方式におけるアドレスと、第３の無線通信装置３００の種別と、第３の無線通信装置３００のＩＰアドレスとを紐付けることによって対応付けたものである。第３の無線通信装置３００の第２の無線通信方式におけるアドレスは、第２の無線通信方式によって第３の無線通信装置３００が発見される際に取得され、第２の無線通信方式によって行われる通信範囲の特定するために使用される。第３の無線通信装置３００の第２の無線通信方式におけるアドレスの一例は、BD_ADDR、BluetoothデバイスアドレスなどのBluetoothアドレスである。第３の無線通信装置３００の種別は、スマートデバイスなどのデバイスの種類を表す。第２の無線通信装置２００は、第３の無線通信装置管理テーブルに付帯されている情報に基づいて、制御対象を選択する。

The third wireless communication apparatus management table includes the address of the third wireless communication apparatus 300 in the second wireless communication system, the type of the third wireless communication apparatus 300, and the IP address of the third wireless communication apparatus 300. Are associated with each other. The address in the second wireless communication method of the third wireless communication device 300 is acquired when the third wireless communication device 300 is discovered by the second wireless communication method, and is performed by the second wireless communication method. Used to specify the communication range. An example of an address in the second wireless communication method of the third wireless communication apparatus 300 is a Bluetooth address such as BD_ADDR or a Bluetooth device address. The type of the third wireless communication apparatus 300 represents the type of device such as a smart device. The second wireless communication device 200 selects a control target based on information attached to the third wireless communication device management table.

<Functional Units of Second Wireless Communication Device 200>
Next, each part of the 2nd radio | wireless communication apparatus 200 is demonstrated in detail. The second transmission / reception unit 2002 of the second wireless communication apparatus 200 is realized by a command from the second communication circuit 202 and the second CPU 204 shown in FIG. 3 transmits and receives various data (information) to and from the wireless communication apparatus 300.

  The second connection processing unit 2004 of the second wireless communication apparatus 200 is realized by a command from the second CPU 204 shown in FIG. 2 and creates communication range information to be transmitted to the third wireless communication apparatus 300. Then, the data is transmitted from the second transmission / reception unit 2002. Further, when the second connection processing unit 2004 receives a response signal transmitted by the third wireless communication device 300 that has received the communication range information, the second connection processing unit 2004 makes a pair with the third wireless communication device 300. Communication is established by performing connection processing such as ring processing.

  The second disconnection processing unit 2006 of the second wireless communication apparatus 200 is realized by a command from the second CPU 204 shown in FIG. The second disconnection processing unit 2006 is currently outside the second wireless communication area 250 in response signals transmitted by the third wireless communication device 300 that is communicating with the first wireless communication device 100. When information indicating that there is a position is attached, disconnection instruction information is created and transmitted from the second transmission / reception unit 2002 to the third wireless communication apparatus 300.

  The second communication control unit 2008 of the second wireless communication apparatus 200 is realized by a command from the second communication control unit 210 illustrated in FIG. 2, and the second connection processing unit 2004 performs connection processing. Communication control such as transmission of setup information is performed between the third wireless communication device 300 and the second wireless communication device 200.

  The storage / reading processing unit 2010 of the second wireless communication apparatus 200 is realized by the instruction from the second CPU 204 shown in FIG. 2 and the second ROM 206 shown in FIG. 2 as an example. The storage / reading processing unit 2010 stores various data in the storage unit 2012 and performs processing for reading out various data stored in the storage unit 158.

<Third wireless communication apparatus 300>
The third wireless communication apparatus 300 includes a second transmission / reception unit 3002, a communication range determination unit 3004, a second connection processing unit 3006, a setup information acquisition unit 3008, a second disconnection processing unit 3010, 1 transmission / reception unit 3016, first connection processing unit 3018, first disconnection processing unit 3020, storage / reading processing unit 3022, storage unit 3024, and timer 3028. Each of these components is stored in the first wireless communication unit program stored in the third ROM 306 and the fourth ROM 318 in any one of the components of the third wireless communication device 300 shown in FIG. Functions or means realized by operating according to a command from either one or both of the third CPU 306 and the fourth CPU 316 according to one or both of the stored programs for the second wireless communication unit It is.

(Third wireless communication device management table)
In the storage unit 3024, a third wireless communication device management DB 3026 configured by a third wireless communication device management table is constructed. The above-described Table 2 can be applied to the third wireless communication apparatus management table.

<Each functional unit of third wireless communication apparatus 300>
Next, each unit of the third wireless communication apparatus 300 will be described in detail.

  The second transmission / reception unit 3002 of the third wireless communication apparatus 300 is realized by a command from the fourth communication circuit 314 and the fourth CPU 316 shown in FIG. 2 transmits / receives various data (information) to / from the wireless communication apparatus 200.

  The communication range determination unit 3004 of the third wireless communication apparatus 300 is realized by a command from the fourth CPU 316 shown in FIG. 3 and the communication range information transmitted by the second wireless communication apparatus 200, It is determined whether or not the second wireless communication area 250 has the current position by comparing the received signal strength of the communication range information converted into the distance, and the second wireless communication area 250 has the current position. A response signal accompanied with information indicating whether or not is generated is transmitted from the second transmitting / receiving unit 3002 to the second wireless communication apparatus 200.

  The second connection processing unit 3006 of the third wireless communication apparatus 300 is realized by a command from the fourth CPU 316 shown in FIG. Connection processing is performed by a wireless communication method.

  The setup information acquisition unit 3008 of the third wireless communication apparatus 300 is realized by a command from the fourth CPU 316 shown in FIG. 3, and the second connection processing unit 3006 performs the connection process. Setup information transmitted by the wireless communication apparatus 200 is acquired from the second transmission / reception unit 3002.

  The second disconnection processing unit 3010 of the third wireless communication apparatus 300 is realized by a command from the fourth CPU 316 shown in FIG. The second disconnection processing unit 3010 disconnects communication with the second wireless communication apparatus 200 using the second wireless communication method.

  The timer 3028 of the third wireless communication apparatus 300 is realized by a command from the fourth CPU 316 shown in FIG. The timer 3028 measures an elapsed time after the communication range information transmitted by the second wireless communication apparatus 200 is not received by the second transmission / reception unit 3002.

  The first transmission / reception unit 3016 of the third wireless communication apparatus 300 is realized by a command from the third communication circuit 304 and the third CPU 306 shown in FIG. 1 transmits / receives various data (information) to / from one wireless communication apparatus 100.

  The first connection processing unit 3018 of the third wireless communication apparatus 300 is realized by an instruction from the third CPU 306 shown in FIG. Connection processing is performed by a wireless communication method.

  The first disconnection processing unit 3020 of the third wireless communication apparatus 300 is realized by a command from the third CPU 306 shown in FIG. The first disconnection processing unit 3020 disconnects communication with the first wireless communication apparatus 100 using the first wireless communication method. The second disconnection processing unit 3010 receives a timer when the communication range information transmitted by the second wireless communication device 200 is received by the second transmission / reception unit 3002 and cannot be received even after a predetermined timing elapses. 3028 is reset and activated. Based on the value of the timer 3028, the second disconnection processing unit 3010 communicates with the first wireless communication device 100 when communication range information is not received by the second transmission / reception unit 3002 even after a predetermined time has elapsed. Disconnect communication.

  The storage / reading processing unit 3022 of the third wireless communication apparatus 300 includes instructions from the third CPU 306 and the fourth CPU 316 shown in FIG. 3, a third ROM 308 shown in FIG. This is realized by the fourth ROM 318. The storage / reading processing unit 3022 stores various data in the storage unit 3024 and performs processing for reading out various data stored in the storage unit 3024.

<Operation of wireless communication system>
FIG. 7 shows the operation of the wireless communication system. In FIG. 7, the second wireless communication area 250 is brought close to an area formed by a range where radio waves transmitted by the second wireless communication apparatus 200 reach. As a result, as the third wireless communication device 300a moves from the vicinity of the center of the second wireless communication area 250 to the periphery, the communication range information is transmitted to the boundary where the radio wave transmitted by the second wireless communication device 200 reaches. Receive in the vicinity.

  For example, the third wireless communication device 300a moves from the vicinity of the center of the second wireless communication area 250 to the periphery in a state where the processing of steps S11 to S12 in FIG. The communication range information transmitted by the second wireless communication apparatus 200 cannot be received.

  In step S <b> 21, the second transmitting / receiving unit 2002 of the second wireless communication apparatus 200 transmits the communication range information, but the communication range information is not received by the third wireless communication apparatus 300.

  In step S22, the third wireless communication apparatus 300 cannot receive the response because it cannot receive the communication range information transmitted by the second wireless communication apparatus 200. Since the first disconnection processing unit 3020 cannot receive the communication range information at a predetermined timing, the first disconnection processing unit 3020 resets and starts the timer 3028.

  In step S <b> 23, the second transmission / reception unit 2002 of the second wireless communication apparatus 200 transmits communication range information, but the communication range information is not received by the third wireless communication apparatus 300.

  In step S24, the third wireless communication apparatus 300 cannot receive the response because it cannot receive the communication range information transmitted by the second wireless communication apparatus 200. Since the first disconnection processing unit 3020 has already started the timer 3028, the started state continues.

  In step S25, the first disconnection processing unit 3020 of the third wireless communication apparatus 300 detects that a preset time threshold has elapsed based on the value of the timer 3028. First disconnection processing unit 3020 transmits a disconnection instruction from first transmission / reception unit 3016 to first wireless communication apparatus 100.

  In step S <b> 26, the first disconnection processing unit 1006 of the first wireless communication apparatus 100 performs communication with the second wireless communication apparatus 200 according to the disconnection instruction transmitted by the second wireless communication apparatus 200. Perform the process of cutting.

  In step S <b> 27, the first disconnection processing unit 3020 of the third wireless communication apparatus 300 performs processing for disconnecting communication with the first wireless communication apparatus 100.

  In the sequence chart shown in FIG. 7, step S27 may be performed without performing step S25. By performing step S27, communication is performed between the third wireless communication device 300 and the first wireless communication device 100 in accordance with the first wireless communication method. When the disconnection process of the first wireless communication method is performed, the disconnection process is also performed in the first wireless communication apparatus 100.

  According to the present embodiment, the third wireless communication apparatus 300 can receive the first wireless communication apparatus 100 when the communication range information transmitted by the second wireless communication apparatus cannot be received even after the time threshold has elapsed. Processing to disconnect communication with the. As a result, the disconnection instruction transmitted by the second wireless communication apparatus 200 cannot be received, and the connection with the first wireless communication apparatus 100 does not remain, so that security can be improved.

  Further, the second wireless communication area 250 is moved closer to the area formed by the reach of the radio wave transmitted by the second wireless communication device 200, so that the third wireless communication device 300 performs the second wireless communication. Even when the determination result as to whether or not it is located in the area 250 varies, it is possible to prevent the disconnection process and the connection process from being repeated according to the variation.

<Modification (Part 1)>
In the wireless communication system according to this modification, in the first embodiment, the third wireless communication apparatus 300 that is communicating with the first wireless communication apparatus 100 receives communication range information. The communication range information is not received even after the first time threshold value set in advance from elapses, and the second value set in advance after data transmission / reception is no longer performed with the first wireless communication device 100. The communication with the first wireless communication apparatus 100 is disconnected when the time threshold of elapses. Here, the data is not data for establishing a wireless link but data at an application level such as audio, video, and transfer file.

  Temporarily, when data is transmitted / received to / from the first wireless communication device 100, the communication is disconnected due to the elapse of a preset first time threshold after receiving communication range information. In order to continue the transmission / reception of the data, a new connection process is performed between the third wireless communication apparatus 300 and the first wireless communication apparatus 100. According to this modification, when a preset second time threshold elapses after data transmission / reception is no longer performed with the first wireless communication device 100, the first wireless communication device 100 In this case, no new connection processing is performed. For this reason, since unnecessary network generation is eliminated, security can be improved.

<Modification (Part 2)>
In the wireless communication system according to this modification, in the first embodiment, the third wireless communication apparatus 300 that is communicating with the first wireless communication apparatus 100 receives communication range information. The communication range information is not received even if the first time threshold set in advance from elapses, and the third time threshold set in advance has elapsed since the third wireless communication apparatus 300 is not used. The communication with the first wireless communication apparatus 100 is disconnected. For example, when an acceleration center is mounted on the third wireless communication device 300 and the displacement amount of acceleration measured by the acceleration center is equal to or smaller than a predetermined displacement amount threshold value set in advance, the third wireless communication device 300 is used. Is no longer used.

  If the third wireless communication apparatus 300 is in use and is disconnected due to the elapse of a preset first time threshold after receiving communication range information, the third wireless communication apparatus 300 is used. In order to use the communication device 300, a new connection process is performed between the third wireless communication device 300 and the first wireless communication device 100. According to the present modification, the communication with the first wireless communication apparatus 100 is disconnected when a preset third time threshold has elapsed since the third wireless communication apparatus 300 is no longer used. No new connection process is performed. For this reason, unnecessary network generation is eliminated, and security can be improved.

<Modification (Part 3)>
In the wireless communication system according to this modification, in the first embodiment, the third wireless communication apparatus 300 that is communicating with the first wireless communication apparatus 100 receives communication range information. The fourth time set in advance after the first time threshold set in advance from elapses does not receive the communication range information and the application installed in the third wireless communication apparatus 300 is not used. When the threshold value elapses, the communication with the first wireless communication apparatus 100 is disconnected.

  If the application installed in the third wireless communication apparatus 300 is being used and the communication is disconnected due to the elapse of a preset first time threshold after receiving communication range information In order to use the application installed in the third wireless communication apparatus 300, a new connection process is performed between the third wireless communication apparatus 300 and the first wireless communication apparatus 100. According to this modification, when a preset fourth time threshold has elapsed since the application installed in the third wireless communication apparatus 300 is no longer used, communication with the first wireless communication apparatus 100 is performed. Since the communication is disconnected, a new connection process is not performed. For this reason, since unnecessary network generation is eliminated, security can be improved.

<Modification (Part 4)>
In the wireless communication system according to this modification, in the first embodiment, the third wireless communication apparatus 300 that is communicating with the first wireless communication apparatus 100 receives communication range information. The first wireless communication device 100 and the first wireless communication device 100 when no communication range information is received even if a preset first time threshold value elapses from and the third wireless communication device 300 is disconnected by the user Disconnect communication between. That is, when the user of the third wireless communication apparatus 300 intentionally performs a disconnect operation, the communication with the first wireless communication apparatus 100 is disconnected. Since the user who uses the third wireless communication apparatus 300 can be authorized to generate a network, unnecessary disconnection processing can be prevented.

<Modification (Part 5)>
In the first embodiment, the wireless communication system according to the present modification sets the time threshold to a time longer than the transmission cycle of the communication range information transmitted by the second wireless communication apparatus 200. The second wireless communication apparatus 200 often transmits communication range information at 100 ms intervals. The third wireless communication apparatus 300 determines whether or not it is located in the second wireless communication area 250 by receiving the communication range information in accordance with the transmission range information transmission cycle. However, after the connection process is performed between the third wireless communication apparatus 300 and the first wireless communication apparatus 100, the process of determining whether or not the second wireless communication area 250 has exited is a communication process. Even if it is performed at a period longer than the period for transmitting the range information, it is assumed that the influence is small. Specifically, the time threshold value for determining whether or not the third wireless communication apparatus 300 has left the second wireless communication area 250 can be set in advance from about 1 second to about 5 seconds. Thus, even if there is a user who frequently enters and exits the second wireless communication area 250, it can be determined whether or not the user has really exited by making a determination in seconds. If the time threshold is set to a short time and the user frequently enters and exits the second wireless communication area 250 and the communication range information cannot be received frequently, the user may enter the second wireless communication area 250. Judgment on whether or not to leave frequently changes. By setting the time threshold to a long time, it can be determined whether or not the mobile terminal is located in the second wireless communication area 250 based on the moving speed of the user. Accordingly, it is possible to improve the accuracy of determining whether or not the third wireless communication apparatus 300 is located in the second wireless communication area 250.

<Modification (Part 6)>
FIG. 8 shows a wireless communication system according to this modification. The wireless communication system according to this modification includes a first wireless communication device 100, second wireless communication devices 200a-200b, and third wireless communication devices 300a-300e.

  The first wireless communication device 100 forms a first wireless communication area 150 by a first wireless communication method such as a wireless LAN. The second wireless communication device 200a is narrower in the first wireless communication area 150 than the first wireless communication area 150 by a second wireless communication method such as near field communication such as Bluetooth (registered trademark). A second wireless communication area 250a is formed. The second wireless communication device 200b is narrower in the first wireless communication area 150 than the first wireless communication area 150 by a second wireless communication method such as near field communication such as Bluetooth (registered trademark). A second wireless communication area 250b is formed. In the example shown in FIG. 8, the second wireless communication areas 250a and 250b are included in the first wireless communication area 150, and the second wireless communication area 250a and the second wireless communication area 250b do not overlap. .

  Since the third wireless communication devices 300a and 300b are located in an area where the first wireless communication area 150 and the second wireless communication area 250a overlap, the setup information transmitted by the second wireless communication device 200a. And the connection processing with the first wireless communication apparatus 100 can be performed using the setup information. Since the third wireless communication apparatuses 300d and 300e are located in an area where the first wireless communication area 150 and the second wireless communication area 250b overlap, the setup information transmitted by the second wireless communication apparatus 200b. And the connection processing with the first wireless communication apparatus 100 can be performed using the setup information. Since the third wireless communication device 300c is located in the first wireless communication area but not in the overlapping area, the third wireless communication device 300c cannot acquire the setup information transmitted by the second wireless communication device 200, and the first wireless communication device Connection processing cannot be performed with 100.

  2 can be applied to the hardware configuration of the first wireless communication device 100 and the second wireless communication device 200, and FIG. 3 can be applied to the hardware configuration of the third wireless communication device 300. 6 can be applied to the first wireless communication device 100, the second wireless communication device 200, and the third wireless communication device 300.

  The first wireless communication device 100 includes a third wireless communication device 300d and a third wireless communication device 300d located in the second wireless communication area 250b, and a third wireless communication device 300d and a third wireless communication device 300d located in the second wireless communication area 250b. Communication is performed with 300e. In this state, when the communication between the third wireless communication devices 300a and 300b located in the second wireless communication area 250a is terminated, the second wireless communication device 200 stops the transmission of the communication range information. . As a result, the third wireless communication devices 300a and 300b located in the second wireless communication area 250a cannot receive the communication range information, and the MAC address of the third wireless communication devices 300a and 300b is passed when the time threshold value elapses. Disconnect processing such as deleting. After the disconnection process is performed by the third wireless communication devices 300a and 300b, the power of the second wireless communication device 200 can be turned off.

  Thus, when the first wireless communication area 150 includes the second wireless communication areas 250a and 250b, the communication of either one of the second wireless communication areas 250a and 250b is terminated and security is maintained. It can be realized as it is.

  When the first wireless communication device 100 and the second wireless communication devices 200a and 200b are realized by a single device, the above-described processing is also performed by turning off the power of the second wireless communication device 200a. Can do.

  Although the present invention has been described with reference to specific embodiments and modifications, each embodiment and modification is merely an example, and those skilled in the art will recognize various modifications, modifications, alternatives, substitutions, and the like. Will understand. For convenience of explanation, an apparatus according to an embodiment of the present invention has been described using a functional block diagram, but such an apparatus may be implemented in hardware, software, or a combination thereof. The present invention is not limited to the above-described embodiments, and various variations, modifications, alternatives, substitutions, and the like are included without departing from the spirit of the present invention.

100 1st wireless communication apparatus 150 1st wireless communication area 200, 200a, 200b 2nd wireless communication apparatus 250, 250a, 250b 2nd wireless communication area 300a-300e 3rd wireless communication apparatus 1002 1st transmission / reception Unit 1004 first connection processing unit 1006 first disconnection processing unit 1008 first communication control unit 2002 second transmission / reception unit 2004 second connection processing unit 2006 second disconnection processing unit 2008 second communication control unit 2010 Storage / reading processing unit 2012 Storage unit 2014 Setup information management DB
2016 Third wireless communication device management DB
3002 Second transmission / reception unit 3004 Communication range determination unit 3006 Second connection processing unit 3008 Setup information acquisition unit 3010 Second disconnection processing unit 3016 First transmission / reception unit 3018 First connection processing unit 3020 First disconnection processing unit 3022 Storage / reading processing unit 3024 Storage unit 3026 Third wireless communication device management DB
3028 timer

JP 2012-65208 A

Claims (9)

A first communication unit that performs wireless communication using the first communication method within a first communication range;
A second communication unit that performs wireless communication using the second communication method within the second communication range;
A disconnection processing unit for disconnecting established communication with another communication device by the first communication unit;
Have
The second communication unit receives setting information for establishing communication according to the first communication method;
The first communication unit performs wireless communication with the other communication device that has received the setting information using the first communication method,
The disconnection processing unit, when the time of the first time threshold has elapsed since the other communication device is not in the second communication range, the other communication by the first communication unit. A communication device that disconnects established communication with the device.   The communication apparatus according to claim 1, wherein the disconnection processing unit determines that the information is not located within the second communication range when the information transmitted according to the second communication method is not received.   The communication apparatus according to claim 1, wherein the second communication range is included in the first communication range.   The disconnection processing unit disconnects the established communication with the other communication device by the first communication unit when wireless communication is not performed for a second time threshold by the first communication unit. The communication apparatus according to any one of claims 1 to 3.   The disconnection processing unit disconnects established communication with the other communication device by the first communication unit when there is no operation on the communication device during a third time threshold. The communication apparatus of any one of Claims.   The disconnection processing unit disconnects established communication with the other communication device by the first communication unit when an application of the communication device is not used for a fourth time threshold. 4. The communication device according to any one of items 3 to 3.   The communication device according to claim 1, wherein the disconnection processing unit disconnects established communication with the other communication device by the first communication unit when a process of disconnection is performed by a user.   When the disconnection processing unit is not located in the second communication range when the time is not within the second communication range and the time of the fifth time threshold has elapsed, the first processing unit The communication device according to any one of claims 1 to 3, wherein the communication unit disconnects established communication with the other communication device. A first communication unit that performs wireless communication using the first communication method within the first communication range, and a second communication unit that performs wireless communication using the second communication method within the second communication range A communication method executed by a communication device comprising:
Receiving setting information for establishing communication by the first communication method by the second communication unit;
Wireless communication is performed using the first communication method with another communication device that has received the setting information by the first communication unit,
When the time of the first time threshold has elapsed since the other communication device is not located within the second communication range, the first communication unit has been established with the other communication device. A communication method that disconnects communication.

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