JP2014075715A - Gateway device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a gateway device that is used in a system that determines whether a communication device having limited installation positions is installed at a right position and performs provisioning of the communication device.SOLUTION: The gateway device includes: a first interface connected to a network by radio; a second interface connected to a communication device; a position information acquisition part for acquiring position information from a signal from a satellite; and a position information processing part for transmitting the position information acquired by the position information acquisition part before attaching a first unit to a second unit to the network via the first interface after attaching the first unit, wherein the first unit of the gateway device including the position information acquisition part is detachable from the second unit of the gateway device including the second interface.

Description

  The present invention relates to a provisioning technique for a gateway device that relays outgoing / incoming calls by a communication device.

  Japanese Patent Application Laid-Open No. 2004-133620 detects a movement of a telephone set with a telephone number corresponding to the installation position, such as a so-called OAB-J number, and prohibits outgoing / incoming calls by the telephone when it is moved. It is disclosed. In this manner, the installation position of the communication device is limited, and when the communication device is moved from the determined installation position, the operation of the communication device is stopped and communication processing is performed at other than the determined installation position. There is a case that you want to control so that there is no.

JP 2006-148851 A

  If the communication device that is controlled not to perform communication processing other than the determined installation position is connected to a wired network, the OAB-J number is not held in the communication device but is associated with the communication line. By holding on the network side, it is possible to prevent the communication apparatus from communicating using the OAB-J number outside the determined position. However, when the communication device is connected to a wireless network such as a mobile communication network, it is necessary to hold the telephone number on the communication device side, and the communication device is executed by detecting the installation position of these communication devices. A mechanism to control availability is required.

  Currently, position information providing systems using satellites such as GPS are widely used, and if the position information of the communication device can be obtained from signals from these satellites, it is determined whether or not the communication device is installed at the correct position on the network side. Can be determined. However, the signal from the satellite cannot be received correctly in the building. Therefore, normally, these communication devices installed in the building cannot acquire the position information by the signal from the satellite.

  The present invention provides a gateway device that is used in a system that determines whether a communication device having a restriction in installation position is installed in a correct position and provisions the communication device.

  According to one aspect of the present invention, a first interface that is wirelessly connected to a network, a second interface that is connected to a communication device, and a position information acquisition unit that acquires position information by a signal from a satellite are provided. A gateway device, wherein the first unit of the gateway device including the position information acquisition unit is configured to be removable from the second unit of the gateway device including the second interface, and the first unit. A position information processing unit that transmits the position information acquired by the position information acquisition unit before the attachment to the network via the first interface after the device is attached to the second unit. And

  It is possible to perform provisioning of the communication device by determining whether or not the communication device having a limited installation position is installed at the correct position.

1 is a schematic configuration diagram of a communication system according to an embodiment. FIG. The schematic block diagram of the gateway apparatus by one Embodiment. The schematic block diagram of the gateway apparatus by one Embodiment. The sequence diagram of provisioning of the gateway apparatus by one Embodiment. The sequence diagram of provisioning of the gateway apparatus by one Embodiment. The flowchart of the process in the gateway apparatus by one Embodiment.

  Hereinafter, exemplary embodiments of the present invention will be described with reference to the drawings. In the following drawings, components that are not necessary for the description of the embodiments are omitted from the drawings.

  FIG. 1 is a schematic configuration diagram of a communication system according to the present embodiment. In FIG. 1, a wireless network 5 is a wireless network that conforms to standards defined by, for example, 3GPP (3rd Generation Partnership Project), IEEE (American Institute of Electrical and Electronics Engineers) that defines wireless LAN, WiMAX, and the like. Although not shown, the wireless network 5 is interconnected with other networks such as a fixed telephone network. Further, the service control system 4 determines whether or not the communication device has an authority to communicate via the wireless network 5, and the wireless network 5 provides the service only to the communication device having the authority. It is a system to control. For example, the service control system 4 includes a home subscriber server (HSS), a call control server (CSCF), and a service control server (TAS) in the 3GPP standard.

  The gateway device 1 has an interface for wirelessly connecting to the wireless network 5 and an interface for connecting to a normal fixed telephone 2 for wired connection in accordance with the wireless standard used by the wireless network 5, and the fixed telephone 2 is wireless. Controls calls made and received via the network 5. Specifically, the gateway device 1 behaves as a wireless terminal with respect to the wireless network 5 and behaves like a telephone network exchange with respect to the fixed telephone 2. Here, the gateway device 1 holds the telephone number assigned from the service control system 4. Here, in the present embodiment, the telephone number held by the gateway device 1 is a number corresponding to the installation position, such as an OAB-J number. Therefore, it is necessary for the gateway device 1 not to make outgoing / incoming calls to / from the wireless network 5 by the fixed telephone 2 using this OAB-J number except for the determined installation position.

  The provisioning server 3 holds information on the determined installation position of the gateway device 1, and when the gateway device 1 receives position information acquired by the method described later from the gateway device 1, the position of the received gateway device 1 is received. It is determined whether the information is within a predetermined distance from the determined installation position. If it is within the predetermined distance, the provisioning server 3 notifies the service control system 4 to that effect, and the service control system 4 performs control so that the gateway device 1 can make and receive calls via the wireless network 5. .

  Next, various exemplary configurations of the gateway device 1 will be described with reference to FIGS. FIG. 2 is referred to as a “general type” below, and the gateway device 1 includes a position acquisition unit 10 and a main body unit 11. Here, the position acquisition unit 10 is configured to be detachable from the main body unit 11. As shown in FIG. 2, the position acquisition unit 10 includes a connection unit with the main body unit 11, a battery, a GPS unit, and a timer unit. Here, the battery is provided to supply power to each functional unit of the position acquisition unit 10 so that the position acquisition unit 10 operates even when the position acquisition unit 10 is detached from the main body unit 11. The battery is charged from the power supply unit of the main body 11 while being connected to the main body 11. The GPS unit receives radio waves from GPS satellites and acquires position information, and the timer unit measures time after acquiring the position information.

  Further, as shown in FIG. 2, the main body unit 11 includes a connection unit with the position acquisition unit 10, a position information processing unit, a wireless processing unit, a telephone processing unit, a power supply unit, and a control unit. Yes. Here, the power supply unit supplies power to the functional units of the main body unit 11 and the position acquisition unit 10, and the control unit is for controlling the entire gateway device 1. For example, a processor, a memory, A predetermined program is executed. Further, the wireless processing unit is an interface unit with the wireless network 5 and performs processing related to communication with the wireless network 5. Further, the telephone processing unit is an interface unit with the fixed telephone 2 and performs processing related to communication with the fixed telephone 2. In addition, the position information processing unit receives the position information acquired by the GPS unit from the position acquisition unit 10 and information on the elapsed time since the acquisition of the position information. If the elapsed time is less than the threshold, the position information is wirelessly transmitted. The data is transmitted to the provisioning server 3 via the processing unit. As will be described later, after receiving the service permission signal including the OAB-J number used by the gateway device 1 from the service control system 4 after transmitting the location information, the control unit 2 uses the OAB-J number. The process of relaying outgoing / incoming calls with the wireless network 5 is started. On the other hand, when the service permission signal is not received after the location information is transmitted or when the explicit service denial signal is received, the control unit performs a process of relaying the incoming and outgoing calls to and from the wireless network 5 by the fixed telephone 2. Absent.

  Subsequently, the form of the gateway device 1 referred to as a “mobile router type” will be described below with reference to FIG. 3 focusing on the differences from the general type described in FIG. The mobile router type gateway device 1 includes a wireless communication unit 12 and a cradle unit 13. Here, the wireless communication unit 12 is configured to be detachable from the cradle unit 13. In this embodiment, the cradle unit 13 is provided with only a power supply unit that supplies power to each functional unit and charges the battery of the wireless communication unit 12 and a telephone processing unit that performs processing related to communication with the fixed telephone 2. The timer unit, the GPS unit, the position information processing unit, the wireless processing unit, and the control unit are provided in the wireless communication unit 12. In this embodiment, in addition to the communication processing with the wireless network 5, the wireless processing unit also performs communication processing with other communication devices that have a wireless LAN interface and are connected by the wireless LAN. Therefore, the “mobile router type” gateway device 1 also functions as a router that relays communication between another communication device connected via the wireless LAN interface and a communication device connected to the wireless network 5. Furthermore, the gateway device 1 is also given a telephone number given to the mobile telephone, and can make and receive calls to and from the wireless network 5 by this telephone number. That is, the wireless communication unit 12 is configured to function as a mobile router by being removed from the cradle unit 13.

  In this embodiment, when the wireless communication unit 12 is connected to the cradle unit 13, the position information processing unit acquires the position information from the GPS unit and the elapsed time information after acquiring the position information, and the elapsed time is less than the threshold value. If there is, the location information is transmitted to the provisioning server 3 via the wireless processing unit. As will be described later, after receiving the service permission signal including the OAB-J number used by the gateway device from the service control system 4 after transmitting the location information, the control unit uses the fixed telephone 2 using the OAB-J number. The process of relaying outgoing / incoming calls with the wireless network 5 is started. In this state, the gateway device 1 has two telephone numbers, an OAB-J number corresponding to the installation position and a telephone number given to the mobile telephone.

  Next, in the following, the form of the gateway device 1 referred to as the “mobile phone type” will be described focusing on differences from the mobile router type. The configuration of the mobile phone type is the same as that in FIG. The difference between the cellular phone type and the mobile router type is that the cellular phone type itself operates as a cellular phone. That is, the wireless communication unit 12 operates as a mobile phone by being detached from the cradle unit 13 and can perform a voice call by itself.

  Next, provisioning of the gateway device 1 will be described with reference to the sequence diagram of FIG. Note that the gateway device 1 can transmit and receive each message shown in FIG. 4 via the wireless network 5 regardless of the installation position. Further, based on a contract with the user of the gateway device 1, information indicating the installation position of the gateway device 1 is set in the provisioning server 3 in advance, and an OAB-J number assigned to the gateway device 1 is set in the service control system 4 in advance. It shall be.

  First, in S1, in the case of a general type, the user of the gateway device 1 removes the position acquisition unit 10 from the main body unit 11, goes outdoors, and acquires position information from a satellite. In the case of a mobile router type or a mobile phone type, the wireless communication unit 12 is detached from the cradle unit 13 and goes outdoors to acquire position information from a satellite. In S2, the user attaches the position acquisition unit 10 to the main body unit 11 in the case of the general type, and attaches the wireless communication unit 12 to the cradle unit 13 in the case of the mobile router type or the mobile phone type. Thereby, the position information processing unit of the gateway device 1 acquires the position information and the elapsed time information, and the position information processing unit confirms whether or not the elapsed time is less than the threshold in S3.

  If it is less than the threshold value, the position information processing unit transmits the position information to the provisioning server 3 in S4. If the value is equal to or greater than the threshold value, the subsequent processing is not performed. The provisioning server 3 determines whether the received position information is within a predetermined distance from the installed position of the gateway device 1 in S5. If it is within the predetermined distance, in S6, the provisioning server 3 transmits a service permission message to the service control system 4, and allows the gateway device 1 to permit the outgoing and incoming calls using the OAB-J number. Notify the control system 4. When receiving the service permission message from the provisioning server 3, the service control system 4 transmits a service permission message including the OAB-J number assigned to the gateway device 1 to the gateway device 1 in S 7. When the gateway device 1 receives the service permission message, the gateway device 1 registers the service control system 2 to receive the service in S8. As a result, the gateway device 1 can provide the fixed telephone 2 with outgoing and incoming calls via the wireless network 5. In the case of the mobile router type or the mobile phone type, the incoming call to the telephone number given to the mobile telephone can be made to be received by the fixed telephone 2. Furthermore, an incoming call to the OAB-J number can be received by another apparatus connected via the wireless LAN.

  Thereafter, in S9, the gateway device 1 monitors the movement of the own device. The movement of the own apparatus can be monitored by various methods. For example, an accelerometer can be provided in the gateway apparatus 1 and the movement can be monitored by the accelerometer. In addition, when the movement beyond a predetermined distance is detected, at least the gateway device 1 prohibits outgoing / incoming calls using the OAB-J number. Further, the gateway device 1 can notify the service control system 2 of the detection of movement over a predetermined distance. In this case, the service control system 2 can transfer the incoming call addressed to the OAB-J number to another telephone number set in advance by the user of the gateway device 1. When the movement of a predetermined distance or more is detected, the gateway device 1 prohibits outgoing / incoming calls using the OAB-J number until the processing from S1 in FIG. 4 is performed again.

  FIG. 5 is a modification of FIG. The difference from the sequence shown in FIG. 4 is that, when a service permission message is received from the provisioning server 3 in S6, the service control system 4 performs service registration of the gateway device 1 in S61. Therefore, the gateway device 1 does not need to perform service registration indicated by S8 in FIG.

  As mentioned above, in this embodiment, the unit which connects the gateway apparatus 1 with the fixed telephone 2, ie, the main-body part 11 and the cradle part 13, and the unit which acquires the positional information from a satellite, ie, the position acquisition part 10, and wireless communication The unit that can be separated into the unit 12 and that acquires the position information is configured so that it can be carried and taken outdoors to acquire the position information. Then, after the unit for acquiring the position information is connected to the unit connected to the fixed telephone 2, the position information acquired by the unit for acquiring the position information before is transmitted to the provisioning server 3. In the present embodiment, the position information is transmitted to the provisioning server 3 in response to attaching the unit for acquiring the position information to the unit connected to the fixed telephone 2. The configuration may be such that the location information is transmitted to the provisioning server 3 by pressing a button or the like provided on the gateway device 1. Note that the elapsed time information after the position information is acquired is monitored so that the position information is acquired within a predetermined distance from the position where the unit connected to the fixed telephone 2 is installed. If not, the location information is not transmitted to the provisioning server 3. With the above configuration, the user can easily acquire location information, and on the network side, confirm that the gateway device 1 is installed within a predetermined distance from the determined installation location at the time of provisioning. Can do. For example, after provisioning, movement is monitored by an accelerometer.

  Next, processing in the gateway device 1 will be described with reference to the flowchart in FIG. In S <b> 10, the user acquires position information using the removed position acquisition unit 10 or the wireless communication unit 12. Subsequently, in S <b> 11, the user connects the removed position acquisition unit 10 or the wireless communication unit 12 to the main body unit 11 or the cradle unit 13. The position information processing unit determines whether or not the elapsed time is less than the threshold value in S12, and ends the process if not less than the threshold value. On the other hand, if it is less than the threshold value, the position information processing unit transmits the position information to the provisioning server 3 in S13. When receiving a service permission message from the service control system 4 as a response to the location information transmitted to the provisioning server 3 in S14, the control unit registers in the service control system 4 in S15 and uses the OAB-J number. Start control of incoming and outgoing calls. Note that the processing of S15 is not necessary depending on the configuration of the service control system 4.

  When the control unit of the gateway device 1 starts a service for the fixed telephone 2, the control unit monitors the movement of itself and detects the movement in S 16, and stops the control of outgoing / incoming calls using the OAB-J number in S 17.

  In the above embodiment, the timer unit of the gateway device 1 measures the elapsed time since the acquisition of the location information, and the location information processing unit provisions the location information only when the elapsed time is less than the threshold value.・ Sent to server 3. However, it may be a form in which it is determined not by the gateway device 1 but by the provisioning server 3 whether or not the elapsed time is less than the threshold value. In this case, the gateway device 1 transmits both elapsed time and position information to the provisioning server 3, and the provisioning server 3 determines whether or not the elapsed time is appropriate. In addition, instead of measuring the elapsed time, the acquisition time, which is the time when the GPS unit acquired the location information, is recorded, and the location information processing unit or the provisioning server 3 of the gateway device 1 It is also possible to determine the elapsed time from the time and compare it with a threshold value. Furthermore, when the elapsed time is equal to or greater than the threshold, the gateway device 1 can change the elapsed time transmitted together with the position information to a value indicating that the elapsed time is equal to or greater than the threshold, for example, a null value, and transmit the changed time. In this case, the provisioning server 3 determines that the service is not permitted.

  Since the position information processing unit of the general-type gateway device 1 is included in the main body unit 11, the fact that the position information processing unit has acquired the position information from the GPS unit is that the position acquisition unit 10 and the main body unit 11 have acquired the position information. It means that it is connected. On the other hand, in the mobile router type and the mobile phone type, since the position information processing unit and the GPS unit are in the same wireless communication unit 12, it means that the wireless communication unit 12 and the cradle unit 13 are necessarily connected. do not do. Therefore, for example, by storing predetermined information in a storage unit (not shown) of the cradle unit 13 and transmitting the predetermined information together with the position information to the provisioning server 3, the wireless communication unit 12 and the cradle unit 13 The connection can also be confirmed on the provisioning server 3 side.

  In the above embodiment, the gateway device 1 determines whether to relay incoming / outgoing calls using the OAB-J number, and performs processing according to the determination. However, the present invention is not limited to this form. For example, the service control system 4 receives the position information received from the gateway device 1 or the signal received from the gateway device 1 indicating that the gateway device 1 has been moved. Accordingly, it is possible to determine whether to continue the outgoing / incoming processing using the OAB-J number, and to perform processing according to the determination. Further, in the above embodiment, the OAB-J number is notified to the gateway device 1 using the service permission message. However, the OAB-J number may be stored in the gateway device 1 in advance. Specifically, for example, a form in which the OAB-J number is directly written in the storage unit of the gateway apparatus 1 or a form in which an IC card storing the contractor information and the OAB-J number is inserted into the gateway apparatus 1 can do.

Claims (10)

A first interface connected wirelessly to the network;
A second interface connected to the communication device;
A position information acquisition unit for acquiring position information by a signal from a satellite;
A gateway device comprising:
The first unit of the gateway device including the position information acquisition unit is configured to be removable from the second unit of the gateway device including the second interface,
A position information processing unit that transmits the position information acquired by the position information acquisition unit before the attachment to the network via the first interface after the first unit is attached to the second unit. The gateway apparatus characterized by the above-mentioned.   The position information processing unit transmits the position information to the network via the first interface in response to attachment of the first unit to the second unit. The gateway device according to 1. The position information acquisition unit measures an elapsed time after acquiring the position information,
The gateway apparatus according to claim 1, wherein the position information processing unit transmits the position information to the network via the first interface when the elapsed time is less than a threshold value.   When the elapsed time is equal to or greater than a threshold, the location information processing unit changes the elapsed time to a value indicating that the elapsed time is equal to or greater than the threshold, and sends the location information to the network via the first interface. The gateway device according to claim 3, wherein the gateway device transmits the gateway device. The position information acquisition unit measures the elapsed time after acquiring the position information, or records the acquisition time of the position information,
The gateway apparatus according to claim 1, wherein the position information processing unit transmits the elapsed time or the acquisition time to the network via the first interface together with the position information.   The said position information processing part transmits the information which the said 2nd unit hold | maintains to the said network via the said 1st interface with the said position information, The any one of Claim 1 to 5 characterized by the above-mentioned. Gateway device.   After transmitting location information to the network via the first interface, a communication service via the network is provided to the communication device connected to the second interface by receiving a message indicating service permission from the network. The gateway device according to claim 1, further comprising a control unit that starts control to be provided.   8. The gateway device according to claim 7, wherein the message indicating the service permission includes a communication number used when the communication device uses a communication service via the network.   The control unit monitors a moving distance of the gateway device after starting to provide a communication service via the network to a communication device connected to the second interface, and the monitored moving distance is a predetermined distance. 9. The gateway device according to claim 8, wherein if it exceeds, provision of a communication service via the network to a communication device connected to the second interface is stopped.   The first interface is included in the first unit, and the first unit operates as a mobile phone or a router in a state of being removed from the second unit. The gateway device according to any one of 1 to 9.

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