JP7028583B2 - LTE communication system and communication control method - Google Patents

Description

The present invention relates to an LTE communication system and a communication control method including a base station device that communicates according to an LTE (Long Term Evolution) communication method.

Conventionally, LTE (Long Term Evolution) communication has been used as a communication method for speeding up mobile communication. In the LTE communication specifications, an S1 control plane interface (S1-MME) is defined between an eNB (eNodeB) and an MME (Mobility Management Entity) that handles a control plane in an EPC (Evolved Packet Core) (Non-Patent Document). 1). In S1-MME, the control plane protocol stack of the S1 interface has a physical layer, a data link layer, an IP (Internet Protocol) layer, a SCTP (Stream Control Transmission Protocol) layer, and an S1-AP (S1 Application Protocol) layer. The eNB is one of the base station devices. EPC is one of the core networks.

When SCTP notifies S1-AP that the signaling connection was disconnected, the eNB disconnected the RRC (Radio Resource Control) connection with the UE (User Equipment) and used it before the signaling connection was disconnected. Remove the interrupted UE content data of the UE in RRC_IDLE. Alternatively, when SNTP notifies S1-AP that the signaling connection has been disconnected, the eNB keeps the UE in RRC_CONCEPTED and the interrupted content data of the UE in the ECM-IDLE using the signaling connection before disconnection. To hold.

In this way, when the communication connection between the eNB and the EPC is disconnected, the eNB disconnects or suspends the communication of all the UEs connected to the eNB in order to ensure the security of the communication. Therefore, since the communication connection state between the eNB and the UE is in the disconnected state or the hold state, communication including VoLTE (Voice over LTE) becomes impossible between the eNB and the UE.

3GPP TS 36.300 V13.8.0 (2017-06), P178-P179

When the communication between eNB and EPC is disconnected due to a natural disaster such as an earthquake or heavy rain, even if the eNB and the UE are in a communicable state, the UE connection state becomes the disconnected state or the hold state, and the UEs are connected to each other. All communications, including VoLTE, are unavailable. In this case, it is difficult for the user to communicate with the UE even in an emergency, for example.

The present invention has been made in view of the above-mentioned conventional situation, and even if the communication connection between the base station apparatus and the core network that communicates according to the LTE communication method is disconnected, the terminal belonging to the disconnected base station apparatus. Provided is an LTE communication system and a communication control method capable of carrying out a part of the communication of the above.

One aspect of the present invention is an LTE communication system including a base station device that communicates according to an LTE communication method, in which the base station device detects an abnormality in communication between the base station device and the core network, and the abnormality is detected. If this is the case, the terminal communicated and connected to the base station apparatus and the base station apparatus again transmit connection information for communication connection to the terminal, and the base station apparatus and the connection information are transmitted. The transmitted communication connection with the terminal is disconnected, the base station apparatus and the terminal receive a connection request for communication connection again, and the base station apparatus and the terminal are based on the connection request. It is an LTE communication system that reestablishes a communication connection with and receives call control information used for a call connection of the terminal in which the communication connection is reestablished, and causes a recording device to hold the call control information.

One aspect of the present invention is a communication control method in a base station apparatus that communicates according to an LTE communication method, in which an abnormality in communication between the base station apparatus and the core network is detected, and when the abnormality is detected, the base The terminal communicated with the station device and the base station device again transmit connection information for communication connection to the terminal, and the base station device and the terminal to which the connection information is transmitted are transmitted. The communication connection is disconnected, the base station apparatus and the terminal receive a connection request for communication connection again, and the communication connection between the base station apparatus and the terminal is re-established based on the connection request. It is a communication control method that receives call control information used for a call connection of the terminal that has been established and the communication connection has been reestablished, and has the recording device hold the call control information.

According to the present invention, even when the communication connection between the base station apparatus and the core network is disconnected, it is possible to carry out communication of a part of the terminals belonging to the disconnected base station apparatus.

The figure which shows the schematic configuration example of the LTE communication system in Embodiment The figure which shows the hardware configuration example of a UE, an eNB and a call control server in an LTE communication system. Sequence diagram showing an example of communication procedure when an error occurs Sequence diagram showing an example of call connection procedure Figure showing an example of a table showing a terminal information list A diagram showing an example of a screen displayed on the display of the UE when communication is normally connected. A diagram showing an example of a screen displayed on the display of the UE when communication is temporarily connected. The figure which shows the schematic structure of the conventional LTE communication system. Sequence diagram showing the conventional call connection procedure

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Background to Obtaining One Form of the Present Invention)
FIG. 7 is a diagram showing a schematic configuration of an LTE communication system 105 that performs a conventional call connection. The LTE communication system 105 includes a plurality of UEs 110 (110A, 110B, ...), An ENB 120, an EPC 170, and an IMS (IP Multimedia Subsystem) server 190, and the IMS server 190 is called according to SIP (Session Initiation Protocol). Connection control (start / disconnection of call, etc.). The IMS server 190 performs a call connection process and a connection process with a terminal of another carrier or a fixed telephone.

FIG. 8 is a sequence diagram showing a conventional call connection procedure. FIG. 8 shows a case where the UE 110A transmits to the UE 110B.

First, the UE 110A transmits the telephone number of the UE 110B as the other party to the IMS server 190 via the EPC 170, and requests a call (T111). When the IMS server 190 receives the telephone number of the UE 110B from the UE 110A, the IMS server 190 requests the UE 110B to receive an incoming call (T112). When the UE 110B detects an operation of pressing the call button by the user in response to the incoming call request, the UE 110B returns the incoming call response to the IMS server 190 (T113). The IMS server 190 notifies the UE 110A of the response of the incoming call (T114).

This establishes a call connection between the UE 110A and the UE 110B (T115). This call connection is a route via the EPC 170. That is, the call connection route in FIG. 8 is a route that sequentially passes through the UE 110A, eNB 120, EPC170, eNB 120, and UE 110B, and VoLTE communication such as voice communication is performed via this route. That is, in the LTE protocol, VoLTE communication is carried out via the EPC170.

Further, in the conventional LTE communication system 105, when the eNB 120 and the EPC 170 are disconnected, the communication including the VoLTE communication between the UE 110A and the UE 110B is cut off according to the LTE protocol. Since the eNB 120 cuts off the communication with all the UEs 110, the communication of all the UEs 110 is cut off even if there is no particular abnormality between the UE 110 and the eNB 120 and the communication is possible. Therefore, in the conventional LTE communication system 105, it is difficult for the user to communicate using the UE 110 as an emergency response such as a natural disaster.

Hereinafter, an LTE communication system and a communication control method capable of performing communication of a part of terminals belonging to the disconnected base station apparatus even when the communication connection between the base station apparatus and the core network communicating according to the LTE communication method is disconnected. Will be explained.

In the following embodiments, the LTE communication system and the communication control method are applied to the LTE communication system that communicates by the LTE (long term evolution) communication method. The LTE communication method may include a method of communicating according to the LTE protocol via a wireless LAN (Local Area Network) (for example, LTE over Wifi). LTE over Wifi is disclosed in, for example, Reference Patent Document 1.
(Reference Patent Document 1: Japanese Patent Application Laid-Open No. 2016-509793)

(Embodiment)
FIG. 1 is a diagram showing a schematic configuration of an LTE communication system 5 according to an embodiment. The LTE communication system 5 includes a plurality of UEs 10, an eNB 20, a call control server 30, an EPC 50, and an IMS (IP Multimedia Subsystem) server 60. The UE 10 is an example of a terminal. The eNB 20 is an example of a base station device. The EPC50 is an example of a core network. The IMS server 60 is a framework for IP (Internet Protocol) multimedia services and provides functions related to call control via the EPC 50.

The UE 10 is possessed by the user and has various functions in addition to the processing related to VoLTE communication. VoLTE communication may include, for example, voice call, video call, SMS (Short Message Service), and the like. Here, a plurality of UEs 10 are referred to as UE10A, UE10B, ....

The eNB 20 manages the UE 10 under the eNB 20 which is its own device, and relays the communication performed between the UE 10 and the EPC 50. The eNB 20 detects an abnormality in communication between the eNB 20 and the EPC 50 (for example, disconnection of the communication line between the eNB 20 and the EPC 50). When an abnormality in communication between the eNB 20 and the EPC 50 is detected, the eNB 20 disconnects the communication connection (communication session) between the plurality of UEs 10 connected to the own device according to the LTE protocol. The eNB 20 may be installed outdoors or may be installed in each building.

The EPC50 is one of the LTE core networks and communicates with the eNB 20 according to the LTE protocol. For example, the EPC 50 cooperates with the IMS server 60 to enable voice communication (call) by VoLTE.

The IMS server 60 performs call connection processing and call control when the UE 10 makes a call connection via the eNB 20 and the EPC 50.

The call control server 30 performs call control between a plurality of UEs 10 via the eNB 20. The call control server 30 processes and controls the call connection between the plurality of UEs 10 via the eNB 20 when the communication between the eNB 20 and the EPC 50 is disconnected. The call control server 30 may perform call control between a plurality of UEs 10 via the eNB 20 according to an arbitrary call control procedure (for example, SIP). The call control server 30 may be arranged, for example, in the vicinity of the eNB 20 (for example, in the same site as the eNB 20).

The call control server 30 may have a terminal information DB (database) 40. The terminal information DB 40 holds the information in the terminal information list 80 (see FIG. 5). The telephone number transmitted from the UE 10 and the IP address may be registered in the terminal information list 80 in association with each other.

Although it is illustrated in FIG. 1 that the call control server 30 is provided separately from the eNB 20, it may be provided inside the eNB 20. That is, the eNB 20 may have the function of the call control server 30.

Although it is illustrated in FIG. 1 that the terminal information DB (database) 40 is provided in the call control server 30, it may be provided separately from the call control server 30. For example, a database server having a terminal information DB (database) 40 may be separately provided.

FIG. 2 is a diagram showing a hardware configuration example of the UE 10, eNB 20 and the call control server 30 in the LTE communication system 5. The UE 10 has a processing unit 11, a communication unit 12, a storage unit 13, a display 14, and an operation unit 15.

The processing unit 11 realizes various functions by executing a program held in a memory (storage unit) by a processor. The processing unit 11 controls the operation of each unit of the UE 10.

The communication unit 12 wirelessly communicates with the eNB 20. For example, the communication unit 12 may receive temporary connection information described later from the eNB 20 via a communication connection (communication session) between the established eNB 20 and the UE 10. The communication unit 12 may transmit the acquired temporary connection information to the eNB 20 after the communication connection between the eNB 20 and the UE 10 is disconnected. The communication unit 12 may transmit the telephone number and IP address of the UE 10 which is its own terminal to the call control server 30 via the communication connection between the reestablished eNB 20 and the UE 10. The communication unit 12 may communicate a signal relating to an outgoing call or an incoming call with the call control server via the communication connection between the reestablished eNB 20 and the UE 10.

The storage unit 13 has, for example, a ROM (Read Only Memory) or a RAM (Random Access Memory), and holds various information, data, and programs.

The display 14 may be a display such as a liquid crystal display, and displays various information. The display 14 may display information (see FIG. 6A) indicating that the eNB 20 and the EPC 50 are in a normal connection state in which they are communicated and connected. The display 14 may display temporary connection display information (see FIG. 6B) indicating that the eNB 20 and the EPC 50 are not connected by communication, but the UE 10 and the eNB 20 are in a state of temporary connection by communication connection.

In the normal connection state, it is possible to make a call with another UE 10 connected to the eNB 20 to which the own terminal belongs, and it is also possible to make a call with another UE 10 connected to another eNB 20 to which the own terminal does not belong. On the other hand, in the temporary normal connection state, it is possible to make a call with another UE 10 connected to the eNB 20 to which the own terminal belongs, and it is not possible to make a call with another UE 10 connected to another eNB 20 to which the own terminal does not belong. be.

The operation unit 15 has operation keys (for example, a numeric keypad and a function key) that can be operated by the user. The user may input the telephone number of the other party by using the operation unit 15.

The eNB 20 has a processing unit 21, a communication unit 22, and a storage unit 23.

The processing unit 21 realizes various functions by executing a program held in a memory (storage unit) by a processor. The processing unit 21 controls the operation of each unit of the eNB 20. For example, the processing unit 21 detects an abnormality in communication between the eNB 20 and the EPC 50 (for example, disconnection of the communication line between the eNB 20 and the EPC 50). The processing unit 21 may detect an abnormality in communication between the eNB 20 and the EPC 50 according to the LTE protocol. When an abnormality in communication with the EPC 50 is detected, the processing unit 21 disconnects the communication connection with the plurality of UEs 10 connected to the own device according to the LTE protocol.

The processing unit 21 may generate connection information (temporary connection information) for the UE 10 and the eNB 20 to make a communication connection again after the communication connection between the UE 10 and the eNB 20 is disconnected. As temporary connection information, an authentication key such as an encryption key, a random number, a hash value, or the like may be used. The encryption key may be a common key of a common key encryption method or a key pair of a public key encryption method.

The processing unit 21 disconnects the communication connection between the own device and the UE 10 after notifying the UE 10 to which the temporary connection information and the IP address of the call control server 30 are communicated via the communication unit 22.

The processing unit 21 may reestablish the communication connection between the UE 10 and the eNB 20 based on the reconnection request from the UE 10. This reconnection request may include temporary connection information notified to the UE 10.

The processing unit 21 may verify the UE 10 using the provisional connection information (T5) (see FIG. 3). At the time of verification, the processing unit 21 may collate, for example, the temporary connection information with the authentication information held by the eNB 20 (for example, the random number, common key, and secret key corresponding to the temporary connection information). .. If the verification is successful, the processing unit 21 recognizes that the UE 10 is legitimate and permits a communication connection with the UE 10. On the other hand, if the verification fails, the processing unit 21 may recognize the UE 10 as an unjustified UE 10 and prohibit communication connection with the UE 10.

The communication unit 22 communicates with at least one UE 10 connected to the eNB 20. The communication unit 22 may communicate with the UE 10 in the case of a normal connection in which the eNB 20 and the EPC 50 are connected by communication. The communication unit 22 may communicate with the UE 10 in the case of a temporary connection in which the eNB 20 and the EPC 50 are not connected by communication, but the UE 10 and the eNB 20 are connected by communication. The communication unit 22 may communicate with the call control server 30. The communication unit 22 may communicate with the EPC 50. The communication unit 22 may communicate with the EPC 50 in the case of a normal connection in which the eNB 20 and the EPC 50 are connected by communication.

The storage unit 23 has, for example, a ROM or RAM, and holds various information, data, and programs.

The call control server 30 has a processing unit 31, a communication unit 32, a storage unit 33, and a recording unit 34.

The processing unit 31 realizes various functions by executing a program held in the memory (storage unit) by the processor. The processing unit 31 controls the operation of each unit of the call control server 30. The processing unit 31 performs call control via the communication unit 32 according to, for example, SIP (Session Initiation Protocol), and enables a call between UEs 10 connected to the eNB 20.

The communication unit 32 communicates with the eNB 20. The communication unit 32 may communicate with another device (for example, UE 10) via the eNB 20. The communication unit 32 may receive telephone number and IP address information from the UE 10 via the communication connection between the reestablished eNB 20 and the UE 10. The communication unit 32 may perform communication regarding outgoing or incoming calls via the communication connection between the reestablished eNB 20 and the UE 10.

The storage unit 33 has, for example, a ROM or RAM, and holds various information, data, and programs.

The recording unit 34 has, for example, an HDD (Hard Disk Drive) or an SSD (Solid State Drive), and records various data and information. The recording unit 34 may have a terminal information DB 40. The processing unit 31 may instruct a recording operation such as addition / deletion / change of the contents of the terminal information list 80 (see FIG. 5) held in the terminal information DB 40.

The data held in the terminal information list 80 may be deleted or stored for a predetermined period after the communication connection between the eNB 20 and the EPC 50 is restored. For example, when the processing unit 31 detects the restoration of the communication connection between the eNB 20 and the EPC 50, the processing unit 31 may delete the terminal information list 80 of the terminal information DB 40 of the recording unit 34. Further, the data held in the terminal information list 80 may be overwritten and erased when another data is recorded at the next time when the communication connection is reestablished. By timely erasing the data held in the terminal information list 80, the storage capacity of the terminal information DB 40 can be suppressed.

When the terminal information DB 40 is connected to the call control server 30 as an external storage device, the terminal information DB 40 may be commonly used for the plurality of eNBs 20 and the plurality of call control servers 30.

Next, the operation of the LTE communication system 5 will be described.

FIG. 3 is a sequence diagram showing a communication procedure when an abnormality occurs between the eNB 20 and the EPC 50. In FIG. 3, it is assumed that a plurality of UEs 10 (10A, 10B) are connected to the eNB 20 at the time of normal connection in which the eNB 20 is communicated and connected to the EPC 50.

In the eNB 20, the processing unit 21 detects an abnormality in communication between the eNB 20 and the EPC 50, such as the inability to reach the EPC 50 (T1). When an abnormality in communication is detected, the processing unit 21 generates temporary connection information (T2).

The communication unit 22 notifies the UEs 10A and 10B of the generated temporary connection information and the IP address of the call control server 30 (T3). After notifying the temporary connection information and the IP address of the call control server 30, the processing unit 21 disconnects the communication connection with the UEs 10A and 10B via the communication unit 22 (T3).

In the UE 10A, the communication unit 12 receives the temporary connection information and the IP address of the call control server 30 before disconnecting the communication connection with the eNB 20. After disconnecting the communication connection with the eNB 20, the communication unit 12 requests the eNB 20 to make another communication connection (reconnection request) (T4). This reconnection request includes temporary connection information.

In the eNB 20, the communication unit 22 receives the temporary connection information from the UE 10A, and the processing unit 21 verifies the temporary connection information (T5). If the verification fails, the processing unit 21 does not establish (reestablish) a communication connection with the UE 10A. On the other hand, if the verification is successful, in the eNB 20, the processing unit 21 establishes (reestablishes) a communication connection with the UE 10A (T6).

When the communication connection between the UE 10 (UE 10A, 10B) and the eNB 20 is established, in the UE 10, the processing unit 11 displays the temporary connection information (for example, see the mark MK in FIG. 6B) on the display 14. The temporary connection information indicates information on a temporary connection in which a communication connection between the UE 10 (UE 10A, 10B) and the eNB 20 is established and the communication connection between the eNB 20 and the EPC 50 is not connected.

When the communication connection between the eNB 20 and the UE 10 is re-established, in the UE 10A, the communication unit 12 sends the telephone number and IP address of the UE 10A to the call control server 30 via the re-established communication connection. Send (T7). The information on the telephone number of the UE 10A may be stored in, for example, a storage unit 13 of the UE 10A or a SIM (Subscriber Identity Module) card. The information of the IP address of the UE 10A may be stored in the storage unit 13 of the UE 10A, for example. The IP address of the UE 10A may be, for example, a fixed IP address included in the temporary connection information or an IP address assigned by the eNB 20 according to DHCP (Dynamic Host Configuration Protocol) when the communication connection is reestablished.

In the call control server 30, when the communication unit 32 receives the telephone number and IP address of the UE 10A, the processing unit 31 displays the telephone number of the UE 10A in the terminal information list 80 held in the terminal information DB 40 of the recording unit 34. And the IP address are added and registered (T8). Therefore, the call control server 30 can be recognized as a terminal for making a call to the UE 10A and the UE 10B by referring to the terminal information list 80, and can assist the call connection between the UE 10A and the UE 10B, for example.

Here, the UE 10A has been mainly described, but the same applies to the UE 10B, and the UE 10B also performs the operations of the procedures T3 to T7, for example.

As described above, according to the procedure shown in FIG. 3, the eNB 20 transmits information (temporary connection information) necessary for reconnecting the communication connection before the communication connection with the UE 10 is disconnected. By setting this, the communication connection with the UE 10 can be reestablished even after the communication connection with the UE 10 is disconnected by the LTE protocol. Therefore, even if the communication connection with the UE 10 is disconnected, the communication connection with the UE 10 at the IP level can be reestablished. That is, IP communication is possible between the eNB 20 and the UE 10 for which the communication connection has been reestablished. The call control server 30 can register information (call control information) for carrying out VoLTE between UEs 10 under the eNB 20 after reestablishing the communication connection between the eNB 20 and the UE 10.

By re-establishing the communication connection, the UE 10 can be connected when an abnormality occurs between the eNB 20 and the EPC 50, and it seems that the security level is slightly lowered. However, the call control server 30 may not hold the user data that the UE 10 holds. In this case, the call control server 30 can avoid the occurrence of information leakage of user data without maintaining a high security level. Further, the call control server 30 can provide a great merit of realizing VoLTE communication between UEs 10 under the eNB 20 even if the security level is lowered to some extent.

Further, when the communication connection between the eNB 20 and the UE 10 is disconnected, the temporary connection information is notified to the UE 10, and the eNB 20 reestablishes the communication connection using the temporary connection information. Therefore, the communication connection is originally established with the EPC 50. Only the UE 10 for which the communication connection has been established is allowed to reestablish the communication connection with the eNB 20. Therefore, even if the security level of the call control server 30 is slightly lowered, it is possible to prevent a third party from making a communication connection with the eNB 20 when an abnormality occurs in the communication path on the EPC 50 side.

FIG. 4 is a sequence diagram showing an example of the call connection procedure. Here, after the communication connection between the UE 10 and the eNB 20 is reestablished in the procedure T6 of FIG. 3, the call control server 30 performs call connection control (start / disconnection of a call, etc.) according to SIP or the like. FIG. 4 illustrates a case where the UE 10A transmits to the UE 10B.

First, in the UE 10A, the communication unit 12 transmits the telephone number of the UE 10B as the other party to the call control server 30 and requests a call (T11). In the call control server 30, when the communication unit 32 receives the telephone number of the UE 10B from the UE 10A, the processing unit 31 inquires the terminal information DB 40 of the recording unit 34 about the IP address of the UE 10B corresponding to the telephone number of the UE 10B (T12). ). The processing unit 31 acquires the IP address of the UE 10B associated with the telephone number of the UE 10B from the terminal information list 80 of the terminal information DB 40 as a response to the inquiry of the IP address (T13).

In the call control server 30, the communication unit 32 requests the UE 10B to receive an incoming call based on the IP address of the UE 10B (T14). In the UE 10B, the communication unit 12 receives the incoming call request and presents the incoming call request to the user on the display 14 or the like. When the processing unit 11 detects an operation of pressing the call button via the operation unit 15, the processing unit 11 returns an incoming call response to the incoming call request to the call control server 30 via the communication unit 12 (T15). The communication unit 32 receives the incoming call response from the UE 10B, and notifies the UE 10A of the incoming call response (answer notification) (T16).

This establishes a call connection between the UE 10A and the UE 10B (T17). This call connection is a route via the eNB 20. That is, the call connection route becomes a route that passes through UE10A, eNB20, and UE10B in order, and VoLTE communication is performed via this route.

As described above, according to the procedure shown in FIG. 4, the call control server 30 can establish a call connection via the reestablished communication connection between the UE 10A and the eNB 20 and the communication connection between the UE 10B and the eNB 20. When an abnormality occurs in the communication connection between the eNB 20 and the EPC 50, the call control cannot be performed by the IMS server 60 located higher than the EPC 50, but the call control server 30 controls the call in place of the IMS server 60. As a result, the call control server 30 can enable VoLTE communication between UEs 10 under the eNB 20 within a range not exceeding the EPC 50 (on the eNB 20 side lower than the EPC 50).

FIG. 5 is a table showing an example of the terminal information list 80.

In the terminal information list 80, the telephone numbers and IP addresses of one or more UEs 10 whose communication connection with the eNB 20 has been reestablished are registered. For example, information in which the IP address is "AAA.BBB.CCC.DDD" and the telephone number is "012-333-〇〇 △△" may be registered. That is, call control information (including the IP address and telephone number of the UE 10) related to call control may be registered as terminal information of at least one UE 10 under the control of the eNB 20. Since it may be registered in the terminal information list 80 when an abnormality occurs in the communication between the eNB 20 and the EPC 50, the number of UEs 10 connected to the eNB 20 when the communication between the eNB 20 and the EPC 50 occurs. Call control information may be registered.

The terminal information list 80 may be held in the terminal information DB 40 for each eNB 20. In this case, the terminal information DB 40 may store the same number of terminal information lists 80 as the number of eNBs 20.

The IP address of the temporary connection information given to each UE 10 may be updated or fixed each time the communication connection is reestablished when an abnormality occurs. When the IP address of the temporary connection information is updated, the terminal information list 80 may be deleted after the communication connection is reconnected. In this case, the call control server 30 can reduce the memory consumption required for the terminal information list 80. Further, when the IP address of the temporary connection information is fixed, the call control server 30 does not need to re-register the IP address of the temporary connection information in the terminal information list 80 every time the communication connection is reestablished. , The load of processing such as registration can be reduced. Further, the call control server 30 can suppress an increase in the number of IP addresses when the IP address of the temporary connection information is fixed.

Next, it will be described to visualize the communication connection state (normal connection state or temporary connection state) of the eNB 20.

On the UE 10, the display 14 may display and visualize the communication connection status (normal connection status or temporary connection status) of the eNB 20.

FIG. 6A is a diagram showing a screen example showing that the eNB 20 is in a normal connection state. In the normal connection, not only the other UE 10 connected to the eNB 20 to which the UE 10 is connected, but also other UE 10s connected to other eNB 20 other than the eNB 20 to which the UE 10 is connected can be widely called and communicated. Is.

Since the display 14 of the UE 10A is in a normal connection state, the temporary connection display information is not displayed. It should be noted that the display 14 of the UE 10A may display the normal connection display information indicating that the eNB 20 is in the normal connection state more directly than the temporary connection display information is not displayed.

By confirming the display of FIG. 6A, the user can recognize that it is possible to make a call with another UE 10 over a wide area without limiting the other party of the call.

FIG. 6B is a diagram showing an example of a screen on which temporary connection display information indicating that the eNB 20 is in a temporary connection state is displayed. In the temporary connection, the call connection is possible only to the other UE 10 connected to the eNB 20 to which the UE 10 is connected.

The display 14 of the UE 10A displays temporary connection display information (for example, a mark or message indicating that the temporary connection is in progress) indicating that the UE 10 is in a temporary connection state and is connected to the call control server 30. .. For example, the mark mk of "LTE / emp" may be displayed on the display 14 as temporary connection display information.

By confirming the display in FIG. 6B, the user can make a call only with another UE 10 belonging to the same eNB 20, that is, a UE 10 within a short distance (for example, within the same municipality), and can make a call over a wide area. It can be recognized that it is not possible to talk to the UE 10.

As described above, in the LTE communication system 5 of the present embodiment, when the communication connection between the eNB 20 and the EPC 50 is disconnected due to a natural disaster or the like, the communication connection between the eNB 20 and the UE 10 is temporarily disconnected according to the LTE protocol specifications. However, it is possible to reconnect the communication connection between the eNB 20 and the UE 10 by using the temporary connection information. Therefore, the eNB 20 can establish a call connection between the plurality of UEs 10 in order to enable VoLTE communication between the plurality of reconnected UEs 10. Therefore, even if a natural disaster or the like occurs, the user of the UE 10 can start VoLTE communication with another UE 10 within a short distance (for example, the same municipality), and can share necessary information with another person. Therefore, the re-established communication connection between the eNB 20 and the UE 10 can be utilized as a communication network for emergency communication.

As described above, in the LTE communication system 5 of the present embodiment, the eNB 20 (an example of the base station apparatus) that communicates according to the LTE communication method includes a processing unit 21 and a communication unit 22. The processing unit 21 detects an abnormality in communication between the eNB 20 and the EPC 50 (an example of a core network). When an abnormality is detected, the processing unit 21 provides a temporary connection for the UE 10 (an example of a terminal) and the eNB 20 that are communicated and connected to and from the eNB 20 via the communication unit 22. Information (an example of connection information) is transmitted to the UE 10. The processing unit 21 disconnects the communication connection between the eNB 20 and the UE 10 to which the temporary connection information has been transmitted. The processing unit 21 receives a reconnection request for the eNB 20 and the UE 10 to make a communication connection again via the communication unit 22. The processing unit 21 reestablishes the communication connection between the eNB 20 and the UE 10 based on the reconnection request. The processing unit 21 receives call control information such as a telephone number and an IP address used for the call connection of the UE 10 whose communication connection has been reestablished via the communication unit 22. The processing unit 21 stores the call control information in the recording unit 34 (an example of the recording device) of the call control server 30.

When the eNB 20 and the EPC 50 are disconnected due to a natural disaster or the like, the communication connection between the eNB 20 and the UE 10 is also disconnected by the LTE protocol. The eNB 20 sends temporary connection information to the UE 10 for reestablishing a communication connection between the eNB 20 and the UE 10 before the communication connection between the eNB 20 and the UE 10 is disconnected. Therefore, the UE 10 can try a communication connection between the eNB 20 and the UE 10 by using the temporary connection information. By reestablishing the communication connection, the eNB 20 enables communication between UEs 10 under the control of the eNB 20 and can prevent all communication from becoming unusable. Further, the eNB 20 can support the call control of the UE 10 under the control of the eNB 20 by registering the call control information used for the call connection of the UE 10 in the recording unit 34 of the call control server 30, and the call control information is used. Can provide services.

In this way, the eNB 20 can make a part of the communication of the UE 10 belonging to the disconnected eNB 20 available even when the communication connection between the eNB 20 and the EPC 50 is disconnected. Therefore, the call between the UEs 10 under the same eNB 20 can be continuously used.

The processing unit 21 of the eNB 20 may verify the validity of the UE 10 based on the information included in the connection request. When the connection request includes the same temporary connection information as the temporary connection information transmitted by the eNB 20, the processing unit 21 determines that the UE 10 is valid and reestablishes the communication connection with the UE 10. You can do it.

As a result, the eNB 20 verifies whether the UE 10 is legitimate, so that it is possible to prevent the UE 10 or the like as a third party from communicating with the eNB 20 without permission. Therefore, the eNB 20 can suppress a call or the like between UEs 10 that the eNB 20 does not allow.

The recording unit 34 may hold call control information including the IP address and telephone number of the UE 10 for each UE 10.

As a result, the UE 10 can perform a service (for example, VoLTE communication) using the IP address and the telephone number. Services using telephone numbers may include voice calls, video calls, SMS, and the like.

The LTE communication system 5 may include a call control server 30 arranged on the eNB 20 side (lower side) of the EPC 50. The call control server 30 may include a processing unit 31 and a communication unit 32. The UE 10 may include a UE 10A (an example of a first terminal) and a UE 10B (an example of a second terminal). The processing unit 31 may receive a transmission request including the telephone number of the UE 10B from the UE 10A via the communication unit 32. The processing unit 31 may obtain the IP address of the UE 10B corresponding to the telephone number of the UE 10B with reference to the recording unit 34. The processing unit 31 may transmit an incoming call request to the UE 10B using the IP address of the UE 10B via the communication unit 32. The processing unit 31 may receive a response to an incoming call request from the UE 10B via the communication unit 32. The processing unit 31 may notify the UE 10A of the response via the communication unit 32.

As a result, the call control server 30 can assist in establishing a call connection between the UEs 10 under the control using the telephone number and the IP address via the communication connection reestablished between the UE 10 and the eNB 20. As a result, the eNB 20 can realize VoLTE communication via a call connection by transmitting and receiving by the UEs 10A and 10B.

The LTE communication method includes a method of virtually communicating according to the LTE protocol via a wireless LAN.

As a result, the eNB 20 is not limited to the case where LTE communication is physically performed using the LTE line, but it is also possible to virtually perform communication according to the LTE protocol on another communication line. Even in this case, the eNB 20 can prevent all communication by the UE 10 under the eNB 20 from becoming unusable by reestablishing the communication connection between the disconnected eNB 20 and the UE 10. The LTE communication method may include a method of virtually communicating according to the LTE protocol via a wireless line other than the wireless LAN.

Although various embodiments have been described above with reference to the drawings, it goes without saying that the present invention is not limited to such examples. It is clear that a person skilled in the art can come up with various modifications or modifications within the scope of the claims, which naturally belong to the technical scope of the present invention. Understood.

In the above embodiment, it is exemplified that the call control server 30 does not authenticate the UE 10 (terminal authentication) when the call control server 30 is accessed from the UE 10. The call control server 30 may be configured in the same manner as being integrated with the eNB 20, and in this case, a certain degree of security can be maintained even if the call control server 30 is not separately authenticated. Further, the call control server 30 may authenticate the terminal. As a result, the call control server 30 can further suppress unintended VoLTE from being carried out by some device impersonating a legitimate UE 10 and making a communication connection using the call control server 30.

The present invention provides an LTE communication system that enables communication of a part of terminals belonging to the disconnected base station apparatus even when the communication connection between the base station apparatus communicating according to the LTE communication method and the core network is disconnected. It is useful for communication control methods and the like.

5,105 LTE communication system 10,10A, 10B, 110, 110A, 110B UE
11,21,31 Processing unit 12,22,32 Communication unit 13,23,33 Storage unit 14 Display 15 Operation unit 20,120 eNB
30 Call control server 34 Recording unit 40 Terminal information DB
50,170 EPC
60,190 IMS server 80 Terminal information list mk mark

Claims (8)

An LTE communication system including a base station device that communicates according to an LTE (Long Term Evolution) communication system.
Base station equipment
Detects an abnormality in communication between the base station device and the core network,
When the abnormality is detected, the terminal communicated with the base station device and the base station device transmit connection information used for authentication for communication connection again to the terminal.
The communication connection between the base station device and the terminal to which the connection information is transmitted is disconnected.
A connection request including the connection information for re-communication connection between the base station device and the terminal is received from the terminal .
Based on the connection request, the communication connection between the base station device and the terminal is reestablished.
The call control information used for the call connection of the terminal whose communication connection has been reestablished is received from the terminal, and the call control information is received from the terminal .
The recording device holds the call control information.
LTE communication system. The LTE communication system according to claim 1.
The base station device is
Based on the information contained in the connection request, the validity of the terminal is verified, and the validity of the terminal is verified.
When the connection request includes the same connection information as the connection information transmitted by the base station apparatus, it is determined that the terminal is valid, and the communication connection with the terminal is reestablished.
LTE communication system. The LTE communication system according to claim 1 or 2.
The connection information is an authentication key used for the authentication.
LTE communication system. The LTE communication system according to any one of claims 1 to 3.
Further equipped with the terminal
The terminal displays information indicating a state in which the communication connection between the base station device and the core network is not connected when the communication connection between the base station device and the terminal is reestablished.
LTE communication system. The LTE communication system according to any one of claims 1 to 4 .
The recording device holds the call control information including the IP address and telephone number of the terminal for each terminal.
LTE communication system. The LTE communication system according to claim 5 , further
A call control server located closer to the base station device than the core network is provided.
The terminal includes a first terminal and a second terminal.
The call control server is
A call request including the telephone number of the second terminal is received from the first terminal, and the call is received.
With reference to the recording device, the IP address of the second terminal corresponding to the telephone number of the second terminal is acquired.
An incoming call request is transmitted to the second terminal using the IP address of the second terminal.
The response to the incoming call request is received from the second terminal, and the response is received.
Notifying the first terminal of the response,
LTE communication system. The LTE communication system according to any one of claims 1 to 6 .
The LTE communication method includes a method of virtually communicating according to the LTE protocol via a wireless LAN (Local Area Network).
LTE communication system. It is a communication control method in a base station device that communicates according to the LTE communication method.
Detects an abnormality in communication between the base station device and the core network,
When the abnormality is detected, the terminal communicated with the base station device and the base station device again transmit the connection information used for authentication for communication connection to the terminal.
The communication connection between the base station device and the terminal to which the connection information is transmitted is disconnected.
A connection request including the connection information for re-communication connection between the base station device and the terminal is received from the terminal .
Based on the connection request, the communication connection between the base station device and the terminal is reestablished.
The call control information used for the call connection of the terminal whose communication connection has been reestablished is received from the terminal, and the call control information is received from the terminal .
The recording device holds the call control information.
Communication control method.

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