JP2018050168A - Communication system and base station device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress decline in speech quality at the time of voice phone.SOLUTION: A communication system 1 including a mobile communication terminal 10 capable of voice phone, multiple first base station devices BS(1)-BS(n) connected with first communication networks PN(1)-PN(m) and relaying voice phone, and a second base station device BS(k) connected with a second communication network LN different from the first communication networks PN(1)-PN(m), is configured to determine whether or not a first base station device to be selected has been prohibited to relay, when one of multiple first base station devices is selected anew, and when the determination results indicates relay prohibition, can switch the base station for relaying voice phone to the second base station device.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication system and a base station apparatus.

  2. Description of the Related Art Conventionally, there is known a communication system that performs so-called handover in which a base station apparatus that communicates with a mobile communication terminal is switched while a mobile communication terminal such as a mobile phone is moving.

  This handover can also be applied to a voice call via a communication network such as an LTE (Long Term Evolution) network (see, for example, Patent Document 1).

JP 2016-111462 A

  However, the communication network of the mobile communication device may be switched to a communication network in which the bandwidth of the transmission path is not guaranteed due to the handover, and there is a problem that the voice quality is deteriorated during a voice call. This problem can occur not only in the case of handover but also in the case of starting a voice call.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a communication system and a base station apparatus that suppress a decrease in voice quality during a voice call.

  A communication system according to an aspect of the present invention includes a mobile communication terminal capable of voice call, a plurality of first base station apparatuses connected to a first communication network and relaying the voice call, and the first communication network. A second base station device connected to a different second communication network, and when a first base station device is newly selected from the plurality of first base station devices, It is determined whether or not the first base station apparatus to be selected is prohibited from relaying, and if the result of the determination indicates that relaying is prohibited, the base station apparatus that relays the voice call is It is configured to be switchable to 2 base station apparatuses.

  According to this configuration, if the first base station apparatus connected to the first communication network whose transmission path bandwidth is not guaranteed is prohibited from being relayed, the communication system newly selects the first base station apparatus. In this case, it is determined that the first base station apparatus is prohibited from relaying. Then, the base station device that relays the voice call can be switched to the second base station device. Therefore, since voice communication can be performed without relaying the first base station apparatus connected to the packet switching network whose transmission path bandwidth is not guaranteed, voice quality is deteriorated during voice communication. Can be suppressed.

  ADVANTAGE OF THE INVENTION According to this invention, it can suppress that voice quality falls in the case of a voice call.

FIG. 1 is a diagram illustrating a configuration diagram of a communication system according to the present embodiment. FIG. 2 is a diagram for explaining an example of a hardware configuration of the first base station. FIG. 3 is a block diagram illustrating an example of a functional configuration of the communication system. FIG. 4 is a diagram illustrating an example of a logical table. FIG. 5 is a flowchart showing an example of the flow of a voice call process for making a voice call in the communication system. FIG. 6 is a flowchart showing an example of a flow of processing while the voice call is being performed in the communication system 1, which is processing subsequent to the voice call processing shown in FIG. 5.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In order to facilitate understanding of the description, the same components and steps are denoted by the same reference numerals as much as possible in each drawing, and redundant description is omitted.

  FIG. 1 is a diagram illustrating a configuration diagram of a communication system 1 according to the present embodiment.

  As shown in FIG. 1, the communication system 1 is a mobile communication system in which at least one of terminals 10 and 12 communicating with each other can perform communication such as a voice call while moving. In the present embodiment, a case will be described in which the terminal 10 is a mobile communication terminal such as a mobile phone that can perform communication while moving, and the terminal 12 is a fixed terminal (for example, a fixed telephone). In the following, “mobile communication terminal” is abbreviated as “mobile”.

  The communication system 1 includes a mobile unit 10, a plurality of first base station apparatuses BS (1) to BS (n) connected to packet switching networks PN (1) to (m) as first communication networks, and packets A second base station device BS (k) connected to a circuit switching network LN as a second communication network different from the switching network is provided. Note that n, m, and k are natural numbers. In the following, “base station apparatus” is abbreviated as “base station”.

  The mobile unit 10 is configured to be able to make a voice call with the terminal 12 or the like using a packet switching method and a circuit switching method such as VoLTE (Voice over LTE). In the present embodiment, the mobile 10 performs packet communication by wirelessly communicating with any one of the plurality of first base stations BS (1) to BS (n) and the second base station BS (k). A voice call is performed with the terminal 12 via the switching networks PN (1) to (m), the Internet IN, the circuit switching network LN, or the like.

  The first base stations BS (1) to BS (n) and the second base station BS (k) are configured to be able to communicate with the mobile unit 10 during a voice call, and are relay devices that relay the voice call. is there. The first base stations BS (1) to BS (n) are connected to any one of the packet switched networks PN (1) to (m). Note that some of the first base stations BS (1) to BS (n) may be connected to a common packet switching network.

In the communication system 1 as described above, when the mobile unit 10 moves during a voice call (see an arrow in FIG. 1), the base station device that relays the voice call is currently relaying the first A handover is performed to switch to a base station (first base station or second base station) different from the base station.
In the present embodiment, in the case of newly selecting one first base station among the plurality of first base stations BS (1) to BS (n) at the time of this handover or before starting a voice call. Determining whether or not the first base station to be selected is prohibited from relaying, and if the result of the determination indicates that relaying is prohibited, the base station that relays the voice call is designated as the second base station BS. The communication system 1 is configured to be switchable to (k).

  FIG. 2 is a diagram for explaining an example of the hardware configuration of the first base station BS (1). Note that base stations other than the first base station BS (1) have the same configuration as that shown in FIG.

  As shown in FIG. 2, the first base station BS (n) mainly includes a control device 30, a communication device 36, and a storage device 38. The control device 30 mainly includes a CPU (Central Processing Unit) 32 and a memory 34.

  In the control device 30, the CPU 32 functions as various function realization means by executing predetermined programs stored in the memory 34 or the storage device 38. Details of this function realizing means will be described later.

  The communication device 36 includes an antenna 36 </ b> A and communicates with the mobile object 10. The communication device 36 is connected to any one of the packet switching networks PN (1) to (m), for example, the packet switching network PN (1), and communicates with the packet switching network PN (1). To do.

  The storage device 38 includes a memory, a hard disk, and the like. The storage device 38 stores various programs and various information necessary for execution of processing in the control device 30, and information on processing results.

  Note that FIG. 2 shows only a part of the main hardware configuration of the base station BS (1), and the base station BS (1) has other configurations generally provided in the base station. be able to.

  FIG. 3 is a block diagram illustrating an example of a functional configuration of the communication system 1.

  First, the mobile unit 10 includes a call unit 40, a selection unit 42, and a handover unit 44.

  The call means 40 makes a voice call with a call destination such as the terminal 12 using either the packet switching method or the circuit switching method.

The selection means 42 relays the voice call among the plurality of first base stations BS (1) to (n) and the second base station BS (k) when a predetermined condition is satisfied during the voice call. A base station different from the first base station (for example, the first base station BS (1)) is selected. This different base station is selected as a handover destination candidate. The “predetermined condition” refers to, for example, the radio wave intensity received from a base station device that relays a voice call is lower than a threshold, the radio wave quality is lower than a threshold, or an instruction from a user And the like. During this selection, RSRP around the mobile 10 (R eference S ignal R eceived P ower) is may be selected from the order of the base station of the strongest frequency, near RSRQ (Reference Signal Received Quality) is best You may select from the order of the frequency base station.

  The handover unit 44 transmits a handover request including the identification code of the base station selected by the selection unit 42 to the base station that relays the voice call.

  Next, the base station BS (1) includes a storage unit 50, a relay unit 52, a reception unit 54, a determination unit 56, and a transmission unit 58. Note that base station apparatuses other than the base station BS (1) have the same configuration as that shown in FIG. For example, the storage means 50 is realized by the storage device 38 shown in FIG. 2, and the relay means 52, the reception means 54, the determination means 56, and the transmission means 58 are realized by the control device 30 and the communication device 36 shown in FIG. The

  The storage unit 50 stores a logical table 50A corresponding to a list in which relay impossible information related to a position where relay is prohibited is described. In the present embodiment, a case will be described in which relay impossible information is a TAC (Tracking Area Code) indicating an area where relay is prohibited. Hereinafter, the TAC for which relaying is prohibited is referred to as BlackTAC (BLTAC) as relay-disabled information.

  When the call means 40 makes a call or when there is an incoming call from the packet switching network PN (1) to PN (m), the relay means 52 is a call partner such as the call means 40 and the terminal 12. And establish a transmission line between them and relay voice calls.

  The receiving unit 54 receives the handover request from the mobile unit 10.

  In response to receiving the handover request, the determination unit 56 acquires position information corresponding to the identification code included in the handover request, and the acquired position information is not relayable described in the logical table 50A of the storage unit 50. It is determined whether or not the first base station corresponding to the identification code is prohibited from relaying by determining whether or not the information corresponds (for example, matches). That is, the determination unit 56 determines that the relay is prohibited if the acquired position information corresponds to the relay impossible information, and the relay is prohibited if the acquired position information does not correspond to the relay impossible information. Judge that it is not.

  The transmission unit 58 transmits the determination result of the determination unit 56 to the moving body 10.

  In the above configuration, when the mobile unit 10 receives a determination result indicating a negative determination, the mobile unit 10 receives an identification code that selects a base station that relays a voice call from the first base stations BS (1) to (n). The voice call is continued by switching to the first base station shown. Moreover, the mobile body 10 is switched to 2nd base station BS (k), and continues a voice call, when the determination result which shows affirmation determination is received.

  FIG. 4 is a diagram illustrating an example of the logical table 50A.

  The logical table 50A describes a plurality of BLTACs that are prohibited from being relayed. This BLTAC is described as “90”, “91”, etc. in a code system different from the TAC that is permitted to be relayed, for example, “1”, “2”, etc. BLTAC is currently described in multiple in the logical table 50A because different codes are set for each area in Japan. If it is unified in the future, it will be unified in the logical table 50A. Only one BLTAC may be described.

  FIG. 5 is a flowchart showing an example of the flow of a voice call process for making a voice call in the communication system 1.

(Step SP10)
The first base station BS (1) to (n) and the second base station BS (k) send various information to the mobile unit 10 in the area periodically or irregularly by radio communication using radio waves. Send. The various information includes, for example, a transmission source identification code and discrimination information indicating whether or not the transmission source TAC is a BLTAC. And a process transfers to the process of step SP12.

(Step SP12)
The mobile body 10 receives various information from the first base stations BS (1) to (n) by wireless communication. Next, the selection means 42 of the mobile 10 selects one first base station to be used for voice call communication or the like from the first base stations BS (1) to (n). At the time of this selection, the selection means 42 selects, for example, the first base station having the strongest radio communication radio wave intensity. In the present embodiment, it is assumed that the base station BS (1) is selected, for example. And a process transfers to the process of step SP14.

(Step SP14)
The mobile 10 determines whether the TAC of the selected first base station BS (1) is BLTAC based on the received determination information. If the determination is affirmative (Yes), the process proceeds to step SP28. If the determination is negative (No), the process proceeds to step SP16.

(Step SP16)
The mobile 10 transmits the location registration request to the selected first base station BS (1). And a process transfers to the process of step SP18.

(Step SP18)
The first base station BS (1) receives the location registration request from the mobile unit 10. Based on this location registration request, the first base station BS (1) registers the location of the mobile unit 10 and sends back to the mobile unit 10 that it has registered. And a process transfers to the process of step SP20.

(Step SP20)
The mobile body 10 receives a call operation to the terminal 12 by the user. And a process transfers to the process of step SP22.

(Step SP22)
The mobile unit 10 transmits a connection request to the first base station BS (1). And a process transfers to the process of step SP24.

(Step SP24)
The first base station BS (1) receives a connection request from the mobile unit 10. Based on this connection request, the first base station BS (1) connects to the mobile unit 10 so that a voice call is possible. Next, the first base station BS (1) replies to the mobile unit 10 that it has connected. And a process transfers to the process of step SP26.

(Step SP26)
The mobile unit 10 starts a voice call with the terminal 12 via the first base station BS (1) and the packet switched network PN (1). And a process transfers to the process of step SP40 shown in FIG.

  On the other hand, as described above, when an affirmative determination is made in step SP14 (Yes), the process proceeds to the process of step SP28.

(Step SP28)
The mobile body 10 receives a call operation to the terminal 12 by the user. And a process transfers to the process of step SP30.

(Step SP30)
The mobile 10 performs circuit switching foldback. Specifically, the mobile unit 10 switches the base station that relays the voice call to the second base station BS (k) connected to the circuit switched network LN. At this time, the mobile unit 10 switches the communication method for voice communication from the packet switching method to the circuit switching method. And a process transfers to the process of step SP32.

(Step SP32)
The mobile unit 10 starts a voice call with the terminal 12 via the second base station BS (k) and the circuit switching network LN. When the voice call ends, a series of voice call processing ends.

  FIG. 6 is a flowchart showing an example of a flow of processing while the voice call is being performed in the communication system 1, which is processing subsequent to the voice call processing shown in FIG. 5.

(Step SP40)
The moving body 10 determines whether or not the voice call end button has been pressed. If the determination is affirmative (Yes), the series of voice call processing ends. If the determination is negative (No), the processing proceeds to step SP42.

(Step SP42)
The mobile unit 10 continues the voice call with the terminal 12 via the first base station BS (1). And a process transfers to the process of step SP44.

(Step SP44)
The mobile body 10 checks the radio field intensity of the radio wave transmitted from the first base station BS (1). And a process transfers to the process of step SP46. It may be checked in combination with the quality of the radio wave.

(Step SP46)
The moving body 10 determines whether or not the checked radio wave intensity is less than a threshold value. If an affirmative determination is made (Yes), the process proceeds to step SP48. If a negative determination is made (No), the process returns to step SP40.

(Step SP48)
The mobile unit 10 selects a base station different from the base station BS (1) with which the mobile unit 10 is currently communicating among the first base stations BS (1) to (n) and the second base station BS (k). . At this time, the mobile 10 preferentially selects the first base stations BS (1) to (n), and selects the one having the strongest radio wave intensity among them. And a process transfers to the process of step SP50.

(Step SP50)
The mobile unit 10 determines whether or not the selected base station is the first base station BS (1) to (n) connected to the packet switching network PN (1) to (m). If the determination is affirmative (Yes), the process proceeds to step SP52. If the determination is negative (No), the process proceeds to step SP76.

(Step SP52)
The mobile unit 10 transmits a handover request including the identification code of the selected first base station to the first base station BS (1). And a process transfers to the process of step SP54.

(Step SP54)
The receiving means 54 of the first base station BS (1) receives a handover request from the mobile unit 10. And a process transfers to the process of step SP56.

(Step SP56)
The determination means 56 of the first base station BS (1) acquires the TAC corresponding to the identification code included in the handover request. Specifically, when the identification code included in the handover request is the identification code of the existing first base station, the first base station BS (1) is already in the base station as information of each adjacent base station, for example. Are automatically collected and stored in the storage means 50. Therefore, the determination means 56 corresponds to the identification code included in the handover request from the storage means 50. Get TAC. If the identification code included in the handover request is an identification code of a new base station, since there is no various information in the storage means 50, a transmission request for various information is automatically transmitted to the new base station. By receiving various information from the new base station, the TAC corresponding to the identification code included in the handover request is acquired. Next, the determination unit 56 refers to the logical table 50A in the storage unit 50. And a process transfers to the process of step SP58.

(Step SP58)
The determination unit 56 determines whether the acquired TAC is a BLTAC. Specifically, the determination unit 56 determines whether or not the acquired TAC is stored in the logical table 50A. If the determination is affirmative, it is determined that the acquired TAC is BLTAC and the determination is negative. Determines that the acquired TAC is not BLTAC. If it is determined that the acquired TAC is a BLTAC (Yes), the process returns to the process of step SP40, and a base station different from the already selected base station is selected in step SP48, which is shifted thereafter. . If it is determined that the acquired TAC is not BLTAC (No), the process proceeds to step SP60.

(Step SP60)
The first base station BS (1) inquires of the first base station whether the identification code included in the handover request indicates whether the handover can be performed. In the present embodiment, the first base station indicated by the identification code included in the handover request is the first base station BS (n). And a process transfers to the process of step SP62.

(Step SP62)
The first base station BS (n) receives an inquiry from the first base station BS (1). Then, in response to the inquiry, the first base station BS (n) replies to the first base station BS (1) that the handover may be performed if there is no problem with the handover. And a process transfers to the process of step SP64.

(Step SP64)
The first base station BS (1) receives a reply from the first base station BS (n). Then, in response to this reception, the first base station BS (1) replies that the mobile unit 10 may be handed over. And a process transfers to the process of step SP66.

(Step SP66)
The first base station BS (1) releases the connection with the mobile unit 10. And a process transfers to the process of step SP68.

(Step SP68)
The mobile unit 10 receives information that the first base station BS (1) may be handed over. And a process transfers to the process of step SP70.

(Step SP70)
The mobile 10 transmits the connection request to the selected first base station BS (n). And a process transfers to the process of step SP72.

(Step SP72)
The first base station BS (n) receives a connection request from the mobile unit 10. Based on this connection request, the first base station BS (n) connects to the mobile unit 10 so that a voice call can be made. Next, the first base station BS (n) replies to the mobile unit 10 that it has connected. As a result, the mobile unit 10 switches the base station device that relays the voice call from the first base station BS (1) to the first base station BS (n) indicated by the selected identification code. And a process transfers to the process of step SP74.

(Step SP74)
The mobile unit 10 continues the voice call with the terminal 12 via the first base station BS (n) and the packet switching network PN (m). And although not shown in figure, a process returns to the process of step SP40.

(Step SP76)
The mobile 10 performs circuit switching foldback. Specifically, the mobile unit 10 switches the base station that relays the voice call from the first base station BS (1) to the second base station BS (k) connected to the circuit switched network LN. At this time, the mobile unit 10 switches the communication method for voice communication from the packet switching method to the circuit switching method. And a process transfers to the process of step SP78.

(Step SP78)
The mobile unit 10 continues the voice call with the terminal 12 via the second base station BS (k) and the circuit switching network LN. When the voice call ends, a series of voice call processing ends.

  As described above, according to the present embodiment, among the first base station apparatuses BS (1) to (n), the first base station connected to the packet switching network whose transmission path band is not guaranteed is prohibited from being relayed ( If it is set to BLTAC), when the communication system 1 newly selects the first base station, it is determined that the first base station is prohibited from relaying. Then, the base station that relays the voice call can be switched to the second base station BS (k). Therefore, since a voice call can be performed without relaying to the first base station connected to the packet switching network where the bandwidth of the transmission path is not guaranteed, a voice call (when a voice call starts or It is possible to suppress the voice quality from being deteriorated during the handover.

  Further, the TAC stored in the logical table 50A as the position information of the first base station connected to the packet switching network in which the bandwidth of the transmission path is not guaranteed among the packet switching networks PN (1) to (m). If the receiving means 54 of the first base station BS (1) receives the identification code indicating the first base station, the determination result of the determining means 56 is affirmative. Will come to show. As a result, the mobile unit 10 continues the voice call by switching the base station that relays the voice call to, for example, the second base station BS (k) connected to the circuit switched network LN. In other words, according to this configuration, the voice call can be continued without being relayed to the first base station connected to the packet switching network in which the bandwidth of the transmission path is not guaranteed. It can suppress that voice quality falls.

  Further, even if the received identification code is a new first base station, the determination unit 56 (automatically) acquires position information corresponding to the identification code, and stores the acquired position information in the logical table 50A. It is determined whether or not it has been done. As a result, even when the number of first base stations increases, it is not necessary for the administrator to register the position information of the new first base station in the existing first base station.

  Further, since the location information for which relaying is prohibited is stored in the first base station, it is not necessary to store the location information in the mobile unit 10, so that the present information is not dependent on the type of the mobile unit 10. Embodiments can be applied.

  Further, since the location information includes TAC (Tracking Area Code), when the bandwidth of the transmission path is not guaranteed in the packet switching network, the TAC registered in the first base station corresponding to the packet switching network is set to BLTAC. It is possible to prohibit relaying by the first base station only by changing to. On the other hand, when the bandwidth of the transmission path is guaranteed in the packet switching network, simply changing the TAC registered in the first base station corresponding to the packet switching network to a TAC other than BLTAC, Relay by the first base station can be permitted. Therefore, since it is possible to set relay permission and prohibition without changing the BLTAC stored in the storage unit 50, once BLTAC is stored in the storage unit 50, the maintenance is unnecessary.

  In addition, since a plurality of TACs indicating areas where relaying is prohibited are described in the logical table 50A and stored in the storage unit 50, the BLTAC where relaying is prohibited is registered for each first base station. Can be omitted.

  The embodiments of the present invention have been described above with reference to specific examples. However, the present invention is not limited to these specific examples. In other words, those specific examples that have been appropriately modified by those skilled in the art are also included in the scope of the present invention as long as they have the characteristics of the present invention. Each element included in each of the specific examples described above and their arrangement, conditions, shape, and the like are not limited to those illustrated, and can be changed as appropriate.

  For example, although the case where the terminal 12 is a fixed telephone has been described, it may be a mobile body. Moreover, although the case where the mobile body 10 is a calling side was demonstrated, it may be a called side. Moreover, although the case where the first communication network is the packet switching network PN (1) to (m) and the second communication network is the circuit switching network LN has been described, the future packet switching network PN (1) to (m) If a different communication network is created, the first communication network may be a different communication network. In this case, the second communication network may be the packet switching network PN (1) to (m) or the circuit switching network LN.

10 ... Mobile object (mobile communication terminal)
50 ... Storage means 50A ... Logical table 54 ... Reception means 56 ... Determination means 58 ... Transmission means BS ... Base station (base station apparatus)
PN ... Packet switching network LN ... Circuit switching network

Claims (6)

Connected to a mobile communication terminal capable of voice call, a plurality of first base station devices each connected to the first communication network to relay the voice call, and a second communication network different from the first communication network A communication system comprising a second base station device,
When newly selecting one first base station device among the plurality of first base station devices, it is determined whether or not the first base station device to be selected is prohibited from relaying,
When the determination result indicates that relay is prohibited, the base station device that relays the voice call is configured to be switchable to the second base station device.
Communications system. The first base station apparatus
Storage means for storing relay disabling information related to the position where relaying is prohibited;
Select when the mobile communication terminal selects a first base station device different from the first base station device relaying the voice call among the plurality of first base station devices during the voice call Receiving means for receiving an identification code of the first base station apparatus from the mobile communication terminal;
Whether the first base station apparatus to be selected is prohibited from relaying by acquiring position information corresponding to the received identification code and determining whether the acquired position information corresponds to the relay disabled information Determining means for determining whether or not;
Transmitting means for transmitting the result of determination by the determining means to the mobile communication terminal;
With
The mobile communication terminal is configured to be able to switch the base station device that relays the voice call to the second base station device when receiving a determination result indicating that relaying is prohibited. ,
The communication system according to claim 1. The location information includes TAC (Tracking Area Code),
The communication system according to claim 2. The first communication network is a packet switching network, and the second communication network is a circuit switching network;
The communication system according to any one of claims 1 to 3. The storage means stores a table in which relay impossible information related to the position where the relay is prohibited is described.
The communication system according to any one of claims 1 to 4. A base station device connected to a packet switching network and relaying a voice call of a mobile communication terminal,
Storage means for storing relay disabling information related to the position where relaying is prohibited;
Select when the mobile communication terminal selects a first base station device different from the first base station device relaying the voice call among the plurality of first base station devices during the voice call Receiving means for receiving an identification code of the first base station apparatus from the mobile communication terminal;
Whether the first base station apparatus to be selected is prohibited from relaying by acquiring position information corresponding to the received identification code and determining whether the acquired position information corresponds to the relay disabled information Determining means for determining whether or not;
If the result of the determination by the determining means is transmitted to the mobile communication terminal to indicate to the mobile communication terminal that the determination result is prohibited from being relayed, the voice call is made. Transmitting means for enabling switching of the base station apparatus to be relayed to the second base station apparatus;
A base station apparatus comprising:

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