JP2012070158A - Mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication system capable of improving service by disconnecting communication without giving anxiety to users.SOLUTION: In this mobile communication system, communication is made by wirelessly connecting a mobile communication terminal to a base station 3 connected to a network 1. Before receiving a connection request from a new mobile communication terminal, the base station 3 determines whether a resource can be allocated to the new mobile communication terminal or not, and when the resource cannot be allocated, it transmits a notice to disconnect communication to at least one of the mobile communication terminals currently being connected thereto.

Description

  The present invention relates to a mobile communication system.

  Conventionally, a base station in a mobile communication system has a function called call admission control that determines whether or not to accept a connection request from a new mobile communication terminal at the time of congestion when resources are insufficient. As an example of the call admission control function, considering the priority of the mobile communication terminal, if there is a connection request from a mobile communication terminal with a high priority, disconnect the communication of the mobile communication terminal with a low priority, It is known to perform control so as to accept a connection request from a mobile communication terminal with a high priority (see, for example, Patent Document 1).

JP 2007-159055 A

  However, in the call admission control function disclosed in Patent Document 1 above, when a resource shortage with respect to a connection request from a new mobile communication terminal is found, a disconnection target with a low priority necessary to make up for the shortage of resources is detected. A mobile communication terminal is selected. Then, a warning to disconnect the communication is notified to the selected mobile communication terminal to be disconnected, and then the communication with the mobile communication terminal is disconnected and a new mobile communication terminal with a high priority is connected. I am doing so. For this reason, there is a concern that it may take a long time from a connection request to completion of connection for a new mobile communication terminal with a high priority, resulting in a decrease in service such as giving anxiety to the user.

  Moreover, in the conventional mobile communication system, when a base station is blocked, an already connected mobile communication terminal may be forcibly disconnected without notice. That is, in general, when a base station is blocked, the mobile communication terminal connected to the base station is controlled to be forcibly handed over to an adjacent base station. However, a mobile communication terminal with weak electric field strength of radio waves from an adjacent base station may not be handed over to the adjacent base station. Conventionally, such mobile communication terminals have been forced to be forcibly disconnected without notice. As a result, there is a concern that the service may be deteriorated, such as giving anxiety to the user.

  Therefore, an object of the present invention made in view of the above points is to provide a mobile communication system that can disconnect communication without giving a user anxiety and the like, can connect quickly according to a connection request, and can improve service. It is to provide.

The invention of the mobile communication system according to the first aspect for achieving the above object is as follows:
A mobile communication system for communicating by connecting a mobile communication terminal wirelessly to a base station connected to a network,
Prior to receiving a connection request from a new mobile communication terminal, the base station determines whether or not resources can be allocated to the new mobile communication terminal. A notice of disconnection of communication is transmitted to at least one mobile communication terminal currently connected.

The invention according to the second aspect is the mobile communication system according to the first aspect,
The base station stores the communication priority for the connected mobile communication terminal, and transmits the disconnection notice to the mobile communication terminal having a relatively low priority among the stored priorities. It is characterized by that.

The invention according to a third aspect is the mobile communication system according to the second aspect,
When the base station receives a connection request from a new mobile communication terminal having a higher priority than the mobile communication terminal that transmitted the disconnection notice, the base station disconnects the communication of the mobile communication terminal that transmitted the disconnection notice, and The connection of a new mobile communication terminal is started.

The invention according to a fourth aspect is the mobile communication system according to the second or third aspect,
The base station calculates the priority based on terminal information including at least one of a terminal type, a contract type, a communication type, and a communication destination type corresponding to a mobile communication terminal acquired from an upper mobile switching center. It is characterized by this.

The invention according to a fifth aspect is the mobile communication system according to the first aspect,
When the base station is blocked, the disconnection notice is transmitted to all mobile communication terminals that are currently connected in a pre-blocked state.

  According to the present invention, a disconnection notice is transmitted to a mobile communication terminal that disconnects communication in an unavoidable situation, so that communication can be disconnected without giving anxiety to the user and connection can be made quickly in response to a connection request. Service improvement.

1 is a diagram showing a network configuration of a mobile communication system according to a first embodiment of the present invention. FIG. 2 is a functional block diagram showing a configuration of main parts of the mobile communication terminal, base station, and mobile switching center shown in FIG. 1. It is a figure which shows an example of the priority management table memorize | stored in the terminal priority memory | storage part of the base station shown in FIG. FIG. 2 is a sequence diagram showing an operation of the mobile communication system shown in FIG. It is a figure which shows an example of the disconnection notice message displayed on a mobile communication terminal. It is a flowchart which shows operation | movement of the principal part of the disconnection notification process by the base station shown in FIG. It is a figure which shows the network structure of the mobile communication system which concerns on 2nd Embodiment of this invention. It is a functional block diagram which shows the structure of the principal part of the mobile communication terminal shown in FIG. 7, and a base station.

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

(First embodiment)
FIG. 1 is a diagram showing a network configuration of the mobile communication system according to the first embodiment of the present invention. The mobile communication system shown in FIG. 1 includes a plurality of base stations connected to a network 1 such as a core network via a mobile switching center 2. FIG. 1 shows one base station 3 for the sake of simplicity. A plurality of base stations including the base station 3 are connected to the maintenance control station 4 via wire or wirelessly. In FIG. 1, each of the plurality of mobile communication terminals 5 to 9 is wirelessly connected to the base station 3, thereby enabling communication and data communication with the counterpart terminal and the server via the base station 3. Yes.

  FIG. 2 is a functional block diagram showing the configuration of the main parts of the mobile communication terminal, base station, and mobile switching center constituting the mobile communication system of FIG. Since the mobile communication terminals 5 to 9 have the same configuration, FIG. 2 shows the configuration of the mobile communication terminal 5 as a representative.

  The mobile communication terminal 5 includes a transmission / reception unit 11, a disconnection notice display unit 12, and a control unit 13 for controlling the whole. The transmission / reception unit 11 performs wireless communication with the base station 3. The disconnection notice display unit 12 displays the disconnection notice received from the base station 3 by the transmission / reception unit 11.

  The base station 3 includes a terminal transmission / reception unit 21, a terminal priority storage unit 22, a disconnection notice transmission determination unit 23, a mobile switching center transmission / reception unit 24, and a control unit 25 that controls the whole. The terminal transmission / reception unit 21 performs wireless communication with the mobile communication terminal. The terminal priority storage unit 22 stores a priority management table that indicates the communication priority in the connected mobile communication terminal, that is, the service priority. The disconnection notice transmission determination unit 23 determines the transmission state of the disconnection notice based on the priority of the currently connected mobile communication terminal stored in the priority management table of the terminal priority storage unit 22. The mobile switching center transmission / reception unit 24 communicates with the mobile switching center 2.

  Further, the base station 3 has a call admission control function, and the control unit 25 manages resources allocated to newly connected mobile communication terminals and handed over mobile communication terminals, and sets call admission conditions. The connection is controlled by judging whether or not the condition is satisfied. Here, the resource means all resources allocated to the mobile communication terminal such as a radio resource and the maximum number of users accommodated in the base station 3. For example, in the case of an HSPA (High Speed Packet Access) or LTE (Long Term Evolution) system, a plurality of mobile communication terminals communicate by sharing a common channel. Generally, call admission control is performed based on the total number of communication terminals, the maximum number of connection bearers that can be supplemented simultaneously, and the like.

  The mobile switching center 2 has a transmission / reception unit 31, a terminal information management unit 32, and a control unit 33 for controlling the whole. The transmission / reception unit 31 communicates with the base station 3. The terminal information management unit 32 manages information on mobile communication terminals, for example, terminal identification numbers (network management numbers), terminal types, contract types, communication types, communication destination types, and the like.

  When receiving a connection request from a new mobile communication terminal, the base station 3 communicates with the mobile switching center 2 and acquires terminal information of the mobile communication terminal from the terminal information management unit 32. Then, the weighting coefficient is added to the various priorities such as the above-mentioned terminal type, contract type, communication type, and communication destination type included in the acquired terminal information, and the total priority of the mobile communication terminal is calculated. To do. The calculated priority is stored in the priority management table of the terminal priority storage unit 22 together with the network management number when the mobile communication terminal is connected to the base station 3. The priority may be calculated based on at least one of the terminal type, contract type, communication type, and communication destination type.

  FIG. 3 is a diagram illustrating an example of a priority management table stored in the terminal priority storage unit 22 of the base station 3. As shown in FIG. 3, the priority management table includes a base station management number that is a terminal identification number for the base station 3, a network management number that is a terminal identification number for the network acquired from the mobile switching center 2, and the base station The total priority calculated in step 3 is stored. In addition, the priority management table stores the transmission state of the disconnection notice as will be described later.

  Hereinafter, the operation of the mobile communication system according to the present embodiment will be described with reference to the sequence diagram shown in FIG. FIG. 4 shows four mobile communication terminals 5 to 8 for convenience of explanation.

  In FIG. 4, mobile communication terminals 5 and 6 each establish communication with the base station 3, and the terminal information and priority of these mobile communication terminals 5 and 6 are stored in the terminal priority storage unit 22 of the base station 3. Are stored in the priority management table. Here, it is assumed that the mobile communication terminal 5 has priority E, the mobile communication terminal 6 has priority D, and priority D> priority E. In this state, it is assumed that the base station 3 has sufficient resources.

  Thereafter, when receiving a connection request from the mobile communication terminal 8, the base station 3 executes a connection sequence for the mobile communication terminal 8 to complete the connection. At that time, the base station 3 sets the total priority calculated based on the terminal information of the mobile communication terminal 8 acquired from the mobile switching center 2 together with the network management number of the mobile communication terminal 8 to the terminal priority storage unit. 22 priority management tables. Here, it is assumed that the total priority of the mobile communication terminal 8 is A, and priority A> priority D.

  When the base station 3 completes connection with the mobile communication terminal 8 and establishes communication, the base station 3 confirms the availability of resources at that time and determines whether there is a resource that accepts connection of the next mobile communication terminal. As a result, for example, when it is determined that there is no resource for accepting connection of the next mobile communication terminal because the terminal accommodation number becomes a limit value, the disconnection advance notice determination unit 23 determines from the priority management table of the terminal priority storage unit 22 The mobile communication terminal with the lowest priority that transmits the disconnection notice is searched, and the disconnection notice is transmitted to the mobile communication terminal. Here, since the priority E is the lowest, a disconnection notice is transmitted to the mobile communication terminal 5, and a disconnection notice message including the reason for disconnection as shown in FIG.

  Thereafter, when receiving the connection request from the mobile communication terminal 7, the base station 3 obtains the terminal information of the mobile communication terminal 7 from the mobile switching center 2, calculates the total priority, and the priority and the terminal priority. The lowest priority stored in the priority management table of the degree storage unit 22 is compared. Here, it is assumed that the total priority of the mobile communication terminal 7 is B and the relationship of priority B> priority D> priority E is satisfied. In this case, the base station 3 transmits a disconnection request to the mobile communication terminal 5 with the priority E that has already transmitted the disconnection notice, executes a disconnection sequence for the mobile communication terminal 5, and completes the disconnection. If the priority B of the mobile communication terminal 7 is lower than the lowest priority E during communication establishment, for example, a message “not easily connected in congestion” is sent to the mobile communication terminal 7 Reject the connection.

  Thereafter, the base station 3 executes a connection sequence for the mobile communication terminal 7 that has received the connection request, and completes the connection. When the base station 3 detects that the terminal capacity has reached a limit value due to the connection of the mobile communication terminal 7 and there is no resource for accepting the connection of the next mobile communication terminal, the terminal priority storage unit similarly From the priority management table 22, the mobile communication terminal with the lowest priority for transmitting the disconnection notice is searched and the disconnection notice is transmitted. Therefore, in the case of FIG. 4, a disconnection notice is transmitted to the mobile communication terminal 6 with the priority D.

  Thereafter, in the same manner, when the connection of the mobile communication terminal that has received the connection request is completed in the base station 3, the availability of resources is confirmed and the presence / absence of the resource that receives the connection of the next mobile communication terminal is determined. . When it is determined that there is no resource, a disconnection notice is transmitted to the mobile communication terminal with the lowest priority among the connected mobile communication terminals. After that, when a connection request is received from a new mobile communication terminal with a higher priority than the lowest priority during communication establishment, the mobile communication terminal that sent the disconnection notice is immediately disconnected and the new mobile communication Execute terminal connection processing. Note that the timing for determining whether or not there is a resource for accepting connection of the next mobile communication terminal is not limited to a specific timing such as when a connection is requested.

  FIG. 6 is a flowchart showing the operation of the main part of the disconnection notice process by the base station 3. As described above, when the base station 3 completes the connection process of the mobile communication terminal that has received the connection request (S601), the base station 3 checks the resource availability (S602). Then, the presence / absence of a resource for accepting connection of the next mobile communication terminal is determined (S603). As a result, if there is an available resource, the disconnection notice process is terminated without transmitting the disconnection notice.

  On the other hand, if there is no available resource, the disconnection notice transmission determination unit 23 searches the priority management table of the terminal priority storage unit 22 for the mobile communication terminal with the lowest priority that transmits the disconnection notice ( In step S604, it is determined whether or not a disconnection notice has been transmitted to the mobile communication terminal (S605). As a result, if the disconnection notice has been transmitted, the disconnection notice process is terminated without transmitting the disconnection notice again. Such a situation occurs, for example, when there is already no free space for other resources (for example, backhaul line resources) after transmission of the disconnection notice.

  On the other hand, if a disconnection notice is not transmitted in S605, a disconnection notice is transmitted to the mobile communication terminal (S606). Then, the disconnection advance notice column of the corresponding mobile communication terminal in the priority management table of the terminal priority storage unit 22 is set to “transmitted” (S607), and the disconnection advance notice process is terminated. In addition, when a higher priority is required as a resource, a broadband wireless resource is required, a disconnection notice is given to a plurality of mobile communication terminals from the lowest priority so that the highest priority wireless resource can be secured. Send. Then, according to the bandwidth of the radio resource required for the mobile communication terminal that has received the connection request, the mobile communication terminals in the order of lower priority are communicated from the mobile communication terminals that have been notified of disconnection so that the bandwidth can be secured. Disconnect.

  As described above, in the mobile communication system according to the present embodiment, when connection of a new mobile communication terminal is completed in base station 3, that is, reception of a connection request from the next new mobile communication terminal. Prior to checking the availability of resources, if there is no resource to accept the connection of the next new mobile communication terminal, a disconnection notice is transmitted to the mobile communication terminal with the lowest priority. After that, when a connection request is received from a new mobile communication terminal having a higher priority than the priority of the mobile communication terminal that transmitted the disconnection notice, the mobile communication terminal that transmitted the disconnection notice is immediately disconnected. Then, connection processing for a new mobile communication terminal is executed.

  Therefore, even when the base station 3 is congested, a new mobile communication terminal with a high priority can be connected in a short time, so that the user can be prevented from feeling uneasy and the service can be improved. In addition, for mobile communication terminals with low priority to be forcibly disconnected, it is possible to terminate the call etc. before forcible disconnection by sending a disconnection notice in advance. This eliminates wasted time and wasted traffic. Moreover, it becomes possible to make the user of the mobile communication terminal grasp the traffic status of the base station 3 by transmitting a disconnection notice including the reason for disconnection.

(Second Embodiment)
FIG. 7 is a diagram showing a network configuration of a mobile communication system according to the second embodiment of the present invention. The mobile communication system shown in FIG. 7 includes a base station 51 and a plurality of base stations 52 to 56 arranged so that communication areas partially overlap around the base station 51. In FIG. 7, the base station 51 has established communication with the mobile communication terminals 61 and 62, the base station 53 has established communication with the mobile communication terminal 63, and the base station 55 has established communication with the mobile communication terminal 64. The base station 56 has established communication with the mobile communication terminal 65. The base stations 51 to 56 are connected to and controlled by the maintenance control station 58 (see FIG. 8).

  FIG. 8 is a functional block diagram showing the configuration of the main parts of the mobile communication terminal and base station constituting the mobile communication system of FIG. Since the mobile communication terminals 61 to 65 have the same configuration, FIG. 8 shows the configuration of the mobile communication terminal 61 as a representative. Also, since the base stations 51 to 56 have the same configuration, FIG. 8 shows the configuration of the base station 51 as a representative.

  The mobile communication terminal 61 includes a transmission / reception unit 71, a disconnection notice display unit 72, and a control unit 73 that controls the whole. The transmission / reception unit 71 performs wireless communication with the base station. The disconnection notice display unit 72 displays the disconnection notice received by the transmission / reception unit 71 from the base station.

  The base station 51 includes a terminal transmission / reception unit 81, a disconnection notice transmission determination unit 82, a call processing unit 83, a maintenance control station transmission / reception unit 84, and a control unit 85 for controlling the whole. The terminal transmission / reception unit 81 performs wireless communication with the mobile communication terminal. The maintenance control station transmission / reception unit 84 communicates with the maintenance control station 58. The call processing unit 83 controls a call such as a connection request from the mobile communication terminal based on the reception signal of the terminal transmission / reception unit 81 and the reception signal of the maintenance control station transmission / reception unit 84. The disconnection advance notice determination unit 82 determines transmission of the disconnection notice from the output of the call processing unit 83, and transmits the disconnection notice via the terminal transmission / reception unit 81.

  In the mobile communication system according to the present embodiment, for example, the base station 51 is closed under the control of the maintenance control station 58. At that time, the maintenance control station 58 first sets the base station 51 into a pre-blocking state in which it does not accept a connection request from a new mobile communication terminal, that is, does not allocate resources to the new mobile communication terminal. When the base station 51 receives the pre-blocking instruction from the maintenance control station 58, the base station 51 determines the instruction through the call processing unit 83 and the disconnection advance transmission determination unit 82, and detects that resource allocation is not possible. As a result, the base station 51 transmits a disconnection advance notice to the connected mobile communication terminals 61 and 62 from the terminal transmission / reception unit 81, and sends a disconnection advance notice message to the disconnection advance notice display unit 72 of the mobile communication terminals 61 and 62. Display. Preferably, the disconnection notice transmitted to the mobile communication terminals 61 and 62 includes the reason for disconnection.

  The maintenance control station 58 closes the base station 51 after a predetermined time has elapsed since the start of pre-blocking. In this case, the mobile communication terminal 61 located in the overlapping area with the base station 52 is handed over to the base station 52, and the mobile communication terminal 62 located only in the communication area of the base station 51 to be blocked is forced Will be disconnected.

  As described above, in the mobile communication system according to the present embodiment, when the base station 51 is blocked, first, the base station 51 is pre-blocked, and all of the base stations 51 connected to the base station 51 in the pre-blocked state. A disconnection advance notice is transmitted to the mobile communication terminals 61 and 62, and a message to that effect is displayed. In other words, prior to receiving a connection request from a new mobile communication terminal, the base station 51 determines that resource allocation cannot be performed when receiving a pre-blocking instruction, and all the mobile communications currently connected to the base station 51 A disconnection notice is transmitted to the terminals 61 and 62. Then, the base station 51 closes after a predetermined time has elapsed after the transmission of the disconnection notice. Therefore, the user of the mobile communication terminals 61 and 62 can know the situation in advance even when the communication is disconnected. As a result, the user does not feel uneasy and the service can be improved.

  In addition, this invention is not limited only to the said embodiment, Many deformation | transformation or a change is possible. For example, in the case of the mobile communication system according to the first embodiment, there may be many requests for new calls in a base station where congestion has occurred. Therefore, for a plurality of low-priority mobile communication terminals, the level (rank) in the disconnection notice such as the disconnection warning for the first terminal to be disconnected and the disconnection forecast for the next terminal to be disconnected Can also be set. The disconnection notice is not limited to the screen display on the mobile communication terminal, and can be output as a voice message, output as both a screen display and a voice message, or notified by vibration or the like. .

DESCRIPTION OF SYMBOLS 1 Network 2 Mobile switching center 3 Base station 4 Maintenance control station 5-9 Mobile communication terminal 11 Transmission / reception part 12 Disconnection notice display part 13 Control part 21 Terminal transmission / reception part 22 Terminal priority memory | storage part 23 Disconnection notice transmission determination part 24 Mobile switching center Transmission / reception unit 25 Control unit 31 Transmission / reception unit 32 Terminal information management unit 33 Control unit 51-56 Base station 58 Maintenance control station 61-65 Mobile communication terminal 71 Transmission / reception unit 72 Disconnection advance notice display unit 73 Control unit 81 Terminal transmission / reception unit 82 Disconnection advance transmission Judgment unit 83 Call processing unit 84 Maintenance control station transmission / reception unit 85 Control unit

Claims (5)

A mobile communication system for communicating by connecting a mobile communication terminal wirelessly to a base station connected to a network,
Prior to receiving a connection request from a new mobile communication terminal, the base station determines whether or not resources can be allocated to the new mobile communication terminal. A mobile communication system, wherein a communication disconnection notice is transmitted to at least one mobile communication terminal currently connected.   The base station stores the communication priority for the connected mobile communication terminal, and transmits the disconnection notice to the mobile communication terminal having a relatively low priority among the stored priorities. The mobile communication system according to claim 1.   When the base station receives a connection request from a new mobile communication terminal having a higher priority than the mobile communication terminal that transmitted the disconnection notice, the base station disconnects the communication of the mobile communication terminal that transmitted the disconnection notice, and 3. The mobile communication system according to claim 2, wherein connection of a new mobile communication terminal is started.   The base station calculates the priority based on terminal information including at least one of a terminal type, a contract type, a communication type, and a communication destination type corresponding to a mobile communication terminal acquired from an upper mobile switching center. The mobile communication system according to claim 2 or 3, wherein   2. The mobile communication system according to claim 1, wherein when the base station is blocked, the disconnection notice is transmitted to all mobile communication terminals currently connected in a pre-blocked state.