JP2014103511A - Communication control system and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication control system that is able to reliably perform communication related to high-priority connection by separately managing high-priority connection from usual connection in voice communication and the like.SOLUTION: A communication control system comprises communication control means 81, priority management means 82, and priority approval means 83. The communication control means 81 determines the number of connections that can be preferentially connected to a network and outputs it as a priority connection number. The priority management means 82 manages the number of priorities and an identifier per priority, in which the priority is a right to perform preferential connection to the network, on the basis of the input priority connection number. The priority approval means 83 determines permission or rejection of giving priority in response to a priority request from a communication terminal device. In addition, the communication control means 83 performs preferential connection to the network in response to the connection request to the network accompanied by priority from the communication terminal device.

Description

  The present invention relates to a technique related to communication management in a communication network, and more particularly to management of voice communication in an IP (Internet Protocol) network.

  IP networks are actively used in the communication field. Use of the IP network facilitates transmission / reception of information data between devices according to the Internet protocol. Further, the Internet or the like can be used for a part of the section to the target device. Therefore, it is possible to communicate with various devices installed in any place without providing dedicated lines in all sections, and the convenience is extremely high. In addition, by using the IP network, not only video and data communication but also a voice call or the like conventionally performed by a dedicated device can be performed using the same communication network. Thereby, it may be possible to handle all information in a unified manner by one communication terminal device and a communication network.

  A voice call using an IP network is performed by compressing and encoding voice and transmitting it as a voice packet, and extracting voice information by decoding the received voice packet. A technique for handling these voice calls and the like on an IP network is also called VoIP (Voice over Internet Protocol). When the VoIP method is used, a voice call can be performed on an existing network without requiring a dedicated line or the like, so that it is widely used in offices and factories.

  In a voice call, if a delay occurs in the transmission of the voice packet, a sound is heard with a delay, and a two-way conversation is hindered. Therefore, it is necessary to transmit and receive the voice packet within a predetermined time. However, in a normal IP network, certainty is not guaranteed with respect to packet transfer between devices. For this reason, when the amount of communication increases, the arrival of the voice packet is delayed, or the voice packet is discarded, so that the voice is interrupted and the call quality may be greatly reduced. As a method for reliably sending voice packets related to voice calls to the other party even when the amount of communication increases, a means for preferentially sending voice packets of a specific connection with high priority to the other party is provided. How to keep it. For example, as a technique for preferentially handling a specific connection, a technique as disclosed in Patent Document 1 is disclosed.

  Patent Document 1 relates to a VoIP network system. In the VoIP network system of Patent Document 1, priority is given to the connection made from the communication terminal device. In each device on the VoIP network system, transfer processing or the like is preferentially performed for a packet related to a connection that is preferentially handled. In Patent Document 1, it is possible to improve the quality of a voice communication function by preferential transfer processing of voice packets.

  Patent Document 2 also discloses a technique for preferentially transferring a packet related to a specific connection. In Patent Document 2, information indicating priority is set in a signal for performing control related to connection. Each device that relays the packet determines the priority of transfer to the next device based on the information indicating the priority. Further, priorities are set for the incoming and outgoing sides, and the priority for the connection is determined based on the combination of the priorities on both sides, and the packet transfer priority is determined. Also in Patent Document 2, it is possible to maintain the voice quality by performing the transfer based on the determination based on the priority of the packet.

JP 2003-324472 A JP 2006-50250 A

  However, the technique disclosed in Patent Document 1 has the following problems. The technique of Patent Document 1 relates to packet transfer related to a connection for which priority is set, and does not disclose a priority determination method. The same applies to Patent Document 2. If the connection priority setting method is not appropriate, there is a concern that the amount of high-priority packets increases and communication quality deteriorates. Therefore, the packet transfer control technology relating to the high priority connection described in Patent Literature 1 and Patent Literature 2 is not sufficient to maintain the communication quality.

  An object of the present invention is to obtain a communication control system capable of reliably performing communication related to a high-priority connection by performing management of a high-priority connection separately from a general connection in voice communication or the like. .

  In order to solve the above problems, the communication control system of the present invention includes communication control means, priority right management means, and priority right approval means. The communication control means determines the number of connections that can be preferentially connected to the network and outputs the number as the priority connection number. The priority management means manages the number of priority and the identifier for each priority, which is the right to make a preferential connection to the network based on the input number of priority connections. The priority authorization unit determines whether or not priority can be granted in response to a priority request from the communication terminal device. In addition, the communication control means preferentially connects to the network in response to a connection request to the network with priority from the communication terminal device.

  In the communication control method of the present invention, the number of connections that can be preferentially connected to the network is determined as the number of priority connections. In addition, the number of priority and the identifier for each priority are managed as a right to make a preferential connection to the network based on the number of priority connections. It is determined whether or not priority can be given to the request for priority from the communication terminal device, and a connection is preferentially made to the connection request to the network with the priority from the communication terminal device.

  In the present invention, by securing a preferential connection to the network, even when the load on the network is high, a connection with a high priority can be identified and preferentially performed. By identifying and preferentially performing connection with high priority, communication including important information can be reliably performed, and communication quality is stabilized.

It is a figure which shows the outline | summary of a structure of the 1st Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow in the 1st Embodiment of this invention. It is a figure which shows the example of the data in the 1st Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow in the 1st Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow in the 1st Embodiment of this invention. It is a figure which shows the outline | summary of a structure of the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow in the 2nd Embodiment of this invention. It is a figure which shows the example of the data in the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of a structure of the 3rd Embodiment of this invention.

  A first embodiment of the present invention will be described in detail with reference to FIG. The communication control system of the present embodiment includes a communication server 10, a priority management server 20, and a plurality of communication terminal devices. In FIG. 1, two of the plurality of communication terminal devices are shown as a first communication terminal device 30 and a second communication terminal device 31. In addition, the communication server 10, the priority management server 20, and each communication terminal device are connected to each other via a communication network 40. The communication network 40 is configured as an IP network.

  The communication server 10 includes a communication control unit 11, a storage unit 12, and a communication function unit 13. The communication control unit 11 has a function of performing overall control of the communication server 10. The communication control unit 11 has a function of determining whether or not a communication terminal device connected to a communication network via the communication server 10 can be connected. Further, the priority table stored in the storage unit 12 is compared with the priority ID (IDentification) sent from the communication terminal device requesting connection to determine whether or not priority connection is possible. Further, the communication control unit 11 has a function of providing information on the number of connections that can be preferentially connected based on the setting information in response to a request for the number of connections that can be preferentially connected from the priority management server 20.

  The storage unit 12 stores a priority table sent from the priority management server 20. The storage unit 12 stores information such as identification information of each communication terminal device managed by the communication server 10.

  The communication function unit 13 transfers the packet sent from the communication terminal device to the destination communication terminal device included in the packet. If the destination is an external network, it is transferred to the relay device. In addition, a packet transmitted from another relay device to each communication terminal device or a packet transmitted from another communication terminal device in the network is transmitted to the destination communication terminal device.

  The priority management server 20 includes a priority management unit 21 and a storage unit 22. The priority management unit 21 has a function of managing the number of connections that can be preferentially connected based on information received from the communication server 10. The priority management unit 21 calculates the number of connections for each time zone from the number of connections that can be preferentially connected per unit time received from the communication server 10. For example, when receiving information from the communication server 10 that 10 priority connections per minute from 9 am to 10 am are possible, the priority management unit 21 performs 600 priority connections from 9 am to 10 am. Judge that it is possible. The time zone may be divided not only in one-hour units but also in other time units such as 30-minute units and 2-hour units. Moreover, the length divided for every time zone may differ. For example, in a time zone where the communication load is high, the length of the time zone is shortened, and the number of connections to be managed is reduced, so that more detailed priority connection management may be performed. The priority management unit 21 generates priority IDs for the number of connections that can be preferentially connected for each time zone, and stores them in the storage unit 22 as a priority table in association with the time zone. The priority management unit 21 has a function of determining whether or not a priority can be granted in response to a priority issuance request from a communication terminal device, and issuing a priority.

  The communication terminal device has a communication function, a microphone, a speaker, a compression decoding function, and other functions necessary for voice calls. The communication terminal device has a function of compressing and encoding voice input from a microphone and transmitting it as a voice packet, a function of decoding a received voice packet and flowing it from a speaker. The communication terminal device has a function of requesting a priority right to the priority right management server 20 and, when the priority right is given, a connection request to the communication server 10 based on the priority right. The priority request to the priority management server 20 may be made by selection from the user or automatically according to a predetermined setting. For example, the predetermined setting may be a setting in which priority is confirmed from the communication terminal apparatus to the priority management server 20 every day at a determined time.

  The communication terminal device may not have a voice call function. In that case, the communication terminal apparatus may not include a microphone, a speaker, or the like. As the communication terminal device, a mobile phone, a smartphone, a personal computer, a tablet computer, and other information devices having a communication function can be used depending on the application. The communication terminal device may be part of the configuration of a conference system or the like. Communication terminal devices that communicate with each other need not be the same type of information device as long as they can transmit and receive data in accordance with the same standard.

  The communication network 40 is configured by a wireless line, a wired line, or a combination thereof. The communication network 40 may use the Internet for a part of the communication network 40 as well as a dedicated line. The communication network 40 is provided with a communication device such as a relay node as necessary. Data transmission / reception in the communication network 40 is performed according to the Internet protocol. For voice calls, SIP (Session Initiation Protocol), H.264, etc. 323, connection control according to a standard such as MGCP (Media Gateway Control Protocol) is performed.

  In the communication control system of this embodiment, the operation when the number of connections that can be preferentially connected is determined and the information is shared between the communication server 10 and the priority management server 20 will be described with reference to FIG. FIG. 2 shows an outline of a flow when the number of connections that can be preferentially connected is determined and shared between the communication server 10 and the priority management server 20.

  The priority management server 20 requests information on the number of connections that can be preferentially connected to the communication server 10 (step 101). A request for information on the number of connections that can be preferentially connected from the priority management server 20 is made when a predetermined setting condition is satisfied. For example, the predetermined setting condition is set by a time interval or time. Upon receiving a request for information on the number of connections that can be preferentially connected, the communication server 10 checks the amount of communication data, the number of connections, etc., and determines the number of connections that can be preferentially connected (step 102). The number of connections that can be preferentially connected is calculated and set as the number of connections per unit time. For example, the number of connections that can be preferentially connected can be set as 10 connections per minute. After calculating the number of connections that can be preferentially connected, the communication server 10 sends the information to the priority management server 20 (step 103).

  When the priority management server 20 receives information on the number of connections that can be preferentially connected per unit time, the priority management server 20 calculates the number of connections that can be preferentially connected for each time zone from the information (step 104). When the priority management server 20 calculates the number of connections that can be preferentially connected for each time zone, it creates a priority table based on the information (step 105). For example, the priority table is configured as shown in FIG. As shown in FIG. 3, the priority table is configured by associating data of a time slot 201, a priority connectable number 202 indicating the number of connections that can be preferentially connected for each time slot, and priority IDs 203 corresponding to the number of connections. ing. The time zone is set based on a predetermined condition, and can be changed as necessary.

  When the priority management server 20 creates the priority table, it transmits the priority table data to the communication server 10 for notification (step 106). When the communication server 10 receives the priority table data, it stores the priority table data (step 107). When the communication server 10 receives and stores the data of the priority table, it transmits information indicating that the priority table has been received to the priority management server 20 as a notification of the reception result (step 108). When receiving the information indicating that the priority table data has been received from the communication server 10, the priority management server 20 recognizes that the information sharing with the communication server 10 has been completed. As described above, the information on the number of connections that can be preferentially connected is shared between the communication server 10 and the priority management server 20.

  Next, communication between communication terminal apparatuses will be described. Hereinafter, the communication between the communication terminal devices will be described on the assumption that communication is performed between the first communication terminal device 30 and the second communication terminal device 31. A case where the user of the first communication terminal device 30 performs normal communication with the second communication terminal device 31 will be described. Normal communication refers to cases where communication opportunities are equally allocated to connection requests from peer terminals that do not have priority or connection requests that do not have priority according to the availability of the communication network. Say. That is, in normal communication, the first communication terminal apparatus 30 is not given a preferential connection opportunity, and the connection may be refused when the load on the communication network is high. When the user of the first communication terminal device 30 performs an operation for connecting to the second communication terminal device 31, the first communication terminal device 30 transmits a connection request to the communication server 10. When the communication server 10 receives the connection request from the first communication terminal device 30, the communication server 10 identifies the destination of the connection destination and performs connection with the corresponding destination. In this embodiment, since the second communication terminal device 31 is the destination, the communication server 10 confirms whether or not the second communication terminal device 31 can be connected. When the communication server 10 determines that communication with the second communication terminal device 31 is possible, the communication server 10 establishes a connection between the first communication terminal device 30 and the second communication terminal device 31. When the communication server 10 determines that communication with the second communication terminal device 31 is not possible, the communication server 10 transmits information indicating that connection is not possible to the first communication terminal device 30. The determination that the connection is impossible is made when the second communication terminal device 31 is communicating with others, or when the communication server 10 or the communication network 40 is heavily loaded and a new connection cannot be made.

  In order for the first communication terminal device 30 to communicate with the second communication terminal device 31 using the priority connection function, an operation when acquiring a priority right will be described with reference to FIG. FIG. 4 shows an outline of the flow when the first communication terminal apparatus 30 acquires the priority. The priority acquisition is started when communication using the priority is selected in the first communication terminal device 30 (step 111). When acquisition of priority is started by the user's operation or the like in the first communication terminal device 30, information for requesting priority is sent from the first communication terminal device 30 to the priority management server 20 (step 112). . Upon receiving the priority request from the first communication terminal device 30, the priority management server 20 checks the priority issue status in order to determine whether or not priority assignment is possible (step 113). The priority issue status is confirmed by checking whether or not a priority ID indicating priority is already assigned to the same communication terminal device. Whether or not priority can be assigned is determined based on whether a predetermined condition is satisfied. As the predetermined condition, for example, whether or not the first communication terminal device 30 is registered as a priority assignment target is set as a condition. If the priority management server 20 determines that priority assignment is not possible, the priority management server 20 transmits information indicating that assignment cannot be made to the first communication terminal device 30. If the priority management server 20 determines that the priority can be assigned, the priority management server 20 searches the priority table and checks whether there is a free priority ID (step 114). If the priority ID is available and the priority can be secured, one of the priority IDs is secured and issued for the first communication terminal device 30 (step 115). When the priority management server 20 assigns a priority ID to the first communication terminal device 30, the priority management server 20 adds information indicating that it has been issued to the data of the priority table for the assigned priority ID. As information indicating that the information has been issued, for example, information such as an identifier of the communication terminal device as an issue destination and an issue date and time are added, and it is recognized that the ID to which the information is added has been issued. In addition, as information indicating that it has been issued, a character indicating that it has been issued may be added to the ID. In FIG. 3, the issued priority ID is prefixed with a U character and starts with a UID, and the unissued priority ID is set as a format starting with an ID and recorded in the priority ID 203 item of the priority table. An example is shown. When the priority management server 30 finishes processing the data of the priority table for the assigned priority ID, the priority management server 30 uses the data including the time zone corresponding to the assigned priority ID as information indicating the priority to the first communication terminal device 30. (Step 116). When the first communication terminal apparatus 30 receives the information indicating the priority, the first communication terminal apparatus 30 proceeds to an operation of starting communication with the second communication terminal apparatus 31.

  Next, an operation when communication using a priority is performed between the first communication terminal device 30 and the second communication terminal device 31 will be described with reference to FIG. FIG. 5 shows an outline of a flow when communication is started between the first communication terminal device 30 and the second communication terminal device 31.

  It is assumed that the first communication terminal device 30 is set to start communication with the second communication terminal device 31 (step 121). When communication start is set by a user operation or the like, the first communication terminal apparatus 30 transmits a priority connection request to the communication server 10 together with a priority ID indicating the priority (step 122). When receiving a request for priority connection from the first communication terminal device 31, the communication server 10 determines whether or not priority connection is possible (step 123). Whether or not priority connection is possible is determined based on whether or not the priority ID attached to the priority connection request matches the priority ID on the priority table. If the communication server 10 determines that the data in the priority table matches the priority ID and is valid, the communication server 10 preferentially advances the connection. When the communication server 10 determines that priority connection is possible, the communication server 10 confirms the communication partner (step 124). When the communication server 10 recognizes that the communication destination is the second communication terminal apparatus 31, the communication server 10 starts establishing communication between the first communication terminal apparatus 30 and the second communication terminal apparatus 31. When the communication server 30 starts establishment of communication between the first communication terminal device 30 and the second communication terminal device 31, the communication server 30 sends information for confirming whether it is in a connectable state to the second communication terminal device 31 ( Step 125). When the second communication terminal device 31 receives the information for confirming whether it is in a connectable state, the second communication terminal device 31 transmits the information indicating whether the connection is possible or not to the communication server 10 (step 126). When the communication server 10 determines that the connection with the second communication terminal apparatus 31 is possible, the communication server 10 transmits information for starting the priority connection to the first communication terminal apparatus 30 (step 128). The first communication terminal device 30 starts predetermined communication with the second communication terminal device 31 when receiving information for starting the priority connection with the second communication terminal device 31 from the communication server 10 (step 129). When the communication server 10 determines that the connection with the second communication terminal device 31 is impossible, the communication server 10 transmits information indicating that the connection with the second communication terminal device 31 is impossible to the first communication terminal device 30. . When the first communication terminal device 30 receives information from the communication server 10 that connection with the second communication terminal device 31 is impossible, the first communication terminal device 30 ends the connection operation. When the connection with the second communication terminal apparatus 31 is impossible, the first communication terminal apparatus 30 may repeat a call operation a predetermined number of times.

  In the present embodiment, the first communication terminal device 30 acquires the priority when communicating with the second communication terminal device 31, but the priority may be acquired in advance. For example, in a communication terminal device used in a conference system, when communication is performed every day at 9:00 am, the priority for that time zone may be acquired in advance. Alternatively, a method may be used in which a user selects a scheduled communication time and obtains priority. Even in a communication terminal device having priority in this embodiment, it is possible to perform normal communication without using priority. For example, a priority can be secured for a specific connection to be made in the future, and a connection request can be made as normal communication that does not use the priority for other connections.

  In the communication control system of the present embodiment, the number of connections that can be preferentially connected by the communication server is determined as a separate frame from the normal connection. The priority management server manages the priority based on the number of connections that can be preferentially determined as determined by the communication server. Based on such a configuration, the communication terminal device acquires priority from the priority management server and makes a connection request with priority so that priority communication is possible regardless of the load status of the communication network. Become. As a result, since a preferential connection can be secured for high priority communication such as important communication, stable communication can be performed and communication quality can be improved.

  A second embodiment of the present invention will be described in detail with reference to FIG. FIG. 6 shows an outline of the configuration of the communication control system of this embodiment. In the first embodiment, when the number of connections that can be preferentially connected is set, the number of priority rights is managed based on the setting information. In the present embodiment, after the priority connection number is set, it is determined again whether the priority connection number can be added according to the communication status.

  The communication control system of this embodiment includes a communication server 50, a priority management server 60, and a plurality of communication terminal devices. In FIG. 6, two of the plurality of communication terminal devices are shown as a first communication terminal device 70 and a second communication terminal device 71. The communication server 50, the priority management server 60, and the plurality of communication terminal devices are connected to each other via the communication network 41. The communication network 41 is configured as an IP network.

  The communication server 50 includes a communication control unit 51, a storage unit 52, a communication function unit 53, and a traffic monitoring unit 54. The communication control unit 51 has a function of performing overall control of the communication server 50. The communication control unit 51 has a function of determining whether or not a communication terminal device connected to the IP network can be connected via the communication server 50. Further, the communication control unit 51 compares the priority table stored in the storage unit 52 with the priority ID sent from the communication terminal device, and determines whether priority connection is possible. The communication control unit 51 has a function of determining the number of connections that can be preferentially connected based on the communication amount measured by the communication amount monitoring unit 54. The memory | storage part 52 and the communication function part 53 have the same function as the site | part of the same name of 1st Embodiment.

  The communication amount monitoring unit 54 has a function of measuring the communication amount such as the number of connections and the data amount processed by the communication function unit 53. Based on the request from the communication control unit 51, the communication amount monitoring unit 54 sends information about the communication amount to the communication control unit 51.

  The priority management server 60 includes a priority management unit 61 and a storage unit 62. The priority management unit 61 has a function of managing the number of connections that can be preferentially connected based on information received from the communication server 50. The priority management unit 61 calculates the number of connections for each time zone from the number of connections that can be preferentially connected per unit time received from the communication server 50. The priority management unit 61 generates as many priority IDs as the number of connections that can be preferentially connected for each time period, and stores the priority IDs in the storage unit 62 as a priority table in association with the time period. Further, the priority management unit 61 has a function of determining whether or not priority can be granted in response to a priority issuance request from the communication terminal device, and issuing a priority.

  Similarly to the first embodiment, the communication terminal device has a communication function, a microphone, a speaker compression / decoding function, and other functions necessary for voice communication. Also in this embodiment, the information equipment shown as an example in the first embodiment can be used for the communication terminal device.

  The communication network 41 is configured by a wireless line, a wired line, or a combination thereof. In some cases, the communication network 41 uses not only a dedicated line but also a part of the Internet. The communication network 41 is provided with a communication transmission device such as a relay node as necessary. The communication network 41 transmits / receives data based on the Internet protocol. Further, in the case of a voice call, the SIP, H.P. Connection control according to standards such as H.323 and MGCP is performed.

  In the communication control system of the present embodiment, the operation when the number of additional connections that can be preferentially connected is determined and the information is shared between the communication server 50 and the priority management server 60 will be described with reference to FIG. To do. FIG. 7 shows an outline of the flow when the number of additional connections that can be preferentially connected is determined and the information is shared between the communication server 50 and the priority management server 60.

  The priority management server 60 requests information on the number of connections that can be preferentially connected to the communication server 50 (step 131). Upon receiving a request for information on the number of connections that can be preferentially connected, the communication server 50 checks the amount of communication (step 132). When the communication server 50 confirms the communication amount, the total communication capacity, the current communication amount, and the preset number of connections are compared to determine the number of preferential connections per unit time that can be additionally set (step 133). ). When the communication server 50 determines the additional setting for the number of connections that can be preferentially connected, the priority management server uses the information on the number of connections and the number of additional settings that are connected in advance as the number of connections that can be preferentially connected per unit time. (Step 134).

  When the priority management server 60 receives information about the number of connections that can be preferentially connected per unit time, the priority management server 60 calculates the number of connections that can be preferentially connected for each time period from the information (step 135). When the priority management server 60 calculates the number of connections that can be preferentially connected for each time zone, it creates a priority table based on the information (step 136). When creating the priority table, the priority management server 60 generates a priority ID corresponding to the total number of preset priority connections and the preset priority connection count. The generated priority ID is stored in association with each time slot. The time zone is set based on a predetermined condition and can be changed as necessary. FIG. 8 shows a part of the priority table as an example. As shown in FIG. 8, the priority table includes a time zone 211, a priority connection possible number 212 that is the number of connections that can be preferentially connected for each time zone, a priority connection possible addition number 213 that is an additional connection number, and their connections. The data of several priority IDs 214 are associated with each other. When the priority management server 60 creates the priority table, it transmits the priority table data to the communication server 50 for notification (step 137). When the communication server 50 receives the priority table data, it stores the priority table data (step 138). When the communication server 50 receives and stores the data of the priority table, it transmits information indicating that the priority table has been received to the priority management server 60 as a notification of the reception result (step 139). When receiving the information indicating that the priority table data has been received from the communication server 50, the priority management server 60 recognizes that the sharing of information with the communication server 50 has been completed. As described above, information on the number of connections that can be preferentially connected is shared between the communication server 50 and the priority management server 60.

  In the present embodiment, the first communication terminal device 70 acquires the priority by the same method as the first communication terminal device 30 of the first embodiment. In the present embodiment, the first communication terminal device 70 requests the priority management server 60 to issue priority, and the priority is issued in the same manner as in steps 111 to 116 in the first embodiment. Similar to the first embodiment, the acquisition of priority by the first communication end device 70 may be performed before communication using the priority, or may be a method acquired in advance.

  When connection using priority is made from the first communication terminal device 70 to the second communication terminal device 71, the first communication terminal device 30 in the first embodiment to the second communication terminal device 31. This is done in the same way as the connection. When the connection from the first communication terminal device 70 to the second communication terminal device 71 is performed, it is performed by the same method as step 121 to step 129 of the first embodiment.

  In the communication control system of the present embodiment, the number of priority settings related to preferential connections set separately from normal connections can be set in addition to the preset number of settings. In this embodiment, the communication server determines the number of connections that can be additionally preferentially connected, and the priority management server manages the number of connections set in advance and the priority for the number of connections set additionally. Yes. Since the communication server can determine the number of connections with additional priority, even if the number of connection requests using priority has already reached a certain number set in advance, priority connection is made according to the communication status. It can be secured additionally. As a result, it becomes easier to secure the priority for important communication or the like having high priority, and the quality of communication can be stabilized.

  In the communication control systems of the first embodiment and the second embodiment, the communication server and the priority management server are used. However, each function of the communication server and each function of the priority management server are provided on the same server. It may be.

  In the first embodiment and the second embodiment, the assignment of priority to the communication terminal device may be combined with the charging system. For example, when determining whether or not priority can be given to the communication terminal device, the determination can be made based on whether or not a special fee is paid. In addition, it may be a billing system in which the charge changes depending on the time zone and the congestion situation when giving priority.

  In the first embodiment and the second embodiment, the communication terminal device may be configured such that it cannot make a connection request to the communication server except for the time when priority is given in advance. In this case, the connection from the communication terminal device to the priority management server can be performed at times other than the time when the priority is granted. In addition, it is possible to provide a function of notifying the communication terminal device of the information when the time zone having priority is reached. The connection request from the communication terminal device to the communication server when the time zone having priority is reached may be automatically performed or may be performed by a user operation.

  In the first embodiment and the second embodiment, the priority is given to the communication terminal device on the transmission side, but a method in which priority is given to the reception side may be used. In this case, the communication terminal device on the receiving side may be configured such that priority is applied only to reception from a specific sender.

  A third embodiment of the present invention will be described in detail with reference to FIG. FIG. 9 shows an outline of the configuration of the communication control system of this embodiment.

  The communication control system of this embodiment includes communication control means 81, priority right management means 82, and priority right approval means 83. The communication control unit 81 determines the number of connections that can be preferentially connected to the network, and outputs the number as the priority connection number. The priority management means 82 manages the number of priority and the identifier for each priority, which is the right to make a preferential connection to the network based on the input number of priority connections. The priority authorization unit 83 determines whether or not priority can be granted in response to a priority request from the communication terminal device. Further, the communication control means 83 makes a preferential connection to the network in response to a connection request to the network accompanied by the priority from the communication terminal device.

  In the communication control system of the present embodiment, a priority connection function that can preferentially connect to a network as compared to a normal connection is set, and the communication control means determines the number of connections that can be preferentially connected. The priority management means manages the number of priority rights that can be preferentially connected and its identifier, and the priority authorization means grants priority rights in response to a request from the communication terminal device. By making a connection request to the network with priority, the communication terminal device can secure a preferential connection to the network as compared to a normal connection. As a result, even when the load on the network is high, a connection with high priority can be identified and preferentially performed. By identifying and preferentially performing connection with high priority, communication including important information can be reliably performed, and communication quality is stabilized.

  The present invention can be used for connection management in a communication network, and in particular, can be used for a VoIP communication control system.

DESCRIPTION OF SYMBOLS 10 Communication server 11 Communication control part 12 Storage part 13 Communication function part 20 Priority management server 21 Priority management part 22 Storage part 30 1st communication terminal device 31 2nd communication terminal device 40 Communication network 41 Communication network 50 Communication server DESCRIPTION OF SYMBOLS 51 Communication control part 52 Memory | storage part 53 Communication function part 54 Communication volume monitoring part 60 Priority management server 61 Priority management part 62 Storage part 70 1st communication terminal device 71 2nd communication terminal device 81 Communication control means 82 Priority Management means 83 Priority approval means 101-108 Priority setting step 111-116 Priority acquisition step 121-129 Calling step 131-138 Priority setting step 201 Time zone 202 Number of priority connections 203 Priority ID
211 Time zone 212 Number of priority connections 213 Number of priority connections that can be added 214 Priority ID

Claims (10)

A communication control means for determining the number of connections that can be preferentially connected to the network and outputting as the number of priority connections;
Priority management means for managing the number of priority and the identifier for each of the priority, which is a right to preferentially connect to the network based on the number of the priority connections, the priority connection number being input;
A priority approval means for determining whether or not the priority can be granted in response to the priority request from the communication terminal device;
The communication control system is configured to preferentially connect to the network in response to a connection request to the network with the priority from the communication terminal device. Further comprising a traffic monitoring means for measuring the traffic of the network or the number of connections to the network;
The communication control means further includes means for determining the priority connection number based on the communication amount or the connection number measured by the communication amount monitoring means,
The communication control system according to claim 1, wherein the priority management unit manages the number of priority and the identifier based on the number of priority connections.   3. The number of priority connections includes a preset number of connections per unit time and an additional number of connections determined by the communication control unit based on a measurement result by the communication amount monitoring unit. The communication control system described.   4. The communication control system according to claim 1, wherein the network is a network based on an Internet protocol.   The communication control system according to any one of claims 1 to 4, wherein the data included in the connection with the priority is encoded voice. Determine the number of connections that can be preferentially connected to the network,
Managing the number of priority and the identifier for each priority, which is the right to make a preferential connection to the network based on the number of priority connections;
Determining whether the priority can be granted in response to the priority request from the communication terminal device;
A communication control method comprising: preferential connection to the network in response to a connection request to the network with the priority from the communication terminal device. Measure the network traffic or the number of connections to the network,
Determine the number of connections that can be preferentially connected based on the measured traffic or the number of connections, determine the number of priority connections,
7. The communication control method according to claim 6, wherein the priority number and the identifier are managed based on the priority connection number.   8. The communication according to claim 7, wherein the number of priority connections includes a preset number of connections per unit time and an additional number of connections determined based on a measurement result of the communication amount or the number of connections. Control method.   The communication control method according to claim 6, wherein the network is a network based on an Internet protocol.   The communication control system according to claim 6, wherein the data included in the connection with the priority is encoded voice.

Images