JP2009141562A - Network control device and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network control device and a network control method that performs switching of communication systems while effectively using radio resources. <P>SOLUTION: In a network control device 10, both radio resources of radio communication by a high-speed communication system and radio communication by a non-high-speed communication system coexist, each mobile terminal 14 uses a radio link in the communication system by the high speed communication system, and a plurality of radio links in the communication system by the non-high-speed communication system. The network communication device 100 switches the communication systems of the mobile terminals. The device includes: a terminal control unit 101 which manages a number of radio links used for each mobile terminal 14 which performs radio communication by the non-high-speed communication system; and a packet call band control unit 110 which switches the communication system to the high-speed communication system preferentially for the mobile terminal 14 which uses many radio links out of a plurality of mobile terminals 14 when rate-up requests compete. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention is a wireless communication system that performs wireless communication between mobile terminals via a communication network, and includes wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method. Wireless communication in which both wireless resources coexist and each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method The present invention relates to a network control device for switching a communication method of a mobile terminal in a system, and a network control method executed in such a wireless communication system.

  2. Description of the Related Art Conventionally, in the field of mobile communication using mobile terminals typified by mobile phones, a single communication frequency band can be simultaneously used by a plurality of mobile terminals as a wireless communication system that performs wireless communication through a communication network between mobile terminals. Wireless communication systems employing a CDMA (Code Division Multiple Access) method that can be used have become widespread. In such a wireless communication system, not only a call between mobile terminals but also data communication by so-called packet communication is performed, but the amount of data handled by this packet communication is steadily increasing. Therefore, in recent years, a W-CDMA (Wideband-CDMA) system, which is an improvement over the conventional CDMA system in terms of communication speed, has attracted attention (see, for example, Patent Document 1).

  Here, in many of the wireless communication systems adopting the W-CDMA system, the communication speed is higher than the high speed communication system called the HSDPA (High Speed Downlink Access) system and the conventional CDMA system. Both radio resources of the inferior non-high-speed communication method coexist, and each mobile terminal uses one wireless link for wireless communication by the high-speed communication method, and multiple wireless links for wireless communication by the non-high-speed communication method. Can be used. In such a wireless communication system, a network controller (RNC; Radio Network Controller) switches the communication method for each mobile terminal between a high-speed communication method and a non-high-speed communication method. The switching of the communication method in the RNC is performed according to the increase or decrease of the traffic amount in the wireless communication. For example, when the traffic amount of the wireless communication in the non-high-speed communication method increases, the communication method changes from the non-high-speed communication method to the high-speed communication. Switch to method.

  FIG. 1 is a diagram schematically illustrating a wireless communication system.

  A radio communication system 50 illustrated in FIG. 1 includes a plurality of radio base stations (NodeBs) 53, an RNC 52 that places the plurality of NodeBs 53 under control, and the radio communication system 50 as another radio communication system. And mobile terminals that perform wireless communication and packet communication (hereinafter collectively referred to as wireless communication) with a mobile switching center (MSC) 51 and a NodeB 53 for connection to a line network of a telephone or a fixed telephone 54. In FIG. 1, for simplicity, one NodeB 53 and one mobile terminal 54 are representatively shown. However, in the wireless communication system 50 shown in FIG. A NodeB 53 and a large number of mobile terminals 54 are included.

  FIG. 2 is a diagram schematically illustrating how the communication method is switched from the non-high-speed communication method to the high-speed communication method.

  In general, a NodeB performs wireless communication with a mobile terminal located in an area (cell) where wireless communication is possible when viewed from the NodeB. FIG. 2 shows two mobile terminals, A mobile terminal 54a and B mobile terminal 54b, and five NodeBs in which these two mobile terminals are located in the cell. In the example of FIG. 2, one of the five NodeBs is a high-speed NodeB 53a that performs radio communication with a mobile terminal using a high-speed communication method, and four is a non-high-speed communication method that performs radio communication with a mobile terminal using a non-high-speed communication method. It is a high-speed NodeB 53b.

  In the non-high-speed communication method adopted in the conventional CDMA method, in particular, in the downlink communication from the NodeB to the mobile terminal, the mobile terminal is located in each cell of the plurality of NodeBs as in the example of FIG. Wireless communication may be performed between the plurality of NodeBs and the mobile terminal.

  In part (a) of FIG. 2, the B mobile terminal 54b performs wireless communication with three non-high-speed NodeBs 53b, and the A mobile terminal 54a performs wireless communication with one non-high-speed NodeB 53b. FIG. 2B shows that four wireless links are used. In part (b) of FIG. 2, one high-speed wireless link is used when the A mobile terminal 54a performs wireless communication with the high-speed Node B 53a. A state in which three non-high-speed wireless links are used by the mobile terminal 54b performing wireless communication with three non-high-speed NodeBs 53b is shown.

  In the example of FIG. 2, the communication method of the A mobile terminal 54a is switched from the non-high speed communication method to the high speed communication method by the RNC 52 of FIG. As a result, as shown in Part (a), wireless communication related to the A mobile terminal 54a, which has been performed at a communication speed of 64 kbps by the non-high-speed communication method with the non-high-speed NodeB 53b, is performed by the high-speed communication method. .6 Mbps. Further, as a result of switching the communication method for the A mobile terminal 54a, one non-high-speed wireless link is released as shown in Part (b).

  Further, in the example of FIG. 2, the traffic amount related to the B mobile terminal 54b also increases, and in response to the increase, the RNC 52 of FIG. The communication rate in the non-high-speed wireless link is changed without changing the communication method, and the communication speed is increased to 384 kbps within the range possible in this non-high-speed communication method.

In the wireless communication system 50 shown in FIG. 1, when the traffic volume increases, the communication speed is increased by the switching of the communication method as described with reference to FIG.
JP 2004-328521 A

  By the way, in recent years, the number of users of mobile terminals such as mobile phones has increased rapidly, but the radio resources are limited, and effective use of radio resources is required. However, the switching of communication methods as described with reference to FIG. 2 is currently performed irrespective of the viewpoint of effective use of radio resources. A network controller (RNC) that can be switched to be used is desired.

  In addition, so far, switching of communication methods in a wireless communication system including a high-speed NodeB that performs wireless communication with a mobile terminal using a high-speed communication method and a non-high-speed NodeB that performs wireless communication with a mobile terminal using a non-high-speed communication method has been performed. As an example, the problem that such switching of communication methods is performed regardless of the viewpoint of effective use of radio resources has been described. However, some of the wireless communication systems include equipment having the capability of performing wireless communication with a mobile terminal using a high-speed communication method and equipment performing wireless communication with a mobile terminal using a non-high-speed communication method. In some cases, a NodeB that also serves as a node is provided, and the above-described problem is a problem that may also occur in a wireless communication system that includes such a NodeB.

  In view of the above circumstances, the present invention can switch between a network control apparatus that can switch a communication scheme so that radio resources are effectively used, and a communication scheme so that radio resources can be used effectively. It is an object to provide a network control method.

The network control device of the present invention that achieves the above object provides:
A wireless communication system that performs wireless communication through a communication network between mobile terminals, both wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method In a wireless communication system in which each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method. In the network control device that switches the communication method of the terminal,
A link number management unit for managing the number of radio links in use for each mobile terminal performing wireless communication by a non-high-speed communication method;
When multiple mobile terminals compete for switching from non-high-speed communication method to high-speed communication method, communication of the mobile terminal is preferentially performed for the mobile terminal having a large number of radio links among the multiple mobile terminals. And a bandwidth control unit that switches the method from the non-high-speed communication method to the high-speed communication method.

  According to the network control device of the present invention, switching of the communication method is executed preferentially from a mobile terminal having a large number of radio links. As a result, as many non-high-speed communication wireless links as possible are replaced with one high-speed wireless link, and many non-high-speed wireless links are released. That is, according to the network control device of the present invention, the communication method can be switched so that the radio resource is effectively used.

Here, in the network control device of the present invention,
“The bandwidth control unit
There is a correspondence table between the number of wireless links for non-high-speed communication methods and the communication threshold for high-speed communication methods, and the higher the number of wireless links, the higher the line utilization threshold. A threshold determination unit that determines a line utilization threshold with reference to the correspondence table for the mobile terminal that was,
Communication method control unit that switches the communication method of this mobile terminal from a non-high-speed communication method to a high-speed communication method when the line usage rate of the communication line of the high-speed communication method is lower than the line utilization rate threshold value determined by the threshold value determination unit Is a preferred form.

  According to this preferred form of the network control apparatus, the higher the number of radio links, the more the communication method is switched with less space in the communication line of the high-speed communication method, giving priority to mobile terminals with a large number of radio links. It is possible to surely switch the communication method to be executed.

In the network control device of the present invention,
“The bandwidth control unit
It has a correspondence table between the number of non-high-speed communication methods and the shorter timer value as the number of wireless links increases. When a mobile terminal is requested to switch from a non-high-speed communication method to a high-speed communication method, the movement A mode in which a timer value is determined for a terminal by referring to the correspondence table and a switching request holding unit that holds the switching request for a time corresponding to the timer value is further preferable.

  According to this preferred form of the network control apparatus, the switching request is held, but the holding time is shorter as the number of radio links is larger. As a result, when switching requests for a plurality of mobile terminals compete, a communication system is switched from a mobile terminal having a large number of radio links, and a communication system that is preferentially executed for a mobile terminal having a large number of radio links. Can be reliably realized.

In the network control device of the present invention,
“The bandwidth control unit
The number of wireless links in the non-high-speed communication method and the switching rate that indicates the probability of executing the switching when there is a request for switching from the non-high-speed communication method to the high-speed communication method, and the higher the number of wireless links, the higher the probability A switching rate determination unit that has a correspondence table and determines a switching rate with reference to the correspondence table for a mobile terminal that has been requested to switch from a non-high-speed communication method to a high-speed communication method;
The mobile terminal communication system includes a communication system control unit that switches from a non-high-speed communication system to a high-speed communication system with a probability according to the switching rate determined by the switching rate determination unit. preferable.

  According to this preferred form of the network control apparatus, the communication method is switched with a higher probability as the number of radio links is larger, and the switching of the communication method that is preferentially executed for a mobile terminal having a larger number of radio links is reliably realized. be able to.

In the network control device of the present invention,
“The bandwidth control unit
A time window setting section for repeatedly setting a time window of a predetermined time width;
The communication method of the mobile terminal with the maximum number of radio links in use among all the mobile terminals requested to switch from the non-high-speed communication method to the high-speed communication method within the same time window is changed from the non-high-speed communication method to the high-speed communication. A mode that includes a communication mode control unit that switches to a mode is also a preferable mode.

  According to this preferred form of the network control apparatus, switching of the communication method of the mobile terminal having the maximum number of radio links is executed for each time window that is repeatedly set, and the mobile terminal having a large number of radio links is preferentially used. It is possible to surely switch the communication method to be executed.

In the network control device of the present invention,
“The bandwidth control unit
A time window setting section for repeatedly setting a time window of a predetermined time width;
When there is a request for switching from a non-high-speed communication method to a high-speed communication method for one mobile terminal, it is within the same time window as the time when this switching request was made and before the time when this switching request was made Only when there is no request for switching from the non-high-speed communication method to the high-speed communication method for other mobile terminals in which the number of wireless links in use is larger than the number of wireless links in use of this mobile terminal. A configuration that includes a communication system control unit that switches the communication system from the non-high-speed communication system to the high-speed communication system is also a preferable form.

  According to the network controller of this preferred embodiment, within each time window, the switching of the communication method related to the switching request for a certain mobile terminal is performed before the request, in which the number of radio links is larger than that of the mobile terminal. It is executed only when there is no switching request for the terminal. As a result, it is possible to reliably realize switching of communication methods that is preferentially executed for mobile terminals having a large number of radio links.

In the network control device of the present invention,
“When a mobile terminal has a user identification table that identifies mobile terminals belonging to at least one group when the mobile terminal is divided into two groups, the user of the mobile terminal that has been requested to switch from the non-high-speed communication method to the high-speed communication method. It is also preferable that the mobile terminal includes a specific user identification unit that determines the group to which the mobile terminal belongs according to the identification table and operates the band control unit only when the mobile terminal belongs to one specific group.

  According to this preferred form of the network control apparatus, for example, when there is a mobile terminal that wants to execute switching to the high-speed communication method with an exception, regardless of the number of radio links, the mobile terminal By belonging to a group different from this group, the operation by the band control unit can be avoided for the exceptional mobile terminal.

Moreover, the network control method of the present invention that achieves the above-described object is as follows.
A wireless communication system that performs wireless communication through a communication network between mobile terminals, both wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method In a wireless communication system in which each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method. In the network control method for switching the terminal communication method,
A link number management step for managing the number of wireless links in use for each mobile terminal performing wireless communication by a non-high-speed communication method;
When multiple mobile terminals compete for switching from non-high-speed communication method to high-speed communication method, communication of the mobile terminal is preferentially performed for the mobile terminal having a large number of radio links among the multiple mobile terminals. And a bandwidth control step for switching the system from the non-high-speed communication system to the high-speed communication system.

  According to the network control method of the present invention, similarly to the above-described network control device of the present invention, the communication method can be switched so that radio resources are effectively used.

In the network control method of the present invention,
“The bandwidth control step is
Request to switch from non-high-speed communication method to high-speed communication method by referring to the correspondence table between the number of non-high-speed communication method wireless links and the communication line of high-speed communication method with the higher line utilization threshold value as the number of wireless links increases. A threshold determining step for determining a line utilization threshold for a mobile terminal having
Communication method control step for switching the communication method of this mobile terminal from the non-high-speed communication method to the high-speed communication method when the line utilization rate of the communication line of the high-speed communication method is lower than the line utilization rate threshold value determined in the threshold determination step. It is a step that has ``
In the network control method of the present invention,
“In the bandwidth control step, there was a request to switch from the non-high-speed communication method to the high-speed communication method with reference to the correspondence table between the number of wireless links of the non-high-speed communication method and the shorter timer value as the number of wireless links increases. It is a step having a switching request holding step for determining a timer value for a mobile terminal and holding the switching request for a time corresponding to the timer value.
“The bandwidth control step is
The number of wireless links in the non-high-speed communication method and the switching rate that indicates the probability of executing the switching when there is a request for switching from the non-high-speed communication method to the high-speed communication method, and the higher the number of wireless links, the higher the probability With reference to the correspondence table, a switching rate determination step for determining a switching rate for a mobile terminal that has been requested to switch from a non-high speed communication method to a high speed communication method;
The communication method of this mobile terminal is a step having a communication method control step for switching from a non-high-speed communication method to a high-speed communication method with a probability according to the switching rate determined in the switching rate determination step.
“The bandwidth control step is
A time window setting step for repeatedly setting a time window of a predetermined time width;
The communication method of the mobile terminal with the maximum number of radio links in use among all the mobile terminals requested to switch from the non-high-speed communication method to the high-speed communication method within the same time window is changed from the non-high-speed communication method to the high-speed communication. It is a step having a communication method control step for switching to a method,
“The bandwidth control step is
A time window setting step for repeatedly setting a time window of a predetermined time width;
When there is a request for switching from a non-high-speed communication method to a high-speed communication method for one mobile terminal, it is within the same time window as the time when this switching request was made and before the time when this switching request was made Only when there is no request for switching from the non-high-speed communication method to the high-speed communication method for other mobile terminals in which the number of wireless links in use is larger than the number of wireless links in use of this mobile terminal. Any of the modes including a communication mode control step of switching the communication mode from the non-high speed communication mode to the high speed communication mode is a preferable mode.

  According to these preferred forms of the network control method, it is possible to reliably execute the switching of the communication method that is preferentially executed for the mobile terminal having a large number of radio links.

In the network control method of the present invention,
“A mobile group belonging to at least one group when the mobile terminal is divided into two groups is specified, and a specific group of mobile terminals that have been requested to switch from the non-high-speed communication method to the high-speed communication method. It is also preferable to have a specific user identification step that executes the bandwidth control step only when belonging to “

  According to the network control method of this preferred embodiment, when there is an exceptional mobile terminal that wants to execute switching to a high-speed communication method with priority regardless of the number of radio links, the above bandwidth control step is executed for the mobile terminal. Can be omitted.

  As described above, according to the present invention, the network control apparatus that can switch the communication method so that the radio resource is effectively used, and the communication method can effectively use the radio resource. A network control method that can be switched can be obtained.

  Embodiments of the present invention will be described below with reference to the drawings.

  First, a first embodiment of the present invention will be described.

  FIG. 3 is a diagram showing a wireless communication system to which the first embodiment of the present invention is applied.

  A wireless communication system 10 illustrated in FIG. 3 includes a plurality of wireless base stations (NodeB11) 11, a network controller (RNC) 100 that places the plurality of NodeB11 under control, and the wireless communication system 10 A switching center (MSC) 12 for connecting to a wireless communication system, a fixed telephone line network, and the like, and a mobile terminal 13 that performs wireless communication with the NodeB 11 are provided. In FIG. 3, one NodeB 11 and one mobile terminal 13 are representatively shown to simplify the drawing, but the wireless communication system 10 shown in FIG. A NodeB 11 and a mobile terminal 13 are included. Here, the radio communication system 10 shown in FIG. 3 corresponds to an example of the radio communication system according to the present invention, and the mobile terminal 13 corresponds to an example of the mobile terminal 13 according to the present invention. Also, the RNC 100 shown in FIG. 3 corresponds to an embodiment of the network control device according to the present invention.

  The wireless communication system 10 is a wireless communication system that performs wireless communication between mobile terminals 13 via a communication network including a NodeB 11, an RNC 100, and an MSC 12. Here, in the wireless communication system 10, a relatively high-speed high-speed communication method and a relatively low-speed non-high-speed communication method are used in combination. In this embodiment, the wireless communication system 10 includes, as the NodeB 11, a high-speed NodeB 11 that performs wireless communication with the mobile terminal 13 using a high-speed communication method, and a non-high-speed NodeB 11 that performs wireless communication with the mobile terminal 13 using a non-high-speed communication method. However, a plurality of each is provided. As a result, the wireless communication system 10 includes a non-high-speed communication wireless resource including a plurality of usable non-high-speed communication wireless links and a high-speed wireless link including a plurality of usable high-speed communication wireless links. Communication system radio resources coexist. Further, in this wireless communication system 10, each mobile terminal 13 can use “one” for a high-speed communication wireless link, and can use a plurality of non-high-speed wireless links.

  Hereinafter, the details of the RNC 100 that is responsible for switching the communication system in the wireless communication system 10 will be described. Here, the description is focused on packet communication in which the traffic amount is frequently increased and decreased and the communication system is often switched. Do.

  The RNC 100 exchanges various types of information with the mobile terminal 13 via the NodeB 11 and also exchanges various types of information with other wireless communication systems (not shown) via the MSC 12, and the traffic volume for each mobile terminal 13. A traffic observation unit 102 that monitors the increase / decrease and issues a request for changing the communication speed in accordance with the increase / decrease, and a radio link when the mobile terminal 13 enters the cell of a certain NodeB 11 or vice versa. A handover control unit 103 that performs handover control such as link deletion, a non-high-speed communication control unit 104 that controls connection and release of a radio link by a non-high-speed communication method, and a high-speed that controls connection and release of a radio link by a high-speed communication method Switch communication method in packet communication for each communication control unit 105 and mobile terminal 13 A packet call bandwidth control unit 110, and a database 120 having various tables to be referred to during the switching of the communication method by the packet call bandwidth control unit 110. Here, the combination of the packet call bandwidth control unit 110 and the database 120 corresponds to an example of the bandwidth control unit according to the present invention.

  The packet call bandwidth control unit 110 selects the communication method of the switching destination from the high speed communication method and the non-high speed communication method, and the communication method selection unit 111 selects the high speed communication method. In addition, the availability determination unit 112 that determines whether or not switching from the available state of the communication line of the high-speed communication method to the high-speed communication method is possible, and a rate-up control threshold used by the availability determination unit 112 for the determination of the available state are described below. A threshold value determination unit 113 that is determined with reference to the up-control threshold value table 122, a delay processing unit 114 that receives the setting of the timer value and delays the selection of the communication method of the switching destination by the time indicated by the timer value, and this delay processing A timer value determining unit 115 that determines a timer value to be set in the unit 114 with reference to a rate increase waiting timer table 121 described later.

  The database 120 also includes a rate-up waiting timer table 121 that is a correspondence table between the number of wireless links of the non-high-speed communication method and the timer value that is shorter as the number of wireless links increases, the number of wireless links of the non-high-speed communication method, The wireless communication system 10 performs wireless communication in the wireless communication system 10 and a rate-up control threshold table 122, which is a threshold for the communication state use state of the communication system and is a correspondence table with a higher rate-up control threshold as the number of wireless links increases. A link number table 123, which is a correspondence table between terminal IDs for identifying each mobile terminal 13 and the number of radio links in the non-high-speed communication scheme being used, and each of the plurality of NodeBs 11 provided in the radio communication system 10 And a resource usage rate that is a line usage rate of a communication line in each NodeB 11 And a resource utilization monitor table 124 is enabled table.

  Here, the rate-up waiting timer table 121 and the rate-up control threshold table 122 are tables that are created at the time of design and the contents are fixed, but the used link number table 123 and the resource usage rate monitoring table 124 are the contents. Is a table that is constantly updated. In the present embodiment, the contents of these tables are updated by the terminal control unit 101.

  The terminal control unit 101 monitors the entry / exit of the mobile terminal 13 to / from the wireless communication system 10, assigns a terminal ID to the mobile terminal 13 newly entering the wireless communication system 10, and uses the terminal ID for the used link number table 123. Add to. Further, for the mobile terminal 13 already in the wireless communication system 10, the terminal control unit 101 monitors the number of wireless links used by each mobile terminal 13, and updates the contents of the used link number table 123 as appropriate. To do. Further, the terminal control unit 101 monitors the resource usage rate, which is the channel usage rate of the communication line in each NodeB 11, and updates the contents of the resource usage rate monitoring table 124 as appropriate.

  Here, the combination of the communication method selection unit 111 and the availability determination unit 112 corresponds to an example of the communication method control unit according to the present invention, and the threshold determination unit 113 and the rate-up control threshold table 122 are combined. Is equivalent to an example of the threshold value determination unit according to the present invention, and the combination of the timer value determination unit 115, the rate-up waiting timer table 121, and the delay processing unit 114 is the switching request holding unit according to the present invention. It corresponds to an example. The terminal control unit 101 corresponds to an example of a link number management unit according to the present invention. The rate-up control threshold corresponds to an example of a line utilization rate threshold according to the present invention, and the timer value corresponds to an example of a timer value according to the present invention.

  In the RNC 100 shown in FIG. 3, the communication method is switched according to the basic rule that the mobile terminal 13 having a large number of radio links in use is preferentially switched to the high-speed communication method.

  FIG. 4 is a flowchart showing basic rules for switching communication methods performed in the RNC shown in FIG.

  For example, when the amount of traffic in packet communication performed by a certain mobile terminal 13 using the non-high-speed communication method increases, the traffic monitoring unit 102 requests the mobile terminal 13 to increase the communication speed in response to the increase. (Rate up request) is issued (step S11). Then, the threshold determination unit 113 first acquires the number of radio links used by the mobile terminal 13 with reference to the used link number table 123 and further refers to the rate-up control threshold table 122. A rate-up control threshold value corresponding to the acquired number of radio links is determined (step S12). Subsequently, the communication method selection unit 111 refers to the resource usage rate monitoring table 124, and the current resource corresponding to the cell ID of the cell of the high-speed NodeB 11 where the mobile terminal 13 to be upgraded is currently located. The usage rate (current high-speed communication resource usage rate) is acquired (step S13). Then, the communication method selection unit 111 determines whether or not the high-speed communication resource usage rate acquired in step S13 is equal to or less than the rate-up control threshold acquired in step S12 (step S14). When the resource usage rate for high-speed communication is equal to or less than the rate-up control threshold (Yes determination in step S14), the communication method selection unit 111 selects the high-speed communication method (step S15), and the resource usage rate for high-speed communication is the rate. If it is less than the up control threshold (No determination in step S14), the communication method selection unit 111 selects a non-high speed communication method (step S16). When the high-speed communication method is selected, the rate increase request issued in step S11 is fulfilled by switching the communication method to the high-speed communication method. On the other hand, when the non-high-speed communication method is selected, the communication method remains the non-high-speed communication method, so by increasing the communication rate of the currently used wireless link within the range possible with the non-high-speed communication method. The rate up request is fulfilled.

  As described above, in the RNC 100 shown in FIG. 3 described above, when a rate-up request is issued, the high-speed communication resource usage rate and the movement of the rate-up target are performed according to the basic rules shown in FIG. Whether or not to switch the communication method of the mobile terminal 13 to the high-speed communication method is determined by comparison with the rate-up control threshold corresponding to the number of wireless links in use by the terminal 13. In this RNC 100, the rate-up control threshold increases as the number of radio links increases, so that the higher the number of radio links, the easier it is to switch to the high-speed communication method. As a result, after the switching of the communication method, many non-high-speed communication method wireless links are released, so that wireless resources are effectively used.

  In the RNC 100 shown in FIG. 3 described above, in addition to the basic rules shown in FIG. 4, the processing of the timer value determination unit 115 and the delay processing unit 114 is executed to ensure the effective use of radio resources. It is illustrated.

  Hereinafter, a series of processing in this RNC 100 from when a rate increase request is issued until the communication method is switched will be described with reference to a detailed processing sequence.

  FIG. 5 is a diagram illustrating a series of processing sequences executed in the RNC shown in FIG. 3 from when a rate-up request is issued until the communication method is switched.

  Here, the processing sequence shown in FIG. 5 is the traffic for the A mobile terminal 13a assigned with “1” as the terminal ID, which performs packet communication using “two” non-high speed wireless links. FIG. 5 shows a series of processing executed in the RNC 100 shown in FIG. 3 when the amount increases, and the processing shown in the processing sequence shown in FIG. 5 corresponds to an embodiment of the network control method of the present invention. . Further, in the processing sequence shown in FIG. 5, the A mobile terminal 13a is located in the cells of the two non-high-speed NodeBs 11 corresponding to the “two” wireless links, and the cell ID “1”. ”Is also located in the cell of the high-speed NodeB 11.

  First, when the traffic amount for the A mobile terminal 13a increases, the traffic observation unit 102 recognizes the increase in the traffic amount for the A mobile terminal 13a, and the traffic observation unit 102 further increases the rate for the A mobile terminal 13a. A request is issued to the packet call bandwidth control unit 110 (step S101). In the packet call bandwidth control unit 110, the rate increase request is received by the communication method selection unit 111. The communication method selection unit 111 sends the timer value determination unit 115 to the radio link currently used by the A mobile terminal 13a. The determination of the timer value according to the number is instructed (step S102). Then, the timer value determination unit 115 determines a timer value in accordance with an instruction from the communication method selection unit 111. This determination is a series of processes described below, and the A mobile terminal 13a is currently in use. This is done by obtaining a timer value corresponding to the number of radio links from the used link number table 123.

  First, the timer value determination unit 115 refers to the used link number table 123 and acquires the number of radio links corresponding to the terminal ID “1” assigned to the A mobile terminal 13a (step S103).

  Here, the number of wireless links in the used link number table 123 is appropriately updated by the terminal control unit 101 shown in FIG.

  Hereinafter, although not described from the determination of the timer value by the timer value determination unit 115, the update of the number of radio links in the used link number table 123 will be described. Also, in the following, for this update, a radio link is added when the mobile terminal 13 enters a new NodeB 11 cell, and conversely, the radio when the mobile terminal 13 leaves the Cell of the NodeB 11 that has been communicating until then. A handover control such as link deletion will be described as an example.

  First, radio link addition processing will be described.

  FIG. 6 is a diagram illustrating a processing sequence of wireless link addition processing.

  In the wireless communication system 10 of FIG. 3, each of the plurality of NodeBs 11 outputs a pilot signal that is a constant-wave radio signal for informing the mobile terminal 13 of its existence. The mobile terminal 13 always receives a pilot signal from each NodeB 11, and when there is a pilot signal whose reception strength exceeds a predetermined level, the mobile terminal 13 enters the cell of the new NodeB 11 that is emitting the pilot signal. Recognize that it has entered. Then, as shown in FIG. 6, the mobile terminal 13 connects the radio link between the Node B 11 to which the current radio link is connected and the new Node B 11 via the terminal control unit 101 of the RNC 100. The handover control signal to be obtained at step S201 is transmitted to the handover control unit 103 of the RNC 100 (step S201). Then, the handover control unit 103 sends a link connection control signal instructing the new NodeB 11 to connect a radio link with the mobile terminal 13 that has transmitted the handover control signal (step S202). In the new Node B 11, the wireless link connection according to the link connection control signal is completed, and when this Node B 11 notifies the handover control unit 103 that the connection is completed (step S203), the handover control unit 103 This is further notified to the terminal control unit 101 (step S204). Then, the terminal control unit 101 updates the number of radio links for the mobile terminal 13 that has transmitted the handover control signal in the contents of the used link number table 123 (step S205). In the example of FIG. 6, the number of radio links that has been “1” is updated to “2” before handover control is performed. When this update is completed, the terminal control unit 101 notifies the mobile terminal 13 that has transmitted the handover control signal that the connection of the new radio link is completed, and the NodeB 11 to which the new radio link is connected (Step S206).

  Next, radio link deletion processing will be described.

  FIG. 7 is a diagram illustrating a processing sequence of wireless link deletion processing.

  When there is a pilot signal whose reception strength is lower than a predetermined level among the pilot signals whose reception strength exceeds a predetermined level, the mobile terminal 13 receives the pilot signal from within the cell of the Node B 11 that is transmitting the pilot signal. Recognize that it came out. Then, as shown in FIG. 6, the mobile terminal 13 communicates between the NodeB 11 to which the radio link is currently connected and the NodeB 11 whose reception strength of the pilot signal has decreased via the terminal control unit 101 of the RNC 100. A handover control signal for requesting deletion of the radio link is transmitted to the handover control unit 103 of the RNC 100 (step S251). Then, the handover control unit 103 sends a link deletion control signal that instructs the NodeB 11 to delete the radio link with the mobile terminal 13 that has transmitted the handover control signal (step S252). In this NodeB 11, when the deletion of the radio link according to the link deletion control signal is completed, and this NodeB 11 notifies the handover control unit 103 that the deletion is completed (step S253), the handover control unit 103 This is further notified to the terminal control unit 101 (step S254). Then, the terminal control unit 101 updates the number of radio links for the mobile terminal 13 that has transmitted the handover control signal in the contents of the used link number table 123 (step S255). In the example of FIG. 7, before the handover control is performed, the number of radio links that was “2” is updated to “1”. When this update is completed, the terminal control unit 101 notifies the mobile terminal 13 that has transmitted the handover control signal through the NodeB 11 to which the radio link is connected to the mobile terminal 13 that the deletion of the radio link is completed ( Step S256).

  As described above, the handover process is described as an example, and the number of radio links in the used link number table 123 is appropriately updated by the terminal control unit 101. Here, the process in step S205 in FIG. 6 and the process in step S255 in FIG. 7 both correspond to an example of the link number management step in the present invention.

  This is the end of the description of updating the number of radio links. Returning to FIG. 5, the processing sequence of FIG. 5 will be described from the continuation of the description of the interrupted determination of the timer value.

  In the processing of step S103 described above, when the timer value determination unit 115 acquires the number of radio links currently used by the A mobile terminal 13a, the timer value determination unit 115 next refers to the rate-up waiting table 121 and acquires the number of acquired radio links. A timer value corresponding to is acquired (step S104). The timer value determination unit 115 passes the acquired timer value to the communication method selection unit 111 (step S105). The communication method selection unit 111 determines whether or not the passed timer value is “0 seconds” (step S106). In this example, since the timer value is “0.2 seconds” and not “0 seconds”, the determination in step S106 is No, and the communication method selection unit 111 receives this determination and the timer value is To the delay processing unit 114 (step S107). When this timer value is passed, the delay processing unit 114 suspends the processing related to the rate-up request issued for the A mobile terminal 13a until the time indicated by the timer value elapses (Step S108). When time elapses, the delay processing unit 114 notifies the communication method selection unit 111 of a timeout (step S109). Here, a series of processing from step S103 to step S109 corresponds to an example of a switching request holding step according to the present invention.

  When a time-out is notified from the delay processing unit 114, the communication method selection unit 111 instructs the threshold value determination unit 113 to determine the rate-up control threshold value (step S110). Then, the threshold value determination unit 113 determines a rate-up control threshold value according to an instruction from the communication method selection unit 111. This determination is a series of processes described below, and is currently used by the A mobile terminal 13a. The rate-up control threshold corresponding to the number of wireless links is acquired from the rate-up control threshold table 122.

  The threshold determination unit 113 first acquires the number of radio links corresponding to the terminal ID assigned to the A mobile terminal 13a with reference to the used link number table 123 (step S111). When the threshold determination unit 113 acquires the number of radio links currently being used by the A mobile terminal 13a, the threshold determination unit 113 next refers to the rate-up control threshold table 122 and determines a rate-up control threshold corresponding to the acquired number of radio links. Obtain (step S104). The threshold value determination unit 113 passes the acquired rate-up control threshold value to the communication method selection unit 111 (step S113). Here, a series of processing from step S111 to step S113 corresponds to an example of a threshold value determination step according to the present invention. In the example here, the acquired rate-up control threshold is the rate-up control threshold “70%” corresponding to the number of wireless links “2”.

  Subsequently, the communication method selection unit 111 refers to the resource usage rate monitoring table 124, and corresponds to the current resource corresponding to the cell ID of the cell of the high-speed NodeB 11 where the mobile terminal 13 to be upgraded is currently located. The usage rate (current high-speed communication resource usage rate) is acquired (step S114). In this example, since the cell ID of the cell of the high-speed NodeB 11 where the mobile terminal 13 to be rate-up is located is “1”, the communication method selection unit 111 sets the resource usage rate for high-speed communication as The resource usage rate “70%” corresponding to the cell ID “1” is acquired.

  Then, the communication method selection unit 111 determines whether or not the high-speed communication resource usage rate acquired in step S114 is equal to or less than the rate-up control threshold value passed from the threshold value determination unit 113 in step S113 (step S115). . In this example, since the high-speed communication resource usage rate is “70%” and the rate-up control threshold is “70%”, the high-speed communication resource usage rate is equal to or less than the rate-up control threshold.

  When the resource usage rate for high-speed communication is equal to or less than the rate-up control threshold (Yes determination in step S115), the communication method selection unit 111 changes the availability determination unit 112 from the available communication line of the high-speed communication method to the high-speed communication method. It is instructed whether or not switching is possible (step S116). In addition, the high-speed communication resource usage rate acquired in step S114 by the communication method selection unit 111 is attached to this instruction. The availability determination unit 112 performs the availability determination according to the instruction (step S117), and notifies the communication method selection unit 111 of the determination result (step S118). Then, the communication method selection unit 111 selects a communication method according to the notified determination result (step S119). That is, when notified that the switching to the high speed communication method is possible, the communication method selection unit 111 selects the high speed communication method as the communication method, and when notified that the switching to the high speed communication method is impossible. The non-high-speed communication method is selected as the communication method. Here, a series of processing from step S115 to step S119 corresponds to an example of a communication system control step according to the present invention.

  In this example, the resource usage rate for high-speed communication is “70%” and the communication line has “30%”, so that the determination result by the availability determination unit 112 is switchable, and the communication method selection unit 111 is switched. Selects a high-speed communication method.

  When the high-speed communication method is selected, the communication method selection unit 111 instructs the high-speed communication control unit 105 of the A mobile terminal 13a related to the rate increase request in step S101 and the cell in which the A mobile terminal 13a is located (here In the example shown in FIG. 5, the high-speed communication link is instructed to be connected to the high-speed NodeB 11 of the cell having the cell ID “1” (step S120), and the non-high-speed communication control unit 104 is also instructed. The A mobile terminal 13a is instructed to release the radio link in use (step S121). Receiving the instruction in step S120, the high-speed communication control unit 105 performs connection of a high-speed communication wireless link via the terminal control unit 101 in FIG. 3 (step S122), and receives the instruction in step S121. The communication control unit 104 performs release of the wireless link of the non-high-speed communication method through the terminal control unit 101 in FIG. 3 (step S123).

  Here, if the resource usage rate for high-speed communication is “100%” and there is no available communication line, the determination result by the availability determination unit 112 is not switchable. In step S119, the communication method selection unit 111 Select a non-high-speed communication method. In that case, the communication method selection unit 111 allows the non-high-speed communication control unit 104 to permit the communication rate in the radio link used by the mobile terminal 13 related to the rate increase request in step S101 in the non-high-speed communication method. Instructed to raise within the range (step S124). In response to this instruction, the non-high speed communication control unit 104 increases the communication rate (step S125).

  As described above, in this embodiment, the rate-up request for the A mobile terminal 13a with the number of wireless links of the non-high-speed communication method being used is “2” is free on the communication line of the high-speed communication method. In this case, it is realized by switching the communication method to the high-speed communication method, and at the same time, the “two” non-high-speed communication method wireless links used by the A mobile terminal 13a are released.

  Next, a processing sequence when the number of wireless links of the non-high-speed communication method in use is “3” which is larger than “2” and “1” which is smaller than “2”. This will be described again with reference to FIG.

  When the number of wireless links of the non-high-speed communication method in use is “3”, the timer value determined by the timer value determination unit 115 is “0 seconds” in step S104. As a result, the result of the determination performed by the communication method selection unit 111 in step S106 is Yes, the processing from step S107 to step S115 is omitted (step S126), and whether or not the communication method selection unit 111 determines in step S116 whether or not it is possible. A determination instruction is issued to the unit 112. For example, when the mobile terminal 13 using the “three” radio links is located in the cell of the high-speed NodeB 11 having a resource usage rate of “70%”, as in the example described above, The rate-up request for the mobile terminal 13 is fulfilled by switching the communication method to the high-speed communication method, and at the same time, the “three” non-high-speed communication method wireless links are released.

  When the number of wireless links of the non-high-speed communication method in use is “1”, the timer value determined by the timer value determination unit 115 in the above step S104 is “0.5 seconds”. As a result, the hold time by the delay processing unit 114 in step S108 becomes longer than the hold time in the example in which the number of wireless links described above is “2”. Furthermore, in this case, the rate-up control threshold obtained by the communication method selection unit 111 in step S113 is “30%”, which is smaller than the rate-up control threshold in this example. As a result, for example, the mobile terminal 13 using the “three” radio links is connected to the high-speed NodeB 11 having a resource usage rate of “70%” as in the example in which the number of radio links is “two”. If it is located in the cell, the resource usage rate for high-speed communication exceeds the rate-up control threshold, and the result of the determination performed by the communication method selection unit 111 in step S115 is No. The non-high-speed communication method is selected as the communication method. When the non-high-speed communication method is selected, the communication method selection unit 111 sets the communication rate in the radio link used by the mobile terminal 13 related to the rate increase request in step S101 to the non-high-speed communication control unit 104. An instruction is given to raise the range within the range allowed by the communication method (step S127). Also in this case, the process of step S125 is executed, and the non-high-speed communication control unit 104 receives this instruction and increases the communication rate.

  As described above, in this embodiment, the larger the number of wireless links of the non-high-speed communication method in use, the shorter the holding time in step S108 and the greater the rate-up control threshold used for the determination in step S115. As a result, the higher the number of wireless links, the faster the processing related to the rate increase request is performed, and the switching to the high-speed communication method is performed even if the communication line for the high-speed communication method is small. As a result, when a rate-up request for a plurality of mobile terminals 13 having different numbers of radio links in use competes, a rate-up request for a mobile terminal 13 with a large number of non-high-speed communication radio links in use. Will be preferentially switched to the high-speed communication system.

  FIG. 8 shows a rate-up request for a mobile terminal 13 having a large number of wireless links in use in a non-high-speed communication method when a rate-up request for a plurality of mobile terminals 13 having different numbers of used radio links competes. It is a figure which shows typically a mode that it switches to a high-speed communication system preferentially.

  Part (a) of FIG. 8 shows a state in which the B mobile terminal 13b performs wireless communication with three non-high-speed NodeBs 11b, and the C mobile terminal 13c performs wireless communication with one non-high-speed NodeB 11b. Has been. In the example of part (a) of FIG. 8, the number of wireless links of the non-high-speed communication method used by the B mobile terminal 13b is “3”, and the wireless link of the non-high-speed communication method used by the C mobile terminal 13c is used. The number of links is “1”. FIG. 8B shows the result of the processing shown in FIG. 5 performed when the rate-up requests for the two mobile terminals 13a and 14b compete with each other. .

  As described above, in the processing shown in the processing sequence of FIG. 5, when the number of wireless links is “3”, the communication method is immediately switched to the high-speed communication method when there is an empty communication line in the high-speed communication method. When the number of wireless links is “1”, it is determined whether the resource usage rate for high-speed communication is equal to or less than the rate-up control threshold “30%” after a holding period of “0.5 seconds”. Only when it is “30%” or less, the communication method is switched to the high-speed communication method.

  In the example of FIG. 8, as a result of the rate increase request for the mobile terminal 13 b having the number of radio links “3” and the rate increase request for the mobile terminal 13 c having the number of radio links “1”, the former The rate increase request is fulfilled by switching the communication method immediately after the request. On the other hand, the latter rate-up request exceeds “30%” when the resource usage rate for high-speed communication is seen after “0.5 seconds”. The request for rate increase is fulfilled by the increase in the communication rate of the radio link of the communication system. In the example of FIG. 8, the communication speed of the mobile terminal 13b having the number of wireless links “3” is increased from 64 kbps to 3.6 Mbps through the above process, and the number of wireless links is “1”. For the mobile terminal 13c, the communication speed has increased from 64 kbps to 384 kbps.

  As described above, according to the processing shown in the processing sequence of FIG. 5, when the rate-up requests for a plurality of mobile terminals 13 having different numbers of wireless links in use compete, From the rate-up request for the mobile terminal 13 having a large number of radio links, the high-speed communication method is preferentially switched. In addition, as a result of switching to the high-speed communication system in this way, the number of non-high-speed communication system radio links released at the time of switching increases. In other words, according to the present embodiment, as many non-high-speed communication wireless links as possible are replaced with “one” high-speed wireless link, and many of these wireless links are released. Radio resources in the system 10 (see FIG. 3) are effectively used. That is, according to the present embodiment, the communication method can be switched so that radio resources are effectively used.

  Next, a second embodiment of the present invention will be described.

  This second embodiment is different from the first embodiment described above in that a method for realizing preferential switching according to the number of radio links and means for avoiding such preferential switching are provided. Is different. Hereinafter, the second embodiment will be described by paying attention to differences from the first embodiment.

  FIG. 9 is a diagram showing a wireless communication system to which the second embodiment of the present invention is applied.

  In FIG. 9, components equivalent to those shown in FIG. 3 are given the same reference numerals as those in FIG. 3, and in the following, redundant description of these equivalent components is omitted.

  In the present embodiment, the wireless communication system 20 of FIG. 9 corresponds to an example of the wireless communication system according to the present invention, and the RNC 200 of the wireless communication system 20 corresponds to an embodiment of the network control apparatus of the present invention. .

  In the packet call bandwidth control unit 210 of the RNC 200, the mobile terminal 13 related to the rate increase request is first a terminal (specific user) belonging to a specific group to which preferential switching should be applied, or preferentially It is determined whether the terminal belongs to a group that should avoid switching (non-specific user). Then, priority switching is performed only when the mobile terminal 13 is a specific user.

  The packet call bandwidth control unit 210 selects a communication method from a high-speed communication method and a non-high-speed communication method based on whether the mobile terminal 13 related to the rate increase request is a specific user or a non-specific user. Communication system selection unit 211 and a band representing the probability of executing switching from the non-high speed communication system to the high speed communication system when the high speed communication system is selected by the communication system selection unit 111 and the availability of the communication line of the high speed communication system Whether or not switching from the enlargement permission rate to the high-speed communication method is possible is determined, and a specific user identification that identifies whether the mobile terminal 13 related to the rate increase request is a specific user or a non-specific user Unit 213 and switching rate determination unit 21 that determines the bandwidth expansion permission rate used by permission determination unit 212 with reference to a later-described bandwidth expansion permission rate management table 222 And it has a door. Here, the above-described bandwidth expansion permission rate corresponds to an example of a switching rate according to the present invention.

  In addition to the used link number table 123, the database 220 included in the RNC 200 of the wireless communication system 20 in FIG. 9 is referred to by the specific user identification unit 213 when identifying whether the user is a specific user or a non-specific user. A specific user management table 221 and a band expansion permission rate management table 222 that is a correspondence table between the number of wireless links of the non-high-speed communication method and the above-described band expansion permission rate. The specific user management table 221 is a first correspondence table between the terminal ID and each class when a plurality of mobile terminals 13 are classified according to how easily each mobile terminal 13 is identified as a specific user. The table portion 221a (see FIG. 10), its class, and permission that is an upper limit of the number of radio links permitted to be used by the mobile terminal 13 of each class, used as an index indicating whether or not it is easily identified as a specific user. It is composed of a second table portion 221a (see FIG. 10) which is a correspondence table with the number of links. The specific user management table 221 corresponds to an example of a user identification table according to the present invention.

  Here, the combination of the communication method selection unit 211 and the availability determination unit 112 corresponds to an example of the communication method control unit according to the present invention, and includes the specific user identification unit 213 and the specific user management table 221. Corresponds to an example of the specific user identification unit according to the present invention, and the combination of the switching rate determination unit 214 and the bandwidth expansion permission rate management table 222 corresponds to an example of the switching rate determination unit according to the present invention. A combination of the communication method selection unit 211, the availability determination unit 112, the switching rate determination unit 214, and the database 220 corresponds to an example of a bandwidth control unit according to the present invention.

  Hereinafter, a series of processing in this RNC 200 from when a rate-up request is issued until the communication method is switched will be described with reference to a detailed processing sequence.

  FIG. 10 is a diagram showing a series of processing sequences executed in the RNC shown in FIG. 9 from when a rate-up request is issued until the communication method is switched.

  Here, the processing sequence shown in FIG. 10 is for the traffic of the A mobile terminal 13a to which “1” is assigned as the terminal ID, which performs packet communication using “two” non-high-speed communication wireless links. FIG. 9 shows a series of processing executed in the RNC 200 shown in FIG. 9 when the amount increases, and the processing shown in the processing sequence shown in FIG. 10 corresponds to an embodiment of the network control method of the present invention. . Further, in the processing sequence shown in FIG. 10, the A mobile terminal 13a uses “two” non-high-speed communication radio links and is located in the cell of the high-speed NodeB 11.

  First, when the traffic amount for the A mobile terminal 13a increases, the traffic observation unit 102 recognizes the increase in the traffic amount for the A mobile terminal 13a, and the traffic observation unit 102 further increases the rate for the A mobile terminal 13a. A request is issued to the packet call bandwidth control unit 210 (step S201). In the packet call bandwidth control unit 210, this rate-up request is received by the communication method selection unit 211, and the communication method selection unit 211 sends a specific user to the specific user identification unit 213 for the A mobile terminal 13a related to this rate-up request. And a specific user identification request for identifying whether the user is a non-specific user (step S202). The specific user identifying unit 213 that has received this request refers to the specific user management table 123 and identifies whether the A mobile terminal 13a is a specific user or a non-specific user as follows (step S203).

  The specific user identification unit 213 first refers to the first table portion 221a in the specific user management table 123, and acquires the class of the A mobile terminal 13a related to the rate increase request. In this example, since “1” is assigned as the terminal ID to the A mobile terminal 13a, “B” is acquired as the class. Next, the specific user identification unit 213 refers to the second table portion 221b, and acquires the number of permitted links corresponding to the class of the A mobile terminal 13a related to the rate increase request. In this example, the number of permitted links “2” corresponding to the class “B” is acquired as the number of permitted links. Further, the specific user identification unit 213 refers to the used link number table 123, acquires the number of radio links currently being used by the A mobile terminal 13a related to the rate increase request, and the acquired number of the radio links and the above permission. Compare the number of links. The specific user identification unit 213 identifies a specific user when the number of wireless links reaches the permitted number of links, and identifies a non-specific user when the number of wireless links is less than the permitted number of links. In this example, the number of wireless links “2” corresponding to the terminal ID “1” of the A mobile terminal 13 a is acquired from the used link number table 123. Since the number of wireless links “2” has reached the number of permitted links “2” corresponding to the class “B” of the A mobile terminal 13a, the specific user identifying unit 213 identifies the A mobile terminal 13a as a specific user. Identify.

  Here, the above classes are classes when a plurality of mobile terminals 13 are classified according to how easily each mobile terminal 13 is identified as a specific user. In this embodiment, “A”, There are three stages “B” and “C”, “A” is a class that is most easily identified as the specific user, and “C” is a class that is most difficult to be identified as the specific user. The number of permitted links is used as an index representing the ease of identification for each class. For example, the class “A” that is most easily identified as the specific user is associated with the number of permitted links “1”. For this reason, the mobile terminal 13 of the class “A” is identified as a specific user even if “one” wireless link is used. On the other hand, the number of permitted links “3” is associated with the class “C” that is hardly identified as the specific user. As a result, the class “C” mobile terminal 13 is identified as a non-specific user when the number of used radio links is “1” or “2”, and the number of used radio links is The user is identified as the specific user only after “3”. Further, since the class “B” that is easy to identify is associated with the number “2” of permitted links, the mobile terminal 13 of the class “B” uses “one” radio link. Alone is identified as a non-specific user, and when the number of in-use radio links is “2”, it is identified as a specific user.

  In the example of FIG. 10, as described above, the specific user identification unit 213 identifies the A mobile terminal 13a related to the rate increase request as a specific user in step S203. Then, the specific user identification unit 213 sends the identification result to the communication method selection unit 211 (step S204). The communication method selection unit 211 determines whether or not the A mobile terminal 13a related to the rate increase request is a specific user from the identification result (step S205). In this example, the communication method selection unit 211 determines that the A mobile terminal 13a is a specific user (Yes determination in step S205). In step S203, the mobile terminal 13 related to the rate increase request is identified as a non-specific user. As a result, in step S205, the communication method selection unit 211 indicates that the mobile terminal 13 related to the rate increase request is not a specific user. (No determination in step S205) will be described later with reference to FIG. Here, a series of processing from step S202 to step S204 corresponds to an example of the specific user identification step according to the present invention.

  When it is determined that the A mobile terminal 13a is a specific user, the communication method selection unit 211 issues a bandwidth expansion permission rate acquisition request for acquiring the bandwidth expansion permission rate to the switching rate determination unit 214 (step S206). . Then, the switching rate determination unit 214 refers to the used link number table 123, acquires the number of radio links currently used by the A mobile terminal 13a related to the rate increase request (step S207), and then the bandwidth expansion permission rate. With reference to the management table 222, a bandwidth expansion permission rate corresponding to the number of wireless links currently in use is acquired (step S208). In this example, “2” is acquired as the number of wireless links in use by the A mobile terminal 13a with the terminal ID “1”, and the bandwidth expansion permission rate “2” corresponding to the number of wireless links “2” is acquired. 60% "is acquired. The acquired bandwidth expansion permission rate is sent from the switching rate determination unit 214 to the communication method selection unit 211 (step S209). A series of processing from step S206 to step S208 corresponds to an example of a switching rate determination step according to the present invention.

  When the bandwidth expansion permission rate is sent, the communication method selection unit 211 determines whether or not the availability determination unit 212 can switch to the high speed communication method from the availability of the communication line of the high speed communication method and the bandwidth expansion permission rate. Is determined (step S210). Further, this instruction is accompanied by the bandwidth expansion permission rate acquired by the communication method selection unit 111 in step S114. The availability determination unit 212 first sets the probability indicated by the bandwidth expansion permission rate as a probability that a high-speed communication method is selected from the non-high-speed communication method and the high-speed communication method, and selects either the non-high-speed communication method or the high-speed communication method. Choose one communication method. When the high-speed communication method is selected, the availability determination unit 212 determines whether it is possible to switch from the available communication line of the high-speed communication method to the high-speed communication method.

  The availability determination unit 212 notifies the communication method selection unit 211 of the result of this series of processing. However, when the availability determination unit 212 finally determines that switching is possible, the communication method selection unit 211 can be switched. When the high-speed communication method is not selected, and when the high-speed communication method is selected but it is determined that switching cannot be performed due to the availability, the communication method selection unit 211 is notified that switching is not possible ( Step S212). In this example, the availability determination unit 212 notifies the communication method selection unit 211 that switching is not possible after the bandwidth expansion permission rate of “60%” or the availability of the communication line of the high-speed communication method. Has been.

  The communication method selection unit 211 selects the communication method according to the notification result (step S213). That is, the communication method selection unit 111 selects the high-speed communication method as the communication method when notified that switching is possible, and selects the non-high-speed communication method as the communication method when notified that switching is not possible. Here, a series of processing from step S210 to step S213 corresponds to an example of a communication method control step according to the present invention.

  In this example, the communication method selection unit 211 is notified that switching is not possible, so the communication method selection unit 111 selects a non-high-speed communication method and relates to a rate-up request to the non-high-speed communication control unit 104. A command is given to increase the communication rate in the radio link used by the A mobile terminal 13a within the range allowed by the non-high-speed communication method (step S214). In response to this instruction, the non-high speed communication control unit 104 increases the communication rate (step S215).

  Also, if the high-speed communication method is selected by the alternative of the bandwidth expansion permission rate of “60%” executed in step S211, and there is a vacancy in the communication line of the high-speed communication method, step S212. , The communication method selection unit 211 is notified of the switchability from the availability determination unit 212. In that case, the communication method selection unit 111 selects the high-speed communication method, and instructs the high-speed communication control unit 105 of the A mobile terminal 13a related to the rate increase request and the cell in which the A mobile terminal 13a is located. An instruction is given to connect a high-speed communication wireless link to the high-speed NodeB 11 (step S216), and the “two” wireless devices used by the A mobile terminal 13a are instructed to the non-high-speed communication control unit 104. An instruction is given to release the link (step S217). The high-speed communication control unit 105 that has received the instruction in step S216 performs connection of a high-speed communication method wireless link (step S218), and the non-high-speed communication control unit 104 that has received the instruction in step S217 receives the non-high-speed communication method. The wireless link is released (step S219).

  As described above, in the present embodiment, the rate increase request for the mobile terminal 13 identified by the specific user indicates the probability indicated by the bandwidth expansion permission rate according to the number of wireless links of the non-high-speed communication method being used. This is realized by a communication method selected in one of two choices, assuming that the high-speed communication method is selected from the non-high-speed communication method and the high-speed communication method. Here, since the probability indicated by the bandwidth expansion permission rate is higher as the number of wireless links in the non-high-speed communication scheme being used is larger, the mobile terminal 13 having a larger number of wireless links is preferentially switched to the high-speed communication scheme. Become. That is, according to the present embodiment, for the mobile terminal 13 identified by the specific user, the communication method can be switched so that the radio resource is effectively used, as in the first embodiment.

  Here, for example, for a mobile terminal 13 or the like that is often used in an emergency, it is desirable to switch to a high-speed communication system as much as possible when a rate-up request is issued. Here, as described above, in the present embodiment, a plurality of mobile terminals 13 are classified according to how easily they are identified as terminals (specific users) belonging to a specific group to which preferential switching is applied. Terminals 13 are classified. In the present embodiment, this classification is performed in view of the degree of urgency in the usage mode of each mobile terminal 13. That is, the mobile terminal 13 whose urgency level is not so high is classified into a class that is easily identified by a specific user with emphasis on effective use of radio resources, and the mobile terminal 13 with high urgency level is more effective than effective use of radio resources. It is classified into a class that is difficult to be identified by a specific user with an emphasis on communication speed.

  Hereinafter, a processing sequence when a rate-up request is issued from the mobile terminal 13 classified into a class that is difficult to be identified by a specific user will be described.

  FIG. 11 is a diagram illustrating a processing sequence when a rate-up request is issued from the mobile terminal 13 classified into a class that is difficult to be identified by a specific user.

  In the example of FIG. 11, a rate-up request is issued for the B mobile terminal 13b assigned “3” as the terminal ID, which performs packet communication using “two” non-high-speed wireless links. A series of processing at the time is shown. The B mobile terminal 13b uses “two” non-high-speed communication radio links and is located in the cell of the high-speed NodeB 11.

  The processing from when the rate increase request is issued until the processing of step S203 is started is the same as in FIG. In this step S203, for the B mobile terminal 13b to which the terminal ID “3” is assigned, a class “C” that is a class that is difficult to be identified by a specific user is acquired, and the number of permitted links “corresponding to the class“ C ”“ 3 "is acquired. In this example, since the number of radio links in use by the B mobile terminal 13b is “2”, the permitted link number “3” has not been reached, and the B mobile terminal 13b is controlled by the specific user identification unit 213. A non-specific user is identified, and the communication method selection unit 211 is notified of the identification result in step S204. As a result, in step S205, the communication method selection unit 211 determines that the B mobile terminal 13b related to the rate increase request is not a specific user (No determination in step S205).

  In this case, a series of processing from step S206 to step S209 in FIG. 10 is omitted, and the communication method selection unit 211 causes the availability determination unit 212 to perform high-speed communication based only on the availability of the communication line of the high-speed communication method. A determination is made as to whether or not switching to a method is possible (step S210 ′). The acceptability determining unit 212 determines in response to this instruction (step S211 '). The processing after this determination when the communication line is free is the same as the processing from step S212 to step S213 in FIG. 10 and the processing from step S216 to step S219 in FIG. The processing after this determination when there is no is the same as the processing from step S212 to step S215 in FIG.

  Thus, in this embodiment, whether or not the mobile terminal 13 of a non-specific user can be switched to the high-speed communication system is determined based only on the availability of the communication line. In other words, for the mobile terminal 13 of a non-specific user, the communication method is switched to the high-speed communication method if there is a communication line available regardless of the number of wireless links of the non-high-speed communication method in use.

  Further, in the example of FIG. 11, the number of wireless links in use of the B mobile terminal 13b classified into the class “C” that is difficult to be identified by a specific user is “2”, and is identified by a non-specific user. However, even in the mobile terminal 13 of such a class, if the number of used radio links reaches the number of permitted links, it is identified by a specific user. However, the number of permitted links associated with such a class that is difficult to be identified by a specific user is larger than that of a class that is easily identified by a specific user, such as class “A”. For this reason, since the mobile terminal 13 of a class that is difficult to be identified by a specific user has a larger number of radio links in use than the mobile terminal 13 of a class that is easily identified by a specific user, even if identified by a specific user, The communication method is preferentially switched to the high-speed communication method.

  As described above, according to the present embodiment, as in the first embodiment, the communication method can be switched so that radio resources can be used effectively, and movement with a high degree of urgency in the usage mode can be performed. For the terminal 13, the communication method can be switched with emphasis on the communication speed rather than the effective use of radio resources.

  Next, a third embodiment of the present invention will be described.

  The third embodiment is different from the first embodiment described above in a method for realizing preferential switching according to the number of radio links. Hereinafter, the third embodiment will be described by paying attention to differences from the first embodiment.

  FIG. 12 is a diagram showing a wireless communication system to which the third embodiment of the present invention is applied.

  In FIG. 12, the same components as those shown in FIG. 3 are denoted by the same reference numerals as those in FIG. 3, and the description of these equivalent components will be omitted below.

  In the present embodiment, the radio communication system 30 of FIG. 12 corresponds to an example of the radio communication system according to the present invention, and the RNC 300 of the radio communication system 30 corresponds to an embodiment of the network control apparatus of the present invention. .

  The RNC 300 includes a periodic timer control unit 301 that repeatedly sets a time window with a width of 2 seconds. The periodic timer control unit 301 corresponds to an example of a time window setting unit according to the present invention. A combination of the cycle timer control unit 301, the packet call bandwidth control unit 310, and the database 320 corresponds to an example of the bandwidth control unit according to the present invention.

  In the database 320 of the RNC 300, in addition to the used link number table 123 and the resource usage rate monitoring table 124 similar to those in the first embodiment, the terminal ID of the mobile terminal 13 related to the rate increase request and the mobile terminal A bandwidth expansion request table 321 is provided in which the number of wireless links of the 13 non-high-speed communication systems in use are associated with each other and recorded for all rate-up requests issued within the same time window.

  Here, in this embodiment, when the resource usage rate for high-speed communication, which is the resource usage rate of the communication line of the high-speed communication method, is equal to or higher than a predetermined threshold (in this embodiment, this threshold is referred to as a rate-up control threshold). In addition, the priority communication method is switched according to the number of radio links. The RNC 300 database 320 also includes a rate-up control threshold table 322 in which the rate-up control threshold is stored.

  In addition, the packet call bandwidth control unit 310 of the RNC 300 includes the terminal ID among the mobile terminals 13 whose terminal IDs are recorded in the bandwidth expansion request table 321 in addition to the availability determination unit 112 similar to the first embodiment. Is provided with a communication method selection unit 311 for selecting a high-speed communication method as the communication method of the mobile terminal 13 having the maximum number of radio links associated with the. A combination of the communication method selection unit 311 and the availability determination unit 112 corresponds to an example of the communication method selection unit according to the present invention.

  Hereinafter, a series of processing in this RNC 300 from when a rate increase request is issued until the communication method is switched will be described with reference to a detailed processing sequence.

  FIG. 13 is a diagram showing a series of processing sequences executed from the rate-up request issued until the communication system is switched, which is executed in the RNC shown in FIG.

  Here, the processing sequence shown in FIG. 13 is a packet communication using “one” wireless link of the non-high-speed communication method, and the A mobile terminal 13 a assigned “1” as the terminal ID, For each of the B mobile terminals 13b, which are performing packet communication using “two” high-speed communication wireless links and assigned “2” as the terminal ID, a rate-up request is issued within the same time window. FIG. 13 shows a series of processing executed in the RNC 300 shown in FIG. 13 when issued, and the processing shown in the processing sequence shown in FIG. 13 corresponds to an embodiment of the network control method of the present invention. In the processing sequence shown in FIG. 13, it is assumed that both the A mobile terminal 13a and the B mobile terminal 13b are located in the cell of the high-speed NodeB 11.

  First, the periodic timer control unit 301 repeatedly sets a time window with a width of 2 seconds, and notifies the communication method selection unit 311 of a timeout at the end of each time window. The repeated setting of the time window by the periodic timer control unit 301 corresponds to an example of the time window setting step according to the present invention.

  First, it is assumed that a timeout is notified for a certain time window (step S301). Also, the next time window starts immediately after the notification.

  Assume that a rate-up request is issued for the A mobile terminal 13a immediately after the notification in step S301 (step S302). In this embodiment, the rate-up request is not only issued from the traffic observation unit 102 in FIG. 12 as in the first and second embodiments described above, but each mobile terminal 13 determines its own traffic volume. Monitoring and recognizing the increase in the traffic volume, issue a rate-up request to the RNC 300. In the example of FIG. 13, a rate-up request for the A mobile terminal 13 a and the B mobile terminal 13 b is issued from each mobile terminal 13.

  The rate increase request issued in step S302 is received by the terminal control unit 101, and further sent to the communication method selection unit 311 by the terminal control unit 101 (step S303). Then, the communication method selection unit 311 refers to the resource usage rate monitoring table 123 and refers to the resource usage rate (resource usage rate for high speed communication) corresponding to the cell ID of the cell of the high speed node where the A mobile terminal 13a is currently located. ) To get. Further, the communication method selection unit 311 refers to the rate up control threshold table 322 and acquires the rate up control threshold. Then, the communication method selection unit 311 determines whether or not the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold (step S304).

  Here, in the example of FIG. 13, it is assumed that the resource usage rate for high-speed communication is “85%” and the rate-up control threshold is “80%”. As a result, in step S304, it is determined that the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold (Yes determination in step S304), and the process proceeds to the next process that leads to preferential switching according to the number of radio links. .

  On the other hand, if the resource usage rate for high-speed communication is less than the rate-up control threshold value (No determination in step S304), the communication method selection unit 311 sends the A mobile terminal related to the rate-up request to the high-speed communication control unit 105. 13a is instructed to connect a high-speed communication wireless link (step S305), and the non-high-speed communication control unit 104 is instructed to release the wireless link in use by the A mobile terminal 13a (step S305). S306). The high-speed communication control unit 105 performs wireless link connection or the like (step S307), and the non-high-speed communication control unit 104 performs wireless link release or the like (step S308). As described above, in this embodiment, when the resource usage rate for high-speed communication is less than the rate-up control threshold, that is, when there is sufficient free space in the communication line for the high-speed communication method, regardless of the number of radio links. The communication method is switched to the high-speed communication method in response to the rate increase request. Then, when there is not enough free space in the communication line of the high-speed communication system, processing that places importance on effective use of radio resources is performed.

  In step S304, when the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold (Yes determination in step S304), the communication method selection unit 311 sends the rate-up request to the bandwidth expansion request table 321. The terminal ID “1” of the mobile terminal 13a and the number of wireless links “1” of the non-high-speed communication method currently used by the A mobile terminal 13a are stored in association with each other (step S309).

  Next, it is assumed that the B mobile terminal 13b issues a rate-up request in the same time window as that for which the A-mobile terminal 13a issues a rate-up request (step S310). At this time, the same processing as the processing from step S303 to step S309 is executed for the B mobile terminal 13b. That is, the rate increase request of the B mobile terminal 13b is received by the terminal control unit 101 and sent to the communication method selection unit 311 (step S311), and the communication method selection unit 311 controls the rate of resource use for high speed communication to be increased. It is determined whether or not the threshold value is exceeded (step S312). If the high-speed communication resource usage rate is less than the rate-up control threshold (No in step S312), the high-speed communication method wireless link connection instruction to the high-speed communication control unit 105 (step S312) and the non-high-speed communication control unit 104 An instruction to release the radio link (step S313) is issued, and the high-speed communication control unit 105 connects the radio link (step S315), and the non-high-speed communication control unit 104 releases the radio link (step S316). Done. If the resource usage rate for high-speed communication is equal to or greater than the rate-up control threshold (Yes determination in step S312), the bandwidth expansion request table 321 includes the terminal ID “2” of the B mobile terminal 13b and the number of wireless links “3”. Are stored in association with each other (step S317). In this example, the terminal ID “2” and the number of wireless links “3” of the B mobile terminal 13b are stored in the bandwidth expansion request table 321 through step S317.

  Here, it is assumed that immediately after the process of step S317 for the B mobile terminal 13b is performed, this time window ends, and the periodic timer 301 notifies the communication method selection unit 311 of a timeout (step S318). After this notification, the next time window starts immediately. In this embodiment, when the terminal ID and the number of wireless links are stored in the bandwidth expansion request table 321 at the start of the time window, the terminal control unit 101. Refuses to accept rate increase requests during that time window.

  In the time window starting after the notification in step S318, the communication method selection unit 311 selects the terminal ID corresponding to the maximum number of wireless links among the number of wireless links stored in the bandwidth expansion request table 321 (step S319). . In this example, the number of radio links “3” is the maximum, and the terminal ID “2” assigned to the B mobile terminal 13b corresponding to the number of radio links “3” is selected.

  Next, the communication method selection unit 311 instructs the availability determination unit 112 to determine whether switching to the high-speed communication method is possible based on the availability of the communication line for the high-speed communication method (step S320). The availability determination unit 112 performs the availability determination according to the instruction (step S322), and notifies the communication method selection unit 311 of the determination result (step S322). Then, the communication method selection unit 311 selects a communication method according to the notified determination result (step S323). In this example, there is a vacant communication line in the high-speed communication method, and the high-speed communication method is selected. Here, a series of processing from step S304 to step S323 corresponds to an example of a communication method control step according to the present invention.

  When the high-speed communication method is selected, the communication method selection unit 311 instructs the high-speed communication control unit 105 to wirelessly use the high-speed communication method for the B mobile terminal 13b corresponding to the terminal ID “2” selected in step S319. Link connection is instructed (step S324), and the non-high-speed communication control unit 104 is instructed to release the radio link of the non-high-speed communication method used by the B mobile terminal 13b (step S325). In response to these instructions, the high-speed communication control unit 105 performs wireless link connection and the like (step S326), and the non-high-speed communication control unit 104 releases the radio link and the like (step S327).

  On the other hand, if there is no free communication line in the high-speed communication method and the non-high-speed communication method is selected in step S323, the communication method selection unit 311 moves the B movement to the non-high-speed communication control unit 104. An instruction is given to increase the communication rate of the wireless link of the non-high-speed communication method used by the terminal 13b (step S328), and in response to this instruction, the communication rate is increased by the non-high-speed communication control unit 104 ( Step S329).

  When the instruction to the high-speed communication control unit 105 or the non-high-speed communication control unit 104 is completed, the communication method selection unit 311 clears the contents of the bandwidth expansion request table 321 (step S330). By this process, this time window is ended and a timeout is notified (step S331), and when the next time window is started, the terminal control unit 101 can accept a rate increase request from the mobile terminal 13. . Further, the clearing in step S330 causes the rate increase request issued by the A mobile terminal 13a corresponding to the terminal ID “1” not selected in step S319 to be discarded.

  As described above, in the present embodiment, when the communication line of the high-speed communication system is small, the movement with the maximum number of wireless links among all the mobile terminals 13 that have requested the rate increase within the same time window. The communication method of the terminal 13 is switched to the high speed communication method. As a result, when the communication line of the high-speed communication method is small, the communication method is preferentially switched to the high-speed communication method for the mobile terminal 13 having a large number of radio links, and the first and second embodiments described above. Similarly, the communication method can be switched so that radio resources are effectively used.

  Next, a fourth embodiment of the present invention will be described.

  The fourth embodiment differs from the above-described third embodiment in a method for realizing preferential switching according to the number of radio links. Hereinafter, the fourth embodiment will be described by paying attention to differences from the third embodiment.

  FIG. 14 is a diagram showing a wireless communication system to which the fourth embodiment of the present invention is applied.

  In FIG. 14, the same components as those shown in FIG. 12 are given the same reference numerals as those in FIG. 12, and in the following, duplicate description of these equivalent components is omitted.

  In the present embodiment, the radio communication system 40 of FIG. 14 corresponds to an example of the radio communication system according to the present invention, and the RNC 400 of the radio communication system 40 corresponds to an embodiment of the network control apparatus of the present invention. . A combination of the cycle timer control unit 301, the packet call bandwidth control unit 410, and the database 420 of the RNC 400 corresponds to an example of the bandwidth control unit referred to in the present invention.

  Further, in the database 420 of the RNC 400, in addition to the used link number table 123, the resource usage rate monitoring table 124, and the rate-up control threshold value table 322 that are the same as those in the third embodiment, the terminal of the mobile terminal 13 related to the rate-up request A band expansion request table 421 is provided in which the ID and the number of wireless links of the non-high-speed communication method being used by the mobile terminal 13 are recorded in association with each other. The contents of the bandwidth expansion request table 421 are updated each time a new rate-up request is issued when a rate-up request is subsequently issued within the same time window.

  In addition, the packet call bandwidth control unit 410 of the RNC 400 uses the mobile terminal 13 when a rate-up request is issued from a mobile terminal 13 in addition to the availability determination unit 112 similar to that of the first embodiment. Only when the number of wireless links of the non-high-speed communication method is larger than the number of wireless links stored in the bandwidth expansion request table 421 at that time, a communication method selection unit 411 for selecting a high-speed communication method is provided. . A combination of the communication method selection unit 411 and the availability determination unit 112 corresponds to an example of the communication method selection unit according to the present invention.

  Hereinafter, a series of processing in this RNC 400 from when a rate-up request is issued until the communication method is switched will be described with reference to a detailed processing sequence.

  FIG. 15 is a diagram illustrating a series of processing sequences executed in the RNC shown in FIG. 14 from when a rate-up request is issued until the communication method is switched.

  Here, the processing sequence shown in FIG. 15 is a packet communication using “one” wireless link of the non-high-speed communication method, and the A mobile terminal 13 a assigned “1” as the terminal ID, Packet communication is performed using “two” high-speed communication wireless links, and the B mobile terminal 13b assigned “2” as the terminal ID and “three” non-high-speed wireless links are used. Executed in RNC 400 shown in FIG. 14 when a rate-up request is issued within the same time window for each of C mobile terminals 13c assigned with “3” as a terminal ID that is performing packet communication. The process shown in the process sequence shown in FIG. 15 corresponds to an embodiment of the network control method of the present invention. Further, in the processing sequence shown in FIG. 15, the A mobile terminal 13a, the B mobile terminal 13b, and the C mobile terminal 13c are all located in the cell to which the cell ID “1” is assigned of the high-speed NodeB 11. And

  First, when the periodic timer 301 notifies the communication method selection unit 411 of a timeout and a new time window is started (step S401), the communication method selection unit 411 clears the contents of the bandwidth expansion request table 421 (step S401). S402).

  Thereafter, it is assumed that a rate-up request is issued from the A mobile terminal 13a (step S403), and the terminal control unit 101 receives the rate-up request and sends it to the communication method selection unit 411 (step S404). Then, the communication method selection unit 411 refers to the resource usage rate monitoring table 123, and currently uses the resource usage rate (resource usage rate for high speed communication) corresponding to the cell ID of the cell of the high speed node where the A mobile terminal 13a is located. ) To get. Furthermore, the communication method selection unit 411 refers to the rate up control threshold table 322 and acquires the rate up control threshold. Then, the communication method selection unit 411 determines whether or not the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold (step S405).

  In this example, the high-speed communication resource usage rate “85%” corresponding to the cell ID “1” is acquired, and the rate-up control threshold “80%” is acquired. It is determined that the value is equal to or greater than the up control threshold (Yes determination in step S405), and the process proceeds to the next process that leads to preferential switching according to the number of radio links.

  On the other hand, if the resource usage rate for high-speed communication is less than the rate-up control threshold (No determination in step S405), the communication method selection unit 411 sends the high-speed communication method to the A mobile terminal 13a to the high-speed communication control unit 105. And instructing the non-high-speed communication control unit 104 to release the radio link in use by the A mobile terminal 13a (step S407). The high-speed communication control unit 105 performs wireless link connection or the like (step S408), and the non-high-speed communication control unit 104 performs wireless link release or the like (step S409). As described above, also in the present embodiment, as in the third embodiment, when the resource usage rate for high-speed communication is less than the rate-up control threshold, that is, when there is sufficient vacancy in the communication line for the high-speed communication method. In this case, regardless of the number of radio links, the communication method is switched to the high-speed communication method in response to a rate increase request. Then, when there is not enough free space in the communication line of the high-speed communication system, processing that places importance on effective use of radio resources is performed.

  In the above step S405, when the high-speed communication resource usage rate is equal to or higher than the rate-up control threshold (Yes determination in step S405), the communication method selection unit 411 indicates that the A mobile terminal 13a that issued the rate-up request is currently in use. It is determined whether the number of wireless links of the non-high-speed communication method is larger than the number of wireless links stored in the bandwidth expansion request table 421 (step S410).

  Here, if it is determined that the number of wireless links of the A mobile terminal 13a is smaller than the number of wireless links in the bandwidth expansion request table 421 (No determination in step S410), at that time, the A mobile terminal 13a The rate-up request related to is discarded (step S411).

  In this example, since the number of wireless links of the A mobile terminal 13a is “1” and the number of wireless links in the bandwidth expansion request table 421 in the clear state is “0”, the communication method selection unit 411 It is determined that the number of wireless links of the mobile terminal 13a is greater than the number of wireless links in the bandwidth expansion request table 421 (Yes determination in step S410), and the number of wireless links in the bandwidth expansion request table 421 is determined as the number of wireless links of the A mobile terminal 13a. It is updated to “1” (step S412).

  Next, the communication method selection unit 411 instructs the availability determination unit 112 to determine whether or not switching to the high-speed communication method is possible based on the availability of the high-speed communication method communication line (step S413). The availability determination unit 112 performs the availability determination according to the instruction (step S414), and notifies the communication method selection unit 411 of the determination result (step S415). Then, the communication method selection unit 411 selects a communication method according to the notified determination result (step S416). In this example, there is a vacant communication line in the high-speed communication method, and the high-speed communication method is selected. Here, a series of processing from step S410 to step S416 corresponds to an example of a communication method control step according to the present invention.

  When the high-speed communication method is selected, the communication method selection unit 411 instructs the high-speed communication control unit 105 to connect the wireless link of the high-speed communication method to the A mobile terminal 13a (step S417), and non-high-speed communication. The control unit 104 is instructed to release the radio link of the non-high-speed communication method used by the A mobile terminal 13a (step S418). In response to these instructions, the high-speed communication control unit 105 performs wireless link connection and the like (step S419), and the non-high-speed communication control unit 104 releases the radio link and the like (step S420).

  On the other hand, if there is no free communication line for the high-speed communication method and the non-high-speed communication method is selected in step S416, the communication method selection unit 411 moves the A movement to the non-high-speed communication control unit 104. An instruction is given to increase the communication rate of the wireless link of the non-high-speed communication method used by the terminal 13a (step S421), and in response to this instruction, the communication rate is increased by the non-high-speed communication control unit 104 ( Step S422).

  In this example, the communication method for the A mobile terminal 13a is switched to the high-speed communication method by the processing up to step S420. Here, it is assumed that a rate-up request is issued from the C mobile terminal 13c (step S423). ). In this case, exactly the same processing as the processing from step S404 to step S422 is repeated.

  That is, the terminal control unit 101 sends a rate-up request from the C mobile terminal 13c to the communication method selection unit 411 (step S424), and the communication method selection unit 411 determines that the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold. It is determined whether or not there is (step S425).

  If the resource usage rate for high-speed communication is less than the rate-up control threshold (No determination in step S425), the communication method selection unit 411 uses the high-speed communication method radio link for the high-speed communication control unit 105 for the C mobile terminal 13c. The connection instruction (step S426) and the non-high-speed communication control unit 104 are instructed to release the radio link (step S427). The high-speed communication control unit 105 performs wireless link connection or the like (step S428), and the non-high-speed communication control unit 104 performs wireless link release or the like (step S429).

  On the other hand, in this example, since the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold (Yes determination in step S425), the communication method selection unit 411 determines that the C mobile terminal 13c that issued the rate-up request this time is It is determined whether the number of wireless links of the non-high-speed communication method currently in use is larger than the number of wireless links for the A mobile terminal 13a stored in the band expansion request table 421 (step S430). If it is determined that the number of radio links of the C mobile terminal 13c is smaller than the number of radio links for the A mobile terminal 13a (No determination in step S430), the rate related to the C mobile terminal 13c at that time The up request is discarded (step S431), but in this example, the number of wireless links “3” of the C mobile terminal 13c is larger than the number of wireless links “1” of the A mobile terminal 13a (in step S430). Therefore, the communication method selection unit 411 updates the number of wireless links in the bandwidth expansion request table 421 to the number of wireless links “3” of the C mobile terminal 13c (step S432). Next, the communication method selection unit 411 instructs the availability determination unit 112 to determine whether switching is possible (step S433), and the availability determination unit 112 performs availability determination according to the instruction (step S434). The determination result is notified to the communication method selection unit 411 (step S435). Then, the communication method selection unit 411 selects a communication method according to the notified determination result (step S436). A series of processing from step S430 to step S436 also corresponds to an example of the communication method control step according to the present invention. In this example, since the communication line for the high-speed communication method is free and the high-speed communication method is selected, the communication method selection unit 411 uses the high-speed communication method for the high-speed communication control unit 105 for the C mobile terminal 13c. An instruction to connect a wireless link (step S437) and an instruction to release the wireless link of the non-high-speed communication method used by the A mobile terminal 13a are issued to the non-high-speed communication control unit 104 (step S438). . In response to these instructions, the high-speed communication control unit 105 performs wireless link connection and the like (step S439), and the non-high-speed communication control unit 104 releases the radio link and the like (step S440). Also, if there is no vacancy in the communication line for the high-speed communication method and the non-high-speed communication method is selected in step S436, the communication method selection unit 411 selects the non-high-speed communication control unit 104 for the C mobile terminal 13c. In response to the instruction, the non-high-speed communication control unit 104 increases the communication rate (step S442).

  Here, it is further assumed that a rate-up request is issued from the B mobile terminal 13b (step S443). Also in this case, the processing performed for the A mobile terminal 13a and the C mobile terminal 13c is repeated. That is, the terminal control unit 101 sends a rate increase request from the B mobile terminal 13b to the communication method selection unit 411 (step S444), and the communication method selection unit 411 determines that the resource usage rate for high-speed communication is equal to or greater than the rate increase control threshold. It is determined whether or not there is (step S445).

  If the resource usage rate for high-speed communication is less than the rate-up control threshold (No determination in step S445), the communication method selection unit 411 uses the high-speed communication method radio link for the high-speed communication control unit 105 for the B mobile terminal 13b. Is instructed to connect (step S446), and the non-high-speed communication control unit 104 is instructed to release the radio link (step S447). The high-speed communication control unit 105 performs wireless link connection or the like (step S448), and the non-high-speed communication control unit 104 performs wireless link release or the like (step S449).

  On the other hand, in this example, since the resource usage rate for high-speed communication is equal to or higher than the rate-up control threshold (Yes determination in step S425), the communication method selection unit 411 determines that the B mobile terminal 13b that issued the rate-up request this time is It is determined whether the number of wireless links of the non-high-speed communication method currently in use is larger than the number of wireless links for the C mobile terminal 13c stored in the bandwidth expansion request table 421 (step S450). Here, if the number of wireless links of the B mobile terminal 13b is larger than the number of wireless links of the C mobile terminal 13c (Yes determination in step S450), the above described A mobile terminal 13a and C mobile terminal 13c will be described. The performed processing is repeated and the communication method is switched to the high-speed communication method (step S451). However, in this example, the number of radio links “2” of the B mobile terminal 13b is smaller than the number of radio links “3” of the C mobile terminal 13c, so the rate-up request relating to this B mobile terminal 13b is discarded. (Step S452). Here, a series of processing from step S450 to step S452 also corresponds to an example of a communication method control step according to the present invention.

  Then, immediately after discarding the rate-up request relating to the B mobile terminal 13b, this time window ends, the periodic timer control unit 301 notifies the communication method selection unit 411 of a timeout, and a new time window is started. Then (step S453), the contents of the bandwidth expansion request table 421 are cleared by the communication method selection unit 411 (step S454).

  As described above, in this embodiment, when there is not enough free communication line in the high-speed communication method, when a rate-up request is issued from a certain mobile terminal 13, the non-high-speed communication being used by the mobile terminal 13 is used. Only when the number of wireless links of the system is larger than the number of wireless links stored in the bandwidth expansion request table 421 at that time, the rate increase request is fulfilled by switching to the high-speed communication system. As a result, when the communication line for the high-speed communication method is small, the communication method is preferentially switched to the high-speed communication method for the mobile terminal 13 having a large number of radio links, and the first to third embodiments described above. Similarly, the communication method can be switched so that radio resources are effectively used.

  In the above, as an example of the wireless communication system according to the present invention, a high-speed NodeB that performs wireless communication with a mobile terminal using a high-speed communication method and a non-high-speed NodeB that performs wireless communication with a mobile terminal using a non-high-speed communication method are provided. Although the wireless communication system is illustrated, the present invention is not limited to this. The wireless communication system according to the present invention has both a high-speed type and a non-high-speed type having equipment having the capability of performing wireless communication with a mobile terminal using a high-speed communication method and equipment using a non-high-speed communication method for wireless communication with a mobile terminal. The one provided with the NodeB may be used.

  Hereinafter, various embodiments of the present invention will be additionally described.

(Appendix 1)
A wireless communication system that performs wireless communication through a communication network between mobile terminals, both wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method In a wireless communication system in which each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method. In the network control device that switches the communication method of the terminal,
A link number management unit for managing the number of radio links in use for each mobile terminal performing wireless communication by a non-high-speed communication method;
When a plurality of mobile terminals compete for a switch request from a non-high-speed communication method to a high-speed communication method, the mobile terminal preferentially communicates with the mobile terminal having a large number of radio links among the plurality of mobile terminals. A network control apparatus comprising: a bandwidth control unit that switches a method from a non-high-speed communication method to a high-speed communication method.

(Appendix 2)
The bandwidth control unit
There is a correspondence table between the number of non-high-speed communication method wireless links and the high-speed communication method communication line, and the higher the number of wireless links, the higher the line utilization threshold. A threshold determination unit that determines a line utilization threshold with reference to the correspondence table for the mobile terminal that was present;
A communication method control unit that switches the communication method of the mobile terminal from a non-high-speed communication method to a high-speed communication method when the line utilization rate of the communication line of the high-speed communication method is lower than the line utilization rate threshold value determined by the threshold value determination unit The network control device according to supplementary note 1, wherein the network control device includes:

(Appendix 3)
The bandwidth control unit
It has a correspondence table between the number of radio links for non-high-speed communication system and the shorter timer value as the number of radio links increases, and when there is a request to switch the mobile terminal from non-high-speed communication system to high-speed communication system, Supplementary note 1 or 2, wherein a timer value is determined for the terminal by referring to the correspondence table, and a switching request holding unit that holds the switching request for a time corresponding to the timer value is provided. Network controller.

(Appendix 4)
The bandwidth control unit
The number of wireless links in the non-high-speed communication method and the switching rate that indicates the probability of executing the switching when there is a request for switching from the non-high-speed communication method to the high-speed communication method, and indicates a higher probability as the number of wireless links increases. A switching rate determination unit that has a correspondence table and determines a switching rate with reference to the correspondence table for a mobile terminal that has been requested to switch from a non-high-speed communication method to a high-speed communication method;
The communication method of the mobile terminal includes a communication method control unit that switches from a non-high-speed communication method to a high-speed communication method with a probability according to the switching rate determined by the switching rate determination unit. The network control apparatus according to appendix 1.

(Appendix 5)
The bandwidth control unit
A time window setting section for repeatedly setting a time window of a predetermined time width;
The communication method of the mobile terminal with the maximum number of radio links in use among all the mobile terminals requested to switch from the non-high-speed communication method to the high-speed communication method within the same time window is changed from the non-high-speed communication method to the high-speed communication. The network control device according to appendix 1, further comprising a communication system control unit that switches to a system.

(Appendix 6)
The bandwidth control unit
A time window setting section for repeatedly setting a time window of a predetermined time width;
When there is a request for switching from a non-high-speed communication method to a high-speed communication method for one mobile terminal, it is within the same time window as the time when the switching request is made and before the time when the switching request is made Only when there is no request for switching from the non-high-speed communication method to the high-speed communication method for other mobile terminals having a larger number of wireless links in use than the number of wireless links in use of the mobile terminal. The network control device according to claim 1, further comprising a communication method control unit that switches the communication method from a non-high-speed communication method to a high-speed communication method.

(Appendix 7)
A user identification table that identifies mobile terminals belonging to at least one group when the mobile terminal is divided into two groups, and the user identification for a mobile terminal that is requested to switch from the non-high speed communication method to the high speed communication method Appendices 1 to 6 including a specific user identifying unit that determines a group to which the mobile terminal belongs according to the table and operates the band control unit only when the mobile terminal belongs to one specific group. The network control apparatus of any one of these.

(Appendix 8)
A wireless communication system that performs wireless communication through a communication network between mobile terminals, both wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method In a wireless communication system in which each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method. In the network control method for switching the terminal communication method,
A link number management step for managing the number of wireless links in use for each mobile terminal performing wireless communication by a non-high-speed communication method;
When a plurality of mobile terminals compete for a switch request from a non-high-speed communication method to a high-speed communication method, the mobile terminal preferentially communicates with the mobile terminal having a large number of radio links among the plurality of mobile terminals. And a bandwidth control step for switching the mode from the non-high-speed communication mode to the high-speed communication mode.

(Appendix 9)
The bandwidth control step includes:
Request to switch from non-high-speed communication method to high-speed communication method by referring to the correspondence table between the number of non-high-speed communication method wireless links and the communication line of high-speed communication method with the higher line utilization threshold value as the number of wireless links increases. A threshold determining step for determining a line utilization threshold for a mobile terminal having
Communication method control step for switching the communication method of the mobile terminal from the non-high-speed communication method to the high-speed communication method when the line utilization rate of the communication line of the high-speed communication method is lower than the line utilization rate threshold value determined in the threshold value determining step The network control method according to appendix 8, wherein the network control method includes:

(Appendix 10)
In the bandwidth control step, referring to the correspondence table between the number of wireless links of the non-high-speed communication method and the timer value that is shorter as the number of wireless links is larger, the movement for which the switching request from the non-high-speed communication method to the high-speed communication method The network control method according to appendix 8 or 9, wherein the network control method includes a switching request holding step of determining a timer value for the terminal and holding the switching request for a time corresponding to the timer value.

(Appendix 11)
The bandwidth control step includes:
The number of wireless links in the non-high-speed communication method and the switching rate that indicates the probability of executing the switching when there is a request for switching from the non-high-speed communication method to the high-speed communication method, and indicates a higher probability as the number of wireless links increases. With reference to the correspondence table, a switching rate determination step for determining a switching rate for a mobile terminal that has been requested to switch from a non-high speed communication method to a high speed communication method;
A communication method control step of switching the communication method of the mobile terminal from a non-high-speed communication method to a high-speed communication method with a probability corresponding to the switching rate determined in the switching rate determination step. The network control method according to appendix 8.

(Appendix 12)
The bandwidth control step includes:
A time window setting step for repeatedly setting a time window of a predetermined time width;
The communication method of the mobile terminal with the maximum number of radio links in use among all the mobile terminals requested to switch from the non-high-speed communication method to the high-speed communication method within the same time window is changed from the non-high-speed communication method to the high-speed communication. 9. The network control method according to appendix 8, wherein the network control method includes a communication method control step for switching to a method.

(Appendix 13)
The bandwidth control step includes:
A time window setting step for repeatedly setting a time window of a predetermined time width;
When there is a request for switching from a non-high-speed communication method to a high-speed communication method for one mobile terminal, it is within the same time window as the time when the switching request is made and before the time when the switching request is made Only when there is no request for switching from the non-high-speed communication method to the high-speed communication method for other mobile terminals having a larger number of wireless links in use than the number of wireless links in use of the mobile terminal. 9. The network control method according to appendix 8, wherein the network control method includes a communication method control step for switching the communication method from a non-high-speed communication method to a high-speed communication method.

(Appendix 14)
A mobile terminal belonging to at least one group when the mobile terminal is divided into two groups is specified, and a mobile terminal that has been requested to switch from the non-high speed communication method to the high speed communication method is assigned to one specific group. 14. The network control method according to any one of appendices 8 to 13, further comprising a specific user identification step that executes the bandwidth control step only when belonging.

It is a figure which shows a radio | wireless communications system typically. It is a figure which shows typically a mode that a communication system is switched from a non-high-speed communication system to a high-speed communication system. It is a figure which shows the radio | wireless communications system to which 1st Embodiment of this invention was applied. It is a flowchart which shows the basic rule of the switching of the communication system performed in RNC shown in FIG. FIG. 4 is a diagram showing a series of processing sequences executed in the RNC shown in FIG. 3 from when a rate up request is issued until a communication method is switched. It is a figure which shows the process sequence of the addition process of a radio link. It is a figure which shows the process sequence of the deletion process of a radio link. High-speed communication preferentially from rate-up requests for mobile terminals with a large number of non-high-speed communication schemes in use when rate-up requests for multiple mobile terminals with different numbers of used radio links compete It is a figure which shows a mode that it switches to a system typically. It is a figure which shows the radio | wireless communications system to which 2nd Embodiment of this invention was applied. FIG. 10 is a diagram showing a series of processing sequences executed from the rate-up request issued until the communication system is switched, which is executed in the RNC shown in FIG. 9. It is a figure which shows a processing sequence when the rate-up request | requirement is issued from the mobile terminal classified into the class which is hard to be identified by a specific user. It is a figure which shows the radio | wireless communications system to which 3rd Embodiment of this invention was applied. FIG. 13 is a diagram showing a series of processing sequences executed in the RNC shown in FIG. 12 from when a rate up request is issued until a communication method is switched. It is a figure which shows the radio | wireless communications system to which 4th Embodiment of this invention was applied. FIG. 15 is a diagram showing a series of processing sequences executed from the rate-up request issued until the communication system is switched, which is executed in the RNC shown in FIG. 14.

Explanation of symbols

10, 20, 30, 40, 50 Wireless communication system 11, 53 Wireless base station (NodeB)
11a, 53a High-speed NodeB
11b, 53b Non-high-speed NodeB
12,51 Switching Center (MSC)
13, 54 Mobile terminal 13a, 54a A Mobile terminal 13b, 54b B Mobile terminal 13c C Mobile terminal 100, 200, 300, 400 Network controller (RNC)
DESCRIPTION OF SYMBOLS 101 Terminal control part 102 Traffic observation part 103 Handover control part 104 Non-high-speed communication control part 105 High-speed communication control part 110,210,310,410 Packet call band control part 111, 211,311,411 Communication system selection part 112,212, 312, 412 availability determination unit 113 threshold determination unit 114 delay processing unit 115 timer value determination unit 120, 220, 320, 420 database 121 rate up waiting timer table 122, 322 rate up control threshold table 123 used link number table 124 resource usage rate Monitoring table 213 Specific user identification unit 214 Switching rate determination unit 221 Specific user management table 221a First table portion 221b Second table portion 222 Bandwidth expansion permission rate management table 321 Bandwidth expansion request Buru 421 band expansion request table

Claims (6)

A wireless communication system that performs wireless communication through a communication network between mobile terminals, both wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method In a wireless communication system in which each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method. In the network control device that switches the communication method of the terminal,
A link number management unit for managing the number of radio links in use for each mobile terminal performing wireless communication by a non-high-speed communication method;
When a plurality of mobile terminals compete for a switch request from a non-high-speed communication method to a high-speed communication method, the mobile terminal preferentially communicates with the mobile terminal having a large number of radio links among the plurality of mobile terminals. A network control apparatus comprising: a bandwidth control unit that switches a method from a non-high-speed communication method to a high-speed communication method. The bandwidth control unit
There is a correspondence table between the number of non-high-speed communication method wireless links and the high-speed communication method communication line, and the higher the number of wireless links, the higher the line utilization threshold. A threshold determination unit that determines a line utilization threshold with reference to the correspondence table for the mobile terminal that was present;
A communication method control unit that switches the communication method of the mobile terminal from a non-high-speed communication method to a high-speed communication method when the line utilization rate of the communication line of the high-speed communication method is lower than the line utilization rate threshold value determined by the threshold value determination unit The network control device according to claim 1, comprising: The bandwidth control unit
It has a correspondence table between the number of radio links for non-high-speed communication system and the shorter timer value as the number of radio links increases, and when there is a request to switch the mobile terminal from non-high-speed communication system to high-speed communication system, 3. A switching request holding unit that determines a timer value with reference to the correspondence table for a terminal and holds the switching request for a time corresponding to the timer value. The network control device described. The bandwidth control unit
The number of wireless links in the non-high-speed communication method and the switching rate that indicates the probability of executing the switching when there is a request for switching from the non-high-speed communication method to the high-speed communication method, and indicates a higher probability as the number of wireless links increases. A switching rate determination unit that has a correspondence table and determines a switching rate with reference to the correspondence table for a mobile terminal that has been requested to switch from a non-high-speed communication method to a high-speed communication method;
The communication method of the mobile terminal includes a communication method control unit that switches from a non-high-speed communication method to a high-speed communication method with a probability according to the switching rate determined by the switching rate determination unit. The network control device according to claim 1. The bandwidth control unit
A time window setting section for repeatedly setting a time window of a predetermined time width;
The communication method of the mobile terminal with the maximum number of radio links in use among all the mobile terminals requested to switch from the non-high-speed communication method to the high-speed communication method within the same time window is changed from the non-high-speed communication method to the high-speed communication. The network control apparatus according to claim 1, further comprising a communication system control unit that switches to a system. A wireless communication system that performs wireless communication through a communication network between mobile terminals, both wireless communication using a relatively high-speed high-speed communication method and wireless communication using a relatively low-speed non-high-speed communication method In a wireless communication system in which each mobile terminal can use one wireless link for wireless communication using a high-speed communication method and multiple wireless links for wireless communication using a non-high-speed communication method. In the network control method for switching the terminal communication method,
A link number management step for managing the number of wireless links in use for each mobile terminal performing wireless communication by a non-high-speed communication method;
When a plurality of mobile terminals compete for a switch request from a non-high-speed communication method to a high-speed communication method, the mobile terminal preferentially communicates with the mobile terminal having a large number of radio links among the plurality of mobile terminals. A network control method comprising: a bandwidth control step for switching a system from a non-high speed communication system to a high speed communication system.

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