JP2004282469A - Radio base station - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio base station for utilizing radio resources more efficiently. <P>SOLUTION: The radio base station comprises: single or a plurality of radio channel signal processing units 2 (2-1 to 2-n) for retaining radio resources of a predetermined volume; a radio resource management unit 4 for determining the amount of radio resources required for radio channel assignment, and selecting a radio channel signal processing unit 2 capable of accommodating the amount of radio resources by regular processing if the requested amount of radio resources can be secured or directing movement of a serving radio channel if it is judged that the movement can secure the amount of radio resources; and a radio channel control unit 8 for controlling assignment processing and mobile communication of the radio channel according to instruction from the radio resource management unit 4. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a radio base station configuring a mobile communication system, and more particularly to a radio base station that allocates a radio channel by efficiently using radio resources.
[0002]
[Prior art]
Hereinafter, a conventional wireless base station (see Patent Document 1) will be described. In a conventional radio base station, a radio resource amount is determined according to a communication service type such as voice, packet, and unrestricted digital (first conventional technique). Conventional radio base station radio resource selection schemes include, for example, a card concentrating scheme in which radio resources are selected from the same baseband card until there is no free radio resource in the same baseband card, or an idle radio resource in the same baseband card. There is a card distribution method in which a resource remains, but a radio resource is selected from another baseband card when the search for the same number of radio resources as the threshold is completed (second related art). Furthermore, in a conventional radio base station, when a radio resource fails, for example, the radio resource is moved (third conventional technique).
[0003]
[Patent Document 1]
JP, 2002-95039, A
[0004]
[Problems to be solved by the invention]
However, the conventional wireless base station has the following problems.
[0005]
For example, in the first related art, since the radio resource amount is determined based on the communication service type, the radio base station needs to be notified of the communication service type from a higher-level device (RNC) when setting up a call. For this reason, there is a problem that the radio resource amount cannot be determined in the case where the notification of the communication service type is not performed, in the case of a call setting procedure in which the notification of the communication service type is later than the timing at which the radio resources should be secured, or the like. Was.
[0006]
In the second prior art, a card centralized system and a card distributed system are selected according to a threshold value of radio resource allocation. However, in this configuration, even when a card distribution method is desired, resources are allocated to the same baseband card until the threshold is reached, and the threshold is reached for all baseband cards. Thereafter, resources are allocated to the same baseband card. For this reason, there is a problem that the risk distribution for failures and the effect of preventing the same card from being consumed, which are advantages of the card distribution method, cannot be obtained.
[0007]
Further, in the third conventional technique, since the radio resource is moved when the radio resource fails, the radio resource cannot be relocated unless the failure occurs, and the radio resource in the radio base station cannot be relocated. There was a problem that it could not be used efficiently. For example, a radio base station in which resources cannot be allocated across a plurality of radio channel signal processing units is used when one communication service uses a plurality of radio resources, and the radio channel signal processing unit A and the radio channel signal When the free radio resource amount of the processing unit B is “2”, the processing over a plurality of radio channel signal processing units cannot be performed even though there are a total of “4” free radio resources. However, there is a problem that resources cannot be allocated to the communication service of “4”.
[0008]
The present invention has been made in view of the above, and an object of the present invention is to obtain a wireless base station capable of efficiently using wireless resources.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problems and achieve the object, in a wireless base station according to the present invention, a predetermined number of mobile stations accommodated by the mobile station are accommodated using a single or a plurality of wireless channels. A radio base station that provides a communication service, and determines one or more radio channel signal processing means holding a predetermined amount of radio resources, and a radio resource amount necessary for allocating a radio channel. When the radio resource amount can be secured, the radio channel signal processing means capable of accommodating the radio resource amount is selected by a prescribed process, while the radio resource amount requested by moving the radio channel in use is reduced. When it is determined that it is possible to secure, according to the instruction from the radio resource management means and a radio resource management means for instructing the movement of the radio channel, Characterized in that it comprises a radio channel control means for controlling the movement process of the assignment process and the radio channel of the line channel.
[0010]
According to the present invention, the wireless resource management means determines the amount of wireless resources for allocating a wireless channel, selects wireless channel signal processing means capable of accommodating the amount of wireless resources, By executing the “process related to movement”, wireless resources are used efficiently.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of a radio base station according to the present invention will be described in detail with reference to the drawings. It should be noted that the present invention is not limited by the embodiment.
[0012]
Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration related to a wireless channel assignment process of a wireless base station according to the present invention. In FIG. 1, the radio base station 1 arranges a plurality of radio channel signal processing units 2 (2-1, 2-2, 2-3,..., 2-n), and each radio channel signal processing unit 2 Each has a plurality of wireless resources 3 (3-1, 3-2, 3-3,..., 3-m).
[0013]
Further, the radio base station 1 includes a radio resource management unit 4 that manages the state of the radio resources 3, and a radio channel that controls radio channel assignment between the radio resource management unit 4 and the radio channel signal processing unit 2. The control unit 8 is disposed. In the radio resource management unit 4, the resource amount determination unit 5 determines a radio resource amount required for radio channel allocation, and then the resource selection unit 6 selects a radio resource 3 for radio channel allocation. As a result, the radio channel control unit 8 controls the radio channel signal processing unit 2 including the radio resource 3 selected by the resource selection unit 6, such as setting and releasing the radio channel.
[0014]
The resource amount determining unit 5 includes a resource amount searching unit 5a, a resource amount calculating unit 5b, and a resource amount holding unit 5c, and provides different wireless resource amount determining methods. When determining the amount of wireless resources, the amount of wireless resources is determined by any one of the methods.
[0015]
The resource selection unit 6 includes a minimum value selection unit 6a, a maximum value selection unit 6b, and a high-speed communication selection unit 6c, and provides different wireless resource selection methods. When selecting a radio resource, a radio resource is selected by any one of these methods or a combination thereof.
[0016]
Further, the radio resource management unit 4 includes a resource movement determination unit 7, and determines whether or not to move the resources and a method of moving the resources for the radio resources being used in the communication service.
[0017]
Here, the operation when the above configuration is applied to a W-CDMA (Wideband-Code Division Multiple Access) type radio base station will be described as an example.
[0018]
When the radio base station 1 secures radio resources of a new radio channel in order to provide a communication service, the radio resource management unit 4 makes an inquiry to the internal resource amount determination unit 5.
[0019]
In the resource amount determining unit 5, first, the wireless resource amount is determined by the resource amount searching unit 5a. The resource amount search unit 5a holds a wireless resource amount search table.
[0020]
FIG. 2 is a diagram illustrating an example of the wireless resource amount search table. The wireless resource amount search table includes three pieces of information that characterize a wireless channel, namely, a wireless channel type, the number of wireless channels, and a wireless channel amount that cannot be calculated simply from the wireless channel transmission speed. This is a table in which the correspondence is registered in advance, and the wireless resource amount can be determined by searching the table.
[0021]
The wireless channel type identifies a common channel such as PRACH or SCCPCH, an individual channel such as uplink DPCH or downlink DPCH, or a shared channel such as PDSCH or HS-PDSCH. The number of wireless channels indicates the number of multicodes or the number of signatures, and the usage differs depending on the type of wireless channel. As the transmission rate, a symbol rate per code of a wireless channel is used. For example, in FIG. 2, if the individual channel A, the number of radio channels = 3, and the symbol rate = 240 ksps, the radio resource amount = 16 is obtained.
[0022]
As described above, for a radio channel that can be realized with a smaller amount of radio resources than when the amount of radio resources is calculated, the amount of radio resources can be finely defined from information characterizing the radio channel. , Wireless resources of the entire apparatus can be used efficiently.
[0023]
Next, when there is no registration in the wireless resource amount search table and the wireless resource amount has not been determined, the resource amount determining unit 5 makes an inquiry to the resource amount calculating unit 5b. The resource amount calculation unit 5b holds a wireless resource amount calculation table.
[0024]
FIG. 3 is a diagram illustrating an example of the radio resource amount calculation table. This radio resource amount calculation table is a table in which the transmission rate per radio channel code corresponding to the minimum radio resource unit is determined in advance. In FIG. 3, as an example, in the case of an uplink radio channel, the radio resource amount = 1 is used every symbol rate: 60 ksps, and in the case of the downlink radio channel, the radio resource amount = 1 is used every symbol rate: 30 ksps. Therefore, for example, if the uplink radio channel is 120 ksps, it is easily calculated to use the radio resource amount = 2. Further, in the case of multi-code, the amount of radio resources can be obtained by multiplying the number of multi-codes. Note that, depending on the channel type, the number of signatures is used instead of the number of multicodes.
[0025]
As described above, when the radio resource amount calculation table is used, the radio resource amount used in the radio channel can be calculated at a high speed by a simple calculation. Can be reduced.
[0026]
Then, the wireless resource amount determined by any of the above methods is held in the resource amount holding unit 5c. The resource amount holding unit 5c holds a wireless resource amount corresponding to a channel number for identifying a wireless channel. FIG. 4 is a diagram illustrating a correspondence between a channel number for identifying a wireless channel and a wireless resource amount. Thereafter, when it is desired to acquire the amount of radio resources for a specific radio channel during communication, an inquiry is made to the resource amount holding unit 5c. This eliminates the need to perform the search or the calculation again, so that the processing related to the radio resource amount determination can be significantly reduced.
[0027]
As described above, when the radio resource amount of the radio channel is determined, the radio resource management unit 4 inquires the resource selection unit 6 about the radio resource to which the radio channel is to be allocated. Then, when there is a radio resource to be allocated, the resource selection unit 6 selects a radio resource by the following processing.
[0028]
Note that the resource selection unit 6 determines in advance which of the minimum value selection unit 6a and the maximum value selection unit 6b to select as the radio resource selection method. Furthermore, in order to select a radio resource using the high-speed communication selection unit 6c, a radio channel using a radio resource amount equal to or greater than a predetermined value is defined as high-speed communication, and the other radio channels are defined as low-speed communication. Keep it. For high-speed communication, the selection in the high-speed communication selection section 6c is prioritized. If the selection cannot be made here, the selection is made in the minimum value selection section 6a or the maximum value selection section 6b. On the other hand, for the low-speed communication, the selection by the minimum value selection unit 6a or the maximum value selection unit 6b is given priority. If the selection cannot be performed here, the selection is performed by the high-speed communication selection unit 6c.
[0029]
For example, when selecting a radio resource by the minimum value selection unit 6a, the selection is performed using the radio resource management table (b). FIG. 5 shows the radio resource management tables (a) and (b). This radio resource management table indicates the amount of free radio resources of the radio channel signal processing unit 2, and the radio resource management table (a) is arranged so that the selection priority becomes higher in ascending order of the amount of free radio resources. Is a wireless resource management table (b). When there are a plurality of radio channel signal processing units 2 having the same free radio resource amount, the selection priority among them may be set, for example, in the order of reaching the free radio resource amount.
[0030]
By performing the rearrangement by the minimum value selecting unit 6a, the resource selecting unit 6 searches in the order of the available wireless resource amount and selects the wireless channel signal processing unit 2 capable of accommodating the requested wireless resource amount. I do. Then, in the minimum value selecting unit 6a, after the radio channel signal processing unit 2 is selected, the free radio resource amount of the radio channel signal processing unit 2 is reduced by the allocated amount, and the free radio resource amount is reduced again. Sort in order.
[0031]
According to this selection method, the radio channel signal processing unit 2 with a small amount of free radio resources is intensively selected, so that the radio resources can be effectively used as a whole radio base station even under a heavy load. That is, the radio resources are not distributed to the radio channel signal processing units 2 and resources are not allocated to radio channels that use a lot of radio resources (the state where the radio channel signal processing units 2 to which resources are allocated do not exist). ) Can be prevented.
[0032]
When the maximum value selection unit 6b selects a radio resource, the selection is performed using the radio resource management table (c). FIG. 6 is a diagram showing the radio resource management tables (a) and (c). In this radio resource management table, the radio resource management table (a) is arranged so that the selection priority is higher in the descending order of the amount of available radio resources.
[0033]
The maximum value selection unit 6b performs this rearrangement, so that the resource selection unit 6 searches in descending order of the available wireless resource amount and selects the wireless channel signal processing unit 2 that can accommodate the requested wireless resource amount. I do. Then, after the radio channel signal processing unit 2 is selected, the maximum value selection unit 6b reduces the free radio resource amount of the radio channel signal processing unit 2 by the allocated amount, and again increases the free radio resource amount. Sort in order.
[0034]
According to this selection method, the radio resources are used equally for each radio channel signal processing unit 2, so that the risk distribution for the failure of the radio channel signal processing unit 2 can be realized.
[0035]
When the selection is performed by the minimum value selection unit 6a, the case where the amount of radio resources used in the radio channel already allocated to the radio channel signal processing unit 2 increases during communication (the radio transmission rate is changed) In this case, the “free radio resource threshold” is defined so that the free radio resources can be left. FIG. 7 shows the radio resource management tables (b) and (d). Here, the free radio resource threshold is given as a predetermined value, and the minimum value selection unit 6a selects the radio channel signal processing unit 2 when the radio radio resource amount is equal to or less than the threshold. It operates to lower the selection priority of the channel signal processing unit 2. For example, when the idle radio resource threshold value is 4, the selection priority of the radio channel signal processing units 2-1 and 2-5 shown in the radio resource management table (b) is lowered, and the radio resource management table ( Rearranged as in d).
[0036]
Accordingly, even when the wireless transmission rate is changed during communication, the wireless resources can be selected within the same wireless channel signal processing unit without performing wireless resource movement across the wireless channel signal processing units. The load can be reduced.
[0037]
When selecting a radio resource by the high-speed communication selection unit 6c, the following operation is performed to enable the radio resource to be preferentially used for high-speed communication in accordance with a predetermined “high-speed communication radio resource reservation amount”. I do. Here, as an example, a description will be given on the assumption that the wireless resource securing amount for high-speed communication = 32.
[0038]
FIG. 8 is a diagram showing the radio resource management table (e). The radio resource management table (e) shows the case where the radio resources for high-speed communication are applied to the selection method shown in FIG. 7, but is not limited to this. For example, the selection methods shown in FIGS. May be applied to a high-speed communication radio resource. However, in order to simplify the description, the free radio resource amount of the radio channel signal processing units 2-2 and 2-4 is changed to 32.
[0039]
For example, in the high-speed communication selection unit 6c, as shown in FIG. 8, a table element corresponding to the radio channel signal processing unit 2-2 capable of securing the radio resource for high-speed communication is extracted, and the radio channel signal processing unit 2-c is extracted. A table (e) is created so that 2 is not preferentially selected by the minimum value selection unit 6a and the maximum value selection unit 6b.
[0040]
As a result, even in a state where the radio resource allocation load on a specific radio base station is high, it is possible to suppress a call loss in high-speed communication.
[0041]
Next, a description will be given of a radio resource allocation operation when performing high-speed communication in accordance with the selection priority in the radio resource management table (e) shown in FIG. Here, as an example, it is assumed that a wireless channel with a wireless resource amount ≧ 16 is defined as “high-speed communication”, and a wireless resource is allocated to a wireless channel with a wireless resource amount = 16. The high-speed communication wireless resource reservation amount = 32 is as described above. Also, in FIG. 9, the radio resource management table (f) shows a state after radio resources are allocated in response to high-speed communication.
[0042]
For example, in the state of the radio resource management table (e) shown in FIG. 9, when allocating radio resources to high-speed communication with a radio resource amount = 16, the high-speed communication selection unit 6c sets the radio channel as a radio resource allocation target. The signal processing unit 2-2 is selected. Then, after the wireless resource allocation is successful, the free wireless resource amount of the wireless channel signal processing unit 2-2 is reduced by the allocated amount, and the free wireless resource amount is set to 16. At this time, since the wireless resource securing amount for high-speed communication is defined as 32, the wireless channel signal processing unit 2-2 cannot secure wireless resources for high-speed communication thereafter. Therefore, the high-speed communication selection unit 6c changes this table element to an appropriate position as shown in the wireless resource management table (f) of FIG. At the same time, another radio channel signal processing unit 2 capable of securing a high-speed communication radio resource is searched, for example, a table element corresponding to the radio channel signal processing unit 2-4 (= 32) is extracted, and a high-speed communication radio resource is retrieved. To secure.
[0043]
As described above, even when the secured high-speed communication radio resource is used, the high-speed communication radio resource is always re-secured by the high-speed communication selection unit 6c. Can be suppressed.
[0044]
With the above operation, when the determination of the amount of radio resources and the selection of radio resources are completed, the radio resource management unit 4 requests the radio channel control unit 8 to perform radio resource allocation control for the radio channel signal processing unit 2. I do. Finally, when a wireless channel is set in the wireless channel signal processing unit 2, a series of processes related to wireless channel assignment is completed.
[0045]
Next, an operation of moving a wireless channel during communication will be described. FIG. 10 is a diagram illustrating an example of an operation of moving a wireless channel during communication. Here, an operation in the case where a wireless channel is moved from the wireless channel signal processing units 2-1 to 2-3 will be described as an example. However, the present invention is not limited to this. The present invention is also applicable to a case where a wireless channel is moved within one wireless channel signal processing unit 2. In addition, the state of the wireless resource management table (g) in FIG. 10 indicates a state in which the amount of free resources of each wireless channel signal processing unit 2 is 3 or less.
[0046]
For example, when allocating a radio resource of the radio channel signal processing unit 2-1 to a radio channel, in the state of table (g), if there is a radio channel allocation request of radio resource amount = 4, radio resources cannot be allocated. . Therefore, here, for example, the free wireless resource of the wireless channel signal processing unit 2-1 is set to “4” so that the wireless channel with the wireless resource amount = 4 can be accommodated.
[0047]
The resource movement determining unit 7 refers to the wireless resource management table (g) and, when determining that the requested amount of wireless resources can be secured, switches the wireless resources to the resource selecting unit 6 (wireless channel). Move). In the example of FIG. 10, among the wireless channels being communicated by the wireless channel signal processing unit 2-1, the wireless channel with the wireless resource amount = 1 is set as a movement target.
[0048]
The resource selection unit 6 confirms that a radio resource corresponding to the radio channel to be moved can be secured in the radio channel signal processing unit 2-3. The wireless resource of the wireless channel signal processing unit 2-3 is set (secured) according to the request. At the same time, the wireless resource of the wireless channel signal processing unit 2-1 is deleted (opened). At this time, the setting and deletion in the wireless channel signal processing units 2-1 and 2-3 are performed at the same timing. For example, in the case of a W-CDMA wireless base station, the transmission / reception timing of a transport block to be transferred is applied. As a result, wireless resources can be switched at the same time, and wireless channels can be moved without interrupting communication. The transmission / reception timing is instructed by the wireless channel control unit 8.
[0049]
When the deletion and setting by the radio channel signal processing units 2-1 and 2-3 are completed, the radio channel control unit 8 notifies the radio resource management unit 4 of the completion. By this processing, the free resource amount of the radio channel signal processing unit 2-1 set in the table of the resource selection unit 6 becomes “4”. That is, thereafter, a radio channel with a radio resource amount of 4 can be allocated.
[0050]
As a result, the wireless resources of the entire wireless base station can be used efficiently, so that the possibility that new wireless resource allocation fails can be reduced.
[0051]
In the present embodiment, the radio channel is moved to allocate the radio resource. However, the present invention is not limited to this, and it is necessary to make the radio resource idle for reasons such as maintenance of the radio channel signal processing unit 2. Is also applicable. Also, when a failure occurs in the wireless channel signal processing unit 2, the wireless channel is moved. In this case, it is not necessary to switch (delete and set) the wireless resources at the same time. What is necessary is just to reassign the radio resource used by the processing unit 2 to another radio channel signal processing unit 2. This assignment is performed in the same manner as the assignment of a new radio resource.
[0052]
Further, in the present embodiment, the resource amount determining unit 5 is provided with both the resource amount searching unit 5a and the resource amount calculating unit 5b. However, the present invention is not limited to this. For example, the resource amount searching unit 5a and the resource amount At least one of the calculation units 5b may be mounted. Further, any one of the above configurations and the resource amount holding unit 5c may be implemented in combination. Further, in the present embodiment, one resource amount searching unit 5a and one resource amount calculating unit 5b are implemented in the resource amount determining unit 5, but these configurations may be provided for each wireless channel type. Is also good.
[0053]
Further, in the present embodiment, the resource selecting unit 6 has both the minimum value selecting unit 6a and the maximum value selecting unit 6b. However, the present invention is not limited to this. For example, the minimum value selecting unit 6a and the maximum value selecting unit 6a At least one of the units 6b may be mounted. In addition, any one of the above configurations and the high-speed communication selector 6c may be combined and implemented. Further, in the present embodiment, one minimum value selection unit 6a and one maximum value selection unit 6b are implemented in resource selection unit 6, but these configurations may be provided for each radio channel type. Good.
[0054]
In addition, the resource selection unit 6 does not define the threshold value of the free radio resource amount as the threshold value of the radio resource allocation, but defines the used or unavailable radio resource amount as the threshold value, for example. Is also good. In this case, as the minimum value selection unit 6a, the selection priority of the radio channel signal processing unit 2 exceeding the threshold value is lowered.
[0055]
Further, the wireless channel assignment processing according to the present embodiment is not limited to the W-CDMA wireless base station, but is also applied to, for example, a wireless base station using a TDMA (Time Division Multiple Access) method or another multiple access method. it can. For example, when the speed of a wireless transmission path is constant and the transmission speed of each wireless channel is represented by the number of time-division slots as in the TDMA system, the transmission speed for determining the amount of wireless resources is set to the number of slots. Just replace it. In this case, the timing at which transmission / reception is not performed in the corresponding channel is applied to the movement timing of the radio resource.
[0056]
【The invention's effect】
As described above, according to the present invention, according to the present invention, the radio resource management means determines the radio resource amount for allocating the radio channel, the radio channel signal processing means capable of accommodating the radio resource amount, and The processing relating to the movement of the channel is executed. Thereby, there is an effect that wireless resources can be used efficiently.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration related to a wireless channel assignment process of a wireless base station according to the present invention.
FIG. 2 is a diagram illustrating an example of a wireless resource amount search table.
FIG. 3 is a diagram illustrating an example of a radio resource amount calculation table.
FIG. 4 is a diagram illustrating a correspondence relationship between a channel number for identifying a wireless channel and a wireless resource amount;
FIG. 5 is a diagram illustrating an example of a radio resource management table.
FIG. 6 is a diagram illustrating an example of a radio resource management table.
FIG. 7 is a diagram illustrating an example of a radio resource management table.
FIG. 8 is a diagram illustrating an example of a radio resource management table.
FIG. 9 is a diagram illustrating an example of a radio resource management table.
FIG. 10 is a diagram illustrating an example of an operation of moving a wireless channel during communication.
[Explanation of symbols]
1 wireless base station, 2,2-1,2-2,2-3,2-4,2-5,2-n wireless channel signal processing unit, 3,3-1,3-2,3-3 3-m radio resource, 4 radio resource management unit, 5 resource amount determination unit, 5a resource amount search unit, 5b resource amount calculation unit, 5c resource amount holding unit, 6 resource selection unit, 6a minimum value selection unit, 6b maximum value Selection section, 6c selection section for high-speed communication, 7 resource movement determination section, 8 radio channel control section.

Claims (10)

Using a single or a plurality of radio channels, in a radio base station that provides a predetermined communication service to each mobile station accommodated in its own station,
A single or multiple radio channel signal processing means holding a predetermined amount of radio resources,
Determine the amount of radio resources required to allocate the radio channel, if the required amount of radio resources can be secured, select the radio channel signal processing means capable of accommodating the amount of radio resources in a prescribed process, When it is determined that it is possible to secure the requested amount of radio resources by moving the radio channel in use, a radio resource management unit that instructs the movement of the radio channel,
According to an instruction from the radio resource management unit, a radio channel control unit that controls a radio channel assignment process and a radio channel movement process,
A radio base station comprising: The radio resource management means,
A combination of the wireless channel type, the number of wireless channels, and the transmission speed of each wireless channel applied to the communication service, and the amount of wireless resources consumed in the combination are registered in advance and the registered contents are searched. The radio base station according to claim 1, wherein the radio base station determines the amount of radio resources to be allocated to the communication service. The radio resource management means,
A transmission rate corresponding to the minimum radio resource amount is defined in advance, and a radio resource amount to be allocated to the communication service is calculated using the transmission rate of the radio channel applied to the communication service and the number of radio channels. The wireless base station according to claim 1 or 2, wherein The radio resource management means,
4. The radio base station according to claim 1, wherein the radio channel signal processing means having the smallest available free radio resource amount is preferentially selected. The radio resource management unit further includes:
5. The radio base station according to claim 4, wherein a threshold value of the free radio resource amount is defined, and the selection priority of the radio channel signal processing means whose free radio resource amount is equal to or less than the threshold value is lowered. The radio resource management means,
The radio base station according to any one of claims 1 to 5, wherein a radio channel signal processing unit having the largest available free radio resource amount is preferentially selected. The radio resource management means,
7. The wireless communication system according to claim 1, wherein a predetermined amount of free radio resources is reserved for the high-speed communication service in advance, and the free radio resources for the high-speed communication service are preferentially selected for the high-speed communication service. The radio base station according to any one of the above. The radio resource management unit further includes:
The radio base station according to claim 7, wherein an idle radio resource other than the radio resource for the high-speed communication service is preferentially selected for a low-speed communication service other than the high-speed communication service. The radio resource management means,
The method according to claim 1, wherein when a free radio resource for the high-speed communication service is used and the free radio resource falls below a predetermined amount required for the high-speed communication service, a free radio resource equal to or more than a predetermined amount is dynamically secured. Item 9. The wireless base station according to item 7 or 8. The radio resource management means,
The radio base according to any one of claims 1 to 9, wherein a radio channel in use can be moved between arbitrary radio channel signal processing means or within the same radio channel signal processing means. Bureau.

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