JP2011101104A - Radio base station apparatus and method of controlling the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To control the number of a baseband card that is being operated in a radio base station apparatus. <P>SOLUTION: The radio base station apparatus includes multiple base band cards. The apparatus includes: a measuring device that measures the used amount of each resource of the multiple base band cards; and a control unit that changes resources housed in each of the multiple baseband cards. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a radio base station apparatus having a plurality of baseband cards and a radio base station apparatus control method.

  In mobile communication systems, with the increase in subscribers, the capacity of radio base stations is increasing. Further, with the spread of IP (Internet Protocol) technology such as the Internet, the demand for high-speed data communication is rapidly increasing. For this reason, function enhancement from a service mainly including voice and low-speed packet communication (hereinafter referred to as an existing service) to a service that enables higher-speed data communication has been achieved. As a service that enables higher-speed data communication, for example, a service (hereinafter referred to as an HS service) to which an HSDPA (High Speed Downlink Packet Access) method or an HSUPA (High Speed Uplink Packet Access) method is applied can be cited. With the use of HS services, etc., services are diversifying.

  In order to cope with such an increase in subscribers and service diversification, in base stations, expansion of baseband cards corresponding to existing services and establishment of new baseband cards corresponding to HS services are performed. As the number of baseband cards installed in a radio base station increases, the power consumption required for operation of the radio base station tends to increase.

  The HS service is a Best Effort scheme in which baseband resources shared in units of cells are shared and used by each user. For this reason, it is common to accommodate the resource of the user who communicates by HS service in the same cell on the same baseband card. In this case, a plurality of baseband cards corresponding to the number of operating cells performing the HS service are always mounted, and a resource accommodation method associated with a specific cell in which resources of each user are accommodated in units of cells is taken.

  On the other hand, the resources of users who communicate with existing services are fixed resources that are not affected by other users in the same cell. For this reason, it is possible to accommodate a user's resource in arbitrary baseband cards, without depending on the cell with which a user communicates. In this case, it is possible to operate by mounting at least one baseband card in the radio base station. Usually, a baseband card corresponding to the amount of traffic is mounted on the radio base station, and each baseband card accommodates each user's resources in a distributed manner in a round robin manner. Furthermore, a cell-free resource accommodation method that avoids load concentration on a specific baseband card is adopted.

Here, it is assumed that the baseband card of the baseband card group 1 is a baseband card that can accommodate the resource of a user communicating with an existing service and cannot accommodate the resource of a user communicating with an HS service. In addition, the baseband card of the baseband card group 2 is assumed to be a baseband card that can accommodate resources of users who communicate with the HS service in addition to the existing service. Assume that the baseband card of the baseband card group 1 and the baseband card of the baseband card group 2 are mixedly mounted on the radio base station. The resources of users communicating with the existing service are accommodated in the baseband card of the baseband card group 1 as long as there are free resources in the baseband card of the baseband card group 1. The resources of users who communicate with the HS service are accommodated in the baseband card of the baseband card group 2. The resource of the user who communicates with the existing service is accommodated in the baseband card of the baseband card group 2 when there is no free resource in the baseband card of the baseband card group 1.

JP 2008-129846 A JP 2006-191469 A

  FIG. 1 is a diagram illustrating an example when the resource usage of a baseband card is large. FIG. 2 is a diagram illustrating an example when the resource usage of the baseband card is small. The baseband card of the baseband card group 1 is a baseband card that can accommodate the resources of users who communicate with the existing service and cannot accommodate the resources of users who communicate with the HS service. The baseband cards of the baseband card group 2 are baseband cards that can accommodate resources of users who communicate with the HS service in addition to the existing services.

  The load distribution by the resource accommodation method and the prioritization of the accommodation baseband card according to the service are effective when the resource usage is large for both the existing service and the HS service as shown in FIG. 1 (for example, daytime band). It is. However, since the usage rate of each baseband card is low in the time zone when the resource usage is reduced as shown in FIG. 2 (for example, the nighttime zone), the baseband card is operating excessively.

  This tendency is particularly prominent in radio base stations that cover areas where the resource usage varies greatly between daytime and nighttime, such as in office districts, stations, and department stores. Operating the baseband card in a surplus state leads to wasteful power consumption.

  As a method of optimizing the number of operating baseband cards and avoiding a surplus state, a method of separating an empty baseband card that does not contain resources from operation can be considered. However, there are not always free baseband cards due to variations in the holding time of each user. Also, when increasing or decreasing the number of active baseband cards, it is desirable to consider so as not to affect call processing.

  The disclosed apparatus is a radio base station apparatus having a plurality of baseband cards, and an object thereof is to control the number of operating baseband cards.

  One aspect of the disclosure is a radio base station apparatus having a plurality of baseband cards, a measurement unit that measures the resource usage of each of the plurality of baseband cards, and a resource usage measured by the measurement unit And a control unit that performs resource accommodation switching of resources accommodated in each of the plurality of baseband cards.

  According to the disclosed embodiment, in a radio base station apparatus having a plurality of baseband cards, the number of baseband cards in an operating state can be controlled.

FIG. 1 is a diagram illustrating an example when the resource usage of a baseband card is large. FIG. 2 is a diagram illustrating an example when the resource usage of the baseband card is small. FIG. 3 is a diagram illustrating a configuration example of a mobile communication system. FIG. 4 is a diagram illustrating a configuration example of a radio base station. FIG. 5 is a diagram illustrating an example of a time chart of the radio base station. FIG. 6 is a diagram illustrating an example of a processing flow of determination 1 performed by the determination unit. FIG. 7 is a diagram illustrating an example of a processing flow of determination 2 performed by the determination unit. FIG. 8 is a diagram illustrating an example of a processing flow of determination 3 performed by the determination unit. FIG. 9 is a diagram illustrating an example of the configuration of the baseband card and the resource usage. FIG. 10 is a diagram illustrating an example of a processing flow of determination 11 performed by the determination unit.

  Hereinafter, embodiments will be described with reference to the drawings. The configuration of the embodiment is an exemplification and is not limited to the configuration of the disclosed embodiment.

[Embodiment 1]
(Configuration example)
FIG. 3 is a diagram illustrating a configuration example of a mobile communication system. The mobile communication system 1000 includes a base station control station 100, a radio base station 200, a mobile station (mobile terminal) 300, and a maintenance terminal 400.

  FIG. 4 is a diagram illustrating a configuration example of a radio base station. The radio base station 200 in the mobile communication system 1000 includes a line processing unit 202, a monitoring control unit 204, a baseband processing unit 206, a call processing unit 208, a radio unit 210, a primary power source 230, a switch 232, and an antenna 250. The radio base station 200 includes a resource measurement unit 222 that measures the resource usage of each baseband card, a determination unit 224 that determines whether or not resource accommodation is possible, and a card control unit 226 that performs resource accommodation switching control and power control. Including. The radio base station 200 is connected to a base station control station 100 that is a higher-level device of the radio base station 200 via a line processing unit 202. The radio base station 200 is connected to a maintenance terminal 400 that is a higher-level device of the radio base station 200 via the line processing unit 202.

  The line processing unit 202 performs termination processing for data transmitted and received between devices. The radio base station 200 is connected to the mobile station 300 via a radio unit 210 and an antenna (ANT) 250, and the radio unit 210 performs modulation / demodulation processing of radio signals transmitted to and received from the mobile station 300.

  The monitoring control unit 204 communicates with the maintenance terminal 400 via the line processing unit 202. The monitoring control unit 204 performs monitoring control for each processing unit in the radio base station 200. The monitoring control unit 204 performs resource accommodation switching control for the baseband card and power control for the primary power supply 230 supplied to the baseband card based on the monitoring control information. The monitoring control information is notified to the monitoring control unit 204 from the maintenance terminal 400 that remotely monitors and controls the radio base station 200.

  The baseband processing unit 206 includes a plurality of baseband cards. The baseband card processing unit 206 controls the baseband card in accordance with instructions from the call processing unit 208 and the card control unit 226.

  The call processing unit 208 includes a resource management unit 209. The call processing unit 208 sets hardware resources for communicating with the mobile station 300 in the baseband processing unit 206 based on call setting information from the base station control station 100. The call processing unit 208 sets a path between the baseband processing unit 206 and another processing unit, and establishes a radio access link with the mobile station 300. The call setting information is notified from the base station control station 100 or the like to the radio base station 200 when a new user is accepted or when a service change of a accommodated user is accepted.

  The resource measuring unit 222 sends the resource usage, which is the amount of resources (accommodated resources) used by each baseband card, from the resource management unit 209 in the call processing unit 208 for a predetermined time (for example, time t1). Collect sampling every time. The resource measurement unit 222 notifies the determination unit 224 of the average resource usage calculated from the sampling result of a certain period (for example, t1 × n) and the latest (last) resource usage at the timing of notification to the determination unit 224. To do.

  The determination unit 224 calculates the necessary minimum number of baseband cards that can satisfy a preset target average usage rate or less from the average resource usage amount notified from the resource measurement unit 222 and the latest resource usage amount. . When the number of baseband cards in operation is larger than the minimum required number, the determination unit 224 selects a baseband card that is subject to resource accommodation switching control with priority from the baseband cards with the most recent resource usage. The determination unit 224 notifies the card control unit 226 of card control information for performing resource accommodation control.

  The determination unit 224 monitors the unacceptable occurrence rate and the card state of each baseband card. The unacceptable occurrence rate is a ratio of the number of times that call setting cannot be accepted due to resource shortage at the time of call setting reception to the total call setting reception number within a predetermined time (for example, time t2) in the call processing unit 208. Show. The determination unit 224 notifies the card control unit 226 of the card control information according to the threshold value of the unacceptable occurrence rate set in advance and the card state of each baseband card. The card control information is information for performing resource accommodation switching control or power control of the primary power supply 230 supplied to the baseband card.

  Based on the card control information, the card control unit 226 performs resource accommodation switching control for the baseband card and power control for the primary power supply 230 supplied to the baseband card. The card control unit 226 is notified of card control information from the determination unit 224.

  The switch 232 supplies power (power on) or stops power supply (power off) from the primary power supply 230 to the baseband card of the baseband processing unit 206 based on an instruction from the monitoring control unit 204 or the card control unit 226. I do.

  The maintenance terminal 400 can remotely control the radio base station 200 to control the power supply of the baseband card of the baseband processing unit 206. The maintenance terminal 400 can acquire the number of operating baseband cards from the radio base station 200.

(Operation example)
FIG. 5 is a diagram illustrating an example of a time chart of the radio base station. The horizontal axis of the time chart of FIG. 5 is the time axis.

  The baseband card shown in FIG. 5 is a baseband card corresponding to an existing service and accommodates cell-free resources. A total of six baseband cards # 1 to # 6 are initially installed as baseband cards that can accommodate individual channel resources for each user.

When the radio base station 200 is resumed and enters an operation state, the resource measurement unit 222 collects the resource usage of each baseband card (# 1 to # 6) from the resource management unit 209 for each sampling period t1, and the baseband card Calculate the total resource usage used in. When the sampling number reaches a predetermined n times, the resource measurement unit 222 sends the total resource usage used by the baseband card and the resource usage of each baseband card sampled at the nth time to the determination unit 224. Notice. The total resource usage includes an average resource usage R _ave of all baseband cards and a resource usage (nest resource usage of all baseband cards) R _now sampled n times for all baseband cards. Thereafter, the same processing is continued until the radio base station 200 is stopped.

  FIG. 6 is a diagram illustrating an example of a processing flow of determination 1 performed by the determination unit. The determination unit 224 starts the processing flow of determination 1 illustrated in FIG. 6 at the timing when the resource usage is notified from the resource measurement unit 222.

The determination unit 224 obtains the average resource usage R _ave and the latest resource usage R _now from the resource measurement unit 222. The determination unit 224 compares the average resource usage amount R _ave with the latest resource usage amount R _now (S102).

When the average resource usage R _ave is equal to or greater than the latest resource usage R _now (S102; YES), the determination unit 224 substitutes R _ave for the variable R (S104). When the average resource usage R _ave is less than the latest resource usage R _now (S102; NO), the determination unit 224 substitutes R _now for the variable R (S106).

  The determination unit 224 calculates the smallest integer X ′ that satisfies the following equation (S108).

  Here, P is the target average usage rate of the baseband card. r is an accommodable resource per card of the baseband card. The target average usage rate of the baseband card is a ratio of the maximum resource usage amount (target average usage amount) of the baseband card desirable for stable operation of the radio base station 200 to the resources that can be accommodated in the baseband card. The radio base station 200 is preferably operated in a state where the usage rate of the baseband card is equal to or lower than the target average usage rate. Here, the integer X ′ calculated by the determination unit 224 is the minimum number of operating baseband cards at which the usage rate of the operating baseband card is equal to or less than the target average usage rate.

  The determination unit 224 compares the number X of currently operating baseband cards with the integer X ′ calculated in step S108 (S110). The determination unit 224 can acquire the number X of baseband cards currently in operation from the baseband processing unit 206.

  When the number X of baseband cards currently in operation is equal to or smaller than the integer X ′ (S110; NO), the determination 1 process ends.

  When the number X of baseband cards currently in operation is larger than the integer X ′ (S110; YES), the determination unit 224 has a small amount of recent resource usage based on the most recent resource usage of each baseband card. Select (XX ′) sheets from the card (S112). The determination unit 224 notifies the card control unit 226 of card control information for the selected baseband card (S114), and the determination 1 process ends. The selected baseband card is subject to resource accommodation control. This card control information includes information instructing resource accommodation change control. The card control information includes the control target card and the control type in the order of control.

  In the case of FIG. 5, the determination unit 224 determines in the determination 1 that the number of operating baseband cards can be reduced from six to three, and performs resource accommodation switching control in the order of the baseband cards # 4, # 5, and # 6. Card control information to be performed is notified to the card control unit 226.

  The card control unit 226 performs baseband card resource accommodation switching control based on the card control information notified from the determination unit 224. When changing the resource accommodation of the baseband card, the card state of the baseband card subject to resource accommodation changes from the operating state to the pre-occlusion state. Resources accommodated in the baseband card that has transitioned to the pre-occlusion state are accommodated in other baseband cards in the active state. The resources accommodated in the baseband card that has transitioned to the pre-occlusion state may be accommodated in a baseband card that is in an operating state and is not subject to resource accommodation replacement. When all the resources accommodated in the baseband card that has transitioned to the pre-occlusion state are accommodated in other baseband cards, the resource accommodation replacement of the baseband card that has transitioned to the pre-occlusion state is completed. The baseband card whose resource accommodation has been changed transitions from the pre-blocking state to the blocking state. The card control unit 226 does not simultaneously perform resource accommodation switching control for a plurality of baseband cards. The card controller 226 performs resource accommodation control of the next baseband card to be subject to resource accommodation after the resource accommodation of one baseband card is completed and the card state transitions from the pre-blocking state to the blocking state. . When blocking a baseband card that contains resources, the card status of the baseband card continues to be in the pre-blocked state until the replacement of the resource is completed. Transition to. Power is supplied from the primary power supply 230 to the blocked baseband card.

  In the case of FIG. 5, the resources accommodated in the baseband card are cell-free resources that can be accommodated in any baseband card. When blocking the baseband card # 4, the resources accommodated in the baseband card # 4 are distributed and exchanged among the other cards # 1, # 2, # 3, # 5, and # 6 in the operating state. . Similarly, when the baseband card # 5 is blocked, the resources accommodated in the baseband card # 5 are dispersed and exchanged among the other cards # 1, # 2, # 3, and # 6 in the operating state. The storage change when the baseband card # 6 is closed cannot be completed, and the baseband card # 6 continues the pre-blocking state.

  FIG. 7 is a diagram illustrating an example of a processing flow of determination 2 performed by the determination unit. The determination unit 224 acquires the unacceptable occurrence rate from the call processing unit 208 for each period t2. The unacceptable occurrence rate is the ratio of the number of times resources could not be allocated to the number of resource allocation requests from the mobile station 300. The determination unit 224 performs the process of determination 2 illustrated in FIG. 7 at a timing when a certain period (power off guard time: t2 × m1) has elapsed since the card control unit 226 was notified of the card control information for performing the resource accommodation change control. Start the flow.

  The determination unit 224 confirms whether there is a pre-blocked baseband card (S202). If a pre-blocked baseband card exists (S202; YES), the determination unit 224 notifies the card control unit 226 of card control information for the pre-blocked baseband card. This card control information is information for instructing the baseband card to release the block (transition from the pre-blocking state to the operating state). The baseband card that is instructed to release the block changes to the operating state. The card control unit 226 instructs the baseband processing unit 206 to put the pre-closed baseband card into an operating state. Therefore, the baseband card whose accommodation has not been completed within the power-off guard time transitions to the operating state.

  In the case of FIG. 5, the baseband card # 6 is in a pre-blocking state after the power-off card time has elapsed after the determination unit 224 notifies the card control unit 226 of card control information for performing resource accommodation control. For this reason, the baseband card # 6 transitions to the operating state.

  Returning to FIG. 7, the determination unit 224 confirms whether all the unacceptable occurrence rates within the power-off guard time are equal to or less than a predetermined value (for example, N%) (S206). When all the unacceptable occurrence rates within the power-off guard time are equal to or less than the predetermined value (S206; YES), the determination unit 224 confirms whether there is a blocked baseband card (S208). When there is a blocked baseband card (S208; YES), the determination unit 224 notifies the card control unit 226 of card control information for the blocked baseband card (S210), and the determination 2 process ends. . This card control information is information for instructing the baseband card to turn off the power. The card control unit 226 instructs the baseband processing unit 206 and the switch 232 to turn off the blocked baseband card. The switch 232 stops supplying power from the primary power supply 230 to the blocked baseband card. If there is no blocked baseband card (S208; NO), the determination 2 process ends.

  When the unacceptable occurrence rate within the power-off guard time exceeds the predetermined value at least once (S206; NO), the determination unit 224 confirms whether there is a blocked baseband card (S212). ). In this case (S206; NO), the unacceptable rate can be lowered by putting the blocked baseband card into an operating state. When there is a blocked baseband card (S212; YES), the determination unit 224 notifies the card control unit 226 of card control information for the blocked baseband card (S214), and the determination 2 process ends. . This card control information is information for instructing the baseband card to release the blockage. The card control unit 226 instructs the baseband processing unit 206 to put the blocked baseband card into an operating state. The baseband card that is instructed to release the block changes to the operating state. If there is no blocked baseband card (S212; NO), the determination 2 process ends.

  FIG. 8 is a diagram illustrating an example of a processing flow of determination 3 performed by the determination unit. When the radio base station 200 enters the operation state, the determination unit 224 executes the processing flow of determination 3 shown in FIG. When the unacceptable occurrence rate for a certain period (power on guard time: t2 × m2) exceeds a predetermined value (for example, N%), the determination unit 224 places the baseband card in the power off state into an operating state.

  The determination unit 224 acquires the unacceptable occurrence rate from the call processing unit 208 for each period t2 (S302). When the determination unit 224 acquires the unacceptable rate from the call processing unit 208, the determination unit 224 confirms whether the acquired unacceptable rate is equal to or less than a predetermined value (for example, N%) (S304).

  When the acquired unacceptable occurrence rate is equal to or lower than the predetermined value (S304; YES), the determination unit 224 substitutes 0 for the variable m (S306). When the acquired unacceptable occurrence rate is larger than the predetermined value (S304; NO), the determination unit 224 substitutes m + 1 for the variable m (S308).

The determination unit 224 confirms whether or not the variable m is equal to the predetermined value m2 (S310). If the variable m is not equal to the predetermined value m2 (S310; NO), the process returns to step S302. When the variable m is equal to the predetermined value m2 (S310; YES), the determination unit 224 checks whether or not there is a baseband card in a power-off state (S312). The determination unit 224 can check whether or not there is a baseband card in a power-off state by acquiring the card state from the baseband processing unit 206. When there is a power-off baseband card (S312; YES), the determination unit 224 notifies the card control unit 226 of card control information for the power-off baseband card (S314). This card control information is information for instructing the baseband card to turn on the power (set to the operating state). The card control unit 226 instructs the baseband processing unit 206 and the switch 232 to put the baseband card in the power-off state into an operating state. The switch 232 supplies power from the primary power supply 230 to the baseband card in the power-off state. The baseband card instructed to turn on the power transitions to the operating state. After the process of step S314, the determination unit 224 substitutes 0 for the variable m (S316), and the process returns to step S302. If there is no baseband card in the power-off state (S312; NO), similarly, the determination unit 224 substitutes 0 for the variable m (S316), and the process returns to step S302.

<Operational effects of operation example>
The radio base station 200 periodically measures the resource usage of the baseband card. The radio base station 200 selects a baseband card that performs resource accommodation switching control based on the measured resource usage. The radio base station 200 performs resource accommodation control for each selected baseband card one by one. According to the radio base station 200, the number of operating baseband cards is appropriately changed by performing resource replacement control according to the resource usage of the baseband card.

  When there is a pre-blocked baseband card after the elapse of a predetermined time (power-off guard time) from the start of resource accommodation control, the radio base station 200 transitions the baseband card from the pre-blocked state to the operating state. According to the radio base station 200, the period during which the resource accommodation control is performed can be limited to a predetermined period (power off guard time).

  The radio base station 200 monitors the call processing unacceptable rate. The radio base station 200 puts the blocked baseband card into an operating state when the unacceptable rate exceeds a predetermined value during the resource accommodation switching control. By setting the blocked baseband card to an operating state, the unacceptable rate can be reduced.

  The radio base station 200 supplies power to the baseband card whose power supply is stopped when the unacceptable rate exceeds a predetermined value for a predetermined time. By supplying power to the baseband card for which power supply has been stopped, the number of baseband cards in operation increases, and the unacceptable rate can be reduced.

  According to the radio base station 200, it is possible to reduce power consumption while suppressing the influence on the call processing operation during operation.

(Modification)
As a modification, a case where a baseband card corresponding to a service that accommodates a cell-free resource (for example, an existing service) and a service that accommodates a resource associated with a specific cell (for example, an HS service) is shown. In this case, in the time chart of FIG. 5, the resource usage calculation method in the resource measurement unit 222, the notification method, and the processing flow of the determination 1 in the determination unit 224 are different from the above operation example. This modification has common points with the above configuration example and operation example. Therefore, here, mainly the differences will be described, and description of common points will be omitted.

  FIG. 9 is a diagram illustrating an example of the configuration of the baseband card and the resource usage.

The baseband unit 206 includes X1 baseband cards in the baseband card group 1 and X2 baseband cards in the baseband card group 2, and includes a total of (X1 + X2) baseband cards. The baseband cards of the baseband card group 1 contain cell-free resources and do not contain resources associated with specific cells. Baseband cards of the baseband card group 2 contain resources associated with specific cells. The baseband cards of the baseband card group 2 can also accommodate cell-free resources. The resource associated with a specific cell cannot be transferred to another baseband card. Cell-free resources are usually accommodated in the baseband card of the baseband card group 1.

  The resource usage of each baseband card collected by the resource measurement unit 222 at the period t1 includes the resources of the baseband card group 1 (cell-free resources) and the resources of the baseband card group 2 (resources associated with specific cells). Collected independently. The total resource usage (average resource usage, the latest resource usage sampled at the nth time) to be notified to the determination unit 224 is also independently calculated and notified to the determination unit 224.

  The baseband card of the baseband card group 2 that accommodates resources associated with specific cells is a baseband card that is used to provide an HS service. Since the resource associated with the specific cell cannot be replaced with another baseband card, the radio base station 200 is in the minimum operating state when operating with X2 baseband cards in the baseband card group 2. Therefore, the determination unit 224 can satisfy the target average usage rate or less when all the cell-free resources accommodated by the baseband card of the baseband card group 1 are accommodated by X2 baseband cards of the baseband card group 2. It is determined whether or not. In addition, the determination unit 224 considers that the amount of usable resources for specific cell binding decreases when cell-free resources are accommodated. Therefore, the determination unit 224 also determines whether or not the resource usage amounts in the X2 cards of the baseband card 2 are all equal to or less than the allowable threshold Q.

  FIG. 10 is a diagram illustrating an example of a processing flow of determination 11 performed by the determination unit. The determination unit 224 starts the processing flow of determination 11 illustrated in FIG. 10 at the timing when the resource usage is notified from the resource measurement unit 222. The determination 11 shown in FIG. 10 is executed instead of the determination 1 in FIG. 5 in the above operation example.

When the radio base station 200 is resumed and enters an operation state, the resource measurement unit 222 collects the resource usage of the baseband card of the baseband card group 1 from the resource management unit 209 for each sampling period t1. The resource measuring unit 222 calculates the total resource usage used in the baseband card group 1. When the sampling number reaches a predetermined n times, the resource measuring unit 222 determines the total resource usage used in the baseband card group 1 and the resource usage of each baseband card sampled n times 224 is notified. The total resource usage amount of the baseband card group 1 includes the average resource usage amount R1 _ave of all baseband cards and the resource usage amount (the latest resource usage amount) R1 _now sampled n times for all baseband cards.

Further, the resource measurement unit 222 collects the resource usage of the baseband card of the baseband card group 2 from the resource management unit 209 at every sampling period t1, and calculates the total resource usage used by the baseband card group 2. To do. When the sampling number reaches a predetermined n times, the resource measuring unit 222 determines the total resource usage used in the baseband card group 2 and the resource usage of each baseband card sampled n times 224 is notified. The total resource usage of the baseband card group 2 includes the average resource usage R2 _ave of all baseband cards and the resource usage (most recent resource usage) R2 _now sampled n times for all baseband cards.

The determination unit 224 obtains the average resource usage R1 _{ave of the} baseband card group 1 and the latest resource usage R1 _now from the resource measurement unit 222. In addition, the determination unit 224 acquires the average resource usage R2 _ave and the latest resource usage R2 _now of the baseband card group 2 from the resource measurement unit. The determination unit 224 compares R1 _ave + R2 _ave with R1 _now + R2 _now (S1102).

When R1 _ave + R2 _ave is equal to or greater than R1 _now + R2 _now (S1102; YES), the determination unit 224 substitutes R1 _ave + R2 _ave for the variable R (S1104). If R1 _ave + R2 _ave is less than R1 _now + R2 _now (S1102; NO), the determination unit 224 substitutes R1 _now + R2 _now for the variable R (S1106). The variable R is the larger of the average resource usage and the latest resource usage.

  The determination unit 224 determines whether or not the following expression is satisfied (S1108).

  Here, P2 is the target average usage rate of the baseband card of the baseband card group 2. r2 is an accommodable resource per baseband card in the baseband card group 2. The left side of this equation indicates a target average usage amount when the radio base station 200 is operated with the baseband card of the baseband card group 2. The target average usage amount is a resource usage amount that the radio base station 200 can stably operate with the baseband card of the baseband card group 2 without using the baseband card of the baseband card group 1.

  When the above equation is satisfied (S1108; YES), the determination unit 224 determines whether or not the most recent resource usage of each baseband card in the baseband card group 2 is less than or equal to the allowable threshold Q (S1110). .

  When the most recent resource usage of each baseband card in the baseband card group 2 is less than or equal to the allowable threshold Q (S1110; YES), the determination unit 224 performs card control for all baseband cards in the baseband card group 1 Information is notified to the card control unit 226 (S1112). This card control information includes information instructing resource accommodation change control for all baseband cards in the baseband card group 1. The card control unit 226 performs resource accommodation change control of the baseband card of the baseband card group 1 based on the card control information notified from the determination unit 224. Resources accommodated in the baseband card of the baseband card group 1 are accommodated in the baseband card of the baseband card group 2.

  When the above equation is not satisfied (S1108), the determination 1 of FIG. 6 is performed on the baseband cards of the baseband card group 1 (S1114). Further, when at least one of the latest resource usages of the baseband cards of the baseband card group 2 is larger than the allowable threshold Q (S1110; NO), the baseband card of the baseband card group 1 is compared with the baseband card of FIG. Determination 1 is carried out (S1114).

<Functional effects of modification>
The radio base station 200 including the baseband cards of the baseband card group 1 and the baseband card group 2 measures the resource usage. Based on the measured resource usage, the radio base station 200 selects a baseband card that performs resource accommodation switching control from the baseband cards of the baseband card group 1 that accommodates cell-free resources. When the resource usage of the baseband card of the baseband card group 2 is equal to or less than a predetermined value, the radio base station 200 uses the baseband card of the baseband card group 2 as a resource accommodated in the baseband card of the baseband card group 1 Can be accommodated on a card. By storing the resources of the baseband card of the baseband card group 1 in the baseband card of the baseband card group 2, the power supply to the baseband card of the baseband card group 1 can be stopped, thereby reducing power consumption. can do.

  According to the radio base station 200, it is possible to reduce power consumption while suppressing the influence on the call processing operation during operation.

100 Base station control station
200 radio base station
202 Line processing unit
204 Monitoring control unit
206 Baseband processing unit
208 Call processor
209 Resource Management Department
210 Radio unit
222 Resource Measurement Department
224 judgment part
226 Card control unit
230 Primary power supply
232 switch
250 antenna
300 mobile stations
400 maintenance terminal

Claims (7)

A radio base station apparatus having a plurality of baseband cards,
A measurement unit for measuring the resource usage of each of the plurality of baseband cards;
A control unit that performs resource accommodation switching of resources accommodated in each of the plurality of baseband cards based on the resource usage measured by the measurement unit;
A radio base station apparatus provided. Based on the resource usage measured by the measurement unit, a determination unit that selects a baseband card that performs the resource accommodation change, and
Further comprising
The control unit performs resource accommodation switching to another baseband of resources accommodated by the baseband card selected by the determination unit, and stops power supply to the baseband card selected by the determination unit.
The radio base station apparatus according to claim 1. The controller is
In order from the baseband card with the smallest resource usage measured by the measurement unit, the resource accommodation is changed,
After a predetermined time from the start of the resource accommodation change, the power supply to the baseband card for which the resource accommodation change is completed is stopped, and the resource accommodation change for the baseband card for which the resource accommodation change is not completed is stopped.
The radio base station apparatus according to claim 1 or 2. The control unit, when the unacceptable occurrence rate, which is a rate of resource allocation impossible with respect to a resource allocation request, exceeds a predetermined value within a predetermined time after the start of the resource accommodation change, stops the resource accommodation change, Do not stop power supply,
The radio base station apparatus according to any one of claims 1 to 3. The plurality of baseband cards can accommodate a first baseband card that can accommodate a resource that can be accommodated and cannot accommodate a resource, and a resource that can be accommodated and a resource that cannot be accommodated. Including a second baseband card that is possible,
The control unit is configured such that a sum of a resource usage amount of the first baseband card and a resource usage amount of the second baseband card is equal to or less than a first predetermined value, and the resource usage amount of the second baseband card Is equal to or less than a second predetermined value, the resource accommodation is changed for all the first baseband cards, and the power supply is stopped.
The radio base station apparatus according to any one of claims 1 to 4. The control unit supplies power to a baseband card whose power supply has been stopped when an unacceptable rate, which is a ratio of resource allocation impossible to a resource allocation request, exceeds a predetermined value for a predetermined time.
The radio base station apparatus according to any one of claims 1 to 5. In a radio base station apparatus having a plurality of baseband cards,
Measuring resource usage of each of the plurality of baseband cards;
Based on the measured resource usage, perform resource accommodation switching of resources accommodated in each of the plurality of baseband cards,
Radio base station apparatus control method.

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