JP2004120070A - Wireless base station apparatus and load distribution control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless base station apparatus providing a load performance to base band signal processing sections onto which a load in call processing control is particularly liable to concentrate so as to ensure stable apparatus performance even when a high load state instantaneously takes place. <P>SOLUTION: A base station control section 15 always monitors a load state of each of the base band signal processing sections 13<SB>1</SB>to 13<SB>n</SB>under its control and distributes processes so as not to concentrate the processes onto a particular function section even on the occurrence of a load momentarily caused as well as an ordinary load and sets a wireless resource. Thus, the wireless base station apparatus ensures stable apparatus performance even when a high load state instantaneously takes place by providing the load performance to the base band signal processing sections 13<SB>1</SB>to 13<SB>n</SB>onto which a load in the call processing control is particularly liable to concentrate. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a radio base station apparatus and a load distribution control method for dispersively controlling concentration of a call control processing load on a baseband signal processing unit of a radio base station apparatus transmitting a radio signal.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a response to a high load state of a call processing control process in a wireless base station device, call control in the base station control device is performed. In addition, the load distribution of each functional unit is controlled based on the number of radio resources that are constantly set.
[0003]
[Problems to be solved by the invention]
However, in the future, as the density of the device is further increased, it is desired to improve the performance under a high load such as an instant call. Even if it is assumed that the base station control unit performs call restriction processing in a high load state, a problem also occurs when a high load is applied to a specific baseband signal processing unit. It is necessary to ensure the performance including the high load.
[0004]
The present invention has been made in view of the above points, and in a wireless base station apparatus, a high load state occurs instantaneously as a load performance on a baseband signal processing unit in which a load in call processing control tends to concentrate. It is another object of the present invention to provide a radio base station apparatus and a load distribution control method capable of ensuring stable performance even in a case.
[0005]
[Means for Solving the Problems]
The radio base station apparatus according to the first aspect of the present invention provides a channel codec, a plurality of baseband signal processing means for performing transmission / reception baseband processing, transmission / reception of a call control signal, control of a radio line and a wired line, and resource management thereof. And a base station control unit that performs constant monitoring of a load state of each of the plurality of baseband signal processing units and loads a specific baseband signal processing unit. Is concentrated, the allocation of radio resources to the baseband signal processing means is limited until the load is not concentrated.
[0006]
According to this configuration, when the load is concentrated on a specific baseband signal processing unit, radio resources are not allocated to the baseband signal processing unit. Therefore, the call processing load is concentrated on outgoing / incoming calls and various handovers. Even so, the call loss rate can be kept low.
[0007]
A wireless base station apparatus according to a second aspect of the present invention is the wireless base station apparatus according to the first aspect, wherein each of the plurality of baseband signal processing means uses a CPU at regular time intervals as a periodic load state. The base station control means periodically collects the CPU usage rates measured by the plurality of baseband signal processing means, and quantitatively recognizes the load state of each baseband signal processing means. If there is a baseband signal processing unit whose load state is equal to or higher than a predetermined threshold, the wireless resource allocation is restricted until the load state of the baseband signal processing unit is equal to or lower than the threshold.
[0008]
According to this configuration, in the load state monitoring, a steady load can be constantly monitored. Call processing control load can be reduced, and the resources can be uniformly distributed as a device.
[0009]
According to a third aspect of the present invention, in the wireless base station apparatus according to the second aspect of the present invention, the plurality of baseband signal processing units control the CPU usage rate measurement result even in a high load state by the base station control. The CPU utilization rate measurement result is transmitted using another time slot in the in-device control signal so as to be transmitted to the means.
[0010]
According to this configuration, the measurement result of the CPU usage rate can be transmitted to the base station control means using another time slot in the control signal in the apparatus, so that even when an instantaneous high load occurs, the base station control means The steady load state can be reliably collected.
[0011]
A wireless base station apparatus according to a fourth aspect of the present invention is the wireless base station apparatus according to the second or third aspect of the present invention, wherein the base station control means controls a CPU usage rate of each of the plurality of baseband signal processing means. By monitoring the measurement result, if all of the plurality of baseband signal processing means is out of the radio resource setting target, perform a radio resource allocation process for all baseband signal processing means by a call event, Even when all the baseband signal processing means are in a no-response state in a high-load state, retransmission of the in-device control signal waits for recovery from the high-load state.
[0012]
According to this configuration, when all the baseband signal processing units are in a high load state by monitoring the CPU usage rate measurement result, the in-device control signal is retransmitted, so that at least one of the baseband signal processing units has a high load. If it recovers from the state, normal operation can be continued.
[0013]
A wireless base station apparatus according to a fifth aspect of the present invention is the wireless base station apparatus according to any one of the second to fourth aspects, based on a CPU usage rate of each of the plurality of baseband signal processing means. And a maintenance means for setting and changing the threshold value for determining the load state.
[0014]
According to this configuration, it is possible to set and change the threshold value used for determining the load state in each of the plurality of baseband signal processing units, so that the load state can be accurately determined.
[0015]
According to a sixth aspect of the present invention, in the wireless base station according to the fifth aspect of the present invention, the maintenance unit includes a statistical information of a processing load generated for each of the plurality of baseband signal processing units. The present invention is characterized in that the CPU usage rate measurement results are periodically stored in a log in a time series, and the log storage history is provided to the base station control means as needed.
[0016]
According to this configuration, the maintenance unit connected to the base station control unit can periodically save and collect the CPU usage rate of each baseband signal processing unit in a time-series log, so that the system evaluation and the load of the local station can be reduced. The occurrence situation can be statistically analyzed and tuned.
[0017]
According to a seventh aspect of the present invention, in the wireless base station according to the first aspect, each of the plurality of baseband signal processing units includes a reception buffer for receiving an in-device control signal. Provided with a plurality, to define a predetermined threshold for the number of the use of the reception buffer to reduce the load instantaneously by call processing control, and when this value is exceeded, notify the base station control means, The base station control means, if any of the plurality of baseband signal processing means uses the reception buffer beyond the threshold, the base station control means until the number of use of the reception buffer becomes equal to or less than the threshold. It is characterized in that the assignment of radio resources to band signal processing means is restricted.
[0018]
According to this configuration, among the load state monitoring, the instantaneous load can always be monitored, and the radio resource is allocated to the functional unit with a lower load at the time of radio resource allocation. The call processing control load can be reduced, and the resources can be uniformly distributed as a device.
[0019]
In a wireless base station apparatus according to an eighth aspect of the present invention, in the wireless base station apparatus according to the seventh aspect of the present invention, the base station control means monitors the number of reception buffers used by each of the plurality of baseband signal processing means. Thus, when all of the plurality of baseband signal processing units are out of the radio resource setting target, a radio resource allocation process is performed on all the baseband signal processing units by a call event, and all the baseband signal Even when the processing means is in a no-response state due to the reception buffer being full, the processing means retransmits the in-device control signal and waits for recovery from the high load state.
[0020]
According to this configuration, by monitoring the number of reception buffers used, if all the baseband signal processing units are in a high load state, the control signal in the apparatus is retransmitted, so that at least one baseband signal processing unit is in a high load state. , Normal operation can be continued.
[0021]
A wireless base station apparatus according to a ninth aspect of the present invention is the wireless base station apparatus according to the seventh or eighth aspect, wherein each of the plurality of baseband signal processing means transmits and receives a control signal in the apparatus in a round-trip manner. It is characterized in that a threshold for judging the use number of the reception buffer is set low in consideration of the delay.
[0022]
According to this configuration, even if an instantaneous load is generated in the baseband signal processing means, it can be detected early and the radio resources can be temporarily deallocated, so that the specific baseband signal processing means It is possible to avoid concentration of the load on the vehicle.
[0023]
A wireless base station apparatus according to a tenth aspect of the present invention is the wireless base station apparatus according to the seventh or ninth aspect, wherein the base station control unit and the plurality of baseband signal processing units exchange data. An instantaneous load state setting area is provided in the header portion of the signal format of the in-device control signal, and each of the plurality of baseband signal processing means is provided with an The number of used reception buffers used at the time is set in the instantaneous load state setting area, and the base station control means grasps the instantaneous load state of each of the plurality of baseband signal processing means in real time. .
[0024]
According to this configuration, the base station control means can know the use state of the reception buffer of the baseband signal processing means in real time by an event such as a call control, so that even an instantaneously increased load can be immediately detected. , It is possible to transfer the radio resource to another baseband signal processing means.
[0025]
The wireless base station apparatus according to claim 11 is the wireless base station apparatus according to claim 7 or claim 10, wherein the load state based on the number of buffers used by each of the plurality of baseband signal processing units is changed. It is characterized by comprising maintenance means for setting and changing the threshold value for determination.
[0026]
According to this configuration, it is possible to set and change the threshold value used for determining the load state in each of the plurality of baseband signal processing units, so that the load state can be accurately determined.
[0027]
A wireless base station apparatus according to a twelfth aspect of the present invention is the wireless base station apparatus according to the eleventh aspect of the present invention, wherein the maintenance unit includes statistical information of a processing load generated for each of the plurality of baseband signal processing units. The use number of each reception buffer is periodically stored in a log in a time series, and a log storage history is provided to the base station control means as needed.
[0028]
According to this configuration, the number of received buffers used by each baseband signal processing unit can be periodically saved and collected in a time-series log by the maintenance unit connected to the base station control unit. It is possible to statistically analyze and tune the occurrence status of the sound.
[0029]
The load distribution control method according to the invention according to claim 13, wherein a CPU usage rate as a steady load state or a buffer as an instantaneous load state in each of a plurality of baseband signal processing means for performing transmission and reception baseband processing. By monitoring the number of used radio resources, radio resources are set in a distributed manner so that the load is not concentrated on a specific baseband signal processing means.
[0030]
According to this method, when the load is concentrated on a specific baseband signal processing unit, radio resources are not allocated to the baseband signal processing unit. Call concentration can be kept low.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a radio base station apparatus according to one embodiment of the present invention. In this figure, a radio base station device 10 includes a transmission / reception amplification unit 11 for amplifying power of a radio signal, a radio transmission / reception control unit 12 for transmitting, receiving, and converting a radio signal and a baseband signal for each transmission frequency, a wired transmission line interface section 14 for terminating a wire transmission line to a plurality of baseband signal processing unit 13 ₁ to 13 _n and the upper radio network apparatus which performs channel codec and the transmitting and receiving baseband processing, transmission and reception of call control signals, the radio network , A base station control unit 15 for performing control such as setting release of a wired line and managing resources thereof, and a maintenance device 16 connected to the base station control unit 15.
[0032]
In the figure, the control bus MA, the radio transmission and reception controller 12 base station controller 15 is a wireless processing function of each subordinate to the base band signal processing unit 13 1 _{to 13 n,} the wired transmission line interface section 14 It is used to control wireless resources and wired resource settings. On the other hand, the communication bus MB is connected as a result of resource control, and transmits a radio signal, a baseband signal, and a wired signal.
[0033]
Next, a load distribution control method in the wireless base station device 10 having the above configuration will be described with reference to the drawings.
[0034]
2, after starting of the radio base station apparatus 10, a process of the base station controller 15 periodically collects the load state of the baseband signal processing unit 13 ₁ to 13 _n, the instantaneous load by a calling events, etc. state is a diagram illustrating a process of notifying from the baseband signal processing unit ₁₃ 1 to 13 _n.
[0035]
When the base station control unit 15 and the baseband signal processing units 13 _{1 to} 13 _n are activated by the activation of the wireless base station device 10, first, the base station control unit 15 periodically starts the baseband signal processing units 13 _{1 to} 13 _n . Start collecting the various load conditions. When starting the load status collection process (S1), the device control signal from the base station controller 15, the load status collection request is transmitted to each base band signal processing unit 13 ₁ to 13 _n. The baseband signal processing unit 13 ₁ to 13 _n receives the load status collection request (S2), starts a loading state measurement, calculates the CPU usage at that time, transmission is set to the load state collection confirmation (S3).
[0036]
The base station control unit 15 fetches the measured results from the load status collection confirmation message, stores the measurement result information table of each base band signal processing unit _131-134 for _n (S4). In order to perform the same processing at a fixed cycle, a fixed cycle timer is set and the processing is terminated (S5). Upon the expiration of the fixed period timer, the load state collection processing is started, and the value of the table is updated with the new measurement result information (S8).
[0037]
Then, the occurrence of a call event at an arbitrary timing, the base station controller 15, to set the radio resources to the baseband signal processing unit 13 ₁ to 13 _n, the resource to which the circuit of which base band signal processing A search is made as to whether to allocate (S6). The search (for example, the baseband signal processing section 13 ₁₎ when the resource is determined to allocate by transmitting a radio resource establishment request. The baseband signal processing unit 13 ₁ that has received the request sets a radio resource to the specified circuit by the message.
[0038]
After radio resource configuration in the baseband signal processing unit 13 ₁ transmits a radio resource configuration confirmation message to the base station controller 15 (S7). At this time, the baseband signal processing unit 13 ₁ is set in the header portion of the internal control signal buffer number used in the intra-device control signal receiving buffer (A). The base station control unit 15 which on the basis Update 13 ₁ of table for the base band signal processing unit.
[0039]
Here, a (B) is a signal format of the check load status collection, the (A) control signals as the number of receive buffers used in the baseband signal processing unit 13 ₁ in the same manner as the header portion is set.
[0040]
Next, FIG. 3 is a detailed version of the resource allocation process (S6) of FIG. When receiving the call event (S20), the radio resource allocation process in the base station controller 15 is activated, first for load state judgment of the baseband signal processing unit ₁₃ 1 _{~13 n} (S21). Compared baseband signal processing unit 13 ₁ to 13 _n CPU utilization measurement result of the determination threshold, if there is a baseband signal processing section of above a certain value defined (the baseband signal processing unit 13 ₁ and to), the baseband signal processing unit 13 _1, removing from the search target of the radio resource allocation processing. Similarly, the buffer usage number of the control signal reception buffer of the baseband signal processing unit is compared with the determination threshold value, and if the value is equal to or more than a predetermined value, the baseband signal processing unit is searched for the wireless resource allocation process. (S22).
[0041]
It calculates the number of resources needed on the basis of the specified parameters at the calling event (S23), a high load is not in the state remaining the baseband signal processing section 13 _2-13 radio resources allocable processor among _n Then, a circuit number in the processing unit is determined (S24).
[0042]
As described above, in the radio base station apparatus according to the present embodiment, the base station control unit 15 constantly monitors the load state of each of the baseband signal processing units 13 _{1 to} 13 _n under the control of the base station control unit 15. Since the radio resources are set in a distributed manner so that the processing does not concentrate on a specific functional unit even for a load generated instantaneously, the baseband signal processing units 13 ₁ to 13 ₁ to which the load in call processing control tends to concentrate particularly as the load performance of the 13 _n, high-load state to instantaneously occurs also becomes possible to ensure stable performance of the device in case of occurrence.
[0043]
【The invention's effect】
As described above, according to the present invention, when a load is concentrated on a specific baseband signal processing unit, radio resources are not allocated to the baseband signal processing unit. Even if the call processing load is concentrated, the call loss rate can be kept low.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a radio base station apparatus according to one embodiment of the present invention.
FIG. 2 is a diagram showing a load state acquisition process of a baseband signal processing unit of the radio base station apparatus according to one embodiment of the present invention.
FIG. 3 is a view showing a radio resource allocation process of a base station control unit of the radio base station apparatus according to one embodiment of the present invention.
[Explanation of symbols]
10 The radio base station apparatus 11 receiving amplifier 12 the radio transmission and reception control unit ₁₃ 1 to 13 _n baseband signal processing section 14 wire transmission line interface unit 15 base station controller 16 servicing device MA control bus MB communication system bus

Claims (13)

A radio base station apparatus comprising: a channel codec; a plurality of baseband signal processing means for performing transmission / reception baseband processing; and a base station control means for performing transmission / reception of a call control signal, control of a radio line and a wired line, and resource management thereof. And
The base station control means constantly monitors the load state of each of the plurality of baseband signal processing means, and when the load is concentrated on a specific baseband signal processing means, the baseband signal processing is performed until the load is not concentrated. A wireless base station apparatus for limiting allocation of wireless resources to means. Each of the plurality of baseband signal processing means measures a CPU usage rate at regular time intervals as a periodic load state, and the base station control means periodically controls the plurality of baseband signal processing means in each of the plurality of baseband signal processing means. The measured CPU usage is collected to quantitatively recognize the load state of each baseband signal processing unit. If there is a baseband signal processing unit whose load state is equal to or more than a predetermined threshold, the baseband signal 2. The radio base station apparatus according to claim 1, wherein allocation of radio resources is restricted until a load state of the processing unit becomes equal to or less than the threshold. The plurality of baseband signal processing means uses another time slot in the in-device control signal so that the CPU usage measurement result can be transmitted to the base station control means under any high load condition. The radio base station apparatus according to claim 2, wherein The base station control means monitors the CPU usage rate measurement results of each of the plurality of baseband signal processing means, so that when all of the plurality of baseband signal processing means are out of radio resource setting targets, the A radio resource allocation process is performed for all baseband signal processing means by a call event, and even when all baseband signal processing means are in a no-load state under a heavy load, the internal control signal is retransmitted to thereby increase the level. The wireless base station device according to claim 2 or 3, wherein the wireless base station device waits for recovery from a load state. 5. The apparatus according to claim 2, further comprising a maintenance unit configured to set and change the threshold for determining a load state based on a CPU usage rate of each of the plurality of baseband signal processing units. 6. The wireless base station device according to claim 1. The maintenance unit periodically saves a CPU usage rate measurement result in a time-series log as statistical information of a processing load generated for each of the plurality of baseband signal processing units, and saves the log as necessary. The radio base station apparatus according to claim 5, wherein the history record is provided to the base station control means. Each of the plurality of baseband signal processing means includes a plurality of reception buffers for receiving an in-device control signal, and the number of the reception buffers used is reduced in order to reduce a load imposed instantaneously by call processing control. A predetermined threshold value is defined, and when the value exceeds this value, the base station control means is notified, and the base station control means exceeds the threshold value among the plurality of baseband signal processing means and sets the reception buffer. 2. The radio base station according to claim 1, wherein if there is a radio base station, allocation of radio resources to the baseband signal processing means is restricted until the number of used reception buffers becomes equal to or less than the threshold. apparatus. The base station control unit monitors the number of received buffers used by each of the plurality of baseband signal processing units, and when all of the plurality of baseband signal processing units are out of radio resource setting targets, calls are made. A radio resource allocation process is performed for all baseband signal processing units by an event, and even if all baseband signal processing units are in a non-response state due to a full reception buffer, the internal control signal is retransmitted to increase the load. The wireless base station apparatus according to claim 7, wherein the wireless base station apparatus waits for recovery from the state. 8. The system according to claim 7, wherein each of the plurality of baseband signal processing units sets a low threshold for determining the number of the reception buffers used in consideration of a round-trip transmission delay of an in-device control signal. 9. The wireless base station device according to 8. The signal format of the in-device control signal exchanged between the base station control means and each of the plurality of baseband signal processing means includes an instantaneous load state setting area in a header portion thereof, and Each of the band signal processing means sets, in the instantaneous load state setting area, the number of used reception buffers to be consumed at that time in all cases of transmitting to the base station control means, and the base station control means performs the processing in real time. The radio base station apparatus according to any one of claims 7 to 9, wherein an instantaneous load state of each of the plurality of baseband signal processing units is grasped. 11. The apparatus according to claim 7, further comprising: a maintenance unit configured to set and change the threshold value for determining a load state based on the number of buffers used by each of the plurality of baseband signal processing units. 12. The wireless base station device according to claim 1. The maintenance unit periodically saves the number of used reception buffers in a time-series log as statistical information of a processing load generated for each of the plurality of baseband signal processing units, and saves the log as necessary. 12. The radio base station apparatus according to claim 11, wherein a history of the operation is given to said base station control means. By monitoring the CPU usage rate as a steady load state or the number of buffers used as an instantaneous load state in each of a plurality of baseband signal processing units that perform channel codec and transmission / reception baseband processing, a specific baseband A load distribution control method, wherein radio resources are set in a distributed manner so that loads are not concentrated on signal processing means.

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