JP3573063B2 - Transmission control method for mobile communication systems - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a transmission control method of a mobile communication system, and particularly monitors a traffic amount in an exchange of a mobile communication system and a memory usage rate of a central processor unit used in the exchange, and when the traffic amount exceeds a predetermined level. The present invention relates to a transmission restriction method for a mobile communication system that restricts transmission when the usage rate of a memory of a central processor unit exceeds a predetermined level.
[0002]
[Prior art]
Conventionally, when traffic is congested in an exchange of a mobile communication system, regarding a traffic regulation method in a radio base station, a maintenance person who maintains the radio base station manually starts transmission restriction based on traffic congestion status of the exchange side. However, in order to perform such a regulation, a proper judgment of a maintenance person was required, and it was difficult to maintain a stable operation of the system. In order to solve this problem, as disclosed in Japanese Patent No. 2967915 and Japanese Patent Application Laid-Open No. 10-13949, a technique for automatically performing call connection regulation control according to traffic conditions has been developed. ing.
[0003]
As described above, the call connection regulation control can be automatically performed according to the traffic situation. However, in these technologies, only when the traffic instantaneously becomes congested, the In such a case, the call connection regulation control is automatically performed, so that unnecessary regulation operation of immediately releasing the call connection regulation control immediately after the call connection regulation control is performed is performed. As a result, there is a problem that a useless load is applied to a central processor unit (hereinafter, referred to as a CPU) built in the exchange.
[0004]
Also, with the rapid development of computer technology and communication technology in recent years, various communication services have been provided, but the diversification of communication services has increased the burden on the CPU built in the exchange. In some cases, even if the traffic congestion is not so large, there is a problem that the load on the CPU built in the exchange becomes excessive and the exchange function of the exchange is paralyzed.
[0005]
An excessive load on the CPU is caused by an increase in the memory usage rate of the RAM (random access memory) of the CPU due to a trouble in call processing due to a bug in software of the CPU. However, the operation of the exchange while the memory usage rate is increased may cause troubles in call processing and may cause the CPU to stop.
[0006]
[Problems to be solved by the invention]
In the above-mentioned transmission restriction method of the conventional mobile communication system, even when traffic is only instantaneously congested, the restriction control of the call connection is automatically performed. However, there is a disadvantage that useless regulation operation of immediately canceling the regulation control of the call connection is performed.
[0007]
In addition, with the rapid development of computer technology and communication technology in recent years, various communication services have been provided, and diversification of communication services has increased the burden on the CPU built in the exchange. However, even if the traffic congestion is not so large, there is a disadvantage that the load on the CPU incorporated in the exchange becomes excessive and the exchange function of the exchange is reduced.
[0008]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a mobile communication system capable of preventing unnecessary regulation operation when traffic is momentarily congested, suppressing an increase in the load on the CPU, and easily preventing a drop in the exchange function due to an increase in the load on the CPU. An object of the present invention is to provide an outgoing call control system for a system.
[0009]
[Means for Solving the Problems]
The transmission restriction method of the mobile communication system according to the first invention includes:
(A)Obtain traffic data indicating the amount of traffic from the exchange at predetermined fixed time intervals,Traffic data indicatesWhen the traffic volume exceeds a predetermined first threshold value,The traffic volume isPredeterminedTraffic monitoring means for outputting a traffic abnormality signal indicating that the first threshold value has been exceeded,
(B) When the traffic abnormality signal is input, after a predetermined first time has elapsed, the traffic amount indicated by the traffic data newly acquired from the exchange by the traffic monitoring means is again changed to the first amount. A first transmission restriction control unit that outputs a transmission restriction control signal to the exchange when a new traffic abnormality signal output by the traffic monitoring unit is input because the threshold value has been exceeded;
And the traffic monitoring means, after the first transmission restriction control means outputs a transmission restriction control signal to the exchange, sets the traffic amount indicated by the traffic data acquired from the exchange to the first predetermined value. When the traffic signal returns to a normal value not exceeding the threshold value of the above, a traffic normal signal indicating that the traffic amount indicated by the traffic data obtained from the exchange has returned to the normal value is output, and the first transmission restriction control means When the traffic normal signal is input, the traffic amount indicated by the traffic data newly acquired by the traffic monitoring means from the exchange after the predetermined first time has elapsed has returned to the normal value again. Thus, when a new traffic normal signal output by the traffic monitoring means is input,Call restriction on the exchangeReleaseIt is characterized by outputting a signal.
[0010]
Further, the transmission restriction method of the mobile communication system according to the second invention is as follows.
(A)Memory usage data that indicates the memory usage of the random access memory of the central processor unit that constitutes the switchAcquired from the exchange at a predetermined fixed time interval, and when the memory usage rate indicated by the memory usage rate data exceeds a second predetermined threshold value, the memory usage rate becomes the predetermined value. Memory usage monitoring means for outputting a memory usage abnormal signal indicating that the second threshold has been exceeded,
(B) When the memory usage abnormality signal is input, after a predetermined second time has elapsed, the memory usage indicated by the memory usage data newly acquired from the exchange by the memory usage monitoring means. When a new memory usage error signal output by the memory usage monitoring means is input because the rate has again exceeded the second threshold, a second call control control signal is output to the exchange. Transmission restriction control means,
The memory usage monitoring means includes: after the second transmission restriction control means outputs a transmission restriction control signal to the exchange, the memory utilization indicated by the memory utilization data acquired from the exchange is set to the predetermined value. When returning to a normal value that does not exceed the predetermined second threshold value, a memory usage normal signal indicating that the memory usage indicated by the memory usage data acquired from the exchange has returned to the normal value is output. The second transmission restriction control means, when the memory usage normal signal is input, a memory newly obtained from the exchange by the memory usage monitoring means after a predetermined second time has elapsed. Since the memory usage rate indicated by the usage rate data has also returned to the normal value again, a new memory usage rate normal signal output by the memory usage rate monitoring means is input.In the case, the exchange is restrictedReleaseIt is characterized by outputting a signal.
[0011]
Further, the transmission restriction method of the mobile communication system according to the third invention is as follows.
(A) acquiring traffic data indicating a traffic amount from an exchange at a predetermined fixed time interval, and when the traffic amount indicated by the traffic data exceeds a predetermined first threshold value, Traffic monitoring means for outputting a traffic abnormality signal indicating that the predetermined threshold value has been exceeded,
(B)A memory utilization data indicating a memory utilization of a random access memory of a central processor unit constituting the exchange is acquired from the exchange at predetermined time intervals, and a memory indicated by the memory utilization data is acquired. A memory that outputs a memory usage abnormality signal indicating that the memory usage has exceeded the predetermined second threshold when the usage exceeds a second predetermined threshold; Utilization monitoring means, (C)The traffic abnormal signalButinputAndAfter a predetermined first time has elapsed, the traffic monitoring means indicates that the traffic amount indicated by the traffic data newly acquired from the exchange by the traffic monitoring means has again exceeded the first threshold value. When a new traffic abnormality signal output by the means is inputAlternatively, after the memory usage abnormality signal is input and a predetermined second time has elapsed, the memory usage indicated by the memory usage data newly acquired from the exchange by the memory usage monitoring means. Either when a new memory usage error signal output by the memory usage monitoring means is input because the rate has also exceeded the second threshold value againIn the second step, a transmission restriction control signal is output to the exchange.2Transmission restriction control means,
EquippedThe traffic monitoring means may output the transmission restriction control signal to the switch after the second transmission restriction control means outputs a traffic restriction control signal because the traffic amount exceeds the first threshold value. When the traffic volume is equal to the predetermined first threshold value or falls below the first threshold value and returns to a normal value, the traffic volume indicated by the traffic data acquired from the exchange becomes normal. The second traffic regulation control means outputs a traffic normal signal indicating that the traffic monitoring signal has returned to a predetermined value, and after a predetermined first time has elapsed after inputting the traffic normal signal, From the traffic monitoring means that the traffic amount indicated by the traffic data newly obtained from the exchange has also returned to the normal value again. Recognizing when a new traffic normal signal is input, the memory utilization monitoring means transmits the signal to the exchange by the second transmission regulation control means because the memory utilization exceeds the second threshold value. After outputting the regulation control signal, when the memory usage rate is the same as the predetermined second threshold value or returns to a normal value below the second threshold value, the exchange And outputs a memory usage rate normal signal indicating that the memory usage rate indicated by the memory usage rate data acquired from the memory usage rate data has returned to the normal value. The memory usage rate indicated by the memory usage rate data newly acquired by the memory usage rate monitoring means from the exchange after the predetermined second time has elapsed has also returned to the normal value again. This is recognized when a new memory usage normal signal is input from the memory usage monitoring means, and the second transmission restriction control means returns both the traffic volume and the memory usage to normal. Outputting a transmission restriction release signal to the exchange when recognizing that the state has been changed.It is composed.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
[0016]
FIG. 1 is a block diagram showing an embodiment of a transmission control method for a mobile communication system according to the present invention.
[0017]
The transmission restriction method of the mobile communication system according to the present embodiment shown in FIG. 1 obtains traffic data 11 indicating the traffic volume from the exchange 4 at predetermined fixed time intervals, and obtains the traffic volume indicated by the traffic data 11. When the value exceeds a predetermined threshold value (first threshold value) of the traffic amount for detecting the abnormality of the traffic amount, it indicates that the traffic amount exceeds the threshold value. After the traffic signal 11 is output and the traffic abnormality signal 16 is output, the traffic amount indicated by the traffic data 11 acquired from the exchange 4 is the same as the threshold value of the traffic amount, or the threshold value of the threshold value. When the traffic volume returns below the normal value, the traffic data 11 indicates that the traffic volume indicated by the traffic data 11 has returned to the normal value. The traffic monitoring means 1 for outputting the normal-hick signal 12 and the memory usage data 13 indicating the memory usage of a RAM (random access memory: not shown) built in a CPU (not shown) constituting the exchange 4 are stored. The memory usage rate acquired from the exchange 4 at predetermined fixed time intervals and indicated by the memory usage rate data 13 is equal to a predetermined memory usage rate threshold value for detecting an abnormality in the memory usage rate ( When the memory usage rate exceeds the second threshold value, the memory usage rate abnormal signal 17 indicating that the memory usage rate has exceeded the threshold value is output. When the memory usage rate is equal to the threshold value or falls below the threshold value of the memory usage rate, the memory usage rate normal signal 14 indicating that the memory usage rate has returned to the normal value is output. When the traffic monitoring signal 1 is input again from the traffic monitoring device 1 after a predetermined time (first time) elapses when the usage rate monitoring device 2 and the traffic abnormality signal 16 are input, or After the predetermined time (second time) elapses when the memory usage abnormality signal 17 is input, if the memory usage abnormality signal 17 is input again from the memory usage monitoring means 2, After the transmission restriction control signal 15 is output to the exchange 4 and the predetermined time (first time) elapses when the traffic normal signal 12 is input, the traffic normal signal is again output from the traffic monitoring means 1. When the input 12 is inputted, the transmission restriction release control signal 19 is outputted to the exchange 4 or when the memory usage normal signal 14 is inputted, the predetermined value is set in advance. After a predetermined time (second time) elapses, when the memory usage normal signal 14 is input again from the memory usage monitoring means 2, the transmission restriction release control signal 19 is output to the exchange 4. When the transmission restriction control is performed on the exchange 4 due to both the traffic abnormality and the memory usage abnormality, the transmission restriction is released to the exchange 4 when both the traffic abnormality and the memory utilization abnormality return to normal. And a transmission restriction control means 3 for outputting a control signal 19.
[0018]
Next, the operation will be described.
[0019]
First, an outline of the operation of the traffic monitoring means 1 will be described.
[0020]
In FIG. 1, the traffic monitoring means 1 obtains traffic data 11 indicating the traffic volume from the exchange 4 at predetermined fixed time intervals based on a timing signal 18 from the transmission restriction control means 3, and transmits the traffic data 11. Each time the traffic data 11 is acquired, the acquired traffic data 11 is compared with a predetermined traffic volume threshold value. The predetermined threshold value of the traffic amount is stored in a memory (not shown) built in the traffic monitoring means 1 in advance.
[0021]
As a result of the comparison, the traffic volume indicated by the traffic data 11 acquired from the exchange 4 is the same as the predetermined traffic volume threshold value or a normal value lower than the predetermined traffic volume threshold value. At that time, that is, when the traffic amount indicated by the traffic data 11 is a value that does not exceed a predetermined threshold value of the traffic amount, the traffic monitoring unit 1 outputs a traffic normal signal indicating that the traffic amount is normal. 12 is output to the transmission restriction control means 3.
[0022]
A series of operations of acquiring the traffic data 11 indicating the traffic amount from the exchange 4, checking the traffic amount with the threshold value of the traffic amount, and outputting the traffic normal signal 12 to the transmission restriction control unit 3 are performed by the transmission restriction control unit 3. , And is performed at predetermined time intervals. That is, each time a series of operations is started by the timing signal 18 from the transmission restriction control means 3, while the traffic volume is normal, the traffic normality signal 12 is transmitted from the traffic monitoring means 1 to the transmission restriction control means 3 each time. Output to
[0023]
If the traffic amount indicated by the traffic data 11 obtained from the exchange 4 exceeds the above-mentioned threshold value of the traffic amount, the traffic monitoring means 1 determines that the traffic amount indicated by the obtained traffic data 11 is the threshold of the traffic amount. A traffic abnormality signal 16 indicating that the value has been exceeded is output to the transmission restriction control means 3.
[0024]
A series of operations of acquiring the traffic data 11 indicating the traffic volume from the exchange 4, checking the traffic volume with the threshold value of the traffic volume, and outputting the traffic abnormality signal 16 to the transmission regulation control unit 3 are performed by the transmission regulation control unit 3. , And is performed at predetermined time intervals. That is, each time a series of operations is started by the timing signal 18 from the transmission restriction control means 3, until the traffic volume returns to normal, the traffic abnormality signal 16 is transmitted from the traffic monitoring means 1 to the transmission restriction control means each time. 3 is output.
[0025]
Next, an outline of the operation of the memory usage monitoring means 2 will be described.
[0026]
Similarly to the traffic monitoring means 1, the memory usage monitoring means 2 receives the memory usage rate of the RAM of the CPU constituting the exchange 4 at a predetermined time interval based on the timing signal 18 from the transmission restriction control means 3. Is acquired from the exchange 4, and every time the memory utilization data 13 is acquired, the acquired memory utilization data 13 is checked against a predetermined threshold value of the memory utilization. The predetermined threshold value of the memory usage rate is stored in a memory (not shown) built in the memory usage rate monitoring means 2 in advance.
[0027]
As a result of the collation, when the memory usage rate indicated by the memory usage rate data 13 acquired from the exchange 4 is a value that does not exceed a predetermined memory usage rate threshold value, the memory usage rate is normal each time. Is output to the transmission regulation control means 3.
[0028]
When the memory usage rate indicated by the memory usage rate data 13 acquired from the exchange 4 exceeds the threshold value of the memory usage rate, the memory usage rate monitoring unit 2 determines whether the acquired memory usage rate data 13 A memory usage error signal 17 indicating that the indicated memory usage exceeds the memory usage threshold is output to the transmission regulation control means 3. Until the memory usage rate indicated by the memory usage rate data 13 returns to normal, the memory usage rate monitoring means 2 sends the memory usage rate abnormality signal 17 every time the memory usage rate data 13 is acquired. Output to 3.
[0029]
Next, an outline of the operation of the transmission restriction control means 3 will be described.
[0030]
The transmission restriction control means 3 receives the normal traffic signal 12 or the abnormal traffic signal 16 output from the traffic monitoring means 1 and the normal memory usage signal 14 or the abnormal memory usage signal 17 output from the memory usage monitoring means 2. The input is monitored, and when these signals are input, identification of the normal traffic signal 12 or abnormal traffic signal 16 and identification of the normal memory usage signal 14 or abnormal memory usage signal 17 are performed. For example, when the traffic abnormality signal 16 is input from the traffic monitoring means 1, the transmission restriction control means 3 starts a built-in first timer (not shown) and sets a predetermined time (first time). When the traffic abnormality signal 16 is input again from the traffic monitoring means 1 after the elapse of the time, the transmission restriction control signal 15 is output to the exchange 4.
[0031]
In addition, even when the memory usage abnormality signal 17 is input from the memory usage monitoring unit 2, the transmission restriction control unit 3 operates similarly to the case of inputting the traffic abnormality signal 16, in which a second timer (FIG. (Not shown), and after a predetermined time (second time) elapses, if the memory usage abnormality signal 17 is output again from the memory usage monitoring means 2, the signal is transmitted to the exchange 4. The regulation control signal 15 is output.
[0032]
However, if a traffic abnormality occurs first and a transmission restriction control signal 15 is output to the exchange 4 and then a memory utilization abnormality occurs, the transmission restriction control signal 15 is already output to the exchange 4 due to the occurrence of the traffic abnormality. Therefore, the transmission restriction control signal 15 is not output to the exchange 4 due to the later memory usage abnormality. Contrary to this case, even when a memory abnormality occurs first and a traffic abnormality occurs after outputting the transmission restriction control signal 15 to the exchange 4, the transmission restriction control to the exchange 4 due to the subsequent traffic abnormality is performed. The output of the signal 15 is not performed.
[0033]
Next, from the state where the traffic volume of the exchange 4 has been normal, the traffic volume of the exchange 4 increases, and the traffic volume indicated by the traffic data 11 acquired from the exchange 4 by the traffic monitoring unit 1 is determined in advance. The details of the operation when the traffic volume exceeds the threshold value will be described.
[0034]
As described above, when the traffic monitoring unit 1 detects that the traffic amount indicated by the traffic data 11 exceeds the predetermined threshold value of the traffic amount due to the increase in the traffic amount, the traffic monitoring unit 1 It outputs the traffic abnormality signal 16 to the transmission restriction control means 3.
[0035]
FIG. 2 is a flowchart showing an example of the transmission restriction control operation of the transmission restriction control means 3 shown in FIG.
[0036]
The transmission restriction control means 3 monitors a signal output from the traffic monitoring means 1 and inputs a traffic abnormality signal 16 (S1: S in FIG. 2 indicates a step), and the traffic monitoring means 1 detects an abnormality in the traffic amount. An operation for confirming whether or not the detection is instantaneous is performed. That is, even after a predetermined first time has elapsed, the built-in first timer is driven to check whether the traffic monitoring means 1 detects an abnormality in the traffic amount. Thus, the elapse of the predetermined first time is counted. Even while the first timer counts the elapse of the predetermined first time, the traffic monitoring means 1 obtains the traffic data 11 indicating the traffic volume from the exchange 4 and the threshold of the traffic volume. The operation of collating with the value is performed, and when the state of the traffic abnormality is continued, the output of the traffic abnormality signal 16 to the transmission regulation control means 3 is performed each time the operation of the collation is performed. Even when the transmission restriction control means 3 counts the elapse of the first time, if the abnormal traffic condition is resolved, the traffic monitoring means 1 outputs a traffic normal signal 12 to the transmission restriction control means 3. Is done. The transmission restriction control means 3 receives input of the traffic abnormality signal 16 and the traffic normal signal 12 output from the traffic monitoring means 1 while the first timer is counting the elapse of the first time. Operation is stopped.
[0037]
When the counting operation of the elapse of the predetermined first time is completed, the transmission restriction control means 3 terminates the traffic abnormality signal 16 (or the state of the traffic abnormality which has been output from the traffic monitoring means 1). In this case, the suspension of the input operation of the traffic normal signal 12) is released, so that the transmission restriction control means 3 outputs the traffic abnormal signal 16 (or the traffic normal signal when the state of the traffic abnormality is eliminated) output from the traffic monitoring means 1. It becomes possible to input the signal 12), and the input receiving operation of the signal output from the traffic monitoring means 1 is restarted (S2).
[0038]
The traffic monitoring means 1 newly obtains traffic data 11 from the exchange 4 and compares the traffic amount indicated by the traffic data 11 with the threshold value of the traffic amount. As a result of this comparison, the traffic monitoring means 1 When the signal 16 is output (S3), the transmission restriction control unit 3 determines that the traffic amount indicated by the traffic data 11 newly acquired from the exchange 4 by the traffic monitoring unit 1 is equal to the predetermined threshold value of the traffic amount. Is stored in a transmission restriction state storage memory (not shown), which indicates that the transmission restriction state has been entered due to the traffic abnormality signal 16 output from the traffic monitoring means 1 as a value that has been continued. And outputs the transmission restriction control signal 15 to the exchange 4 (S4).
[0039]
In step 3 of FIG. 2, the traffic amount indicated by the traffic data 11 newly obtained from the exchange 4 does not exceed the predetermined threshold value of the traffic amount in the above-mentioned comparison in the traffic monitoring means 1. If it is detected that the traffic volume has returned to the normal state and the traffic monitoring signal 1 is output from the traffic monitoring means 1, the transmission restriction control means 3 controls the built-in first timer. The traffic abnormality signal 16 output from the traffic monitoring means 1 that caused the traffic control is determined to be due to an instantaneous traffic abnormality. The transmission is performed without performing the storage process of the state and without outputting the transmission restriction control signal 15 to the exchange 4. Calling restriction control operation of the braking control means 3 returns to step 1 of FIG.
[0040]
Further, in step 1 of FIG. 2, when there is no input of the traffic abnormality signal 16 and the traffic normal signal 12 is output from the traffic monitoring unit 1, the transmission restriction control operation of the transmission restriction control unit 3 returns to step 1. .
[0041]
Before the transmission restriction control means 3 outputs the transmission restriction control signal 15 to the exchange 4, it is necessary to count the first time determined in advance by the first timer, as described above. This is because even if the abnormality exceeding the threshold value is instantaneous, transmission control is prevented from being performed accordingly.
[0042]
As described above, the traffic volume increases from the normal state of the traffic volume of the exchange 4, and the traffic volume indicated by the traffic data 11 acquired from the exchange 4 by the traffic monitoring means 1 exceeds the predetermined traffic volume threshold value. The operation when the state has been described has been described. However, the memory utilization rate of the RAM of the CPU constituting the exchange 4 has increased from the normal state, and the memory utilization monitoring means 2 has acquired the memory utilization rate from the exchange 4. Similar operations are performed when the memory usage rate indicated by the memory usage rate data 13 exceeds a predetermined threshold value of the memory usage rate.
[0043]
In other words, the memory usage rate of the RAM of the CPU constituting the exchange 4 increases, and the memory usage rate indicated by the memory usage rate data 13 obtained from the exchange 4 by the memory usage rate monitoring means 2 becomes equal to the predetermined memory usage rate. When the memory usage monitoring unit 2 detects that the threshold value has been exceeded, the memory usage monitoring unit 2 outputs a memory usage abnormality signal 17 to the transmission restriction control unit 3.
[0044]
When receiving the memory usage abnormality signal 17 output from the memory usage monitoring unit 2, the transmission restriction control unit 3 drives a built-in second timer, counts time by the second timer, and determines the time in advance. When the second time period has elapsed, the memory usage rate indicated by the memory usage rate data 13 newly acquired from the exchange 4 is compared again with the threshold value of the memory usage rate. At this time, when it is detected that the memory usage rate indicated by the memory usage rate data 13 newly acquired from the exchange 4 continues to exceed the predetermined memory usage rate threshold, the transmission is started. The restriction control means 3 stores, in a built-in transmission restriction state storage memory, the fact that the transmission restriction state based on the transmission restriction control operation caused by the memory usage abnormality signal 17 output from the memory usage monitoring means 2 has been reached. , And outputs a transmission restriction control signal 15 to the exchange 4.
[0045]
If it is detected in the above collation that the memory usage rate indicated by the memory usage rate data 13 newly obtained from the exchange 4 does not exceed the predetermined memory usage rate threshold, the transmission is started. The restriction control means 3 does not output the transmission restriction control signal 15 to the exchange 4. Here, it is necessary that a predetermined second time elapse obtained by counting by the second timer before the transmission restriction control means 3 outputs the transmission restriction control signal 15 to the exchange 4 is as follows. As in the case of the traffic abnormality, this is to prevent the transmission restriction from being performed due to the instantaneous increase in the memory usage rate.
[0046]
The operations of the traffic monitoring means 1 and the memory usage rate monitoring means 2 are independently performed by the timing signal 18 from the transmission restriction control means 3. Further, the operation of the above-mentioned transmission restriction control means 3 performed by inputting the traffic abnormality signal 16 output from the traffic monitoring means 1 and the memory usage abnormality signal 17 output from the memory usage monitoring means 2 are input. The operation of the transmission restriction control means 3 is performed separately inside the transmission restriction control means 3, except for the operation of outputting the transmission restriction control signal 15 to the exchange 4.
[0047]
Next, a description will be given of the release operation of the transmission restriction when the transmission restriction control due to the traffic abnormality is performed and the transmission restriction is performed.
[0048]
FIG. 3 is a flowchart showing an example of the transmission restriction release control operation of the transmission restriction control means 3 shown in FIG.
[0049]
In FIG. 1, even when the transmission is restricted due to the traffic abnormality, the traffic monitoring means 1 obtains the traffic data 11 indicating the traffic volume from the exchange 4 based on the timing signal 18 from the transmission restriction control means 3, A series of operations of collation with the threshold value of the volume and output of the traffic abnormality signal 16 to the transmission regulation control means 3 are performed, but the traffic volume indicated by the traffic data 11 obtained from the exchange 4 is determined in advance. When the traffic volume does not exceed the threshold value, that is, when the traffic volume returns to a normal state, a traffic normal signal 12 is output from the traffic monitoring means 1 to the transmission restriction control means 3, and the transmission restriction control means 3 receives the traffic normal signal 12 (S11 in FIG. 3), the transmission restriction control means 3 By driving the first timer starts time counting operation by the first timer. While the first timer counts the elapse of the first time, the transmission restriction control means 3 accepts the input of the normal traffic signal 12 and the abnormal traffic signal 16 output from the traffic monitoring means 1. To stop. When the transmission restriction control unit 3 recognizes that the predetermined first time has elapsed by the end of the counting operation of the first timer, the traffic normality signal 12 output from the traffic monitoring unit 1 or the traffic abnormal state If this occurs, the operation of accepting the input of the traffic abnormality signal 16 is restarted (S12).
[0050]
When the traffic normal signal 12 is output again from the traffic monitoring unit 1 after the restart of the operation of accepting the input of the signal from the traffic monitoring unit 1 (S13), the transmission restriction control unit 3 uses the built-in transmission restriction state storage memory. Then, the storage of the transmission restriction state caused by the traffic abnormality signal 16 is deleted, and the transmission restriction release control signal 19 is output to the exchange 4 (S14).
[0051]
When the traffic abnormality signal 16 is output from the traffic monitoring means 1 in step 13 of FIG. 3, the transmission restriction release control operation of the transmission restriction control means 3 returns to step 11 of FIG.
[0052]
In step 11 of FIG. 3, when there is no input of the traffic normal signal 12 and the traffic monitoring unit 1 outputs the traffic abnormality signal 16, the transmission restriction release control operation of the transmission restriction control unit 3 proceeds to step 11. Return.
[0053]
Next, a description will be given of an operation of releasing the transmission restriction when the transmission restriction control is performed by the transmission restriction control operation caused by the memory usage abnormality signal 17 and the transmission restriction state is set.
[0054]
In FIG. 1, even when the transmission is restricted due to the memory usage abnormality signal 17, the memory usage monitoring unit 2 also uses the timing signal 18 from the transmission restriction control unit 3 to change the memory usage from the exchange 4. A series of operations of acquiring the memory usage data 13 shown, collating with the threshold of the memory usage, and outputting the memory usage abnormality signal 17 to the transmission regulation control means 3 are performed. When the memory usage rate indicated by the memory usage rate data 13 does not exceed the predetermined memory usage rate threshold, that is, the memory usage rate returns to normal, and the memory usage rate monitoring unit 2 When the normal rate signal 14 is output to the transmission restriction control means 3, the transmission restriction control means 3 receives the memory usage normal signal 14 and outputs a built-in second timer. The driving starts counting the time by the second timer. When the transmission restriction control means 3 recognizes by the second timer that the predetermined second time has elapsed, when the memory usage normal signal 14 is output again from the memory usage monitoring means 2 thereafter. The transmission restriction control means 3 erases the storage of the transmission restriction state caused by the memory usage abnormality signal 17 in the built-in transmission restriction state storage memory, and outputs the transmission restriction release control signal 19 to the exchange 4.
[0055]
In the above description, the transmission regulation control operation caused by the traffic abnormality signal 16 output from the traffic monitoring means 1 and the transmission regulation control operation caused by the memory utilization abnormality signal 17 outputted from the memory utilization monitoring means 2 Have been described separately, but next, a description will be given of a case where the transmission restriction control operations resulting from both abnormal signals are performed in an overlapping manner. That is, in the operation of the transmission restriction control means 3 when the transmission restriction control operation caused by the abnormal signal of both the traffic volume and the memory usage rate is performed, for example, the transmission restriction control operation caused by the traffic abnormality signal 16 is performed. The transmission restriction control operation caused by the memory usage abnormality signal 17 is performed a little earlier, and the transmission restriction release control operation caused by the traffic normal signal 12 is performed on the memory usage normal signal 14 after that. The operation in the case where the operation is performed prior to the originating call restriction control operation will be described.
[0056]
First, a case will be described in which transmission restriction control operations caused by abnormal signals of both the traffic amount and the memory usage rate are performed in an overlapping manner.
[0057]
First, in the transmission restriction control operation caused by the traffic abnormality signal 16, the transmission restriction control means 3 performs the transmission restriction control operation caused by the traffic abnormality signal 16 outputted from the traffic monitoring means 1, and is in the transmission restriction state. This is stored in the built-in transmission restriction state storage memory, and the transmission restriction control signal 15 is output to the exchange 4. Thereafter, when the transmission restriction control means 3 inputs the memory usage rate abnormal signal 17 output from the memory usage rate monitoring means 2, the transmission restriction control means 3 performs the transmission restriction control caused by the memory usage rate abnormal signal 17. The operation is performed, and the fact that the transmission restriction state based on the transmission restriction control operation caused by the memory usage rate abnormality signal 17 is stored in the built-in transmission restriction state storage memory. However, the transmission restriction control means 3 has already stored that the transmission restriction state due to the traffic abnormality signal 16 has been entered in the transmission restriction control operation due to the traffic abnormality signal 16, and the transmission restriction control Since the signal 15 has been output, the transmission restriction control signal 15 to the exchange 4 is not output in the transmission restriction control operation caused by the memory usage abnormality signal 17. At this time, the transmission restriction state storage memory incorporated in the transmission restriction control means 3 stores the transmission restriction control state caused by the traffic abnormality signal 16 and the transmission restriction control state caused by the memory usage abnormality signal 17. Remember me.
[0058]
Next, when in the transmission restriction control state due to the traffic abnormality and the memory usage abnormality, the transmission restriction release control operation caused by the normal signal of both the traffic normal and the memory usage normal is performed successively, that is, for example, A case will be described in which the transmission restriction release control operation caused by the normal traffic volume signal is performed first, and then the transmission restriction release control operation caused by the normal memory usage signal is performed.
[0059]
Upon receiving the normal traffic signal 12 output from the traffic monitoring means 1, the transmission restriction control means 3 enters a transmission restriction release control operation caused by the normal traffic signal 12, and the traffic abnormality stored in the transmission restriction state storage memory. Deletes the memory of the transmission restriction state caused by the call. However, the transmission restriction state storage memory of the transmission restriction control means 3 has a memory of the transmission restriction state caused by the memory usage abnormality, and the storage of the transmission restriction state caused by the memory usage abnormality remains. Therefore, the output of the transmission restriction release control signal 19 from the transmission restriction control means 3 to the exchange 4 is not performed at this stage.
[0060]
Next, upon receiving the normal memory usage signal 14 output from the memory usage monitoring means 2, the transmission restriction control means 3 enters a transmission restriction release control operation caused by the normal memory usage signal 14, and the transmission restriction state The storage of the transmission restriction state caused by the abnormal memory usage rate stored in the storage memory is deleted. Since the transmission restriction control means 3 has already erased the storage of the transmission restriction state caused by the traffic abnormality signal 16 at this time, the transmission restriction state is stored in the transmission restriction state caused by the traffic abnormality and the memory use rate abnormality. Since all the storage of the restriction state has been deleted, the transmission restriction control means 3 recognizes that both the traffic abnormality and the memory usage abnormality have been resolved, and outputs a transmission restriction release control signal 19 to the exchange 4.
[0061]
In the above description, the threshold of the traffic amount to be compared with the traffic amount indicated by the traffic data 11 obtained from the exchange 4 and the memory usage rate indicated by the memory usage data 13 obtained from the exchange 4 are compared. Although the thresholds of the memory usage are described as predetermined values, the memory built in the traffic monitoring means 1 and the memory usage monitoring means 2 which stores the respective thresholds. In order to output the transmission restriction control signal 15 to the exchange 4 at the optimum timing suitable for the system and to output the transmission restriction release signal 19, the respective thresholds must be changed. A threshold changing means which can be provided may be provided.
[0062]
As described above, according to the present invention, when the memory usage rate of the RAM of the CPU increases, the cause of the trouble of the call processing is reduced by performing the transmission restriction control, and the load on the CPU is reduced to reduce the load on the CPU. It is possible to easily prevent the performance from decreasing.
[0063]
【The invention's effect】
As described above, the transmission control method of the mobile communication system according to the present invention acquires traffic data indicating a traffic volume at a predetermined fixed time interval from an exchange, and the traffic volume indicated by the traffic data is determined in advance. When the traffic amount exceeds the threshold value, the traffic amount indicated by the traffic data newly acquired from the exchange after a predetermined time has elapsed also exceeds the threshold value. By configuring to output a regulation control signal, unnecessary regulation operation when traffic is momentarily congested is prevented, suppressing an increase in the load on the CPU, and preventing a drop in the exchange function due to an increase in the load on the CPU. This has the effect of making it easier.
[0064]
Further, in addition to the above configuration, memory usage data indicating the usage rate of the RAM memory of the CPU constituting the exchange is acquired, and the memory usage rate indicated by the memory usage rate data is a predetermined memory usage rate. When the threshold value is exceeded, the memory usage rate indicated by the memory usage rate data newly acquired from the exchange after a predetermined time has elapsed also exceeds the threshold value again. Is output, the effect that the increase in the load on the CPU can be further suppressed and the deterioration of the exchange function can be prevented more easily can be prevented.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a transmission control method for a mobile communication system according to the present invention.
FIG. 2 is a flowchart showing an example of a transmission restriction control operation of a transmission restriction control unit shown in FIG. 1;
FIG. 3 is a flowchart showing an example of a transmission restriction release control operation of the transmission restriction control means shown in FIG. 1;
[Explanation of symbols]
1 Traffic monitoring means
2 Memory usage monitoring means
3 Transmission control means
4 Exchange
11 Traffic data
12 Normal traffic signal
13 Memory usage data
14 Memory usage normal signal
15 Transmission restriction control signal
16 Traffic abnormal signal
17 Memory usage error signal
18 Timing signal
19 Transmission restriction release control signal

Claims (3)

(A) acquired at regular time intervals a traffic data predetermined showing a traffic amount from the exchange, when the amount of traffic the traffic data indicates exceeds a first predetermined threshold, the traffic amount traffic monitoring means but for outputting a traffic abnormality signal indicating that exceeds the first predetermined threshold,
(B) When the traffic abnormality signal is input, after a predetermined first time has elapsed, the traffic amount indicated by the traffic data newly acquired from the exchange by the traffic monitoring means is again changed to the first amount. A first transmission restriction control unit that outputs a transmission restriction control signal to the exchange when a new traffic abnormality signal output by the traffic monitoring unit is input because the threshold value has been exceeded;
And the traffic monitoring means, after the first transmission restriction control means outputs a transmission restriction control signal to the exchange, sets the traffic amount indicated by the traffic data acquired from the exchange to the first predetermined value. When the traffic signal returns to a normal value not exceeding the threshold value of the above, a traffic normal signal indicating that the traffic amount indicated by the traffic data obtained from the exchange has returned to the normal value is output, and the first transmission restriction control means When the traffic normal signal is input, the traffic amount indicated by the traffic data newly acquired by the traffic monitoring means from the exchange after the predetermined first time has elapsed has returned to the normal value again. If you enter a new traffic normal signal the traffic monitoring means is output by, the switching system Call restriction method for a mobile communication system and outputs the signal restriction release signal. (A) memory usage data indicating the memory usage of a random access memory of a central processor unit constituting an exchange is acquired from the exchange at predetermined fixed time intervals, and the memory usage data is When the memory usage rate exceeds a second predetermined threshold value, a memory usage rate abnormal signal indicating that the memory usage rate exceeds the second predetermined threshold value is output. Memory usage monitoring means,
(B) When the memory usage abnormality signal is input, after a predetermined second time has elapsed, the memory usage indicated by the memory usage data newly acquired from the exchange by the memory usage monitoring means. When a new memory usage error signal output by the memory usage monitoring means is input because the rate has again exceeded the second threshold, a second call control control signal is output to the exchange. Transmission restriction control means,
The memory usage monitoring means includes: after the second transmission restriction control means outputs a transmission restriction control signal to the exchange, the memory utilization indicated by the memory utilization data acquired from the exchange is set to the predetermined value. When returning to a normal value that does not exceed the predetermined second threshold value, a memory usage normal signal indicating that the memory usage indicated by the memory usage data acquired from the exchange has returned to the normal value is output. The second transmission restriction control means, when the memory usage normal signal is input, a memory newly obtained from the exchange by the memory usage monitoring means after a predetermined second time has elapsed. Since the memory usage rate indicated by the usage rate data has also returned to the normal value again, a new memory usage rate normal signal output by the memory usage rate monitoring means is input. If, outgoing call restriction method of a mobile communication system and outputs a call restriction release signal to the exchange. (A) acquiring traffic data indicating a traffic amount from an exchange at a predetermined fixed time interval, and when the traffic amount indicated by the traffic data exceeds a predetermined first threshold value, Means for outputting a traffic abnormality signal indicating that the predetermined threshold value has been exceeded,
(B) acquiring memory usage rate data indicating a memory usage rate of a random access memory of a central processor unit constituting the exchange from the exchange at predetermined fixed time intervals; is a memory usage that indicates, when exceeding the second threshold value is previously fixed order, memory usage abnormality signal indicating that the memory utilization exceeds a second threshold, wherein the predetermined memory usage monitoring means for outputting, is input (C) the traffic abnormality signal, after the lapse of the first predetermined time, indicated by the newly acquired traffic data from said exchange by said traffic monitoring means Since the traffic volume has again exceeded the first threshold value, a new traffic output by the traffic monitoring means is output. Or if you enter a click abnormal signal, or the memory is utilization abnormality signal is input, after a lapse of a second predetermined time, newly acquired from the exchange by the memory usage monitoring means Either when a new memory usage error signal output by the memory usage monitoring means is input because the memory usage indicated by the memory usage data has also again exceeded the second threshold value A second transmission restriction control means for outputting a transmission restriction control signal to the exchange;
And the traffic monitoring means outputs the traffic data after the second traffic regulation control means outputs a traffic regulation control signal to the exchange because the traffic amount exceeds the first threshold value. Is equal to the predetermined first threshold value or returns to a normal value below the first threshold value, the traffic amount indicated by the traffic data acquired from the exchange. Outputs a traffic normal signal indicating that the traffic has returned to a normal value, and the second transmission restriction control means inputs the traffic normal signal, and then, after a predetermined first time has elapsed, inputs the traffic normal signal. The traffic monitoring system confirms that the traffic amount indicated by the traffic data newly obtained by the monitoring means from the exchange has also returned to the normal value again. When a new traffic normal signal is inputted, the memory usage monitoring means recognizes that the memory usage rate has exceeded the second threshold value, and the second transmission restriction After outputting the transmission restriction control signal to, when the memory usage rate is equal to the predetermined second threshold value or returns to a normal value below the second threshold value, The memory usage rate normal signal indicating that the memory usage rate indicated by the memory usage rate data acquired from the exchange has returned to a normal value is output, and the second transmission restriction control unit inputs the memory usage rate normal signal. Then, after a predetermined second time has elapsed, the memory usage rate indicated by the memory usage rate data newly acquired by the memory usage rate monitoring means from the exchange returns to the normal value again. Is recognized when a new memory usage rate normal signal is input from the memory usage rate monitoring means, and the second transmission regulation control means sets that the traffic amount and the memory usage rate are both normal. A transmission restriction method for a mobile communication system , wherein a transmission restriction release signal is output to the exchange when it is recognized that the mobile station has recovered .

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