JP2003242134A - Correlation information processing method and correlation information processor, program and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a correlation information processing method and correlation information processor capable of performing a normal correlation processing even when all pieces of source information required for the processing are not collected within the same unit processing time, and a program and recording medium therefor. <P>SOLUTION: This correlation information processing method for collecting two or more kinds of information each inputted irregurarly or with mutually different periods and performing a correlation processing by use of two or more kinds of information assigned to the same group, is characterized by predetermining a queue condition related to the information to be collected, continuing the collection and accumulation of the information and successively detecting the state related to queue while satisfying the queue condition, and ending the queue when not satisfying the queue condition to transfer to the correlation processing. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to correlation information for collecting a plurality of types of information, each of which is input irregularly, and performing a correlation process using the plurality of types of information assigned to the same group. The present invention relates to a processing method, a correlation information processing device, a program, and a recording medium.

[0002]

2. Description of the Related Art For example, in a telecommunications carrier who conducts business using an IP (Internet Protocol) network, it is necessary to routinely perform tasks such as charging for various services, data analysis, and system operation. . Therefore, it is necessary to collect various information required for billing, data analysis, system operation, and the like. In addition, in such work, it is important to examine the correlation between multiple types of data.

Therefore, conventionally, an information processing system called an IP mediation device is connected between various devices serving as information sources (for example, a router connected to an IP network) and business devices. This IP mediation device collects necessary information from a plurality of information sources, and processes and correlates the information. Therefore, the business device can obtain the correlated data from the IP mediation device.

By the way, conventionally, when performing the above correlation processing of information, it is premised that all source information to be processed is prepared. Further, in the conventional system, all source information is collected at almost the same timing, and all source information is collected at least within a unit processing time. If the source information is insufficient when performing the correlation processing, the IP mediation device cannot perform normal processing.

[0005]

However, recently, the types of source information subject to correlation processing have diversified,
Systems for generating source information are also diversified. As a result, the source information may be generated in different periods, and all the source information required for the processing may not be available within the same unit processing time for executing the correlation processing.

Therefore, there may occur a case where normal correlation processing cannot be performed in the IP mediation device.
The present invention relates to a correlation information processing method, a correlation information processing device, and a program capable of performing normal correlation processing even when not all source information required for processing is available within the same unit processing time. And to provide a recording medium.

[0007]

According to a first aspect of the present invention, a plurality of types of information, which are input irregularly or at different intervals, are collected, and a plurality of types of information assigned to the same group are used to correlate them. A correlated information processing method for performing a process, wherein a waiting condition for information to be collected is determined in advance, and while the waiting condition is satisfied, the state related to waiting is successively detected while continuing collection and accumulation of the information, When the queuing condition is not satisfied, the queuing is ended and the correlation process is executed.

According to the first aspect of the present invention, even when a plurality of pieces of source information to be subjected to correlation processing are generated at different time periods, for example, in accordance with the generation period of the specific source information having the longest generation period. By determining the waiting time of the waiting condition, the waiting can be continued until all the source information is acquired.

Therefore, when the waiting is finished and the process shifts to the correlation process, all the source information is gathered, and the normal correlation process can be executed. According to a second aspect of the present invention, in the correlated information processing method according to the first aspect, a plurality of different waiting conditions are determined in advance in association with the type of information to be collected, and the waiting conditions independent of each other are applied for each type of information. Characterize.

In the second aspect, since the waiting conditions that are independent of each other are applied to each type of information, the waiting conditions suitable for each information source can be determined. For example, when performing correlation processing on source information with a long generation cycle, a relatively long time is set as a waiting condition, and when performing correlation processing on source information with a short generation cycle, a relatively short time is set. By defining as the waiting condition, it becomes possible to execute the correlation processing in the minimum necessary time period.

According to a third aspect of the present invention, in the correlation information processing method according to the first or second aspect, the number of pieces of information required for the correlation processing is acquired in advance as the first number, and the number of pieces of collected information is set. It is managed as a second number, and when the waiting is completed, the first number and the second number are compared to identify whether or not the required number of information has been obtained. It is characterized in that when the information is obtained, the correlation process is executed, and when the information is insufficient, it is processed as an error.

According to the third aspect of the present invention, since the number of pieces of information required for the correlation processing is compared with the number of pieces of information actually collected, it can be surely identified whether the correlation processing is possible. Therefore, it is possible to prevent occurrence of an abnormality in the correlation processing.
According to a fourth aspect of the present invention, in the correlation information processing method according to the first or second aspect, the number of pieces of information required for the correlation processing is acquired in advance as the first number, and the number of pieces of collected information is the second number. It was managed as a number, and in the middle of the meeting, the first number and the second number were compared to identify whether or not the required number of information was obtained, and the required number of information was obtained. In this case, the waiting is ended and the correlation process is executed, and when the information is insufficient, the waiting is continued.

According to the present invention, by comparing the number of pieces of information required for the correlation processing with the number of pieces of information actually collected, whether or not the correlation processing is possible can be identified before the end of the queuing. . Therefore, even when a relatively long time is set as the waiting condition, the correlation process can be executed immediately after the required number of information is obtained. Claim 5
A correlation information processing device that collects a plurality of types of information that are input irregularly or at different periods, and performs a correlation process using the plurality of types of information that are assigned to the same group. A waiting condition holding means for holding a predetermined waiting condition regarding the waiting condition; When the condition is not satisfied, a waiting control means for ending the waiting and advancing the execution of the correlation processing is provided.

By using the correlation information processing apparatus of claim 5, the correlation information processing method of claim 1 can be implemented. According to a sixth aspect of the present invention, in the correlation information processing apparatus according to the fifth aspect, the waiting condition holding means holds a plurality of different waiting conditions in association with the type of information to be collected, and the waiting processing means and the waiting control means store information. The feature is that processing is performed by applying waiting conditions that are independent of each other.

By using the correlation information processing apparatus of claim 6, the correlation information processing method of claim 2 can be implemented. According to a seventh aspect of the present invention, in the correlation information processing apparatus according to the fifth or sixth aspect, a necessary information number obtaining unit that obtains in advance the number of pieces of information required for the correlation processing as the first number, and the collected information. Of the number of collected information as a second number and whether or not the necessary number of information is obtained by comparing the first number and the second number when the waiting is completed. In addition to further providing information number comparing means for identifying whether or not, the queuing control means proceeds with the execution of the correlation processing when the required number of information is obtained, and when the information is insufficient, an error occurs. It is characterized by processing.

By using the correlation information processing apparatus of claim 7, the correlation information processing method of claim 3 can be implemented. According to an eighth aspect of the present invention, in the correlation information processing apparatus according to the fifth or sixth aspect, a necessary information number acquisition unit that acquires in advance the number of pieces of information required for the correlation processing as a first number, and the collected information. The number of collected information is managed as a second number, and whether the necessary number of information is obtained by comparing the first number and the second number during the waiting. When the number of information comparing means is further provided, the waiting control means terminates the waiting when the necessary number of information is obtained and advances the execution of the correlation processing, and when the information is insufficient. Is characterized in that the waiting is continued.

The correlation information processing method of claim 4 can be implemented by using the correlation information processing device of claim 8. Claim 9 can be executed by a computer that collects a plurality of types of information that are input irregularly or at different periods, and that performs correlation processing using the plurality of types of information assigned to the same group. And a procedure for determining waiting conditions for information to be collected, for continuously collecting and accumulating the information while the waiting conditions are satisfied, and for sequentially detecting a state related to the waiting, and for the waiting When the condition is no longer satisfied, a procedure for ending the waiting and advancing the execution of the correlation processing is provided.

The correlation information processing method according to claim 1 can be implemented by executing the program according to claim 9 on a predetermined computer. According to a tenth aspect of the invention, the program of the ninth aspect further includes a procedure for identifying the type of information to be collected and applying waiting conditions independent of each other for each type of information.

The correlation information processing method according to claim 2 can be implemented by executing the program according to claim 10 on a predetermined computer. Claim 11 is Claim 9 or Claim 10.
In the above program, a procedure of acquiring in advance the number of information required for the correlation processing as the first number, a procedure of managing the number of collected information as the second number, and And a step of identifying whether or not the required number of information is obtained by comparing the first number and the second number, and executing a correlation process when the required number of information is obtained. And a procedure for processing as an error when there is a lack of information is further provided.

The correlation information processing method according to claim 3 can be implemented by executing the program according to claim 11 on a predetermined computer. Claim 12 is Claim 9 or Claim 10.
In the program, the procedure of acquiring in advance the number of information required for the correlation processing as the first number, the procedure of managing the number of collected information as the second number, and in the middle of the waiting, A procedure of comparing the first number and the second number to identify whether or not the required number of information is obtained, and ending the waiting when the required number of information is obtained. A procedure is further provided for advancing the execution of the correlation processing and continuing the waiting when the information is insufficient.

The correlation information processing method according to claim 4 can be implemented by executing the program according to claim 12 on a predetermined computer. Claim 13 collects a plurality of types of information, which are input irregularly or in different cycles,
A recording medium in which a computer-executable program for performing correlation processing of a plurality of types of information assigned to the same group is recorded, and a procedure for determining a waiting condition regarding information collected in the program, , A procedure of continuously collecting and accumulating the information and sequentially detecting a state related to queuing while the queuing condition is satisfied, and terminating the queuing and advancing execution of correlation processing when the queuing condition is not satisfied. And a procedure are provided.

The correlation information processing method according to claim 1 can be implemented by executing the program recorded in the recording medium according to claim 13 on a predetermined computer. A fourteenth aspect of the invention is characterized in that the recording medium of the thirteenth aspect further includes a procedure for identifying the type of information to be collected and applying waiting conditions independent of each other for each type of information.

The correlation information processing method of claim 2 can be implemented by executing the program recorded in the recording medium of claim 14 on a predetermined computer. According to a fifteenth aspect, in the recording medium according to the thirteenth or the fourteenth aspect, a procedure for previously acquiring the number of information required for the correlation processing as the first number, and the number of the collected information as the second number. A procedure for managing the number as a number, a procedure for comparing the first number and the second number to determine whether or not the required number of information is obtained when the waiting is completed, and the required number When the information is obtained, the correlation processing is executed, and when the information is insufficient, a procedure of processing as an error is further provided.

The correlation information processing method according to claim 3 can be implemented by executing the program recorded in the recording medium according to claim 15 on a predetermined computer. According to a sixteenth aspect, in the recording medium according to the thirteenth or the fourteenth aspect, a procedure for previously acquiring the number of information required for the correlation processing as the first number, and the number of the collected information as the second number. A procedure for managing the information as a number, a procedure for comparing the first number and the second number during the waiting to identify whether or not the required number of information has been obtained, and the required number of information Is obtained, the waiting is ended and the correlation process is executed, and when the information is insufficient, the waiting is continued.

The correlation information processing method of claim 3 can be implemented by executing the program recorded in the recording medium of claim 16 on a predetermined computer.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of a correlation information processing method, a correlation information processing apparatus, a program, and a recording medium according to the present invention will be described with reference to FIGS.
This form corresponds to all the claims.

FIG. 1 is a block diagram showing the configuration of the system of this embodiment. FIG. 2 is a schematic diagram showing a configuration example of source information. FIG. 3 is a schematic diagram showing a specific example of the waiting condition. FIG. 4 is a flowchart showing an operation example (1) of the IP mediation device. FIG. 5 is a flowchart showing an operation example (2) of the IP mediation device. FIG. 6 shows an operation example (3) of the IP mediation device.
It is a flowchart showing.

In this embodiment, the waiting condition holding means, the waiting processing means, and the waiting control means of claim 5 are the waiting condition judging section 23 and step S1 respectively.
3 and step S12. The required information number acquisition means, the collected information number management means, and the information number comparison means of claim 7 correspond to the additional source information number determination unit 24 (S34), and the required information number acquisition means and the collected information of claim 8 are provided. The number management unit and the information number comparison unit are provided by the additional source information number determination unit 24.
This corresponds to (S22).

In this embodiment, a system having the configuration shown in FIG. 1 is assumed. N source information generation devices 11 (1) to 11 (N) are connected to the IP network 10. Specifically, for example, a router can be used as each source information generation device 11. Also, for example, VoI
CDR (Call Detail Record) including information such as call time when P (Internet Phone) service is implemented
Source information generation device 1 for generating CA (Call Agent)
It can also be used as 1.

Source information generators 11 (1) -11
(N) can collect various information on the IP network 10. The network operation management device 30 of FIG. 1 is used by a communication carrier or the like to execute operations such as charging for various services using the IP network 10, data analysis, and system operation. When performing such work, it is necessary to collect various information on the IP network 10,
It is also necessary to investigate the correlation between multiple types of information.

Therefore, the source information generators 11 (1)-
11 (N) and the network operation management device 30
The P mediation device 20 is connected. The IP mediation device 20 includes a plurality of source information generation devices 1
A plurality of types of necessary information (source information SD) is collected from 1 and information processing and correlation processing are performed. Therefore, the network business management device 30 is the IP mediation device 2
It is possible to acquire the correlation-processed data required from 0.

As shown in FIG. 1, the IP mediation device 20 includes an information processing unit 21, a waiting management unit 22,
The waiting information storage unit 25 and the error processing unit 26 are provided, and the waiting management unit 22 includes a waiting condition determination unit 23 and an additional source information number determination unit 24. It should be noted that FIG. 1 shows only the main elements necessary for implementing the present invention.

In this example, each source information SD output by each source information generating device 11 is constructed as shown in FIG. For example, the source information SD (1) is data d1, d
2 and d3 are included. The data d1 is an identifier (ID) that represents a group common to mutually related information. Each group is composed of one main source information and one or more additional source information. The data d2 represents the type of information, that is, either the main source information or the additional source information. The data d3 represents the number of pieces of additional source information included in the group to which the source information belongs.

In the example of FIG. 2, the same identifier d1 (ID: 1
Source information SD (1), SD to which 0) is assigned
(2) and SD (N) belong to the same group. Therefore, when performing the correlation process on the source information SD (1) which is the main source information, the additional source information SD (2) and SD (N) belonging to the same group as that are also required. Note that FIG.
In the example, only a single identifier (ID) is shown for one source information, but a plurality of identifiers can be assigned to one source information. That is, one source information may belong to a plurality of groups at the same time.

If the type of each source information can be recognized in advance by the IP mediation device 20 or if the type of information can be identified based on the format of the source information, the data d2 representing the type of information is omitted. May be.
The information processing unit 21 of the IP mediation device 20 receives the source information SD (1), SD from each source information generation device 11.
(2), ..., SD (N) are collected and waiting information is acquired from the waiting information storage unit 25. Further, the information processing unit 21 has a function of grasping source information belonging to the same group with each other using the identifier d1 as a key and performing information processing such as correlation processing.

The queuing management unit 22 includes the information processing unit 21.
Manages the waiting for the correlation processing performed by. The waiting management unit 22 stores, for each type of source information SD,
Alternatively, information indicating a waiting condition predetermined for each group is held. A specific example of this waiting condition is shown in FIG. In this example, the condition is set so as to determine whether the length of the waiting time or specific data is included in the source information. In addition,
The meeting management unit 22 holds not only the content of each meeting condition, but also the identifier d1 of the source information associated with each condition.

The queuing condition judging section 23 built in the queuing management section 22 manages the queuing conditions held in the queuing management section 22. The queuing condition determination unit 23 manages a queuing state that changes each time queuing processing is applied, for each identifier d1 of the source information SD, and determines whether the queuing state satisfies the queuing condition for each group represented by each identifier d1. judge. When the waiting process is performed, the waiting state is updated.

Further, in this embodiment, even if the source information belongs to the same group, a plurality of different waiting conditions can be applied according to the type of the collected source information. That is, the waiting condition determination unit 23 refers to the data d2 representing the type of information for all the source information that has been collected at each time point and belongs to the same group, and determines whether or not the main source information has been acquired. Then, when the main source information has not been acquired, the queuing condition is switched so that a longer time is allocated as the queuing continuation time than when the main source information has been acquired.

The additional source information number determining unit 24 refers to the data d3 included in the main source information and acquires the additional source information number for each group. Also, the number of additional source information actually acquired by the IP mediation device 20 is counted and managed for each group, and it is determined whether or not all the additional source information necessary for the correlation processing is prepared. The queuing management unit 22 determines whether to end the queuing process according to the determination results of the queuing condition determination unit 23 and the additional source information number determination unit 24. In addition, the error determination is performed by checking whether all the necessary source information is available.

When the queuing processing is finished, the queuing management section 22 outputs the result to the network operation management apparatus 30 as correlation processed information after the information processing section 21 executes the correlation processing. Alternatively, when it is determined that there is an error, the error processing unit 26 that performs error processing
The predetermined information is output to. Next, three specific types of operation examples of the IP mediation device 20 will be described with reference to FIGS. 4, 5 and 6.

For example, not all source information is necessarily obtained within the unit processing time to which the correlation processing is applied,
In the case where all the source information is collected during the waiting process, the process of the operation example shown in FIG. 4 is applied. When the information processing unit 21 acquires the source information SD from any of the source information generation devices 11, the process starts from step S10 in FIG. Step S10
Then, the information processing unit 21 acquires the source information SD output from the source information generation device 11 and acquires the waiting information from the waiting information storage unit 25. At first, there is no waiting information.

The information processing section 21 checks the identifier d1 of the source information SD acquired in step S10 to grasp its type and the group to which it belongs, and executes processing such as information processing and correlation processing (S11). Next, the queuing condition determination unit 23 determines whether the queuing state managed for each identifier d1 of the source information SD, that is, each group satisfies the queuing condition assigned to the group (S12).

When the waiting condition is satisfied, the waiting is continued. In that case, step S1
The processing result of the information processing unit 21 in 1 is stored in the waiting information storage unit 25 as waiting information. Further, the waiting state is updated (S13). When the waiting condition is no longer satisfied, that is, when all the source information necessary for the correlation processing is acquired by the information processing unit 21, the correlation processing in step S11 has already been completed, so the information processing unit in step S11. The network operation management device 3 with the processing result of 21 as the correlation processed information
It is output to 0 (S14).

Although the information processing in the information processing unit 21 is performed during the waiting process in the operation example of FIG. 4, it may be performed immediately before step S14 after the waiting process is completed. Also, a plurality of waiting conditions may be applied at the same time. By the processing of FIG. 4, all the source information necessary for the correlation processing can be obtained during the waiting processing, and the result of the normal correlation processing can be obtained.

On the other hand, for example, not all source information is necessarily collected within the waiting condition range (for example, within a specific period), and the data d included in the main source information is included.
In the case where 3 accurately represents the number of additional source information required in the actual correlation processing, the processing of the operation example shown in FIG. 5 is applied. Steps S20, S21 of FIG.
S24 and S25 are respectively steps S10 and S10 in FIG.
It is similar to S11, S13 and S14.

In the operation example of FIG. 5, step S22 is executed before the waiting condition is determined in step S23. That is, in step S22, the additional source information number determination unit 24 compares the number of additional source information actually collected with the number of additional source information represented by the data d3 included in the main source information, and is required for the correlation processing. Identify whether all the source information is complete.

If they match in step S22, since all the source information necessary for the correlation processing is complete, the waiting management section 22 ends the waiting processing, and proceeds from step S22 to step S25. In this case, step S2
Step S of outputting the processing result of the information processing unit 21 of No. 1 to the network operation management device 30 as correlation processed information
If they do not match, the waiting condition determination unit 23
Determines the waiting condition in step S23. Then, when the waiting condition is satisfied, the waiting management unit 22 performs the waiting process in step S24.

If it is determined in step S23 that the waiting condition is not satisfied, the waiting management unit 22
Considers that the source information necessary for the correlation processing is not available, and outputs the information to the error processing unit 26. When all the source information necessary for the correlation processing is obtained by executing the processing shown in FIG. 5, the waiting is immediately ended and the processing shifts to the correlation processing without waiting until the waiting conditions are no longer met. can do. Further, when the source information necessary for the correlation processing is not available during the waiting processing, it can be grasped as an error occurrence.

On the other hand, for example, not all source information is necessarily collected within the waiting condition range (for example, within a specific period), and the data d included in the main source information is included.
In the case where 3 may not accurately represent the number of pieces of additional source information required in the actual correlation processing, the processing of the operation example shown in FIG. 6 is applied. Step S of FIG.
30, S31, S32, S33 and S35 are steps S10, S11, S12, S13 and S of FIG. 4, respectively.
Similar to 14.

In the operation example of FIG. 6, after the waiting process is finished in step S32, the process of step S34 is executed for the source information for which the waiting process is finished. In step S34, the additional source information number determination unit 24
Compares the number N1 of additional source information actually collected with the number N2 of additional source information represented by the data d3 included in the main source information.

In the case of (N1 <N2), it is determined that the information necessary for the correlation processing is not available, and the waiting management unit 22 outputs the information to the error processing unit 26 in step S36. Further, in the case of (N1 ≧ N2), it is determined that the information necessary for the correlation processing is gathered and the correlation processing is completed.
Then, the information subjected to the correlation processing by the information processing unit 21 in step S31 is output to the network work management apparatus 30 as the correlation processed information in step S35.

Therefore, even if all the source information necessary for the correlation processing may not be available at the time when the waiting processing of the predetermined condition is completed, it is possible to check all the collected additional source information by checking the number of additional source information collected. It is possible to identify whether or not the source information of is available, and if not, it can be handled as an error. Further, when the number of additional source information represented by the data d3 included in the main source information is incorrect, the waiting process ends before all the additional source information required for the actual correlation process is prepared in the operation of FIG. there's a possibility that. However, in the operation of FIG. 6, since the waiting process is continued while the waiting condition is satisfied, the possibility of executing the correlation process after all the additional source information required for the correlation process is complete increases.

[0053]

As described above, according to the present invention, even if all the related source information necessary for the correlation processing cannot be obtained within the same unit processing time, the waiting processing or the waiting processing can be performed. By checking the number of source information,
Normal correlation processing can be executed.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a system according to an embodiment.

FIG. 2 is a schematic diagram showing a configuration example of source information.

FIG. 3 is a schematic diagram showing a specific example of a waiting condition.

FIG. 4 is a flowchart showing an operation example (1) of the IP mediation device.

FIG. 5 is a flowchart showing an operation example (2) of the IP mediation device.

FIG. 6 is a flowchart showing an operation example (3) of the IP mediation device.

[Explanation of symbols]

10 IP network 11 Source information generator 20 IP mediation device 21 Information Processing Department 22 Meeting Management Department 23 Waiting condition determination unit 24 Additional Source Information Number Judgment Unit 25 Waiting information storage 26 Error processing section 30 Network operation management device

Continued front page    (72) Inventor Tomoyasu Sato             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation (72) Inventor Ken Kanijima             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation (72) Inventor Shinya Takada             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation (72) Inventor Yasunari Kishimoto             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation F term (reference) 5B056 BB23

Claims (16)

[Claims] 1. A correlation information processing method for collecting a plurality of types of information, which are input irregularly or at different intervals, and performing a correlation process using the plurality of types of information assigned to the same group. Then, the waiting conditions for the information to be collected are determined in advance.While the waiting conditions are satisfied, the collection and storage of the information is continued and the waiting conditions are sequentially detected. When the waiting conditions are not satisfied, the waiting conditions are met. The correlation information processing method, characterized in that the correlation processing is terminated and the execution of the correlation processing is advanced. 2. The correlation information processing method according to claim 1,
A correlated information processing method characterized in that a plurality of different waiting conditions are determined in advance in association with the type of information to be collected, and waiting conditions independent of each other are applied for each type of information. 3. The correlation information processing method according to claim 1, wherein the number of pieces of information required for the correlation processing is acquired in advance as a first number, and the number of pieces of collected information is set to a second number. The number is managed as a number, and when the meeting is completed, the first number and the second number are compared to identify whether or not the required number of information is obtained, and the required number of information is obtained. The correlation information processing method is characterized by advancing the execution of the correlation processing when the information is obtained, and processing as an error when the information is insufficient. 4. The correlation information processing method according to claim 1 or 2, wherein the number of information required for the correlation processing is acquired in advance as a first number, and the number of collected information is set to a second number. It was managed as a number, and during the meeting, the first number and the second number were compared to identify whether or not the required number of information was obtained, and the required number of information was obtained. In this case, the correlation information processing method is characterized in that the waiting is ended and the correlation processing is executed, and if the information is insufficient, the waiting is continued. 5. A correlation information processing apparatus that collects a plurality of types of information, which are input irregularly or at different periods, and performs a correlation process using the plurality of types of information assigned to the same group. A queuing condition holding means for holding a predetermined queuing condition regarding the information to be collected, and a queuing process for continuously collecting and accumulating the information and sequentially detecting a queuing state while the queuing condition is satisfied. A correlation information processing apparatus comprising: a means and a queuing control means for ending the queuing and advancing the execution of the correlation processing when the queuing condition is not satisfied. 6. The correlation information processing apparatus according to claim 5, wherein the waiting condition holding unit holds a plurality of different waiting conditions in association with the type of information to be collected, and the waiting processing unit and the waiting control unit store information. A correlation information processing apparatus, wherein processing is performed by applying queuing conditions independent of each other for each type. 7. The correlation information processing device according to claim 5 or 6, and a necessary information number acquisition unit that acquires in advance the number of information required for the correlation processing as a first number, and the collected information. The number of collected information is managed as a second number, and whether the necessary number of information is obtained by comparing the first number and the second number when the waiting is completed. In addition to further providing information number comparing means for identifying whether or not, the queuing control means proceeds with the execution of the correlation processing when the required number of information is obtained, and when the information is insufficient, an error occurs. A correlation information processing device characterized by processing. 8. The correlation information processing device according to claim 5 or 6, and a necessary information number acquisition means for acquiring in advance the number of information required for correlation processing as a first number, and the collected information. The number of collected information is managed as a second number, and whether the required number of information is obtained by comparing the first number and the second number during the waiting. When the number of information comparing means is further provided, the waiting control means terminates the waiting when the necessary number of information is obtained and advances the execution of the correlation processing, and when the information is insufficient. In the correlation information processing device, the waiting is continued. 9. A computer that collects a plurality of types of information that are input irregularly or at different intervals and that performs correlation processing using the plurality of types of information assigned to the same group can be executed. A program that determines waiting conditions for information to be collected, and continues to collect and store the information while the waiting conditions are satisfied, and sequentially detect a state related to waiting, and the waiting process. And a procedure for advancing execution of correlation processing when the condition is not satisfied. 10. The program according to claim 9, further comprising a procedure of identifying the type of information to be collected and applying waiting conditions independent of each other for each type of information. 11. The program according to claim 9 or 10, wherein the number of pieces of information required for correlation processing is acquired in advance as a first number, and the number of pieces of collected information is a second number. And a procedure for identifying whether or not the required number of information has been obtained by comparing the first number and the second number when the waiting is completed, A program further comprising a procedure for advancing execution of correlation processing when information is obtained, and processing as an error when information is insufficient. 12. The program according to claim 9 or 10, wherein the number of pieces of information required for correlation processing is acquired in advance as a first number, and the number of pieces of collected information is a second number. And a procedure for identifying whether or not the required number of information has been obtained by comparing the first number and the second number during the waiting, and the required number of information A program further comprising the steps of: if the information is obtained, ending the queuing and proceeding with the execution of the correlation processing, and if the information is insufficient, continuing the queuing. 13. A computer that collects a plurality of types of information, which are input irregularly or at different intervals, and performs a correlation process using the plurality of types of information assigned to the same group. A recording medium in which a program is recorded, a procedure for determining a waiting condition regarding information to be collected in the program, and while the waiting condition is satisfied, collecting and accumulating the information is continued and a state related to the waiting is set. A recording medium comprising a sequence of sequential detection and a sequence of ending the waiting and advancing execution of the correlation processing when the waiting condition is not satisfied. 14. The recording medium according to claim 13, further comprising a step of identifying the type of information to be collected and applying waiting conditions independent of each other for each type of information. 15. The recording medium according to claim 13 or 14, wherein the number of pieces of information required for correlation processing is acquired in advance as a first number, and the number of pieces of collected information is set to a second number. A procedure for managing as a number, a procedure for comparing the first number and the second number to determine whether or not the necessary number of information has been obtained when the waiting is completed, and the necessary number The recording medium further includes a procedure for advancing execution of the correlation processing when the information is obtained, and processing as an error when the information is insufficient. 16. The recording medium according to claim 13 or 14, wherein the number of pieces of information required for correlation processing is acquired in advance as a first number, and the number of pieces of collected information is set to a second number. A procedure for managing the information as a number, a procedure for comparing the first number and the second number to determine whether or not the required number of information has been obtained during the waiting, and the required number of information The recording medium further comprises a procedure of ending the waiting and advancing the execution of the correlation processing when the above is obtained, and continuing the waiting when the information is insufficient.