JP4143225B2 - Collection / delivery processing device and recording medium recording collection / delivery processing program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a collection and distribution processing apparatus and a recording medium on which a collection and distribution processing program is recorded, and in particular, a collection and distribution processing apparatus and a collection and distribution processing program that perform collection and distribution processing by subdividing a processing unit of collection and distribution processing. The present invention relates to a recording medium.
[0002]
[Prior art]
For example, in a company having a plurality of branch offices / branches, etc., a computer network is often established between a head office that manages a plurality of branch offices / branches, etc. and a plurality of branch offices / branches, etc. to transmit / receive data. Yes. On the computer network, a collection and distribution processing device is provided that collects data including a plurality of transmission destinations and distributes the data for each transmission destination. The collection and distribution processing device collects data including a plurality of transmission destinations from a plurality of transmission sources, and distributes the data for each transmission destination.
[0003]
A conventional collection and distribution processing apparatus alternately performs a process of collecting data including a plurality of transmission destinations and a process of distributing and distributing the data for each transmission destination.
[0004]
[Problems to be solved by the invention]
However, when a conventional collection and distribution processing device collects data, post-processing (backup, initialization) that must be performed after collection and distribution processing until the processing for distributing and distributing the collected data for each destination is completed. Etc.) and the processing efficiency is poor.
[0005]
Further, the conventional collection and distribution processing apparatus has a limited range of the number of collection and distribution (for example, 99 times per day for one data type per connection), and it is necessary to perform collection and distribution processing with the limited number of collection and distribution. Yes, the collection and distribution processing unit could not be subdivided. For example, salary data transmitted from branch office A can be collected and distributed only 99 times a day. Therefore, there are problems that the service range is limited and the processing efficiency is poor.
[0006]
Furthermore, JCL (Job Control Language) for collection and distribution processing is not automatically generated, and it is necessary to prepare JCL for each user, which causes a problem that work efficiency is poor.
The present invention has been made in view of the above points, and is capable of subdividing a processing unit of collection and distribution processing, and a collection and distribution processing device that improves processing efficiency by switching a plurality of collection and distribution processing. It is another object of the present invention to provide a recording medium on which a collection / delivery processing program is recorded.
[0007]
[Means for Solving the Problems]
Therefore, in order to solve the above-described problem, the collection and distribution processing device according to claim 1 is a collection and distribution processing device that collects data transmitted from a transmission source and distributes the data for each transmission destination. A plurality of data collecting means for collecting data transmitted from the source; a data collecting number managing means for counting the number of data collecting times of the plurality of data collecting means; and A switching means for sequentially switching data collecting means to be processed among a plurality of data collecting means; and a data distribution means for distributing and distributing the collected data for each transmission destination. When the set value exceeds 1, the data collecting means to be switched next is activated, and when the second set value is exceeded, the data collecting means is switched to the activated data collecting means.
[0008]
In this way, by performing a collection and distribution process by switching a plurality of data collection means, the processing unit of the collection and distribution process can be subdivided, and the target range of post-processing can be minimized. .
In addition, when the number of times of data collection exceeds the first set value, the data collecting means to be switched next is activated, and when the number of data collection exceeds the second set value, the data collecting means that has been activated is switched to The time required for switching between the plurality of data collecting means is simply the switching time, and the apparent switching time can be eliminated.
[0009]
Therefore, the processing efficiency of the collection and distribution process can be improved.
Further, the collection and distribution processing device according to claim 2 collects data transmitted from a transmission source and distributes the data for each transmission destination and distributes the data transmitted from the transmission source. A plurality of data collecting means for collecting, a data collecting time managing means for measuring data collecting times of the plurality of data collecting means, and a plurality of data collecting means based on the data collecting times. A switching means for sequentially switching data collecting means to be processed, and a data distribution means for distributing and distributing the collected data for each transmission destination, and when the data collecting time exceeds a first set time The data collecting means to be switched next is activated and switched to the activated data collecting means when the second set time is exceeded.
[0010]
As described above, when the data concentration time exceeds the first set time, the data concentration means to be switched next is activated, and when the data concentration time exceeds the second set time, the activated data concentration means is switched. Thus, the time required for switching the plurality of data collecting means is simply the switching time, and the apparent switching time can be eliminated.
[0011]
According to a third aspect of the present invention, there is provided the data collection / delivery processing apparatus according to the first aspect in which the state of the data collected by the plurality of data collection means is stored in the first storage means, and the collected data is stored. The second state assigned to each destination, the third state stored in the second storage means after the collected data is assigned to each destination, and the data assigned to each destination Further comprising state management means for managing the data separately for each transmission destination, and for the fourth state for distributing the data distributed for each transmission destination to the fifth state for each transmission destination. To do.
[0012]
In this way, the state of data collected by a plurality of data collecting means is managed by being divided into the first state, the second state, the third state, the fourth state, and the fifth state. Thus, it is possible to perform processing based on the data state.
According to a fourth aspect of the present invention, the collection / delivery processing device monitors the state management means and, when detecting the data in the first state, generates a collection batch that distributes the collected data for each destination. Concentration batch scheduler for instructing and monitoring the state management means, and when detecting data in the third state, distribution for instructing generation of a distribution batch for distributing the data distributed for each destination to each destination And a batch scheduler.
[0013]
In this way, by monitoring the state management means, the concentration batch scheduler and the distribution batch scheduler can issue an instruction for generating the concentration batch and the distribution batch at an appropriate timing.
The collection and distribution processing device according to claim 5, wherein the collection batch scheduler and the distribution batch scheduler use the serial number and the collection result information that are assigned to each collection unit to collect the collection batch and the distribution batch. It is characterized by creating.
[0014]
As described above, the concentration batch scheduler and the distribution batch scheduler can create the concentration batch and the distribution batch by using the serial number and the concentration result information obtained for each concentration unit.
According to a sixth aspect of the present invention, there is provided a recording medium comprising: a plurality of data collecting units that collect data transmitted from a transmission source; and a data collection unit that counts the number of data collections of the plurality of data collecting units. A number-of-communications management unit, a switching unit that sequentially switches data collection units to be processed among the plurality of data collection units based on the number of data collections, and distributes the collected data for each destination Data distribution means, and activates the data concentration means to be switched next when the number of times of data concentration exceeds the first set value, and activates when the number exceeds the second set value. The program for functioning to switch to the data collecting means that has been recorded is recorded.
[0015]
By using the recording medium according to the sixth aspect, the invention according to the first aspect can be realized. The recording medium for recording this program is a magnetic recording medium for recording information magnetically, such as a CD-ROM, floppy disk, magneto-optical disk (MO), etc., a ROM, a flash memory, etc. Various types of recording media such as a semiconductor memory for recording data can be used.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a configuration diagram of an embodiment of a computer system for realizing a collection and distribution processing apparatus of the present invention.
In FIG. 1, the computer system 10 includes an input device 20, a display device 30, a drive device 40, a recording medium 50, an auxiliary storage device 60, and a memory device 70 that are connected to each other via a bus B. The arithmetic processing unit 80 and the communication unit 90 are included.
[0017]
The input device 20 includes a keyboard and a mouse that are operated by a user of the computer system 10 and is used to input various operation signals to the computer system 10. The display device 30 displays various windows and data necessary for operating the computer system 10.
A collection / delivery processing program related to the collection / delivery processing apparatus is provided by a recording medium 50 such as a CD-ROM. The recording medium 50 in which the collection / delivery processing program is recorded is set in the drive device 40, and the program is installed in the auxiliary storage device 60 from the recording medium 50 via the drive device 40.
[0018]
The auxiliary storage device 60 stores the installed collection / delivery processing program and also stores necessary files, data, and the like. The memory device 70 reads and stores the collection / delivery processing program from the auxiliary storage device 60 when the computer system 10 is activated. The arithmetic processing device 80 executes processing related to the collection and distribution processing device in accordance with the collection and distribution processing program read and stored in the memory device 70.
[0019]
FIG. 2 shows a block diagram of an embodiment of the collection and distribution processing apparatus of the present invention. 2 is connected to a branch office / branch 200, a head office 400 that manages the branch office / branch, and the like, a collection / distribution processing apparatus 100 provided between the branch office / branch 200 and the head office 400, and the branch office / branch 200. A retail store 300 is included.
For example, the processing of the collection and distribution processing apparatus 100 when data is transmitted from the collection and distribution terminals 301 and 302 included in the retail store 300 to the collection and distribution terminals 401 and 402 included in the headquarters 400 will be briefly described.
[0020]
First, the center collection and distribution program 101 and the terminal collection and distribution program 202 included in the collection and distribution terminal 201 transmit and receive a collection and distribution process start notification to confirm the start of the collection and distribution process. Are collected by the collection / delivery processing device 100 via the terminal collection / delivery program 202 of the collection / delivery terminal 201 included in the branch office / branch 200. The center collection / delivery program 101 includes a plurality of center collection / distribution programs (1) to (N), and the center collection / distribution programs (1) to (N) are collected by a collection / delivery program switching management task 103 described later. Switching is done.
[0021]
The center collection and distribution program 101 stores the collected data in the collection file 109 and supplies collection result information (for example, communication end time, data collection source, etc.) to the processing result exit task 102. The processing result exit task 102 includes a plurality of processing result exit tasks (1) to (N). The concentrator file 109 is composed of concentrator files (1) to (N) corresponding to the center concentrator / distributor programs (1) to (N).
[0022]
The processing result exit task 102 refers to a state management database (hereinafter referred to as a state management DB) 111 described later, and is a serial number (hereinafter referred to as a serial number) that is assigned to a collection unit (for example, one connection and one data type unit). Number. For example, the serial number “1” is assigned to the salary data transmitted from the branch office A, the serial number “2” is assigned to the sales data.
Then, the serial number and the collection result information are supplied to the collection batch scheduler 105 and the log information is supplied to a collection / distribution log database (hereinafter referred to as a collection / distribution log DB) 106. Note that the serial number and the collection result information supplied from the processing result exit task 102 to the collection batch scheduler 105 are configured as shown in FIG. 3, for example. FIG. 3 shows a configuration diagram of an example of the serial number and the collection result information.
[0023]
The collection batch scheduler 105 uses the supplied serial number and collection result information to add a record whose status flag is “unprocessed” to the status management DB 111. Here, the “unprocessed” record is a record that has been collected and that has not been processed by the collection batch 108 described later. Further, the concentration batch scheduler 105 automatically creates a concentration batch 108 using the supplied serial number and concentration result information, and starts the concentration batch 108. It should be noted that the automatic creation of the concentrating batch 108 is performed by changing the necessary part of the template prepared in advance using the supplied serial number and concentrating result information.
[0024]
Thereafter, the collection batch scheduler 105 supplies log information to the collection / distribution log DB 106 and also uses the collection result information to collect the number of collections in the collection number management database (hereinafter referred to as the collection number management DB) 107. Count up. Then, the status flag of the corresponding record in the status management DB 111 is rewritten from “unprocessed” to “collection batch start”.
[0025]
The collection batch 108 collects data from a plurality of branch offices / branches 200 stored in the collection file 109 into one transmission destination data and stores the data in an intermediate database (hereinafter referred to as an intermediate DB) 112. Alternatively, data from one branch office / branch 200 is distributed to a plurality of transmission destination data and stored in the intermediate DB 112. Further, the collection batch 108 writes log information to the collection / delivery log DB 106. Then, the status flag of the corresponding record in the status management DB 111 is rewritten from “collection batch start” to “collection batch end”.
[0026]
The collection batch scheduler 105 periodically refers to the state management DB 111 and detects a corresponding distribution in a line state management database (hereinafter referred to as a line state management DB) 113 when a record whose state flag is “end of collection batch” is detected. Refer to the previous line usage status.
The system waits until the line usage status of the distribution destination becomes “line unused”, automatically creates a distribution batch 115 according to the contents of the state management DB 111, and activates the distribution batch 115. Further, the state of the corresponding record in the state management DB 111 is rewritten from “end of collection batch” to “start of distribution batch”. Note that the automatic creation of the distribution batch 115 is the same as the automatic creation of the collection batch 108.
[0027]
In the present embodiment, the state management DB 111 describes the configuration including the concentration state management DB and the distribution state management DB. However, the present invention is not limited to this. For example, a configuration may be adopted in which two status management DBs 111 are used to each have a collection status management DB and a distribution status management DB.
The distribution batch 115 reads the corresponding data from the intermediate DB 112 and stores it in the corresponding distribution file 119. In addition, the state of the corresponding record in the state management DB 111 is rewritten from “delivery batch start” to “delivery batch end”. Note that the data stored in the intermediate DB 112 and the data stored in the distribution file 119 are logically the same, and have a data backup effect.
[0028]
The CALL-OUT distribution schedule task 110 periodically refers to the state management DB 111 to detect a record whose state flag is “end of distribution batch” and when the record is a call, the CALL-OUT distribution schedule task 110 issues a call to the collection and distribution program 116 for the center. Request call delivery. Further, the line usage status of the corresponding distribution destination in the line status management DB 113 is rewritten from “line unused” to “line busy”.
[0029]
The center collection and distribution program 116 distributes distribution data stored in, for example, the distribution file 119 to the corresponding terminal collection and distribution program 403 of the headquarters 400. Thereafter, the center collection / delivery program 116 supplies distribution result information (for example, communication end time, data collection source, etc.) to the processing result exit task 117.
The processing result exit task 117 supplies distribution result information to the distribution batch scheduler 114 and also supplies log information to the collection / distribution log DB 118. Then, the distribution batch scheduler 114 rewrites the line usage status of the corresponding distribution destination in the line status management DB 113 from “line in use” to “line unused” using the supplied distribution result information, and the status management DB 111. Rewrite the status flag of the corresponding record from “end of distribution batch” to “normal end”.
[0030]
Here, the configuration of the state management DB 111 will be briefly described. FIG. 4 shows a configuration diagram of an example of the state management DB.
The status management DB 111 in FIG. 4 shows the status management DB for credit collection, and includes a data collection serial number, a branch / branch code, and a status flag. Here, the collecting serial number is a serial number assigned to the collecting unit. The branch office / branch code is an identification code of a plurality of branch offices / branches. Further, the status flag indicates the state of concentration and the handling of the collected data. For example, the collection serial number “001” indicates that the data from the branch office / branch code 100 is compiled into data for each transmission destination and the storage in the intermediate DB 112 is completed.
[0031]
Returning to FIG. 2 and continuing the description, the collection / delivery program switching management task 103 periodically refers to the concentration count management DB 107, and when the concentration count exceeds a preset value 1 (for example, 40), Next, an activation request for the center collection / delivery program 101 to be switched is made. Further, when the number of times of collection exceeds a preset value 2 (for example, 80), a switching request for the center collection / delivery program 101 to be switched next is made.
[0032]
The center collection / distribution program 101 whose number of collections has been switched to exceed the set value 2 makes an activation request for post-processing (eg, backup, initialization, etc.) after stopping the program.
Accordingly, the collection / delivery processing can be performed by the center collection / delivery program 101 that has been switched next in parallel with the post-processing of the center collection / delivery program 101 that has been switched over when the number of collections exceeds the set value 2. .
[0033]
Next, switching processing of the center collection and distribution program 101, which is one of the features of the present invention, will be described with reference to FIGS. FIG. 5 shows an explanatory diagram of one embodiment of processing of the center collection and distribution program. FIG. 6 is an explanatory diagram of an example of the collection / delivery count management table and the collection count management DB. Note that the concentration count management DB in FIG. 6 is classified into the center types 01 to 04 according to the type of data, and the number of times of concentration is counted, but is not limited thereto.
[0034]
In FIG. 5, in step S100, the number of times of concentration in the concentration number management DB 107 is rewritten to zero. Note that the switching of the center collection / delivery program 101 is not limited to the number of collections, but may be performed according to the collection time. In this case, the concentration time is rewritten to 0 in step S100.
Proceeding to step S110 following step S100, for example, the center collection / delivery program (1) is activated to perform the concentration process. Progressing to step S120 following step S110, it is determined whether or not there is a concentration termination request. If it is determined that there is an end request (YES in S120), the process ends. If it is determined that there is no termination request (NO in S120), the process proceeds to step S130.
[0035]
In step S <b> 130, it is determined whether or not there is a collection value in the collection number management DB 107 that is greater than or equal to a set value 1 (for example, 40). If it is determined that there is a set value of 1 or more (YES in S130), the process proceeds to step S140. If it is determined that there is no set value 1 or more (NO in S130), the process proceeds to step S150. When switching of the center collection and distribution program 101 is performed according to the collection time, it is determined whether or not there is a set time 1 (for example, 1 hour) or more.
[0036]
In step S150, 1 is added to the number of times of concentration of the corresponding center type in the concentration number management DB 107, and the process proceeds to step S110. When switching the center collection / delivery program 101 according to the collection time, a predetermined time (for example, 10 minutes) is added to the collection time of the corresponding center type, and the process proceeds to step S110.
In step S140, since it is determined that the number of times of concentration in the concentration number management DB 107 exceeds the set value 1, the next center concentration and distribution program (for example, center concentration and distribution program (2)) is started. Keep it.
[0037]
Progressing to step S160 following step S140, it is determined whether or not there is a concentration count in the concentration count management DB 107 that is greater than or equal to a set value 2 (for example, 80). If it is determined that there is a set value of 2 or more (YES in S160), the process proceeds to step S170. If it is determined that there is no set value 2 or more (NO in S160), the process proceeds to step S180. When switching of the center collection and distribution program 101 is performed according to the collection time, it is determined whether or not there is a set time 2 (for example, 2 hours) or more.
[0038]
In step S180, 1 is added to the number of times of concentration of the corresponding center type in the concentration number management DB 107, and the process proceeds to step S190. When switching the center collection / delivery program 101 according to the collection time, a predetermined time is added to the collection time of the corresponding center type. In step S190, a concentration process is performed, and the process proceeds to step S160.
[0039]
In step S170, since it is determined that the number of collections in the collection number management DB 107 exceeds the set value 2, the next center collection and distribution program started in step S140 (for example, the center collection) Switching to the distribution program (2)) is performed. For example, in the case of FIG. 6, the center collection / distribution program is switched, and the online task (corresponding to the center collection / distribution program 101 in FIG. 2) is switched from “U47CDXGH” to “U47CDXGI”.
[0040]
Progressing to step S200 following step S170, it is determined whether or not the subscript (the number of times the table is used in the collection and distribution count management table 104) is 10 or less. If it is determined that the subscript is 10 or less (YES in S200), the process proceeds to step S210, and 1 is added to the subscript. For example, in FIG. 6, the table usage count of the online task “U47CDXGI” is 0, so 1 is added. If it is determined that the subscript is not 10 or less (NO in S200), the process proceeds to step S220, and the subscript is rewritten to 1.
[0041]
Thereafter, the process proceeds to step S100 following steps S210 and S220, and the process is continued by rewriting the number of times of collection to 0 as shown in the number of times of collection management DB 107 in FIG.
As described above, by switching between the plurality of center collection and distribution programs 101, the target range of post-processing can be suppressed to the minimum limit, and the processing efficiency can be improved.
[0042]
Further, by using the set value 1 and the set value 2, the next center collection and distribution program can be started in advance, and the time required to switch the center collection and distribution program is only the switching time. Therefore, for example, when viewed from the terminal collection / distribution program 202, the switching time of the center collection / distribution program 101 is not apparent, and the processing efficiency can be improved.
[0043]
Next, the start of collection and distribution processing by activation from another station will be briefly described with reference to FIG. FIG. 7 is a diagram illustrating an example for explaining the start of collection and distribution processing by activation of another station. FIG. 7 shows the components necessary for the description of the start of the collection and distribution process, and the other parts are omitted.
For example, a collection / delivery service start notification is supplied to the processing result notification exit command processing task 130 from the terminal collection / distribution program 202 of the collection / delivery terminal 201 which is another station. Thereafter, the processing result notification exit command processing task 130 controls the processing result exit task 117, outputs a start notification to the state management DB 111, and outputs processing contents to the collection / delivery log DB 118.
[0044]
Next, the end of the collection and distribution process by activation from another station will be briefly described with reference to FIG. FIG. 8 is a diagram illustrating an example for explaining the end of the collection and distribution process due to activation of the other station. FIG. 8 shows the components necessary for the description of the end of the collection and distribution process, and the other parts are omitted.
For example, the collection / delivery service end notification is supplied to the processing result notification exit command processing task 130 from the terminal collection / distribution program 202 of the collection / delivery terminal 201 which is another station. Thereafter, the processing result notification exit command processing task 130 controls the processing result exit task 117, reads the serial number from the state management DB 111, and outputs the processing content to the collection / delivery log DB 118.
[0045]
In the case of normal termination, the serial number in the state management DB 111 is updated. Then, the concentration batch scheduler 105 and the distribution batch scheduler 115 refer to the state management DB and process what is to be processed. If the process ends abnormally, the processing result notification exit command processing task 130 outputs an alarm to the monitoring terminal 132. When the collection / delivery processing is abnormal, the processing result exit task 117 notifies the CANCEL command issuance processing task 131 of a message. Therefore, it is possible to detect abnormal termination and collection / delivery error early.
[0046]
In the present embodiment, the case where data is transmitted from the branch office / branch 200 in the direction of the headquarters 400 has been described.
The data collecting means described in the claims corresponds to the center collecting and distributing program 101, the data collecting number managing means corresponds to the collecting number management DB 107, and the switching means is the collecting and distributing program switching management task 103. The data distribution means corresponds to the center collection and distribution program 116, and the state management means corresponds to the state management DB 111.
[0047]
【The invention's effect】
As described above, according to the collection and distribution processing apparatus of the present invention, it is possible to subdivide the processing unit of the collection and distribution processing by switching the plurality of data collecting means and performing the collection and distribution processing. Can be minimized.
In addition, when the number of data collection times exceeds the first set value, the data collection means to be switched next is activated, and when the number of data collection times exceeds the second set value, the data collection means that has been activated is switched to The time required for switching between the plurality of data collecting means is simply the switching time, and the apparent switching time can be eliminated.
[0048]
Therefore, the processing efficiency of the collection and distribution process can be improved.
According to the recording medium of the present invention, the invention described in claim 1 can be realized. The recording medium for recording this program is a magnetic recording medium for recording information magnetically, such as a CD-ROM, floppy disk, magneto-optical disk (MO), etc., a ROM, a flash memory, etc. Various types of recording media such as a semiconductor memory for recording data can be used.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an embodiment of a computer system that implements a collection and distribution processing apparatus of the present invention.
FIG. 2 is a configuration diagram of an embodiment of a collection and distribution processing apparatus according to the present invention.
FIG. 3 is a configuration diagram of an example of serial number and collection result information.
FIG. 4 is a configuration diagram of an example of a state management DB.
FIG. 5 is an explanatory diagram of an example of processing of the center collection and distribution program;
FIG. 6 is an explanatory diagram of an example of a collection / delivery count management table and a collection count management DB;
FIG. 7 is a diagram illustrating an example for explaining the start of collection and distribution processing upon activation of another station.
FIG. 8 is a diagram illustrating an example of the end of collection and distribution processing due to activation of another station.
[Explanation of symbols]
10 Computer system
20 input devices
30 Display device
40 Drive device
50 recording media
60 Auxiliary storage
70 Memory device
80 arithmetic processing unit
90 Communication device
100 collection and delivery processing device
101 Center collection and distribution program
102 Processing result exit task
103 Collection / delivery program switching management task
104 Collection / delivery count management table
105 Concentration batch scheduler
106 Collection and distribution log DB
107 Concentration count management DB
108 Concentration batch
109 Concentration file
110 CALL-OUT delivery schedule task
111 State management DB
112 Intermediate DB
113 Line state management DB
114 Delivery batch scheduler
115 delivery batch
116 Center collection and distribution program
117 Processing result exit task
118 Collection log DB
119 Distribution file
200 branches / branches
300 retail stores
400 headquarters

Claims (6)

In a collection and distribution processing device that collects data transmitted from a transmission source and distributes and distributes the data for each transmission destination,
A plurality of data collecting means for collecting data transmitted from a transmission source;
Data concentration count management means for counting the number of data concentration times of the plurality of data concentration means;
Switching means for sequentially switching data collecting means to be processed among the plurality of data collecting means based on the number of times of data collection;
Data distribution means for distributing and distributing the collected data for each destination;
When the number of times of data collection exceeds the first set value, the data collecting means to be switched next is activated, and when it exceeds the second set value, switching to the activated data collecting means is performed. A collection and distribution processing apparatus characterized by the above. In a collection and distribution processing device that collects data transmitted from a transmission source and distributes and distributes the data for each transmission destination,
A plurality of data collecting means for collecting data transmitted from a transmission source;
Data concentration time management means for timing data concentration times of the plurality of data concentration means; and
Switching means for sequentially switching data collecting means to be processed among the plurality of data collecting means based on the data collecting time;
Data distribution means for distributing and distributing the collected data for each destination;
When the data collection time exceeds the first set time, the data collection means to be switched next is activated, and when the second set time is exceeded, the data collection means is switched to the activated data collection means. A collection and distribution processing apparatus characterized by the above. A first state in which a state of data collected by the plurality of data collecting means is stored in a first storage means;
A second state in which the collected data is distributed to each destination;
A third state in which the collected data is sorted by destination and then stored in a second storage means;
A fourth state in which data distributed to each destination is distributed to each destination;
3. The collection / delivery processing device according to claim 1, further comprising state management means for managing the data distributed for each transmission destination separately from the fifth state distributed for each transmission destination. A monitoring batch scheduler for instructing generation of a collecting batch that distributes the collected data for each transmission destination when monitoring the state management means and detecting data in the first state;
And a delivery batch scheduler for instructing generation of a delivery batch for delivering data distributed to each transmission destination when monitoring the state management means and detecting data in the third state. 3. The collection and distribution processing device according to 3. 5. The collection batch according to claim 4, wherein the collection batch scheduler and the delivery batch scheduler create a collection batch and a delivery batch using a serial number and a collection result information that are numbered for each collection unit. Distribution processing device. Computer
A plurality of data collecting means for collecting data transmitted from a transmission source;
Data concentration count management means for counting the number of data concentration times of the plurality of data concentration means;
Switching means for sequentially switching data collecting means to be processed among the plurality of data collecting means based on the number of times of data collection;
Data distribution means for distributing and distributing the collected data for each destination;
When the number of times of data collection exceeds the first set value, the data collecting means to be switched next is activated, and when it exceeds the second set value, switching to the activated data collecting means is performed. A computer-readable recording medium storing a program for causing the computer to function.

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