JP2019160336A - Management device, method for management, and management program - Google Patents

Abstract

To allow an easy cooperation between services.SOLUTION: The management device according to the present application includes: an acquisition unit for acquiring information on the amount of distribution between systems providing services of data which the systems have acquired; a determination unit for determining data which satisfies a predetermined standard set based on the amount of distribution of the data acquired by the systems; and a management unit for notifying another system of the systems of information on the data which satisfies a predetermined standard set on the basis of the amount of distribution.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a management device, a management method, and a management program.

  Services using networks, such as shopping services and advertisement distribution services, have become active. Various services can be provided to many users by using the network.

JP 2013-257793 A

  In order to provide better services to users, it is desirable to link between services such as sharing user data. However, the environment surrounding the system is different for each service, for example, the number of accesses to the system is greatly different for each service. Therefore, the service operator needs to construct a system suitable for the service for each service (for example, construct a database of a unique model). As a result, cooperation between services is not easy.

  The present application has been made in view of the above, and an object thereof is to facilitate cooperation between services.

  The management apparatus according to the present application includes an acquisition unit that acquires information on a distribution amount between systems of data acquired by each of a plurality of systems that provide services, and a standard that is determined based on the distribution amount of data acquired by the system A discriminating unit that discriminates data that satisfies the condition, and a management unit that notifies other systems in the plurality of systems of information related to data satisfying the criteria determined based on the distribution amount.

  According to one aspect of the embodiment, cooperation between services can be facilitated.

FIG. 1 is a diagram illustrating an operation of the management system according to the embodiment. FIG. 2 is a diagram illustrating an example of acquired information registered in the database by the service providing server. FIG. 3 is a diagram illustrating an example of management information. FIG. 4 is a diagram illustrating a configuration example of the terminal device according to the embodiment. FIG. 5 is a diagram illustrating a configuration example of the service providing server according to the embodiment. FIG. 6 is a diagram illustrating an example of information stored in the acquired information database. FIG. 7 is a diagram illustrating an example of user information. FIG. 8 is a diagram illustrating an example of sales information. FIG. 9 is a diagram illustrating a configuration example of the management apparatus according to the embodiment. FIG. 10 is a diagram illustrating an example of information stored in the management information database. FIG. 11 is a diagram illustrating an example of information stored in the shared information database. FIG. 12 is a diagram illustrating an example of information stored in the important information database. FIG. 13 is a flowchart illustrating an example of the registration process. FIG. 14 is a flowchart illustrating an example of the transmission process. FIG. 15 is a flowchart illustrating an example of the billing process. FIG. 16 is a hardware configuration diagram illustrating an example of a computer that realizes the function of the management apparatus.

  Hereinafter, a management apparatus, a management method, and a mode for implementing a management program according to the present application (hereinafter referred to as “embodiment”) will be described in detail with reference to the drawings. The management device, management method, and management program according to the present application are not limited by the following embodiments. In the following embodiments, the same portions are denoted by the same reference numerals, and redundant description is omitted.

[1. Operation of management device)
First, the operation of the management apparatus will be described using the management system 1 including the management apparatus 30 of the present embodiment as an example.

  FIG. 1 is a diagram illustrating an operation of the management system 1 according to the embodiment. The management system 1 is a system for enabling cooperation between services. The “service” in the present embodiment is a service provided via the network. For example, the services are various services provided on a site such as a portal site. Specific examples include services such as online shopping, advertisement distribution, e-mail, games, news, auctions, bulletin boards, blogs, weather forecasts, finance, route search, maps, travel, job offers, real estate, restaurant introductions, data downloads, etc. Service.

  These services differ greatly in the environment surrounding the system for each service. For example, in an advertisement distribution service, requests from a terminal device to a system for distributing advertisements (for example, an advertisement distribution server) exceed 100,000 requests per second. On the other hand, in the online shopping service, requests to a system (for example, a shopping server) that realizes online shopping are at most several hundred to several thousand requests per second. For this reason, the service operator needs to construct a system suitable for each service. For example, the service operator needs to construct a database of a unique data model for each system.

  However, if a unique system (for example, a unique model database) is constructed for each service, it becomes difficult to link the services. Each service accumulates a large amount of various data when providing the service. However, if the data model is different, the data required for the service is extracted from the large amount of data accumulated by other services. It becomes difficult to do. For example, a user purchases a bicycle using an online shopping service. If advertisements related to bicycles can be distributed to this user, the advertisement distribution service can achieve a great advertising effect. However, the data related to online shopping is extremely large amount including data specialized for online shopping service. Data specialized for a specific service (for example, in-house contact information of the service) is meaningless for other services and it is difficult to understand the meaning of the data. Therefore, it is not easy for the advertisement distribution system to extract information that the user has purchased a bicycle from a large amount of data including data specialized for an online shopping service.

  Therefore, the management system 1 includes a management device 30 that communicates with a plurality of systems that provide services in order to facilitate cooperation between services. The management device 30 performs a process for enabling the data acquired by the plurality of systems to provide the service between the systems. For example, the management device 30 determines data required by other systems from a large amount of data acquired by one system among a plurality of systems on the basis of a data distribution amount or the like. Then, the management device 30 notifies the determined data to other systems. Hereinafter, the management system 1 provided with the management apparatus 30 of this embodiment is demonstrated.

[1-1. About management system)
The management system 1 includes terminal devices 10 ₁ , 10 ₂ , 10 ₃ , service providing servers 20 ₁ , 20 ₂ , 20 _3, and a management device 30. In the example of FIG. 1, three terminal devices are shown, but the number of terminal devices may be less than three or more than three. In the following description, the terminal devices 10 ₁ , 10 ₂ , 10 _3, etc. may be collectively referred to as the terminal device 10. In the example of FIG. 1, three service providing servers are shown, but the number of service providing servers may be less than three or more than three. In the following description, the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ may be collectively referred to as the service providing server 20.

The terminal device 10 is a user terminal such as a smart device (smart phone or tablet), a mobile phone, a personal computer, or the like. Terminal apparatus 10 ₁ is a terminal user U1 uses the terminal device 10 ₂ is a terminal user U2 is used, the terminal apparatus ₁₀₃ is a terminal that the user U3 is used. The terminal device 10 communicates with the service providing server 20 via a network.

The service providing server 20 is a server host computer that provides various services to a client terminal or a user who operates the client terminal. For example, the service providing server 20 is a service providing system that provides various services to a user who operates the terminal device 10. The service providing system may be configured by a single device or may be configured by a plurality of devices. The service providing server 20 ₁ is a system providing a service A, the service providing server 20 ₂ is a system providing a service B, service providing server 20 ₃ is a system for providing service C. Services provided by the service providing server 20 include, for example, online shopping, advertisement distribution, mail, games, news, auctions, bulletin boards, blogs, weather forecasts, finance, route search, maps, travel, job offers, real estate, restaurant introductions, It is a service such as data download. When the service providing server 20 functions as a system for providing an online shopping service, the service providing server 20 may have a function as an online mall.

  The service providing server 20 may have a function of transmitting and receiving data to other service providing servers 20. Data transmission / reception may be performed according to an instruction from an operator who operates the service providing server 20. In this case, the service providing server 20 may be configured to measure and record the data distribution amount (for example, data transmission amount or reception amount) for each data or each data classification.

  The management device 30 is a server host computer that provides various services to the service providing server 20. The management device 30 can communicate with each service providing server 20. The management device 30 performs a process for enabling the data provided by the service providing server 20 to be provided when the service is provided, to be distributed between the service providing servers 20. For example, the management apparatus 30 relays data exchange between the service providing servers 20.

[1-2. Management System Operation)
Hereinafter, the operation of the management system 1 including the management apparatus 30 according to the present embodiment will be described with reference to FIG.

First, in order to provide a service to the user, the service providing server 20 performs communication related to the service with the terminal device 10 operated by the user (steps S1a to S1e). For example, the service providing server 20 _1, the terminal apparatus 10 ₁ and the service A to the user U1 is operated (e.g., Internet shopping) communicates regarding (step S1a). The service providing server 20 ₂ communicates about ₁ and the service B terminal apparatus 10 by the user U1 operates (e.g., ad delivery) (Step S 1 b).

  Then, the service providing server 20 stores data acquired in providing the service (hereinafter referred to as service data) in a database (steps S2a to S2c). The database for storing service data is not limited to RDB (Relational Database). In order to be able to handle a large amount of data at high speed, the database may be a database using a hyperscale database management system (scale-out type system) such as NoSQL (Not Only SQL). At this time, NoSQL may be KVS (Key-Value Store).

2, the service providing server 20 ₁ is a diagram showing an example of acquisition information to be registered in the database. The acquired information, the service data service providing server 20 ₁ acquires Upon providing the service is stored. The service data D11 is information of a plurality of users who use a shopping service, for example. The service data D12 is, for example, information on merchandise sold through a shopping service. Service data D12 is, for example, information of stores that use the online mall function service providing server 20 ₁ is provided. Each service data has an ID indicating a data classification. Service data D11 is assigned B11, service data D12 is assigned B12, and service data D13 is assigned B13. B11 indicates, for example, that the data classification of service data is “user information”, B12 indicates, for example, that the data classification of service data is “product sales information”, and B13 indicates that For example, it indicates that the data classification of the service data is “store information”.

  Subsequently, the management device 30 acquires information about service data from each of the service providing servers 20 (steps S3a to S3c). For example, the management apparatus 30 acquires information on the type of service data (for example, data classification information) held by the service providing server 20 and information on the amount of service data distributed between systems. The data classification may be a classification that focuses on the contents (meaning) of data, such as “user information” and “sales information” of products. The distribution amount is, for example, the amount of service data exchanged between systems (for example, the amount of data transmitted or received). At this time, the distribution amount may be a distribution amount for each data or a distribution amount for each data classification. And the management apparatus 30 produces | generates management information based on the information acquired from the service provision server 20, and registers it in a database. The management information is information for managing data held by the service providing server 20 on the management device 30 side. The database that stores the management information is not limited to the RDB. In order to handle a large amount of data at a high speed, the database may be a database using a hyperscale database management system (scale-out type system) such as NoSQL. At this time, NoSQL may be KVS.

FIG. 3 is a diagram illustrating an example of management information. The management information has items of system ID and data classification. The system ID is an ID of a system managed by the management apparatus 30. In the example of FIG. 3, values such as 20 ₁ , 20 ₂ , and 20 ₃ are stored in the system ID. 20 ₁ (in the present embodiment, the service providing server 20 ₁₎ system for providing a service A is ID indicating, 20 _2, when the system (in the present embodiment to provide a service B, the service providing server 20 ₂ ), and 20 ₃ is an ID indicating a system that provides the service C (in the present embodiment, the service providing server 20 ₃ ). The data classification indicates the classification of service data currently held by each system. In the data classification item, a unique ID is stored across a plurality of systems.

In the case of the example in FIG. 3, a circulation amount is associated with each data classification. In the item of distribution amount, information on the distribution amount of service data indicated by the data classification is stored. The information on the distribution amount may be the number of times that a predetermined system among a plurality of systems managed by the management device 30 transmits service data classified into the corresponding data classification to another system. At this time, the number of times may be the number of times during a predetermined period. For example, B11 is, the service providing server 20 ₁ is assumed to be data classification indicating the user information held. If the service providing server 20 ₁ is transmitted 876 times in the last month of the user information to the service providing server 20 ₁ or the service providing server 20 _1, 876 is stored in the circulation amount of the item of management information. The distribution amount is determined based on information acquired from each service providing server 20 by the management device 30.

  In addition, importance is associated with each data classification. Information on importance of service data indicated by data classification is stored in the item of importance. In the example of FIG. 3, values of 1 to 10 are stored in the importance item. The importance becomes higher as it is more likely to be required for other systems. The importance is determined by the management device 30 based on a preset criterion. For example, the management device 30 stores in advance information that associates the data classification with the importance, and determines the importance of the service data based on the stored information. For example, the management device 30 may assign a high importance level to a data classification having a large distribution amount. The operator of the management device 30 can arbitrarily determine the importance determination method.

  Next, the management device 30 determines data satisfying a predetermined standard among data acquired by the plurality of systems in providing the service as data for processing related to distribution between systems (hereinafter referred to as distribution data). (Step S4). At this time, the management apparatus 30 may determine, as distribution data, data required by other systems among the plurality of systems among the data acquired by the system.

  For example, the service data of the data classification with a large distribution amount is data that has been actually required in the past by other systems. Therefore, the service data belonging to the data classification with a large distribution amount is data that is highly likely to be required by other systems in the future. Such service data is data that is highly likely to be required not only from systems that have actually received the service data in the past, but also from systems that have not received the service data. . For example, user data of an online shopping service (particularly, data of a combination of a user and a product purchased by the user) is useful data not only for an advertisement service but also for many services.

  Therefore, the management device 30 determines data that satisfies the criteria defined based on the distribution amount as distribution data from a large amount of service data acquired by the system. For example, the management device 30 determines, as service data, data belonging to a data classification in which the distribution amount is greater than or equal to a predetermined amount from the service data acquired by the service providing server 20. The distribution amount may be the data amount (for example, the number of bytes) or the number of data transmissions. In the following description, it is assumed that the data amount is the number of transmissions. In the example of FIG. 3, the service providing server 20 transmits data belonging to the data classifications B11, B21, and B31, which are data classifications with a circulation amount of 800 or more (the number of transmissions to other service providing servers is 800 or more). It is determined as distribution data.

  Note that the criterion for determining the distribution data is not limited to the distribution amount. For example, the management device 30 may determine distribution data based on the importance. For example, the management device 30 determines, as distribution data, data that has a certain degree of importance (e.g., 8 or more in 10 steps) among data acquired by the system. In the example of FIG. 3, the service providing server 20 determines data belonging to the data classifications B12, B22, and B32 that are data classifications having an importance level of 8 or more as distribution data.

Next, the management device 30 executes a process related to the distribution of data satisfying a predetermined standard (hereinafter referred to as a distribution process). For example, the management device 30 notifies other systems of information related to the distribution data determined in step S4 (steps S5a to S5c). For example, it is assumed that the management device 30 determines, in step S4, data belonging to data classifications B11, B21, and B31, which are data classifications having a distribution amount of 800 or more, as distribution data. At this time, the management apparatus 30 notifies the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ that the distribution amount of the service data of the data classifications B11, B21, and B31 is large. Further, it is assumed that the management device 30 determines data belonging to the data classifications B12, B22, and B32, which are data classifications having an importance level of 8 or more, as distribution data in step S4. At this time, the management apparatus 30 notifies the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ that the importance of the service data of the data classifications B12, B22, and B32 is high.

  The distribution process is not limited to notification of information related to distribution data. The management device 30 may acquire the distribution data determined in step S4 from the service providing server 20 (steps S6a to S6c) and store it in a storage device managed by the management device 30 (step S7).

For example, it is assumed that the management device 30 determines, in step S4, service data belonging to data classifications B11, B21, and B31, which are data classifications with a distribution amount of 800 or more, as distribution data. At this time, the management device 30 acquires service data belonging to the data classifications B11, B21, and B31 from the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ and stores them in the storage device as distribution data. For example, the management device 30 obtains the service data D11 belonging to the data classification B11 from the service providing server 20 ₁ and stored in the storage device as a distribution data. At this time, the management apparatus 30 may use the service data acquired from each service providing server 20 as shared information accessible by each service providing server 20. For example, the management device 30 may store the distribution data in a database that can be accessed by each of the plurality of service providing servers 20.

In addition, it is assumed that the management device 30 determines, in step S4, service data belonging to data classifications B12, B22, and B32 that are data classifications having an importance level of 8 or more as distribution data. At this time, the management device 30 acquires service data belonging to the data classifications B12, B22, and B32 from the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ and stores them in the storage device as distribution data. For example, the management device 30 obtains the service data D12 belonging to the data classification B12 from the service providing server 20 ₁ and stored in the storage device as a distribution data.

  The storage device that stores the distribution data may be a storage device inside the management device 30 or a storage device externally attached to the management device 30. The storage device may be a storage device for long-term storage. For example, the storage device may be a hard disk or an SSD (Solid State Drive).

  When the service data acquired from the service providing server 20 is highly important data (for example, data having an importance level of 8 or more), the management device 30 uses the service data acquired from the service providing server 20 as important information. The management may be different from other shared information. For example, the management device 30 may store the distribution data in the fastest storage area (high-speed storage area) among a plurality of storage areas for long-term storage. The high-speed storage area may be a storage device that can be accessed at the highest speed among a plurality of storage measures.

  When there is a service data transmission request from one of the service providing servers 20 (step S8), the management device 30 acquires the corresponding service data from the storage device and transmits it to the service providing server 20 (step S9). .

  When the service data is transmitted, the management device 30 may execute a process for charging the operator who operates the system that has received the transmitted service data. For example, the management device 30 calculates a billing amount for the operator based on the data amount of the transmission data. Then, the management device 30 performs processing for issuing an invoice in which the charge amount is described, processing for confirming payment from the operator, and the like. The management apparatus 30 may perform processing related to payment in cooperation with a financial institution server.

  According to the present embodiment, the management device 30 determines, as data for distribution, data that satisfies a predetermined standard among data acquired when a plurality of systems provide a service. Then, the management device 30 performs distribution processing of distribution data. As a result, each system can easily recognize and acquire service data held by other systems, and thus the management apparatus 30 can facilitate cooperation between services.

[2. Configuration example of management system)
The operation of the management apparatus according to this embodiment has been described above by taking the management system 1 including the management apparatus 30 according to this embodiment as an example. The configuration of the management system 1 will be described below. As described above, the management system 1 includes the terminal device 10, the service providing server 20, and the management device 30. The terminal device 10, the service providing server 20, and the management device 30 are connected via a network. The network is a communication network such as a LAN (Local Area Network), a WAN (Wide Area Network), a telephone network (a mobile phone network, a fixed telephone network, etc.), a regional IP (Internet Protocol) network, and the Internet. The network may include a wired network or a wireless network.

[3. Example of terminal device configuration]
FIG. 4 is a diagram illustrating a configuration example of the terminal device 10 according to the embodiment. The terminal device 10 is an information display device (information processing device) used by a user for browsing a page. The terminal device 10 is a communication terminal such as a smartphone, a tablet, or a mobile phone. The terminal device 10 may be an information processing terminal such as a personal computer (notebook PC, desktop PC) or PDA (Personal Digital Assistant) as long as it has a communication function. In this case, the information processing terminal is also a kind of communication terminal. The terminal device 10 is connected to the management device 30 via a network. As illustrated in FIG. 4, the terminal device 10 includes a communication unit 11, an input unit 12, a storage unit 13, an output unit 14, and a control unit 15. Note that the configuration shown in FIG. 4 is a functional configuration, and the hardware configuration may be different.

  The communication unit 11 is a communication interface that communicates with an external device. The communication unit 11 may be a network interface or a device connection interface. For example, the communication unit 11 may be a LAN interface such as a NIC (Network Interface Card) or a USB interface configured by a USB (Universal Serial Bus) host controller, a USB port, or the like. The communication unit 11 may be a wired interface or a wireless interface. The communication unit 11 functions as a communication unit of the terminal device 10. The communication unit 11 communicates with the management device 30 according to the control of the control unit 15.

  The input unit 12 is an input device that accepts various inputs from the outside. For example, the input unit 12 is an operation device for a user to perform various operations such as a keyboard, a mouse, and operation keys. The input unit 12 functions as an input unit of the terminal device 10. When a touch panel is adopted for the terminal device 10, the touch panel is also included in the input unit 12. In this case, the user performs various operations by touching the screen with a finger or a stylus.

  The storage unit 13 is a storage device capable of reading and writing data, such as DRAM (Dynamic Random Access Memory), SRAM (Static Random Access Memory), flash memory, and hard disk. The storage unit 13 functions as a storage unit of the terminal device 10. The storage unit 13 stores application software data such as a web browser. The user communicates with the management apparatus 30 via application software.

  The output unit 14 is a device that performs various outputs such as sound, light, vibration, and images. The output unit 14 functions as an output unit of the terminal device 10. The output unit 14 includes a display device that displays various types of information. The display device is, for example, a liquid crystal display or an organic EL (Electro Luminescence) display. When a touch panel is adopted for the terminal device 10, the display device may be integrated with the input unit 12. The output unit 14 displays an image on the screen under the control of the control unit 15.

  The controller 15 is a controller. For example, various programs stored in a storage device inside the terminal device 10 are stored in a RAM or the like by a processor such as a CPU (Central Processing Unit) or an MPU (Micro Processing Unit). This is realized by being executed as a work area. The control unit 15 is a controller, and may be realized by an integrated circuit such as an application specific integrated circuit (ASIC) or a field programmable gate array (FPGA).

[4. Configuration example of service provider server]
Next, the configuration of the service providing server 20 will be described in detail. The service providing server 20 is a server host computer (hereinafter simply referred to as “server”) that processes requests from client computers such as the terminal device 10. The service providing server 20 may be a PC server, a mid-range server, or a mainframe server. Further, the service providing server 20 may be configured by a single server, or may be configured by a plurality of servers that cooperate to execute processing. When the service providing server 20 includes a plurality of servers, the installation locations of these servers may be remote. Even if the installation locations are separated, these servers can be regarded as one service providing server as long as the processes are executed in cooperation.

  FIG. 5 is a diagram illustrating a configuration example of the service providing server 20 according to the embodiment. The service providing server 20 includes a communication unit 21, a storage unit 22, and a control unit 23. Note that the configuration shown in FIG. 5 is a functional configuration, and the hardware configuration may be different.

  The communication unit 21 is a communication interface that communicates with an external device. The communication unit 21 may be a network interface or a device connection interface. For example, the communication unit 21 may be a LAN interface such as a NIC, or a USB interface configured by a USB host controller, a USB port, or the like. The communication unit 21 may be a wired interface or a wireless interface. The communication unit 21 functions as a communication unit of the service providing server 20. The communication unit 21 communicates with the terminal device 10 and the management device 30 according to the control of the control unit 23.

  The storage unit 22 is a data readable / writable storage device such as a DRAM, SRAM, flash memory, or hard disk. The storage unit 22 functions as a storage unit of the service providing server 20. The storage unit 22 stores an acquisition information database 221.

  The acquisition information database 221 is a database that stores data (service data) acquired when the service providing server 20 provides a service to a user. The acquisition information database 221 may be an RDB or a database using a hyperscale database management system such as NoSQL. The hyperscale database management system may be NoSQL such as KVS. FIG. 6 is a diagram illustrating an example of information stored in the acquired information database 221. In the example illustrated in FIG. 6, the acquisition information database 221 includes items such as data classification and service data.

  “Data classification” indicates the type of service data. The data classification is a classification that focuses on the contents (meaning) of service data such as “user information” and “sales information” of products. In the example of FIG. 6, values such as “B1”, “B2”, and “B3” are stored in the data classification item. B1 represents the classification ID of the service data D1, B2 represents the classification ID of the service data D2, and B3 represents the classification ID of the service data D3.

  “Service data” indicates data acquired by the service providing server 20 in providing the service. In the example of FIG. 6, conceptual information such as “D1” to “D3” is stored in the service item, but user information, product sales information, and the like are stored in the service data item. May be. The service data is not limited to user information or product sales information. For example, the service data may be information on a store that opens in an online mall.

  FIG. 7 is a diagram illustrating an example of user information. The user information is an example of service data, and indicates information on a user who uses the online shopping service. The user information includes items such as a user ID, a user name, a sex, an age, and a purchased product. “User ID” is user identification information. “User name” is the name of the user indicated by the user ID. “Gender” is the gender of the user indicated by the user ID. “Age” is the age of the user indicated by the user ID. The “purchased product” is a product purchased by the user indicated by the user ID using the online shopping service.

  FIG. 8 is a diagram illustrating an example of sales information. The sales information is an example of service data, and indicates the sales status of products provided by the online shopping service. The sales information includes items such as a product ID and the number of sales. “Product ID” is product identification information provided by the online shopping service. “Number of sales” is the number of sales of the product indicated by the product ID.

  The control unit 23 is a controller, and is realized, for example, by executing various programs stored in a storage device inside the service providing server 20 using a RAM or the like as a work area by a processor such as a CPU or MPU. The control unit 23 is a controller, and may be realized by an integrated circuit such as an ASIC or FPGA, for example.

[5. Configuration example of management device)
Next, the configuration of the management device 30 will be described in detail. The management device 30 is a server host computer (hereinafter simply referred to as “server”) that processes requests from client computers such as the terminal device 10. The management device 30 may be a PC server, a midrange server, or a mainframe server. Moreover, the management apparatus 30 may be comprised by one server, and may be comprised by the some server which cooperates and performs a process. When the management apparatus 30 includes a plurality of servers, the installation locations of these servers may be separated. Even if the installation locations are separated, these servers can be regarded as one management device as long as the processes are executed in cooperation.

  FIG. 9 is a diagram illustrating a configuration example of the management apparatus 30 according to the embodiment. The management device 30 includes a communication unit 31, a storage unit 32, and a control unit 33. Note that the configuration shown in FIG. 9 is a functional configuration, and the hardware configuration may be different.

  The communication unit 31 is a communication interface that communicates with an external device. The communication unit 31 may be a network interface or a device connection interface. For example, the communication unit 31 may be a LAN interface such as a NIC, or a USB interface configured by a USB host controller, a USB port, and the like. The communication unit 31 may be a wired interface or a wireless interface. The communication unit 31 functions as a communication unit of the management device 30. The communication unit 31 communicates with the terminal device 10 according to the control of the control unit 33.

The storage unit 32 is a data readable / writable storage device such as a DRAM, SRAM, flash memory, or hard disk. The storage unit 32 functions as a storage unit of the management device 30.
The storage unit 32 stores a management information database 321, a shared information database 322, and an important information database 324. The storage unit 32 has a plurality of storage areas for storing data for a long time. The storage area is configured by, for example, a flash memory or a hard disk. At least one of the plurality of storage areas is a high-speed storage area 323 having an access speed equal to or higher than a predetermined speed. The important information database 324 is stored in the high-speed storage area 323.

  The management information database 321 is a database that records information for managing the service data held by the service providing server 20 on the management device 30 side. The management information database 321 may be an RDB or a database using a hyperscale database management system. FIG. 10 is a diagram illustrating an example of information stored in the management information database 321. In the example shown in FIG. 10, the management information database 321 has items such as system ID, data classification, distribution amount, and importance.

“System ID” indicates identification information of a system managed by the management apparatus 30. In the example of FIG. 10, values such as “20 ₁ ”, “20 ₂ ”, and “20 ₃ ” are stored in the item of system ID. "20 _1" indicates the service providing server 20 _1, "20 _2" indicates the service providing server 20 _2, "20 _3" indicates a service providing server 20 _3.

  “Data classification” indicates the type of service data. More specifically, the data classification indicates the classification of service data currently held by each system managed by the management apparatus 30. The data classification is a classification that focuses on the contents (meaning) of service data such as “user information” and “sales information” of products. In the example of FIG. 10, IDs such as “B11”, “B12”, and “B13” are stored in the data classification item. The ID stored in the data classification item is unique across a plurality of systems.

The “circulation amount” indicates the amount of service data exchanged between systems corresponding to the corresponding data classification. For example, the distribution amount indicates the transmission amount or reception amount of the corresponding service data. In the example of FIG. 10, values such as “876” and “456” are stored in the item of circulation amount. "876" indicates that the other service providing server 20 from the service providing server 20 _1, the service data belonging to data classification B11 is transmitted 876 times. "456" indicates that the service providing server 20 ₁ to other service providing server 20, the service data belonging to data classification B12 is transmitted 456 times. The item of the circulation amount may be a circulation amount in the past predetermined period (for example, the past one month).

  “Importance” indicates the degree of importance of service data classified into the corresponding data classification. For example, the importance indicates the likelihood of being needed for other systems. In the example of FIG. 10, values such as “3” and “10” are stored in the item of circulation amount. “3” in the first row indicates that the importance of the service data belonging to the data classification B11 is 3 out of 10 levels. “10” in the second row indicates that the importance of the service data belonging to the data classification B12 is 10 out of 10 levels.

  The shared information database 322 is a database that records information (distribution data) shared by a plurality of systems. The shared information database 322 may be an RDB or a database using a hyperscale database management system. The shared information database 322 can be accessed by each service providing server 20. FIG. 11 is a diagram illustrating an example of information stored in the shared information database 322. In the example shown in FIG. 11, the shared information database 322 has items such as data classification and shared data. “Data classification” is the same as the data classification of the management information database 321.

  “Shared data” indicates service data shared by a plurality of systems that provide services. In the example of FIG. 11, conceptual information such as “D11” to “D31” is stored in the shared data item. However, the shared data item includes user information as shown in FIG. Sales information or the like as shown in FIG.

  The important information database 324 is a database that records service data with high importance (for example, distribution data with importance equal to or higher than a predetermined value). The important information database 324 may be an RDB or a database using a hyperscale database management system. The important information database 324 is stored in the fastest storage area (high-speed storage area) among a plurality of storage areas for long-term storage provided in the management apparatus 30. FIG. 12 is a diagram illustrating an example of information stored in the important information database 324. In the example shown in FIG. 12, the important information database 324 has items such as data classification and important data. “Data classification” is the same as the data classification of the management information database 321.

  “Important data” indicates service data (distribution data) having an importance level of a predetermined value or more (for example, 8 or more in 10 steps). In the example of FIG. 12, conceptual information such as “D12” to “D32” is stored in the item of important data, but the user information as shown in FIG. Sales information or the like as shown in FIG.

  Returning to FIG. 9, the control unit 33 is a controller. For example, various programs stored in a storage device inside the management device 30 are executed by a processor such as a CPU or MPU using the RAM or the like as a work area. Realized. The control unit 33 is a controller and may be realized by an integrated circuit such as an ASIC or FPGA, for example.

  As illustrated in FIG. 9, the control unit 33 includes an acquisition unit 331, a determination unit 332, a management unit 333, and a billing unit 334. Blocks constituting the control unit 33 (acquisition unit 331 to billing unit 334) are functional blocks indicating functions of the control unit 33, respectively. These functional blocks may be software blocks or hardware blocks. For example, each functional block described above may be one software module realized by software (including a microprogram), or may be one circuit block on a semiconductor chip (die). Of course, each functional block may be one processor or one integrated circuit. The method of configuring the functional block is arbitrary. In addition, the control part 33 may be comprised by the functional unit different from the above-mentioned functional block.

  The acquisition unit 331 acquires information related to the distribution amount between the service providing servers 20 of the data respectively acquired by the plurality of service providing servers 20.

  The determination unit 332 determines data satisfying a predetermined criterion from among data acquired by each of the plurality of service providing servers 20 that provide a service when providing the service. At this time, the determination unit 332 determines data required by other service providing servers 20 among the plurality of service providing servers 20 among the data acquired by the service providing server 20. For example, the determination unit 332 determines data that satisfies a criterion determined based on the distribution amount among data acquired by the service providing server 20. More specifically, the determination unit 332 determines data belonging to the data classification in which the distribution amount is a predetermined amount or more from the data acquired by the service providing server 20. Or the discrimination | determination part 332 discriminate | determines the data whose importance is more than fixed among the data which the service provision server 20 acquired.

  The management unit 333 executes processing related to the distribution of data satisfying a predetermined standard between the service providing servers 20. At this time, the management unit 333 notifies the other service providing server 20 of information regarding the data determined by the determination unit 332. For example, the management unit 333 executes processing related to the distribution between the service providing servers 20 of data that satisfies the criteria determined based on the distribution amount. More specifically, the management unit 333 executes processing related to the distribution between the service providing servers 20 of data belonging to the data classification in which the distribution amount is a predetermined amount or more. In addition, the management unit 333 may execute processing related to the distribution of data having a certain importance level or more between the service providing servers 20.

  In addition, the management unit 333 stores data that satisfies a predetermined standard in a database that can be accessed by a plurality of service providing servers 20, and the management unit 333 stores data that satisfies the predetermined standard for a long time. The data is stored in the fastest storage area among a plurality of storage areas for storage. In addition, the management unit 333 executes processing for extending the storage period of data that satisfies a predetermined criterion.

  In addition, the management unit 333 transmits data that satisfies a predetermined criterion to a predetermined service providing server 20 among the plurality of service providing servers 20.

  The charging unit 334 executes processing for charging the operator who operates the service providing server 20. For example, when the management unit 333 transmits data to the predetermined service providing server 20, the charging unit 334 executes processing for charging the operator who operates the predetermined service providing server 20.

[6. Management device processing flow]
Next, a procedure of processing executed by the management apparatus 30 will be described. The management device 30 executes registration processing, transmission processing, and billing processing. The management device 30 includes a multitask OS and can execute these processes in parallel.

[6-1. registration process〕
First, the registration process will be described. FIG. 13 is a flowchart illustrating an example of the registration process. The registration process is a process for registering management information in the management information database 321. The management device 30 executes registration processing at regular time intervals (for example, every 30 minutes).

  First, the management apparatus 30 sends a transmission request for information regarding service data to each of the service providing servers 20 (step S11). For example, the management apparatus 30 acquires information on the type of service data (data classification information) held by the service providing server 20 and information on the amount of service data distributed between systems.

  Subsequently, the management device 30 determines whether information has been received from all the service providing servers 20 that have made the requests (step S12). When there is even one service providing server 20 that has not received information (step S12: No), the management apparatus 30 repeats step S12 until information is received from all the service providing servers 20.

  When information is received from all the service providing servers 20 (step S12: Yes), the management device 30 determines the distribution amount of service data based on the information acquired from the service providing server 20 (step S13). At this time, the management device 30 determines the circulation amount for each data classification.

  Further, the management device 30 determines the importance of the service data based on the information acquired from the service providing server 20 (step S14). At this time, the management device 30 determines the importance for each data classification.

  Then, the management apparatus 30 registers the information acquired in step S13 and step S14 in the management information database 321 together with information acquired from the service providing server 20 (for example, data classification information) (step S15).

Subsequently, the management device 30 makes a recommendation to the service providing server 20 based on the information registered in the management information database 321 (step S16). For example, the management device 30 determines a data classification with a circulation amount of 800 or more based on information registered in the management information database 321. In the example of FIG. 10, the data classifications B11, B21, and B31 have a circulation amount of 800 or more. The management device 30 notifies the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ that the distribution amount of the service data of the data classifications B11, B21, and B31 is large. In addition, the management device 30 determines a data classification having an importance level of 8 or more based on information registered in the management information database 321. In the example of FIG. 10, the data classification B12, B22, B32 has an importance level of 8 or more. The management device 30 notifies the service providing servers 20 ₁ , 20 ₂ , and 20 ₃ that the importance of the service data of the data classifications B12, B22, and B32 is high.

  In addition, the management device 30 acquires service data that is likely to be required in many systems from the service providing server 20 in advance and registers it in the database as distribution data (step S17). For example, the management apparatus 30 distributes service data belonging to a data classification in which the distribution amount is a predetermined amount or more (for example, the transmission amount to other systems is 800 times or more) among the data classifications registered in the management information database 321. As data for use. In addition, the management device 30 determines service data having a certain level of importance (e.g., 8 or more in 10 steps) among the data classifications registered in the management information database 321 as distribution data. Then, the management apparatus 30 acquires the corresponding service data from the service providing server 20 that holds the determined service data, and registers it in the shared information database 322 or the important information database 324.

  When the registration is completed, the management apparatus 30 ends the registration process.

[6-2. (Transmission processing)
First, the transmission process will be described. FIG. 14 is a flowchart illustrating an example of the transmission process. The transmission process is a process for transmitting service data to the service providing server 20. When the power is turned on, the management device 30 starts transmission processing.

  First, the management apparatus 30 determines whether a service data request (transmission request) including information on the data classification of service data has been received from the service providing server 20 (step S21). When the request has not been received (step S21: No), the management device 30 repeats step S21 until the request is received.

  When the request is received (step S21: Yes), the management apparatus 30 acquires the service data requested from the service providing server 20 (step S22). If the requested service data is registered in the shared information database 322 or the important information database 324, the management apparatus 30 acquires the corresponding service data from the shared information database 322 or the important information database 324. If the requested service data is not registered in the shared information database 322 or the important information database 324, the management apparatus 30 acquires the corresponding service data from the service providing server 20 that holds the requested service data.

  And the management apparatus 30 transmits the service data acquired by step S23 to the service provision server 20 (step S23). When the transmission is completed, the management device 30 ends the transmission process.

[6-3. (Billing process)
Next, the accounting process will be described. FIG. 15 is a flowchart illustrating an example of the billing process. The charging process is a process for charging the system operator. When the power is turned on, the management device 30 starts a billing process.

  First, the management device 30 determines whether a billing date has arrived (step S31). The billing date may be the same date for a plurality of operators. For example, the billing date may be the end of the month. When the billing date has not arrived (step S31: No), the management device 30 repeats the process of step S31 until the billing date has arrived.

  When the billing date has arrived (step S31: Yes), the management device 30 calculates the billing amount based on the service data transmission history and the like (step S32). The management device 30 may calculate the billing amount based on the number of service data transmissions.

  And the management apparatus 30 performs the accounting process with respect to the operator of a system (service provision server 20) (step S33). For example, the management device 30 performs processing for issuing an invoice in which a charge amount is described, processing for confirming payment from a notification user, and the like.

  When the accounting process is completed, the management device 30 returns to step S31 and waits for the accounting date.

[7. (Modification)
The above-described embodiment shows an example, and various changes and applications are possible.

  In the above-described embodiment, the management apparatus 30 registers service data that satisfies a predetermined standard (for example, data whose distribution amount or importance is a certain level or more) in the shared information database 322 or the important information database. However, the management apparatus 30 may execute a process for extending the storage period of service data that satisfies a predetermined criterion. For example, the management apparatus 30 may instruct the service providing server 20 that holds the corresponding service data to extend the storage period of the corresponding service data (for example, from one year to three years). Simply, the management apparatus 30 may extend the storage period of service data managed by itself.

  For example, in the above-described embodiment, the management device 30 determines the importance of service data based on the distribution amount or the like, but the importance determination method is not limited to the above. For example, the management device 30 obtains information (for example, KPI (Key Performance Indicator)) related to service provision from the service providing server 20 at regular intervals (for example, every month). Then, the degree of importance of the predetermined service data may be determined based on a change in performance before and after provision of the predetermined service data.

  Further, in the above-described embodiment, the management device 30 calculates the amount charged to the operator based on the number of times service data is transmitted. However, the management device 30 may calculate the charge amount based on the change in the performance before and after the provision of the service data.

  In the above-described embodiment, the management information database 321 is updated at regular time intervals. The management information database 321 may be updated when specific service data is registered in the database of the service providing server 20. For example, when specific service data is registered in the acquisition information database 221, the management apparatus 30 may be updated by receiving a registration notification from the service providing server 20. The shared information database 322 and the important information database 324 may also be updated when specific service data is registered in the database of the service providing server 20.

  The control device that controls the management device 30 of the present embodiment may be realized by a dedicated computer system or may be realized by a normal computer system. For example, a program for executing the above-described operation is stored and distributed in a computer-readable recording medium such as an optical disk, a semiconductor memory, a magnetic tape, or a flexible disk, the program is installed in the computer, and the above-described processing is performed. You may comprise a control apparatus by performing. The control device may be an external device (for example, a personal computer) of the management device 30 or an internal device (for example, the control unit 33). Further, the program may be stored in a disk device provided in a server device on a network such as the Internet so that it can be downloaded to a computer. Further, the above-described functions may be realized by cooperation between an OS (Operating System) and application software. In this case, a part other than the OS may be stored and distributed in a medium, or a part other than the OS may be stored in a server device and downloaded to a computer.

  In addition, among the processes described in the above embodiments, all or a part of the processes described as being automatically performed can be manually performed, or the processes described as being manually performed All or a part of the above can be automatically performed by a known method. In addition, the processing procedures, specific names, and information including various data and parameters shown in the document and drawings can be arbitrarily changed unless otherwise specified. For example, the various types of information illustrated in each drawing is not limited to the illustrated information.

  Further, each component of each illustrated apparatus is functionally conceptual, and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each device is not limited to that shown in the figure, and all or a part thereof may be functionally or physically distributed or arbitrarily distributed in arbitrary units according to various loads or usage conditions. Can be integrated and configured.

  Moreover, each embodiment mentioned above can be combined suitably in the range which does not contradict a process content.

[8. Hardware configuration)
The management apparatus 30 according to the embodiment and the modification can be realized by a computer 1000 having a configuration as shown in FIG. FIG. 16 is a hardware configuration diagram illustrating an example of a computer that realizes the function of the management apparatus 30. The computer 1000 includes a CPU (Central Processing Unit) 1100, a RAM 1200, a ROM 1300, an HDD (Hard Disk Drive) 1400, a communication interface (I / F) 1500, an input / output interface (I / F) 1600, and a media interface (I / F). ) 1700.

  The CPU 1100 operates based on a program stored in the ROM 1300 or the HDD 1400 and controls each unit. The ROM 1300 stores a boot program executed by the CPU 1100 when the computer 1000 is started up, a program depending on the hardware of the computer 1000, and the like.

  The HDD 1400 stores programs executed by the CPU 1100, data used by the programs, and the like. The communication interface 1500 receives data from other devices via the network N and sends the data to the CPU 1100, and transmits data generated by the CPU 1100 to other devices via the network N.

  The CPU 1100 controls an output device such as a display and a printer and an input device such as a keyboard and a mouse via an input / output interface 1600. The CPU 1100 acquires data from the input device via the input / output interface 1600. In addition, the CPU 1100 outputs the generated data to the output device via the input / output interface 1600.

  The media interface 1700 reads a program or data stored in the recording medium 1800 and provides it to the CPU 1100 via the RAM 1200. The CPU 1100 loads such a program from the recording medium 1800 onto the RAM 1200 via the media interface 1700, and executes the loaded program. The recording medium 1800 is, for example, an optical recording medium such as a DVD (Digital Versatile Disc) or PD (Phase change rewritable disk), a magneto-optical recording medium such as an MO (Magneto-Optical disk), a tape medium, a magnetic recording medium, or a semiconductor memory. Etc.

  For example, when the computer 1000 functions as the management apparatus 30 according to the embodiment, the CPU 1100 of the computer 1000 implements the control unit 33 by executing a program loaded on the RAM 1200. The CPU 1100 of the computer 1000 reads these programs from the recording medium 1800 and executes them. However, as another example, these programs may be acquired from other devices via the network N.

  As described above, some of the embodiments of the present application have been described in detail with reference to the drawings. However, these are merely examples, and various modifications based on the knowledge of those skilled in the art, including the aspects described in the disclosure line of the invention. It is possible to implement the present invention in other forms with improvements.

[9. effect〕
According to the present embodiment, the management device 30 determines data that satisfies a predetermined criterion from among data acquired by a plurality of systems that provide services, respectively, in providing the services. And the management apparatus 30 performs the process regarding the distribution | circulation between the systems of the data which satisfy | fill a predetermined standard. For example, the management device 30 determines data required by other systems among a plurality of systems among the data acquired by the system, and notifies other systems of information regarding the determined data. As a result, each system can easily recognize and acquire service data held by other systems, thereby facilitating cooperation between services.

  In addition, the management device 30 acquires information related to the amount of distribution between systems of data acquired by a plurality of systems. And the management apparatus 30 discriminate | determines the data which satisfy | fill the criteria defined based on the distribution amount among the data which the system acquired. The management device 30 executes processing related to the distribution between data systems that satisfy the criteria determined based on the distribution amount. For example, the management device 30 determines data belonging to a data category whose distribution amount is a predetermined amount or more from the data acquired by the system, and performs processing related to distribution between data of data belonging to the data category whose distribution amount is a predetermined amount or more. Execute. Thereby, each system can easily recognize data having a large distribution amount among service data held by other systems.

  In addition, the management device 30 determines data having a certain degree of importance or higher from the data acquired by the system. The management device 30 executes processing related to the distribution of data having a certain degree of importance or more between systems. Thereby, each system can easily recognize data having high importance among service data held by other systems.

  The management device 30 stores data that satisfies a predetermined standard in a database that can be accessed by any of the plurality of systems. Thereby, each system can easily obtain service data held by other systems.

  The management device 30 stores data that satisfies a predetermined criterion in the fastest storage area among a plurality of storage areas for storing the data for a long period of time. As a result, each system can quickly obtain service data held by other systems.

  The management device 30 executes a process for extending the storage period of data that satisfies a predetermined criterion. Thereby, each system can acquire service data held by other systems over a long period of time.

  The management device 30 transmits data that satisfies a predetermined criterion to a predetermined system among a plurality of systems. When the management apparatus 30 transmits data to a predetermined system, the management apparatus 30 executes processing for charging an operator who operates the predetermined system. Thereby, the operator of each system can obtain the price for providing data. Since many operators provide data, data distribution between systems becomes active.

  As described above, some of the embodiments of the present application have been described in detail with reference to the drawings. However, these are merely examples, and various modifications, including the aspects described in the disclosure section of the invention, based on the knowledge of those skilled in the art, It is possible to implement the present invention in other forms with improvements.

  In addition, the “section (module, unit)” described above can be read as “means” or “circuit”. For example, the management unit can be read as management means or a management circuit.

DESCRIPTION OF SYMBOLS 1 ... Management system 10, 10 ₁ , 10 ₂ , 10 ₃ ... Terminal device 11, 21, 31 ... Communication part 12 ... Input part 13, 22, 32 ... Storage part 14 ... Output part 15, 23, 33 ... Control part 20 , 20 ₁ , 20 ₂ , 20 ₃ ... service providing server 221 ... acquisition information database 30 ... management device 321 ... management information database 322 ... shared information database 323 ... high-speed storage area 324 ... important information database 331 ... acquisition unit 332 ... determination unit 333 ... Management unit 334 ... Billing unit

Claims (15)

An acquisition unit that acquires information on the amount of circulation between the systems of data acquired by each of a plurality of systems that provide services;
A discriminating unit for discriminating data satisfying a standard determined based on the circulation amount among the data acquired by the system;
A management unit for notifying other systems in the plurality of systems of information related to data satisfying the criteria determined based on the circulation amount;
A management apparatus comprising: An acquisition unit that acquires information on the amount of circulation between the systems of data acquired by each of a plurality of systems that provide services;
A discriminating unit for discriminating data satisfying a standard determined based on the circulation amount among the data acquired by the system;
A management unit that stores data satisfying the criteria determined based on the circulation amount in a database accessible by the plurality of systems;
A management apparatus comprising: An acquisition unit that acquires information on the amount of circulation between the systems of data acquired by each of a plurality of systems that provide services;
A discriminating unit for discriminating data satisfying a standard determined based on the circulation amount among the data acquired by the system;
A management unit that saves data that satisfies a standard defined based on the circulation amount in a fastest storage area among a plurality of storage areas for long-term storage of the data;
A management apparatus comprising: An acquisition unit that acquires information on the amount of circulation between the systems of data acquired by each of a plurality of systems that provide services;
A discriminating unit for discriminating data satisfying a standard determined based on the circulation amount among the data acquired by the system;
A management unit that executes a process for extending a storage period of data that satisfies a standard defined based on the distribution amount;
A management apparatus comprising: An acquisition unit that acquires information on the amount of circulation between the systems of data acquired by each of a plurality of systems that provide services;
A discriminating unit for discriminating data satisfying a standard determined based on the circulation amount among the data acquired by the system;
A management unit that transmits data satisfying a standard defined based on the distribution amount to a predetermined system of the plurality of systems;
When the management unit transmits data to the predetermined system, a charging unit that executes processing for charging the operator who operates the predetermined system;
A management apparatus comprising: A management method executed by a management device,
An acquisition step of acquiring information relating to a circulation amount between the systems of data acquired by a plurality of systems each providing a service;
A determination step of determining data satisfying a standard determined based on the circulation amount among data acquired by the system;
A management step of notifying other systems in the plurality of systems of information related to data satisfying the criteria determined based on the circulation amount;
The management method characterized by including. A management method executed by a management device,
An acquisition step of acquiring information relating to a circulation amount between the systems of data acquired by a plurality of systems each providing a service;
A determination step of determining data satisfying a standard determined based on the circulation amount among data acquired by the system;
A management step of storing data satisfying a standard determined based on the circulation volume in a database accessible by all of the plurality of systems;
The management method characterized by including. A management method executed by a management device,
An acquisition step of acquiring information relating to a circulation amount between the systems of data acquired by a plurality of systems each providing a service;
A determination step of determining data satisfying a standard determined based on the circulation amount among data acquired by the system;
A management process for storing data satisfying the criteria determined based on the circulation amount in the fastest storage area among a plurality of storage areas for storing the data for a long period of time;
The management method characterized by including. A management method executed by a management device,
An acquisition step of acquiring information relating to a circulation amount between the systems of data acquired by a plurality of systems each providing a service;
A determination step of determining data satisfying a standard determined based on the circulation amount among data acquired by the system;
A management process for executing a process for extending a storage period of data that satisfies a standard determined based on the distribution amount;
The management method characterized by including. A management method executed by a management device,
An acquisition step of acquiring information relating to a circulation amount between the systems of data acquired by a plurality of systems each providing a service;
A determination step of determining data satisfying a standard determined based on the circulation amount among data acquired by the system;
A management step of transmitting data satisfying a standard defined based on the distribution amount to a predetermined system of the plurality of systems;
In the case where data is transmitted to the predetermined system in the management step, a charging step for executing processing for charging an operator who operates the predetermined system;
The management method characterized by including. An acquisition procedure for acquiring information related to the distribution amount between the systems of data acquired by a plurality of systems each providing a service,
A discrimination procedure for discriminating data satisfying a standard determined based on the circulation amount among data acquired by the system,
A management procedure for notifying other systems in the plurality of systems of information related to data satisfying the criteria determined based on the circulation amount;
A program that causes a computer to execute. An acquisition procedure for acquiring information related to the distribution amount between the systems of data acquired by a plurality of systems each providing a service,
A discrimination procedure for discriminating data satisfying a standard determined based on the circulation amount among data acquired by the system,
A management procedure for storing data satisfying the criteria determined based on the circulation volume in a database accessible by all of the plurality of systems;
A program that causes a computer to execute. An acquisition procedure for acquiring information related to the distribution amount between the systems of data acquired by a plurality of systems each providing a service,
A discrimination procedure for discriminating data satisfying a standard determined based on the circulation amount among data acquired by the system,
A management procedure for storing data satisfying the criteria determined based on the circulation amount in the fastest storage area among a plurality of storage areas for storing the data for a long period of time;
A program that causes a computer to execute. An acquisition procedure for acquiring information related to the distribution amount between the systems of data acquired by a plurality of systems each providing a service,
A discrimination procedure for discriminating data satisfying a standard determined based on the circulation amount among data acquired by the system,
A management procedure for executing a process for extending the retention period of data that satisfies the criteria determined based on the circulation amount;
A program that causes a computer to execute. An acquisition procedure for acquiring information related to the distribution amount between the systems of data acquired by a plurality of systems each providing a service,
A discrimination procedure for discriminating data satisfying a standard determined based on the circulation amount among data acquired by the system,
A management procedure for transmitting data satisfying a standard defined based on the distribution amount to a predetermined system of the plurality of systems;
When data is transmitted to the predetermined system in the management procedure, a charging procedure for executing processing for charging an operator operating the predetermined system;
A program that causes a computer to execute.

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