CN111126946B - Modeling method and device for data tracing of informatization system - Google Patents

Abstract

The invention discloses a modeling method and a device for tracing data of an informationized system, wherein the modeling method comprises the following steps: each informatization system is marked uniquely in sequence, and all business processes corresponding to each informatization system, all events corresponding to each business process and objects corresponding to each event are marked uniquely; each informatization system is associated with all business processes corresponding to the informatization system, each business process is associated with all events corresponding to the business process, and each event is associated with all objects corresponding to the business process. The invention realizes the data tracing standardization among different informationized systems and is beneficial to the data tracing standardization among different informationized systems and even the whole industry.

Description

Modeling method and device for data tracing of informatization system

Technical Field

The invention relates to the technical field of data tracing application, in particular to a modeling method and device for data tracing of an informatization system.

Background

The informatization system (Information system) is a man-machine integrated system which is composed of computer hardware, network and communication equipment, computer software, information resources, information users and regulations and aims to process information flow. Informationized systems have mainly five basic functions, namely input, storage, processing, output and control of information. Informationized systems have undergone three stages of development, namely simple data processing information systems, isolated business management information systems, and integrated intelligent information systems. At present, the data tracing mode mainly comprises two modes of manual tracing and log tracing.

The manual tracing mode is to query part of information in the existing paper record or electronic record according to the current situation of the problem and by combining with the experience of a service person. The method is characterized in that the query lacks a hierarchy, the data record may be incomplete, the condition of evidence chain breakage may occur, and the whole process is time-consuming and labor-consuming, so that the problem is difficult to solve. The log tracing mode is to record the operation log mode, such as what person records, what things are done at what time, and only a specific case of recording an event, including an event and a part of objects, does not completely describe the whole event and all related objects thereof, and cannot express the relationship between the event and other events, and cannot learn the process and the informatization system to which the event belongs, so that the whole process tracing cannot be performed. Prior art informationized systems, such as panning, can view snapshots of transactions, but do so for all data in the overall system, which has disadvantages. Most of the prior informatization systems are modified and stored on the basis of original data, and all historical data and historical versions of all data cannot be reproduced in a structured manner.

Disclosure of Invention

The embodiment of the invention provides a modeling method and a modeling device for data tracing of an informatization system, which are used for solving the following problems in the prior art: the manual tracing mode cannot quickly trace back to the hierarchy needing tracing, if the data evidence chain breakage also causes poor reliability and efficiency of data tracing, the log tracing mode is only one specific special case of the recorded event, the relation between the event and other events cannot be expressed, the process and the informatization system of the event cannot be known, and the whole process tracing cannot be performed.

In order to solve the technical problems, a first technical scheme adopted by the embodiment of the invention is as follows:

a modeling method for data trace back of an informationized system, comprising: each informatization system is marked uniquely in sequence, and all business processes corresponding to each informatization system, all events corresponding to each business process and objects corresponding to each event are marked uniquely; each informatization system is respectively associated with all business processes corresponding to the informatization system, each business process is associated with all events corresponding to the business processes, and each event is associated with all objects corresponding to the events.

Optionally, the uniquely marking each informationized system in turn, and uniquely marking all service processes corresponding to each informationized system, all events corresponding to each service process, and objects corresponding to each event respectively, including: coding each informatization system to make the corresponding codes of each informatization system be unique first type codes; coding all the business processes corresponding to each informatization system, so that the codes of each business process are unique codes of a second type; coding all the events corresponding to each business process, so that the codes of each event are unique third-class codes; and coding all the objects corresponding to each event so that the code of each object is a unique fourth class code.

Optionally, the associating each of the informationized systems with all of the business processes corresponding thereto, each of the business processes with all of the events corresponding thereto, and each of the events with all of the objects corresponding thereto respectively includes: and respectively associating all the second type codes with the first type codes corresponding to the second type codes, associating all the third type codes with the second type codes corresponding to the third type codes, and associating all the fourth type codes with the third type codes corresponding to the fourth type codes.

Optionally, before uniquely marking each of the business processes, the method includes: judging whether the business process to be uniquely marked belongs to an atomic-level process or not, wherein the atomic-level process does not comprise any subprocess; if yes, the business process to be uniquely marked is uniquely marked.

Optionally, the determining whether the business process to be uniquely marked belongs to an atomic level process includes: judging whether the business process to be uniquely marked consists of an independent event and a flow event at the same time; if yes, judging that the business process to be uniquely marked does not belong to the atomic level process.

Optionally, after the encoding of all the objects corresponding to each of the events, the method includes: and acquiring the attribute type of each object, wherein the attribute type of each object comprises a basic attribute type and an extended attribute type.

Optionally, after associating each business process with all the events corresponding to the business process and associating each event with all the objects corresponding to the business process, the method includes: and matching the time of each event with the time of the attribute value change of the corresponding object one by one.

In order to solve the technical problems, a second technical scheme adopted by the embodiment of the invention is as follows:

a modeling apparatus for data trace back of an informationized system, comprising: the marking module is used for carrying out unique marking on each informatization system in sequence, and carrying out unique marking on all business processes corresponding to each informatization system, all events corresponding to each business process and objects corresponding to each event respectively; and the association module is used for respectively associating each informatization system with all corresponding business processes, associating each business process with all corresponding events and associating each event with all corresponding objects.

In order to solve the above technical problems, a third technical solution adopted in the embodiment of the present invention is as follows:

a computer readable storage medium having stored thereon a computer program which when executed implements a modeling method of data trace back of an informationized system as described above.

In order to solve the above technical problems, a fourth technical solution adopted in the embodiment of the present invention is as follows:

a computer device comprising a processor, a memory and a computer program stored on the memory and executable on the processor, the processor implementing a modeling method for data trace back of an informationized system as described above when executing the computer program.

The embodiment of the invention has the beneficial effects that: different from the situation of the prior art, the embodiment of the invention solves the following problems in the prior art by sequentially uniquely marking each informationized system, respectively uniquely marking all business processes corresponding to each informationized system, all events corresponding to each business process and objects corresponding to each event, respectively associating each informationized system with all business processes corresponding to each informationized system, associating each business process with all events corresponding to each business process and associating each event with all objects corresponding to each business process, respectively: the manual tracing mode cannot quickly trace back to the hierarchy needing tracing, if the data evidence chain breakage also causes poor reliability and efficiency of data tracing, the log tracing mode is only one specific special case of the recorded event, the relation between the event and other events cannot be expressed, the process and the informatization system of the event cannot be known, and the whole process tracing cannot be performed. The invention realizes the data tracing standardization among different informationized systems and is beneficial to the data tracing standardization among different informationized systems and even the whole industry.

Drawings

FIG. 1 is a flowchart illustrating an implementation of a modeling method for data trace back of an information-based system according to an embodiment of the present invention;

FIG. 2 is a partial structure frame diagram of an embodiment of a modeling apparatus for data trace back of an informationized system according to a second embodiment of the present invention;

FIG. 3 is a partial structural framework of an implementation of a computer readable storage medium according to a third embodiment of the present invention;

FIG. 4 is a partial structural frame diagram of an implementation of a computer device according to a fourth embodiment of the present invention.

Detailed Description

Example 1

Referring to fig. 1, fig. 1 is a flowchart of an implementation of a modeling method for tracing back data of an informationized system according to an embodiment of the present invention, and can be obtained by combining fig. 1, a modeling method for tracing back data of an informationized system according to the present invention includes:

step S101: and carrying out unique marking on each informatization system in turn, and respectively carrying out unique marking on all business processes corresponding to each informatization system, all events corresponding to each business process and objects corresponding to each event.

Step S102: each informatization system is respectively associated with all business processes corresponding to the informatization system, each business process is associated with all events corresponding to the business processes, and each event is associated with all objects corresponding to the events.

In this embodiment, a business process refers to a process including a plurality of events, for example, a business process or scenario of "completing a cell detection task", including at least 4 flow events, namely "business registration- > business acceptance- > cell detection- > data audit". An object is related to a wide range of things such as people, things (e.g., blood samples, etc.), equipment, environmental factors, and methods. The object contains object properties such as the name and age of the person, etc.

In this embodiment, optionally, the uniquely marking each information system in turn, and uniquely marking all service processes corresponding to each information system, all events corresponding to each service process, and objects corresponding to each event respectively, includes:

firstly, each informatization system is encoded, so that the corresponding code of each informatization system is a unique first type code.

Secondly, coding all the business processes corresponding to each informatization system, so that the codes of each business process are unique codes of a second type.

Thirdly, all the events corresponding to each business process are coded, so that the codes of each event are unique third-class codes, and all the events belong to the business process to which the event belongs.

Fourth, all the objects corresponding to each event are coded, so that the coding of each object is a unique fourth class coding.

In summary, the code corresponding to each informatization system is unique, the code corresponding to each business process is unique, the code corresponding to each event is unique, and the code corresponding to each object is also unique.

Wherein the encoding from the business process to the object and its related content are exemplified as follows:

1. business process: cell detection tasks, encoding: p001;

2. event 1: service registration, coding: ET001, time of occurrence: 12 months 2019, 12 th 9 th 12 minutes 12 seconds 012 milliseconds.

Event 2: business acceptance, coding: ET002, time of occurrence: 12 th month 12 2019, 10 th spot 12 minutes 12 seconds 012 milliseconds.

Event 3: cell detection, encoding: ET003, time of occurrence: 12 th month 12 2019, 11 th spot 12 minutes 12 seconds 012 milliseconds.

Event 4: data auditing and coding: ET004, time of occurrence: 12 th month 12 of 2019 12 th minute 12 second 012 ms.

3. Object 1: employee, type: human, code: OB001, object base attribute-name: zhang III, sex: male, age: 23, object extension attribute—occupation: cell detection engineers, skills: and (5) cell detection.

Object 2: cell type: cells, encoding: OB101, object base attribute-name: mesenchymal stem cells, object expansion property-detection time: 12 th month 12 of 2019 12 th minute 12 second 012 ms.

In this embodiment, optionally, the associating each of the informationized systems with all the business processes corresponding thereto, associating each of the business processes with all the events corresponding thereto, and associating each of the events with all the objects corresponding thereto respectively includes:

and respectively associating all the second type codes with the first type codes corresponding to the second type codes, associating all the third type codes with the second type codes corresponding to the third type codes, and associating all the fourth type codes with the third type codes corresponding to the fourth type codes.

In this embodiment, optionally, when defining the business process, the informationized system and the responsible party for construction thereof are first coded uniquely, and then the business scenario or business process (in this embodiment, the business process is described in a unified manner) to be implemented by the informationized system is identified and defined in advance. The business process is identified and defined with reference to use case analysis steps in a UML (Unified Modeling Language, unified modeling language, or standard modeling language) model. Each business process is allocated with a unique code corresponding to the unique code, the code of the business process is associated with the unique code of the informatization system, and the defined business process is used as a basic condition of full-flow retrospective modeling. Unlike the use case in the UML model, the business process defined herein is an atomic-level process, in which sub-processes cannot be included.

In this embodiment, optionally, when defining an event, the business process is subdivided, a series of procedural or independent events occurring therein are identified, recorded, and the events are uniquely encoded. Each event includes two basic attributes of the time and spatial location of the event occurrence, where spatial location may refer to the actual location in three-dimensional space or a virtually digitized location. The business process can be identified and divided into two types, one type consists of a flow event or a time sequence event with an association relationship, and the other type consists of an independent event without an association relationship, and the identified business process type needs to be recorded as an attribute of the process. If during the process of identifying an event, it is found that a business process may consist of both an independent event and a procedural event, then it is considered that the identified business process is not atomized and the business process should be redefined until the business process is no longer split into sub-processes.

In this embodiment, optionally, before uniquely marking each of the business processes, the method includes:

first, it is determined whether the business process to be uniquely marked belongs to an atomic-level process, wherein the atomic-level process does not include any sub-process.

Secondly, if the business process to be uniquely marked belongs to an atomic level process, the business process to be uniquely marked is uniquely marked.

In this embodiment, optionally, the determining whether the business process to be uniquely marked belongs to an atomic level process includes:

first, it is determined whether the business process to be uniquely marked consists of an independent event and a procedural event at the same time. The process events refer to a sequence relationship or a logic relationship among the process events in the whole business process, for example, the process has a "leave application" before a "leave audit". An orphaned event refers to a logical relationship, such as "print articles", or the like, where there is no precedence relationship or necessity between events in the business process in which it is located.

Second, if the business process to be uniquely marked consists of an independent event and a procedural event at the same time, it is determined that the business process to be uniquely marked does not belong to the atomic-level process.

In this embodiment, optionally, after the encoding of all the objects corresponding to each of the events, the method includes:

and acquiring the attribute type of each object, wherein the attribute type of each object comprises a basic attribute type and an extended attribute type. The basic attribute refers to an object name, an object type and the like. And recording the identified object and the attribute thereof, wherein in the process of defining the object, if the object is defined, the object is not required to be defined again, and only snapshot data such as the attribute, the attribute value and the change time of the attribute in the associated event are required to be recorded. The method for realizing the non-covering of the early attribute value of the object is as follows: the addition, deletion and modification of the data are recorded as a new piece of data, and the new data have the self-generated time stamp and unique code. By unique encoding and time stamping, one can distinguish between an object and all its historical snapshots. In addition, the time of object generation and object attribute value change should be consistent with the occurrence time of the event associated with the object. Taking the quality management field as an example, each event corresponds to an object of 5 factors of people, machines, materials, methods and rings.

In this embodiment, optionally, after associating each of the business processes with all the corresponding events and associating each of the events with all the corresponding objects, the method includes:

and matching the time of each event with the time of the attribute value change of the corresponding object one by one, specifically, matching and associating the time point of one event with the time point of the last snapshot data generation of all the objects corresponding to the event at the time point or before the time point. So far, when an event occurs, the information state of the event and all the associated objects at the time can be stored in the informatization system like a photo. For example, taking the time point of occurrence of ET003 (event) as 2019, 11, 12 minutes, 12 seconds and 012 milliseconds, finding the last snapshot data of OB101 (cells) at this time point or before, and additionally finding the last snapshot data of OB001 (staff) at this time point or before (such as staff information snapshot data of 2019, 11, 10), and matching them together. Here, the matching is also an association relationship in nature, and all codes and association relationships in this embodiment are recorded in the informatization system at the same time when the codes or association occurs. The snapshot data mainly refers to data introduction before an event, for example, when an order is placed on a panned baby, the order is opened after 3 months, and when the commodity is purchased 3 months before being seen, detailed information on a commodity detail page is the 'snapshot data' of the commodity. For example, when an employee enters the job two days ago and the post changes two days later, the detailed information of the employee when the employee enters the job two days ago is snapshot data of the employee information two days ago.

The application trace of the embodiment of the invention is exemplified as follows:

after the modeling preparation work is finished, the following scenario can be traced through a corresponding tracing inquiry method: conditions are provided for tracing the whole flow service among different systems, different service processes, different events and different objects. Such as this example: tracing according to the object A, tracing and inquiring a page in a system, and inputting the ID of the object A: OB001, the system arranges according to a certain time sequence (reverse order or sequence) all the events associated with the A object, and outputs to the user query interface. In this process, if the user traces back to a certain shown event ET001, the system outputs the process P001 to which the event belongs, all the associated objects (OB 123, OB124 and OB 230) to the user interface, and the user traces back more deeply according to the network structure of P001 or OB 123. Finally, if the object is traced, all the object snapshot data corresponding to the time stamp can be checked on the user interface because the object has snapshot data, so that the historical data of all the objects can be checked in the whole system, and the tracing in the real sense is realized.

At present, when a common traceability system or traceability module is used for designing a service log function, the service process and quality factors are generally summarized according to the service flow of an enterprise, and the related service process and quality factors are recorded in an informatization system in a conventional log mode. However, there are the following problems when the information system performs business process logging: 1. the problem of how to unify the standard of business process data among informationized systems is not considered; 2. there is no way to relate together in a standardized fashion the objects involved in a business process; 3. the problem of how to correlate events related to a business process is not solved; 4. the problem of how the system retains snapshot data of the business process and stores it in an extensible form is not solved; 5. the problem of expansibility is not caused when the application is traced.

Aiming at the problems, the embodiment of the invention carries out unique marking on each informationized system in turn and respectively carries out unique marking on all business processes corresponding to each informationized system, all events corresponding to each business process and objects corresponding to each event, and then, respectively associating each informatization system with all corresponding business processes, associating each business process with all corresponding events and associating each event with all corresponding objects, thereby solving the following problems in the prior art: the manual tracing mode cannot quickly trace back to the hierarchy needing tracing, if the data evidence chain breakage also causes poor reliability and efficiency of data tracing, the log tracing mode is only one specific special case of the recorded event, the relation between the event and other events cannot be expressed, the process and the informatization system of the event cannot be known, and the whole process tracing cannot be performed. The invention realizes the data tracing standardization among different informationized systems and is beneficial to the data tracing standardization among different informationized systems and even the whole industry.

Example two

Referring to fig. 2, fig. 2 is a partial structural frame diagram of a modeling apparatus 100 for tracing back data of an informationized system according to an embodiment of the present invention, and as can be obtained with reference to fig. 2, the modeling apparatus 100 for tracing back data of an informationized system according to the present invention includes:

the marking module 110 is configured to perform unique marking on each informatization system in turn, and perform unique marking on all service processes corresponding to each informatization system, all events corresponding to each service process, and objects corresponding to each event, respectively.

And the association module 120 is configured to associate each of the informatization systems with all of the business processes corresponding to the informatization systems, associate each of the business processes with all of the events corresponding to the business processes, and associate each of the events with all of the objects corresponding to the events, respectively.

In this embodiment, optionally, the uniquely marking each information system in turn, and uniquely marking all service processes corresponding to each information system, all events corresponding to each service process, and objects corresponding to each event respectively, includes:

firstly, each informatization system is encoded, so that the corresponding code of each informatization system is a unique first type code.

Secondly, coding all the business processes corresponding to each informatization system, so that the codes of each business process are unique codes of a second type.

Thirdly, all the events corresponding to each business process are coded, so that the codes of each event are unique third-class codes.

Fourth, all the objects corresponding to each event are coded, so that the coding of each object is a unique fourth class coding.

In this embodiment, optionally, the associating each of the informationized systems with all the business processes corresponding thereto, associating each of the business processes with all the events corresponding thereto, and associating each of the events with all the objects corresponding thereto respectively includes:

and respectively associating all the second type codes with the first type codes corresponding to the second type codes, associating all the third type codes with the second type codes corresponding to the third type codes, and associating all the fourth type codes with the third type codes corresponding to the fourth type codes.

The embodiment of the invention solves the following problems in the prior art by sequentially carrying out unique marking on each informationized system, respectively carrying out unique marking on all business processes corresponding to each informationized system, all events corresponding to each business process and objects corresponding to each event, respectively associating each informationized system with all business processes corresponding to each informationized system, associating each business process with all events corresponding to each business process and associating each event with all objects corresponding to each business process, and further respectively carrying out association on all events corresponding to each informationized system and each object corresponding to each business process: the manual tracing mode cannot quickly trace back to the hierarchy needing tracing, if the data evidence chain breakage also causes poor reliability and efficiency of data tracing, the log tracing mode is only one specific special case of the recorded event, the relation between the event and other events cannot be expressed, the process and the informatization system of the event cannot be known, and the whole process tracing cannot be performed. The invention realizes the data tracing standardization among different informationized systems and is beneficial to the data tracing standardization among different informationized systems and even the whole industry.

Example III

Referring to fig. 3, a computer readable storage medium 10 according to an embodiment of the present invention may be seen, where the computer readable storage medium 10 includes: ROM/RAM, magnetic disk, optical disk, etc., on which a computer program 11 is stored, said computer program 11, when executed, implementing the modeling method of the data trace back of the informationized system as described in embodiment one. Since the modeling method of the data trace back of the informationized system has been described in detail in the first embodiment, a description thereof will not be repeated here.

According to the modeling method for the data tracing of the informationized system, which is realized by the embodiment of the invention, each informationized system is marked uniquely in sequence, all business processes corresponding to each informationized system, all events corresponding to each business process and objects corresponding to each event are marked uniquely, each informationized system is associated with all business processes corresponding to each informationized system, all events corresponding to each business process are associated with each business process, and each event is associated with all objects corresponding to each business process, so that the following problems in the prior art are solved: the manual tracing mode cannot quickly trace back to the hierarchy needing tracing, if the data evidence chain breakage also causes poor reliability and efficiency of data tracing, the log tracing mode is only one specific special case of the recorded event, the relation between the event and other events cannot be expressed, the process and the informatization system of the event cannot be known, and the whole process tracing cannot be performed. The invention realizes the data tracing standardization among different informationized systems and is beneficial to the data tracing standardization among different informationized systems and even the whole industry.

Example IV

Referring to fig. 4, a computer device 20 according to an embodiment of the present invention includes a processor 21, a memory 22, and a computer program 221 stored in the memory 22 and capable of running on the processor 21, where the processor 21 implements the modeling method for tracing the data of the informationized system according to the first embodiment when executing the computer program 221. Since the modeling method of the data trace back of the informationized system has been described in detail in the first embodiment, a description thereof will not be repeated here.

According to the modeling method for the data tracing of the informationized system, which is realized by the embodiment of the invention, each informationized system is marked uniquely in sequence, all business processes corresponding to each informationized system, all events corresponding to each business process and objects corresponding to each event are marked uniquely, each informationized system is associated with all business processes corresponding to each informationized system, all events corresponding to each business process are associated with each business process, and each event is associated with all objects corresponding to each business process, so that the following problems in the prior art are solved: the manual tracing mode cannot quickly trace back to the hierarchy needing tracing, if the data evidence chain breakage also causes poor reliability and efficiency of data tracing, the log tracing mode is only one specific special case of the recorded event, the relation between the event and other events cannot be expressed, the process and the informatization system of the event cannot be known, and the whole process tracing cannot be performed. The invention realizes the data tracing standardization among different informationized systems and is beneficial to the data tracing standardization among different informationized systems and even the whole industry.

The foregoing description is only of embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (9)

1. The modeling method for the data tracing of the informatization system is characterized by comprising the following steps of:

each informatization system is marked uniquely in sequence, and all business processes corresponding to each informatization system, all events corresponding to each business process and objects corresponding to each event are marked uniquely;

associating each of the informatization systems with all of the business processes corresponding thereto, associating each of the business processes with all of the events corresponding thereto, and associating each of the events with all of the objects corresponding thereto, respectively;

after associating each business process with all the events corresponding to the business process and associating each event with all the objects corresponding to the business process, the method comprises the following steps:

and matching each time of occurrence of the event with the time of change of the attribute value of the object corresponding to the event one by one, namely matching and associating the time point of occurrence of one event with the time point of last snapshot data generation of all objects corresponding to the event at the time point or before the time point.

2. The modeling method for data trace back of information-based systems according to claim 1, wherein the steps of sequentially uniquely marking each information-based system, and uniquely marking all business processes corresponding to each information-based system, all events corresponding to each business process, and objects corresponding to each event, respectively, include:

coding each informatization system to make the corresponding codes of each informatization system be unique first type codes;

coding all the business processes corresponding to each informatization system, so that the codes of each business process are unique codes of a second type;

coding all the events corresponding to each business process, so that the codes of each event are unique third-class codes;

and coding all the objects corresponding to each event so that the code of each object is a unique fourth class code.

3. The modeling method for data trace back of an information-based system according to claim 2, wherein said associating each of said information-based systems with all of said business processes corresponding thereto, associating each of said business processes with all of said events corresponding thereto, and associating each of said events with all of said objects corresponding thereto, respectively, comprises:

and respectively associating all the second type codes with the first type codes corresponding to the second type codes, associating all the third type codes with the second type codes corresponding to the third type codes, and associating all the fourth type codes with the third type codes corresponding to the fourth type codes.

4. The modeling method for data trace back of an informationized system according to claim 1, wherein before each of said business processes is uniquely marked, comprising:

judging whether the business process to be uniquely marked belongs to an atomic-level process or not, wherein the atomic-level process does not comprise any subprocess;

if yes, the business process to be uniquely marked is uniquely marked.

5. The modeling method for data trace back of an information-based system according to claim 4, wherein said determining whether the business process to be uniquely marked belongs to an atomic-level process includes:

judging whether the business process to be uniquely marked consists of an independent event and a flow event at the same time;

if yes, judging that the business process to be uniquely marked does not belong to the atomic level process.

6. The modeling method of data trace back of an information-based system according to claim 2, wherein after said encoding all objects corresponding to each of said events, comprising:

and acquiring the attribute type of each object, wherein the attribute type of each object comprises a basic attribute type and an extended attribute type.

7. A modeling apparatus for data trace back of an informationized system, comprising:

the marking module is used for carrying out unique marking on each informatization system in sequence, and carrying out unique marking on all business processes corresponding to each informatization system, all events corresponding to each business process and objects corresponding to each event respectively;

the association module is used for respectively associating each informatization system with all corresponding business processes, associating each business process with all corresponding events and associating each event with all corresponding objects;

after associating each business process with all the events corresponding to the business process and associating each event with all the objects corresponding to the business process, the method comprises the following steps:

and matching each time of occurrence of the event with the time of change of the attribute value of the object corresponding to the event one by one, namely matching and associating the time point of occurrence of one event with the time point of last snapshot data generation of all objects corresponding to the event at the time point or before the time point.

8. A computer-readable storage medium, on which a computer program is stored, which computer program, when executed, implements the modeling method of data trace-back of an informationized system according to any one of claims 1 to 6.

9. A computer device, characterized in that it comprises a processor, a memory and a computer program stored on the memory and executable on the processor, the processor implementing a modeling method of the data trace back of the informationized system according to any one of claims 1 to 6 when executing the computer program.

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