CN114676094A - Method, system and readable storage medium for full-period management of digitized government projects - Google Patents

Abstract

The invention discloses a full-period management method, a system and a readable storage medium for digital government projects. The full-period management method is used for creating a NoSQL center for executing a target project based on object attributes; then generating a consistency parameter of the first item data in the synchronous event table according to the log, the modification log and the first access specification, and arranging the synchronous event table according to the consistency parameter; and reading the first project data according to the synchronous event table, generating XML data, generating second project data according to the XML document, and storing the second project data to the SQL center of the department subsystem j. The invention can synchronize target projects among different department subsystems, is convenient for project data management, and reduces the requirements on the agent end and the network server. In the process of target project synchronization, the user side can continuously access project data, and the influence on the operation of projects is avoided.

Description

Method, system and readable storage medium for full-period management of digitized government projects

Technical Field

The invention relates to government affair data processing technology, in particular to a method and a system for full-period management of digital government projects and a readable storage medium.

Background

Existing government digital systems are referenced cn202010879993. x. The government affair project management method is used for managing multi-level project tasks, acquiring a functional department summary sheet matched with the project tasks according to administrative attribution information of the project tasks, and dispatching the project tasks to administrative ports corresponding to target functional departments. The method is suitable for project management of fixed administrative ports (department subsystems), and data access among different ports is difficult. The prior invention CN113407760B of the applicant discloses a government affairs data analysis system for a shared platform, the database of the system is stored in a separate server, and any government affair terminal can access the data through the platform. The main data analysis and processing work of the system is centralized on a platform, and the platform has more parallel threads and large access amount.

In the prior art, in order to manage a data center by a project department, the data center needs to be stored in a computer system of the project department, and when the project administration is changed, corresponding data are synchronized to a new department. For example, in a water conservancy project, the data center may be stored in a water conservancy construction department, a water conservancy project use department, and the like. The prior art government data synchronization scheme is mainly implemented by XML, such as design and implementation based on Java and XML cross-platform data migration (computer engineering, university of east china computer science and technology system, lemna, etc.), and a synchronization system of relational and non-relational databases of CN 201510817110.1. In the data migration and database synchronous updating processes of the systems, the access port of an external user needs to be closed. For government projects which are not shut down in the whole period, the user side needs to access project data frequently, and system updating influences the use of the user.

Disclosure of Invention

Aiming at the problems, the invention provides a full-period management method, a system and a readable storage medium of a digital government project, which realize the synchronization of data centers among different departments by migrating project data, provide an access path in the process of migrating the project data and avoid influencing the normal operation of the project.

The invention purpose of this application can be realized through the following technical scheme:

a method for full-cycle management of digital government projects, comprising the steps of:

step 1: the method comprises the steps that an owner generates an item setting file of a target item, wherein the item setting file comprises a plurality of object attributes of the target item;

step 2: the agent terminal generates an address document { X ] according to the standing file_i，X_j}，X_iConditional parameters, X, run on department subsystem i for the target project_jCondition parameters for the target project to run on department subsystem j;

and step 3: the department subsystem i creates a NoSQL center for executing the target project based on the object attributes, the NoSQL center comprises a plurality of first project data, and the department subsystem i provides a first access specification of the NoSQL center;

and 4, step 4: a user accesses the first project data of the NoSQL center through a network server, the network server generates a log of the user, and a department subsystem i generates a modification log of the first project data;

and 5: if the condition parameter X_jIf yes, the agent end generates a synchronous event table, and the synchronous event table has the index identification of the first item data;

step 6: the agent terminal generates a consistency parameter of the first item data in the synchronous event table according to the log, the modification log and the first access specification, and arranges the index identification according to the consistency parameter;

and 7: the agent end reads the first project data of the synchronous event table and generates XML data, and then generates second project data according to the XML data and stores the second project data to the SQL center of the department subsystem j;

and 8: the agent end increases or decreases the index identification corresponding to the second item data of the synchronous event table according to the read-write operation of the first item data;

and step 9: if the index mark of the synchronous event table is empty, closing the NoSQL center by the agent end and entering the step 10, otherwise, returning to the step 6;

step 10: and the department subsystem j provides a second access specification of the SQL center, and the user side reads and writes second project data of the SQL center according to the second access specification.

In the present invention, in step 2, the condition parameter X_jThe department switching time of the department subsystem j, if the current time is larger than the department switching time, the condition parameter X_jThis is true.

In the present invention, in step 3, the first access specification is { A }_mk，B_mk}，A_mkFor the access right of the user end m to the first item data k, B_mkThe modification authority of the user end m to the first item data k is given.

In the present invention, in step 4, the log is { L }_m(t)The modification log is { R }_k(t)}，L_m(t)For the log-in record of the user m in the t period, R_k(t)And recording the modification of the first item data k in the t period.

In the invention, in step 5, an iterative algorithm based on a period t is adopted to generate a consistency parameter N of the first item data k_k(t)And arranging the index identifications of the synchronous event table according to the sequence of the consistency parameters from large to small.

In step 6, the agent defines at least one first mapping relationship and at least one second mapping relationship, extracts the first project data according to the first mapping relationship and converts the first project data into XML data, and extracts the XML data according to the second mapping relationship and converts the XML data into second project data.

In step 8, when the second item data is stored in the SQL center, the agent searches the corresponding index identifier according to the first mapping relationship and the second mapping relationship, and deletes the index identifier in the synchronous event table.

In the invention, in step 8, when the user uploads the document pointing to any first item data, the corresponding index identifier is added in the synchronous event table.

A full-period management system for realizing the full-period management method of the digital government project mainly comprises a user side, an owner side, a network server, an agent side and a plurality of department subsystems, wherein the owner side accesses the department subsystems through the network server, and the agent side reads the history records of the network server and the department subsystems and provides a data synchronization environment for at least one department subsystem.

A readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method for full-period management of digitized government projects.

The method, the system and the readable storage medium for the full-period management of the digital government project can synchronize the data of the target project among different department subsystems, and the department subsystems can control the access, reading and writing of the target project by a user end, so that the project data can be managed conveniently, and the requirements on an agent end and a network server are reduced. In the process of target project synchronization, the user side can continuously access project data, and the influence on the operation of projects is avoided. The agent end can control the data migration sequence, set mapping relation through XML and determine the corresponding relation of the index identification, so that the continuous updating of the synchronous event table is possible, excessive data which are repeatedly migrated are avoided, and the system synchronization efficiency is improved. Further, in the synchronization process, the agent side provides a continuous access path of the original NoSQL center, and the system can suspend data migration at a necessary moment and resume the data migration at a subsequent moment.

The details of one or more embodiments of the application are set forth in the accompanying drawings and the description below to provide a more thorough understanding of the application.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a flow chart of a method of full period management of a digital government project of the present invention;

FIG. 2 is a comparison graph of the working time during synchronization of department subsystem i and department subsystem j;

FIG. 3 is a flow chart of the update of the synchronization event table of the method for full-cycle management of digitized government projects of the present invention;

FIG. 4 is a diagram illustrating a preferred data structure of the synchronization event table according to the present invention;

FIG. 5 is a block diagram of a full period management system for a digital government project of the present invention;

fig. 6 is a block diagram of a portion of the structure of a system for full period management of a digital government project in accordance with the present invention.

Detailed Description

For a clearer understanding of the objects, aspects and advantages of the present application, reference is made to the following description and accompanying drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited correspondingly. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

Example one

Referring to fig. 1 to 2, the preferred digital government project full period management method of the present invention is mainly composed of 10 steps. The method can ensure that the user side can access and modify the project data in the synchronization process of the target project, and avoid influencing the operation of the project.

Step 1: the owner generates an item standing file of the target item, wherein the item standing file comprises a plurality of object attributes of the target item. The project file includes, for example, the format requirements and normative requirements of the target project, and the object properties define the name and type of file that completes the target project. The object attribute can be used for generating semantic dictionaries stored in different department subsystems of the target project, so that a subsequent SAX analyzer can rapidly analyze data of the target project through the semantic dictionaries, and the index identification can be predefined.

Step 2: the agent terminal generates an address document { X ] according to the standing file_i，X_j}，X_iConditional parameters, X, run on department subsystem i for the target project_jCondition parameters that run on department subsystem j for the target project. The address document describes the synchronization condition of the target project in different department subsystems, and when the current condition meets the condition parameter of the next department subsystem, the agent end applies for synchronizing the target project to the subsystem. In the present embodiment, the address document includes two condition parameters. Condition parameter X_jSuch as department switching time. The target project can also be operated in more than three department subsystems according to the requirements of different normative documents.

And step 3: the department subsystem i creates a NoSQL center for executing the target project based on the object attributes, the NoSQL center including a plurality of first project data, the department subsystem i providing a first access specification of the NoSQL center. And the department subsystem i receives data of the user terminal. The NoSQL center (Not Only SQL) is a non-relational database, a storage structure facing a document is adopted, and corresponding first project data is non-relational data. The data structure is convenient for various and flexible data expansion, supports high concurrent access of a user side, and is suitable for a new building process of a target project. The first access specification is { A }_mk，B_mk}，A_mkFor the access right of the user end m to the first item data k, B_mkThe modification authority of the user end m to the first item data k is given. In this example, A_mk，B_mkAre discrete functions, when the user end m has access right and modification right to the first item data k, A_mk=1，B_mk= 1. When the user end m has no access right and modification right to the first item data k, A_mk=0，B_mk=0。

And 4, step 4: the user side accesses the first project data of the NoSQL center through the network server, the network server generates a log of the user side, and the department subsystem i generates a modification log of the first project data. The log records the process of the user accessing the NoSQL center through the network server. In this embodiment, the web server inserts a JavaScript log collection script in the access path of the client, collects and segments log files according to a predetermined log format, and obtains access logs of different clients. The modification log tracks the modification record of the first item data with reference to, for example, an init-connect statement and stores in a database table of the department subsystem i.

The log comprises parameter information such as user end identification, log time and the like, and the modification log comprises parameter information such as user end identification, project data, modification time and the like. To simplify the log file, a query cycle is defined, and the log records and modification records are defined as discrete functions of t cycles. In this embodiment, the log is { L }_m(t)The modification log is { R }_k(t)}，L_m(t)For the user end m, the log-in record (0 or 1), R in the period t_k(t)For the modification of the first item data k at the period t, (0 or 1) is recorded. In the prior art, a log file is required to record the access records of each user terminal. No matter whether there is grammar error, there will be access record as long as it is executed. If the access record is stored for a long time, a large amount of useless information can be recorded, the efficiency of the database is reduced, and the log file is easy to expand quickly. In the embodiment, parameters such as logging records and modification records are adopted, and all access logs are prevented from being called.

And 5: if the condition parameter X_jAnd if so, the agent end generates a synchronous event table, and the synchronous event table has the index identification of the first item data. If the current time is greater than the condition parameter X_j(department switching time), then the condition parameter X_jThis is true. For example, X_j=20220101, target item synced to department subsystem j when current time is greater than 20220101. In other embodiments, the condition parameter may be a preset key document, and after the agent receives the key document, the condition parameter X is_jThis is true. The synchronization event table is stored in a temporary storage unit at the proxy, and the preferred structure refers to another embodiment of the present application.

Step 6: and the agent terminal generates a consistency parameter of the first item data in the synchronous event table according to the login log, the modification log and the first access specification, and arranges the index identification according to the consistency parameter. The consistency parameter is a predicted value of repeated reading and writing of the first item data and is generated by modification records, login records, access rights and modification rights. The data synchronization scheme is arranged and generated according to the sequence from large to small of the consistency parameters, the first project data with large consistency parameters are less likely to be modified and are firstly transferred to the department subsystem j, and the first project data with small consistency parameters are frequently modified and are transferred to the department subsystem j after delay.

In combination with the foregoing steps, since the present invention does not record the access log, although the encumbrance of the log file is avoided, the access log is a preferred data source for determining the access object. Therefore, the invention predicts the access object of the user terminal through the log and the related access authority. Although there is no correlation between the access object of the user and the login time in the irregular network environment, in the government affair project operation, the login record of the user is positively correlated with the access authority set by the system, which brings convenience to the access prediction.

In this embodiment, the modification record and the login record are discrete functions with values of 0 or 1. If the first item data k is modified in t period, modifying the record R_k(t)And = 1. If the user end m logs in the t period, the log-in record L is determined_m(t)And = 1. Otherwise, R_k(t)=0，L_m(t)= 0. And calculating consistency parameters by using a heat prediction method for reference. Continuous access without modification during a cycle increases the stability of the data, and multiple accesses with modification decrease the stability of the data. As a further improvement of this embodiment, the present invention does not record the user identifier of the modified data any more, thereby avoiding the agent continuously recording the modification process and reducing the performance requirement on the agent. In contrast, the invention only records whether the data is modified, and the process can be directly completed by the NoSQL center.

Specifically, the influence coefficients H of all the clients on the first item data k in the t period are calculated first_k(t)Then, the consistency parameter N is calculated by iteration_k(t)。

；

。

Wherein n is the number of the user terminals,

=0，

e is a natural logarithm, c is a preset adjustment constant, and c is empirical data and generally takes a value of 1 to pi. For archived items that are less frequently modified, c may take the value of π. For a new project with a high modification frequency, c can be 1. f is an attenuation coefficient, the definition value of f is generally referred to the length of the period t, and when t =1h, f can be 0.2 to 0.6. Coefficient of influence H_k(t)Defined as the effect of all user side access and modification on the first project data consistency parameter. The more users with access rights and the fewer users with modification rights, the larger the consistency parameter. The smaller the consistency parameter, the first item data is modified. In general

，

。

And 7: and the agent end reads the first project data according to the synchronous event table, generates XML data, generates second project data according to the XML document and stores the second project data to the SQL center of the department subsystem j. The agent end defines at least one first mapping relation and at least one second mapping relation, extracts the first project data according to the first mapping relation and converts the first project data into XML data, and extracts the XML data according to the second mapping relation and converts the XML data into second project data. The first mapping is, for example, "table → element," index → sub-element, data in table → text node, index content → text node ".

In a specific embodiment, the state information of the NoSQL center is first saved and the SQL center is created at server j and receives the state information. And then extracting data stored in the NoSQL center, acquiring a non-relational document defined by a data table, analyzing the document, mapping the data into XML data by adopting an Xerces XML parser, and writing the XML data into a specified file. And analyzing the generated XML data, extracting the table and index information, converting the data types and the like, and rebuilding the table and the index in the SQL center to generate second item data. In addition, in the present invention, "migration" refers to copying data from one database to another database. "synchronization" refers to the reconciliation of data between two systems through multiple data migrations.

And 8: and the agent end increases or decreases the index identification corresponding to the second item data of the synchronous event table according to the read-write operation of the first item data. The first item data is modified in the data synchronization process, and the data synchronization data needs to be checked and renewed. In the prior art, the original database needs to be rescanned in the data verification process, and the verification confirms that the modified data is migrated again and covers the original data. In this embodiment, a synchronous event table is set at the agent end, the index identifier of the file is recorded while the file is uploaded at the user end, and the data is searched and migrated again through the index identifier.

And step 9: if the index mark of the synchronous event table is empty, the agent end closes the NoSQL center and enters the step 10, otherwise, the step 6 is returned. In the data migration process, when the NoSQL center migrates a first item of data, the synchronous event table deletes the index identification of the first item of data. When the NoSQL center modifies a first item of data, the synchronous event table increases the index identification of the first item of data. And when the synchronous event table is empty, the agent end closes the access of the user end to the NoSQL center.

As shown in fig. 2, the cross-sectional line part is a section where the target items are synchronized, and the solid line is the actual operating time of the server. During the data migration process, the department subsystem i keeps the operation of the NoSQL center. The data synchronization process of the present invention can suspend execution and resume execution at a subsequent time. And updating the synchronous event table after the recovery process, and re-covering the modified data in the pause time period to the SQL center.

Step 10: and the department subsystem j provides a second access specification of the SQL center, and the user side reads and writes second project data of the SQL center according to the second access specification. Similar to the first access specification, the second access specification is defined by the server j, and the server j can realize complete control on the target project and reduce the burden of the agent end to the maximum extent.

Example two

The method for the full-period management of the digital government project is used for the full-period management of the water conservancy project, and steps which are not described in the embodiment are understood by combining the first embodiment.

The agent end of the embodiment is a supervision department, the user end is an engineering construction unit, the department subsystem i is located in a city-level water conservancy construction department, and the department subsystem j is located in a county-level hydrology management department. The first project data includes, but is not limited to, hydrologic reports, feasibility study reports, project construction plans, and the like. In this embodiment, the NoSQL center is, for example, a document-type MongoDB database. The first item data is stored in data sets in groups, each data set being called a collection (Collention) and each collection being uniquely identified in the current database. Documents are stored in the collection in the form of Key-Value. The NoSQL center realizes distributed storage through an automatic fragmentation mechanism, when a large-capacity data set is stored, the data set is cut into a plurality of data blocks according to a balance strategy of a system, and the data blocks are distributed into different fragments (shards).

In addition, data check can be supplemented before the NoSQL center is closed, such as checking data types, non-null values, main foreign key constraints and the like. According to actual requirements, more constraint or semantic checks can be made, for example, historical materials of the target project are later than the setting date of the target project, government affair approval dates are later than the material delivery dates, and the like, or water conservancy project address information is checked based on related knowledge.

EXAMPLE III

Unlike the first embodiment, the present embodiment further improves the synchronization event table. Referring to fig. 3 and 4, the method specifically includes the following steps. Step 81: and dividing the data of the NoSQL center into a plurality of groups of first item data according to the data type and format. For example, a user identification file, a historical hydrological file, a project construction file, and the like are stored as different groups of first project data, respectively. Step 82: and defining index identification according to the object attributes and the semantic dictionary. Step 83: before the migration starts, the agent end scans the NoSQL center and stores the index identification of the first item data of the NoSQL center into the synchronous event table. Step 84: and calculating consistency parameters after the migration starts, and arranging the index identifications of the synchronous event table according to the sequence of the consistency parameters from large to small. Step 85: when the user side uploads the file to the server i through the agent side, the agent side stores the file to the first project data of the NoSQL center, and stores the index identification of the first project data where the file is located to the synchronous event table. Step 86: when the second item data is stored in the SQL center, the agent end searches the corresponding index identification according to the first mapping relation and the second mapping relation, and deletes the index identification in the synchronous event table. Step 87: when the synchronization event table ≠ null, it returns to step 84. Step 88: when the synchronous event table = null, the agent end deletes the link of the user end accessing the NoSQL center, and closes the NoSQL center. The invention ensures the index identification through the mapping relation set by the XML, so that the recorded data migration process is simpler and more convenient. Referring to fig. 4, for example, when the second item data corresponding to the first item data k is stored in the SQL center, the index identifier of the first item data k in the synchronous event table is deleted. When the first item data k +1 is modified, the index identification of the first item data k +1 is added to the synchronous event table.

Example four

Referring to fig. 5 and 6, the present embodiment describes a full-period management system for implementing the method for full-period management of digital government projects. The whole period management system mainly comprises a user side, an owner side, a network server, an agent side and a plurality of department subsystems, wherein the owner side accesses the department subsystems through the network server, and the agent side reads the history records of the network server and the department subsystems and provides a synchronous environment for at least one department subsystem.

The agent end comprises a control unit, a mapping unit, a first SAX unit, a second SAX unit, a storage unit and a semantic dictionary. The control unit is used for storing the address document and setting the condition parameter X_jWhen true, a data synchronization scheme is generated. The mapping unit is used for creating a mapping relation between the project data of the NoSQL center and the project data of the SQL center. The first SAX unit is used for parsing the first item data into XML data according to the semantic dictionary. The second SAX unit is used for parsing the XML data into second item data according to the semantic dictionary. The storage unit stores XML data.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

EXAMPLE five

This embodiment describes a readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method for full-cycle management of digitized government projects.

For the purposes of this description, a "computer-readable medium" can be any means that can contain, store, communicate, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device. More specific examples (a non-exhaustive list) of the computer-readable medium would include the following: an electrical connection (electronic device) having one or more wires, a portable computer diskette (magnetic device), a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber device, and a portable compact disc read-only memory (CDROM). Additionally, the computer-readable medium could even be paper or another suitable medium upon which the program is printed, as the program can be electronically captured, via for instance optical scanning of the paper or other medium, then compiled, interpreted or otherwise processed in a suitable manner if necessary, and then stored in a computer memory.

Claims (10)

1. A method for full-cycle management of digital government projects, comprising the steps of:

step 1: the method comprises the steps that an owner generates an item setting file of a target item, wherein the item setting file comprises a plurality of object attributes of the target item;

step 2: the agent terminal generates an address document { X ] according to the standing file_i，X_j}，X_iConditional parameters, X, run on department subsystem i for the target project_jCondition parameters for the target project to run on department subsystem j;

and step 3: a department subsystem i creates a NoSQL center for executing a target project based on the object attributes, wherein the NoSQL center comprises a plurality of first project data, and the department subsystem i provides a first access specification of the NoSQL center;

and 4, step 4: a user accesses the first project data of the NoSQL center through a network server, the network server generates a log of the user, and a department subsystem i generates a modification log of the first project data;

and 5: if the condition parameter X_jIf yes, the agent end generates a synchronous event table, and the synchronous event table has the index identification of the first item data;

step 6: the agent terminal generates a consistency parameter of the first item data in the synchronous event table according to the log, the modification log and the first access specification, and arranges the index identification according to the consistency parameter;

and 7: the agent end reads the first project data of the synchronous event table and generates XML data, and then generates second project data according to the XML data and stores the second project data to the SQL center of the department subsystem j;

and 8: the agent end increases or decreases the index identification corresponding to the second item data of the synchronous event table according to the read-write operation of the first item data;

and step 9: if the index mark of the synchronous event table is empty, closing the NoSQL center by the agent end and entering the step 10, otherwise, returning to the step 6;

step 10: and the department subsystem j provides a second access specification of the SQL center, and the user side reads and writes second project data of the SQL center according to the second access specification.

2. The method for full-period management of digital government projects according to claim 1, wherein in step 2, said condition parameter X_jThe department switching time of the department subsystem j, if the current time is larger than the department switching time, the condition parameter X_jThis is true.

3. The method of claim 1, wherein in step 3, the first access specification is { A } ™_mk，B_mk}，A_mkFor the access right of the user end m to the first item data k, B_mkThe modification authority of the user end m to the first item data k is given.

4. The method of claim 3, wherein in step 4, the log is { L }_m(t)The modification log is { R }_k(t)}，L_m(t)For the log-in record of the user m in the t period, R_k(t)And recording the modification of the first item data k in the t period.

5. The method of claim 4, wherein in step 5, an iterative algorithm based on a period t is used to generate a consistency parameter N for the first project data k_k(t)And arranging the index identifications of the synchronous event table according to the sequence of the consistency parameters from large to small.

6. The method of claim 1, wherein in step 6, the agent defines at least one of a first mapping relationship and a second mapping relationship, extracts the first project data according to the first mapping relationship and converts the first project data into XML data, and extracts the XML data according to the second mapping relationship and converts the XML data into the second project data.

7. The method of claim 6, wherein in step 8, when the second item data is stored in the SQL center, the agent searches for the corresponding index id according to the first mapping relationship and the second mapping relationship, and deletes the index id in the synchronous event table.

8. The method of claim 7, wherein in step 8, when a user uploads a document pointing to any first project data, a corresponding index is added to the synchronization event table.

9. A full-period management system for implementing the full-period management method of digital government projects according to claim 1, wherein the full-period management system is mainly composed of a user terminal, an owner terminal, a network server, an agent terminal and a plurality of department subsystems, wherein the owner terminal accesses the department subsystems through the network server, and the agent terminal reads the history of the network server and the department subsystems and provides a data synchronization environment for at least one department subsystem.

10. A readable storage medium having stored thereon a computer program, wherein the computer program, when executed by a processor, implements the method for full-cycle management of digitized government projects according to claim 1.

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