CN108153599A - A kind of project management platform, method, storage medium and electronic equipment - Google Patents

Abstract

This application discloses a kind of project management platforms, method storage medium and electronic equipment, including project management module, test and management module, OA modules and data pump, the project management module, test and management module and OA modules are used to distinguish management project information, test data and flow data, and pass through the data that data pump obtains other modules, the data pump is used to monitor the project management module, the test and management module and the OA modules, and when monitoring that data update occurs for any one module, type and preset configuration according to updating the data, which synchronize updated data, is sent to other modules.The project management platform and method realize interconnecting between each operational module in project development process by data pump, and it is capable of updating the data for automatic synchronization modules, cause the more convenient smoothness of Project Management, integrally improve project management efficiency and management quality.

Description

Project management platform, method, storage medium and electronic equipment

Technical Field

The invention relates to the technical field of software research and development, in particular to a project management platform, a project management method, a storage medium and electronic equipment.

Background

Software development is the process of building a software system or software parts in a system according to user requirements, and is a system engineering including requirement capture, requirement analysis, design, implementation and test. The whole software development process involves more work content, large workload and long period, so that project management work of software development is well done, and the software development process has important significance for the software development work.

In the prior art, the project information management, the test management, the OA process and other working modules are respectively and are not related. Each work module plays the most original role, for example, a project information management tool usually records the requirements of a project, a development period, a test period, an online period and information of a person in charge specifically in each stage, and cannot acquire the progress data of each stage of the project in real time; the test management tool generally manages a test plan, a test case and a BUG; the OA process is only responsible for the online approval process. The association relation is not established among all the working modules, and the generated data is not associated. This results in that, in the project management work process, repeated project information entry work is often required to be performed in different work modules, and the entry work of the project information is mostly completed by manual processing.

Therefore, in the prior art, in the project management work of the software development project, the data of each working module is not synchronized in time, the project management work efficiency is low, and the error rate is high.

Disclosure of Invention

In view of this, the present invention provides a project management platform, a project management method, a storage medium, and an electronic device, so as to implement automatic synchronization and sharing of data between work modules in a project development process, and improve project management efficiency and project management quality.

A project management platform comprises a project management module, a test management module, an OA module and a data pump; wherein,

the project management module is used for managing project information and acquiring the test data of the test management module and the flow data of the OA module through the data pump;

the test management module is used for managing test data and acquiring project information of the project management module and flow data of the OA module through the data pump;

the OA module is used for managing process data and acquiring project information of the project management module and test data of the test management module through the data pump;

the data pump is used for monitoring the project management module, the test management module and the OA module, and when monitoring that any one module has data updating, the data pump synchronously sends the updated data to other modules according to the type of the updated data and preset configuration.

Optionally, the data pump includes a data probe module and a routing module, wherein the data probe module includes:

the project management probe is used for monitoring whether the project management module has data updating or not, and matching the updating data to a target routing path according to the type of the updating data and preset configuration when the project management module has data updating;

the test management probe is used for monitoring whether the test management module has data updating or not, and matching the updating data to a target routing path according to the type of the updating data and preset configuration when the test management module has data updating;

the OA probe is used for monitoring whether the OA module has data updating or not, and when the OA module has data updating, the updating data is matched to a target routing path according to the type of the updating data and preset configuration;

and the routing module is used for sending the updated data to a destination module in the target routing path according to the matching relation between the updated data and the target routing path.

Optionally: the target routing path includes label information, which includes link information.

Optionally, the project management platform further includes:

the attendance module is used for managing staff attendance data;

the project management module is further operable to: and when the project state is on-line, acquiring attendance data of the attendance module through the data pump.

Optionally, the project management module is further configured to:

and determining the BT rate of project development according to the bug number acquired from the test management module and the working duration information acquired from the attendance checking module.

Optionally, the project management platform further includes:

the code management module is used for managing code data;

the project management module is further operable to: and when the project state is on-line, acquiring the code data of the code management module through the data pump.

Optionally, the project management module is further configured to:

and determining the bug rate of the thousand-line code of the project development according to the bug number acquired from the test management module and the code line number information acquired from the code management module.

Optionally, the project management module is further configured to:

and determining the bug rate of the project development according to the bug number and the test case number acquired from the test management tool.

A project management method applied to any one of the above project management platforms, comprising:

the OA module triggers an OA process to carry out requirement review on the project information according to the received project information;

after receiving the requirement review passing information sent by the OA module through the data pump, the project management module creates a target project corresponding to the project information;

when the online date of the target project is updated, the data pump synchronizes the updating information to the test management module, and the test management module adjusts the project test plan according to the updated online date and creates a test task; the project management module or the test management module initiates a test case and a user test object application to the OA module through the data pump; after receiving the business application passing information returned by the OA module through the data pump, the test management module executes a test task corresponding to the business application;

and the data pump synchronizes the test data in the process of executing the test task by the test management module to the project management module.

A storage medium having stored thereon a computer program which, when executed by a processor, implements the above-described project management method.

An electronic device, comprising:

a processor; and

a memory for storing executable instructions of the processor;

wherein the processor is configured to perform the above-described project management method via execution of the executable instructions.

The embodiment of the invention discloses a project management platform, a project management method, a storage medium and electronic equipment, wherein the project management platform, the test management module, the OA module and the data pump are used for respectively managing project information, test data and process data, acquiring data of other modules through the data pump, and monitoring the project management module, the test management module and the OA module through the data pump, and synchronously sending updated data to the other modules according to the type of the updated data and preset configuration when monitoring that any one module has data update. According to the project management platform and the project management method, interconnection and intercommunication among all working modules in the project development process are realized through the data pump, and the updating data of all the modules can be automatically synchronized, so that project management work is more convenient and smooth, and the project management efficiency and the management quality are integrally improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a first project management platform according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a data pump according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a second project management platform according to an embodiment of the disclosure;

FIG. 4 is a schematic structural diagram of a third project management platform according to an embodiment of the disclosure;

FIG. 5 is a schematic structural diagram of a fourth project management platform according to the embodiment of the present invention;

FIG. 6 is a flowchart of a project management method disclosed in an embodiment of the present invention;

fig. 7 is a schematic diagram of a data interconnection process disclosed in the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of a first project management platform disclosed in an embodiment of the present invention, and referring to fig. 1, the project management platform 10 may include: a project management module 101, a test management module 102, an OA module 103, and a data pump 104.

The project management module 101 is configured to manage project information, and acquire test data of the test management module 102 and process data of the OA module 103 through the data pump 104.

The project information may include, but is not limited to, information of requirements of the project, development cycles, test cycles, online cycles, and specific persons in charge to each stage. The project management module 101 can be configured with an authority function, and only project management responsible personnel who pass identity authentication can log in the project management module 101 and perform corresponding data updating, process initiation and other triggering-initiated work therein.

The project management module may obtain the test data in the test management module 102 and the process data in the OA module 103 through the data pump 104, for example, the project management module 101 may obtain information such as bug number, test case execution number, etc. from the test management module 102, and may obtain transaction application status data, created project information, etc. from the OA module 103, so as to determine progress data of each stage of the project to implement data synchronization and node synchronization, thereby facilitating related managers to comprehensively know the project status and the project progress, and making corresponding decisions in time.

The test management module 102 is used for managing test data and acquiring project information of the project management module 101 and process data of the OA module 103 through the data pump 104.

The test data may include, but is not limited to, information such as test plans, test cases, bugs, and the like.

The test management module 102 may obtain the project information of the project management module 101 and the process data of the OA module 103 through the data pump 104, for example, the test management module 102 obtains the change information of the information such as the project developer, the tester, the online date, etc. and the information of the project development cycle and the test cycle from the project management module 101, so as to synchronize the project data and the project cycle. The test management module 102 may obtain bug information submitted by a front-end user or marketer from the OA module 103.

The OA module 103 is used for managing process data and acquiring project information of the project management module 101 and test data of the test management module 102 through the data pump 104.

The process data may include, but is not limited to, transaction applications, process approvals, and the like.

The OA module 103 may acquire the project information of the project management module 101 and the test data of the test management module 102 through the data pump 104. For example, the OA module 103 may obtain data of an online application or a transaction application such as use case review from the project management module 101, and may obtain data of a transaction application such as use case review or user test from the test management module 102.

The data pump 104 is configured to monitor the project management module 101, the test management module 102, and the OA module 103, and when it is monitored that any one of the modules has data updated, synchronously send the updated data to other modules according to the type of the updated data and a preset configuration.

The data pump 104 may monitor the project management module 101, the test management module 102, and the OA module 103 for data updates, and in the case of data updates, control corresponding data synchronization.

In this embodiment, the project management platform realizes interconnection and intercommunication among the working modules in the project development process through the data pump, and can automatically synchronize the update data of each module, so that project management work is more convenient and smooth, and project management efficiency and management quality are integrally improved.

Fig. 2 is a schematic structural diagram of a data pump disclosed in an embodiment of the present invention, and fig. 3 is a schematic structural diagram of a second project management platform disclosed in an embodiment of the present invention, and referring to fig. 2 and fig. 3, the data pump 104 may include a data probe module 201 and a routing module 202.

The data probe module 201 can realize real-time monitoring of information changes of different modules. The method can comprise the following steps:

the project management probe 2011 is configured to monitor whether the project management module has data update, and when it is monitored that the project management module has data update, match the update data with a target routing path according to a type of the update data and a preset configuration.

Specifically, the project management probe 2011 may be mainly used for monitoring addition and change of project information in the project management module 101, such as a date of a project online, a project name, a project number, and the like. The above information has an influence on the test management module, so that the information needs to be monitored for changes in real time.

The test management probe 2012 is configured to monitor whether the test management module has data update, and when it is monitored that the test management module has data update, match the update data to a target routing path according to a type of the update data and a preset configuration.

Specifically, the test management probe 2012 can monitor the number of test cases, the number of test cases executed, the number of bugs, and the bug solution condition, and synchronize the test progress to the project management tool in real time to accurately reflect the test stage progress.

The above changes related to information require the test management probes 2012 to monitor in real time and command the corresponding collaboration modules to complete the synchronization of data.

And the OA probe 2013 is used for monitoring whether the OA module has data updating or not, and matching the updating data to a target routing path according to the type of the updating data and preset configuration when the OA module has data updating.

Specifically, the OA probe 2013 can monitor the circulation progress and state of an object application, timely synchronize the on-line approval state of a project with a project management tool, and facilitate project management personnel to make next-step decisions, plans and actions of the project.

The routing module 202 is configured to send the update data to a destination module in the target routing path according to a matching relationship between the update data and the target routing path.

The target routing path may include label information, which may include, but is not limited to, link information, implementation function information, and/or data direction or manner information.

In particular, the zigzag data synchronization of the routing module 202 may be performed as directed by the data direction or manner (e.g., data up, data down, data parallel, and manual triggers). In this embodiment, it may be determined that the data of the OA module 103 and the test management module 102 are synchronized to the project management module 101 and belong to a data uplink; the case where the change of the project information of the project management module 101 is synchronized with the test management module 102 and the OA module 103 is data down. In order to ensure that the project management module 101, the test management module 102 and the OA module 103 can communicate with each other, the data path must be defined by a data tag to ensure that the data is correctly transmitted. Table 1 is a routing rule table disclosed in the embodiment of the present invention, and as shown in table 1, in this embodiment, the data label may include, but is not limited to, information such as a data direction or mode, a link, and a realization function, so as to realize a data routing function.

Table 1 routing rule table

In this embodiment, the structure and the function of each part of the data pump are described in detail. The structure form and the realization function of the data pump ensure that the updating data of the project management module, the test management module and the OA module are synchronized in time, thereby being convenient for improving the project management efficiency and the project management quality.

Fig. 4 is a schematic structural diagram of a third project management platform disclosed in the embodiment of the present invention, and referring to fig. 4, the project management platform 40 may include: a project management module 101, a test management module 102, an OA module 103, an attendance module 401, and a data pump 104.

In the OA module, the project management module 101 is configured to manage project information, and acquire test data of the test management module 102, process data of the OA module 103, and attendance data of the attendance module 401 through the data pump 104. Thus, the project management module 101 is operable to: and when the project state is on-line, acquiring attendance data of the attendance module through the data pump. Further, the project management module 101 may be configured to: and determining the BT rate (ratio of the number of bugs to the working time) of project development according to the number of bugs acquired from the test management module and the working time information acquired from the attendance checking module.

The attendance data does not need to be synchronized to the project management module 101 in real time in the project proceeding process, and only needs to be synchronized to the project management module 101 after the project is finished, so that the project management module 101 can perform corresponding analysis according to the attendance data and by combining with other information.

The test management module 102 is used for managing test data and acquiring project information of the project management module 101 and process data of the OA module through the data pump 104.

The OA module is used for managing process data and acquiring project information of the project management module and test data of the test management module through the data pump.

The attendance module 401 is used for managing staff attendance data.

The data pump 104 is configured to monitor the project management module, the test management module, and the OA module, and when it is monitored that any one of the modules has data updated, synchronously send the updated data to other modules according to the type of the updated data and a preset configuration, and when the project status is online, route attendance data in the attendance module 401 to the project management module 101 according to an operation instruction.

In this embodiment, the project management module may determine the bug number, the bug rate (the ratio of the bug number to the number of test cases), and the BT rate through the test data and the attendance data. Compared with the prior art, the project development quality is evaluated only by the number of bugs and the bug rate, evaluation dimensionality is increased, and the project development quality can be objectively and effectively reflected.

Fig. 5 is a schematic structural diagram of a fourth project management platform disclosed in the embodiment of the present invention, and as shown in fig. 5, the project management platform 50 may include: a project management module 101, a test management module 102, an OA module 103, an attendance module 401, a code management module 501, and a data pump 104.

The project management module 101 is configured to manage project information and obtain data in other modules through the data pump 104. The attendance data in the attendance module 401 and the code data in the code management module 501 do not need to be synchronized to the project management module 101 in real time in the project proceeding process, and all the attendance data and code data of the project need to be synchronized to the project management module 101 only after the project is finished, so that the project management module 101 can perform corresponding analysis by combining other information according to the attendance data and the code data.

Thus, the project management module 101 may be configured to: and when the project state is on-line, acquiring the code data of the code management module through the data pump. Further, the project management module 101 may be configured to: and determining the bug rate (the ratio of the bug number to the code line number) of the thousand-line code of the project development according to the bug number acquired from the test management module and the code line number information acquired from the code management module.

The test management module 102 is used to manage test data and obtain data of the other modules through the data pump 104.

The OA module is used for managing process data and acquiring data of other modules through the data pump.

The attendance module 401 is used for managing staff attendance data.

The code management module 501 is used for managing code data.

The data pump 104 is configured to monitor the project management module, the test management module, and the OA module, and when it is monitored that any one of the modules has data updated, synchronously send the updated data to other modules according to the type of the updated data and a preset configuration, and when the project status is online, route the attendance data in the attendance module 401 and the code management module 501 to the project management module 101 according to an operation instruction.

In this embodiment, the project management module may determine the bug number, the bug rate (the ratio of the bug number to the test case number), the BT rate, and the kilorow code bug rate through the test data, the attendance data, and the code data. Compared with the prior art, the project development quality is evaluated only by the number of bugs and the bug rate, evaluation dimensionality is increased, and the project development quality can be objectively and effectively reflected.

Fig. 6 is a flowchart of a project management method disclosed in an embodiment of the present invention, where the method is applied to any one of the project management platforms in the embodiments, as shown in fig. 6, the method may include:

step 601: and the OA module triggers an OA process to carry out requirement review on the project information according to the received project information.

Step 602: after receiving the requirement review pass information sent by the OA module through the data pump, the project management module creates a target project corresponding to the project information.

Step 603: and when the online date of the target project is updated, the data pump synchronizes the updating information to the test management module, and the test management module adjusts the project test plan according to the updated online date and creates a test task.

Step 604: and the project management module or the test management module initiates a test case and a user test object application to the OA module through the data pump.

Step 605: after receiving the business application passing information returned by the OA module through the data pump, the test management module executes a test task corresponding to the business application.

Step 606: and the data pump synchronizes the test data in the process of executing the test task by the test management module to the project management module.

The process outlines the method and the process of project management by a project management platform in a project development cycle, and in the implementation process of the method, the interconnection and intercommunication among all working modules in the project development process are realized through a data pump, and the updating data of all the modules can be automatically synchronized, so that the project management work is more convenient and smooth, and the project management efficiency and the management quality are integrally improved.

Fig. 7 is a schematic diagram of a data interconnection process disclosed in the embodiment of the present invention. The specific process of the project management platform managing projects in the above embodiment can be understood in conjunction with fig. 7. FIG. 7 includes the following:

1. when the project starts, the project needs to be reviewed, the online review and the online OA process are carried out simultaneously, and after the OA process is finished, the project management module automatically creates project information, wherein the project information can comprise: development cycle, test cycle, online date, development test responsible person, etc. The OA flow number may be used as a unique number of the item.

2. And the data pump monitors the addition and the change of the project information in the project management module in real time. And acquiring an online date under the newly increased condition, and determining whether the test plan needs to be created again by the test management module according to the online date. If the test plan corresponding to the online day already exists, the test plan does not need to be created, and otherwise, the test plan needs to be created again.

3. If the project information is the changed condition, the test management module determines whether the online date is modified or not, and the test plan of the task does not need to be changed if the online date is not modified. And if the condition is modified, determining whether the test plan corresponding to the online date exists, and if so, directly adjusting the project to the test plan corresponding to the corresponding online date. If the test plan does not exist, a new test plan corresponding to the online day needs to be created again, and then the project is adjusted to the corresponding test plan.

4. Before the test task is started and in the process of the test task, the project management module or the test management module can initiate a test case and an object application for user test, and the object application can automatically carry the test case and the test condition information inside.

5. And when the test task is in progress, the number of test cases, the number of test case executions, the number of BUGs and the number of BUG solutions are timely and synchronously sent to the project management module through the data pump.

6. And the project manager judges whether the test is finished according to the execution condition of the test case and the bug solution condition, and then organizes online application and online work.

7. And the project management module acquires the working time of development and testing personnel from the attendance module according to the project state (online) and synchronizes to the project management tool.

8. And acquiring the code submission amount of the developer corresponding to the corresponding project from the code management module.

9. The project management tool is used for managing the project according to the project members, the number of test cases, the number of bugs, the test period, the development period, the bug rate, the BT rate and the thousand-line code rate of the project.

10. The project is completed.

Any item management platform in the above embodiments includes a processor and a memory, the item management module, the test management module, the OA module, the data pump, and the like in the above embodiments are stored in the memory as program modules, and the processor executes the program modules stored in the memory to implement corresponding functions.

The processor comprises a kernel, and the kernel calls the corresponding program module from the memory. The kernel can be provided with one or more, and project management is realized by adjusting kernel parameters.

The memory may include volatile memory in a computer readable medium, Random Access Memory (RAM) and/or nonvolatile memory such as Read Only Memory (ROM) or flash memory (flash RAM), and the memory includes at least one memory chip.

An embodiment of the present invention provides a storage medium on which a program is stored, the program implementing the project management method described in the above embodiments when executed by a processor.

The embodiment of the invention provides a processor, wherein the processor is used for running a program, and the program executes the project management method in the embodiment when running.

Further, the present embodiment provides an electronic device, which includes a processor and a memory. Wherein the memory is for storing executable instructions of the processor, the processor being configured to perform the project management method described in the above embodiments via execution of the executable instructions.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. A project management platform is characterized by comprising a project management module, a test management module, an OA module and a data pump; wherein,

the project management module is used for managing project information and acquiring the test data of the test management module and the flow data of the OA module through the data pump;

the test management module is used for managing test data and acquiring project information of the project management module and flow data of the OA module through the data pump;

the OA module is used for managing process data and acquiring project information of the project management module and test data of the test management module through the data pump;

the data pump is used for monitoring the project management module, the test management module and the OA module, and when monitoring that any one module has data updating, the data pump synchronously sends the updated data to other modules according to the type of the updated data and preset configuration.

2. The project management platform of claim 1, wherein the data pump comprises a data probe module and a routing module, wherein the data probe module comprises:

the project management probe is used for monitoring whether the project management module has data updating or not, and matching the updating data to a target routing path according to the type of the updating data and preset configuration when the project management module has data updating;

the test management probe is used for monitoring whether the test management module has data updating or not, and matching the updating data to a target routing path according to the type of the updating data and preset configuration when the test management module has data updating;

the OA probe is used for monitoring whether the OA module has data updating or not, and when the OA module has data updating, the updating data is matched to a target routing path according to the type of the updating data and preset configuration;

and the routing module is used for sending the updated data to a destination module in the target routing path according to the matching relation between the updated data and the target routing path.

3. The project management platform of claim 2, wherein: the target routing path includes label information, which includes link information.

4. The project management platform of claim 1, wherein the project management platform further comprises:

the attendance module is used for managing staff attendance data;

the project management module is further operable to: and when the project state is on-line, acquiring attendance data of the attendance module through the data pump.

5. The project management platform of claim 4, wherein the project management module is further configured to:

and determining the BT rate of project development according to the bug number acquired from the test management module and the working duration information acquired from the attendance checking module.

6. The project management platform of claim 1, wherein the project management platform further comprises:

the code management module is used for managing code data;

the project management module is further operable to: and when the project state is on-line, acquiring the code data of the code management module through the data pump.

7. The project management platform of claim 6, wherein the project management module is further configured to:

and determining the bug rate of the thousand-line code of the project development according to the bug number acquired from the test management module and the code line number information acquired from the code management module.

8. The project management platform of claim 1, wherein the project management module is further configured to:

and determining the bug rate of the project development according to the bug number and the test case number acquired from the test management tool.

9. A project management method applied to the project management platform of any one of claims 1 to 8, comprising:

the OA module triggers an OA process to carry out requirement review on the project information according to the received project information;

after receiving the requirement review passing information sent by the OA module through the data pump, the project management module creates a target project corresponding to the project information;

when the online date of the target project is updated, the data pump synchronizes the updating information to the test management module, and the test management module adjusts the project test plan according to the updated online date and creates a test task; the project management module or the test management module initiates a test case and a user test object application to the OA module through the data pump; after receiving the business application passing information returned by the OA module through the data pump, the test management module executes a test task corresponding to the business application;

and the data pump synchronizes the test data in the process of executing the test task by the test management module to the project management module.

10. A storage medium having stored thereon a computer program, characterized in that the program, when being executed by a processor, implements the project management method of claim 9.

11. An electronic device, comprising:

a processor; and

a memory for storing executable instructions of the processor;

wherein the processor is configured to perform the project management method of claim 9 via execution of the executable instructions.