CN115994646A - Process management system for software development - Google Patents
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- CN115994646A CN115994646A CN202210872152.5A CN202210872152A CN115994646A CN 115994646 A CN115994646 A CN 115994646A CN 202210872152 A CN202210872152 A CN 202210872152A CN 115994646 A CN115994646 A CN 115994646A
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Abstract
The invention relates to the technical field of software development, in particular to a process management system for software development. The invention specifically builds a process management model based on the combination of the software maturity model and the risk assessment model based on the basis of the software execution standard proposed in the project execution index. The process management system for software development ensures that the actual requirements of projects are not separated in the software code development process, and simultaneously timely discovers and predicts development problems generated immediately, so that the software testing efficiency after the later-stage software development is finished is improved, and the software development management quality is improved.
Description
Technical Field
The invention relates to the technical field of software development, and comprises the following steps: G06F8/70 is specifically a process management system for software development.
Background
In the present stage, the problems of overall management and risk avoidance are usually faced in the software development process, so that the difficulty and the weight of the software development process are caused, the promotion difficulty is caused by the fact that a plurality of problems cannot be avoided in the first time, and how to establish a reasonable management model and a quality control system in the software development management process is an important guarantee for ensuring benign development of the software development process.
Patent CN201610107315 provides a software development process management system, which combines a software development process and a project management process with each other, and standardizes the software development process systematically. However, the software development and project management have great differences in terms of workflow and task risks, and the problem existing in fusion between the workflow and task risks is not considered when the workflow and task risks are directly used in a replication mode, so that supervision failure of the software development flow can be caused.
The patent CN201711136695 provides a distributed software development process management method, and the patent is used for better improving the combined management mode among different modules of software and improving project software management efficiency by compiling distributed software modules based on a modeling mode. But this patent focuses on distributed code stitching and does not relate to the monitoring and assessment of risk management problems in the software development process.
Therefore, in order to solve the problems existing in the existing software development process, it is highly desirable to develop a process management system for software development.
Disclosure of Invention
In view of the above problems, the present invention provides a process management system for software development, specifically, by taking a software execution standard proposed in project execution indexes as a basis, and based on this, establishing a process management model based on a combination of a software maturity model and a risk assessment model.
Preferably, the risk degree evaluation model automatically collects risk evaluation data in the software development process, and establishes a Bayesian posterior probability model according to the risk evaluation data so as to predict development risk points and risk node processing states in real time.
Specifically, the risk node processing state includes a risk point repair prompt, a code modularization prompt and a code multiplexing prompt.
Preferably, the risk assessment data establishes a software review time node in the middle of the software development process, and automatic software review is performed when the software review time node is used.
Specifically, after the automatic software review, software review data are generated and summarized in a preparation period, so that the development state of the software development process under a single item and the problems existing in the development process are summarized in a multi-disc manner.
Preferably, the automatic software review combines the software quality evaluation standard with the project execution index to serve as a weight index to be calculated by the software review.
Preferably, the automatic software review adopts a dynamic review mode according to the project execution index and the change of the review time period.
Specifically, the dynamic review adjusts the weight index to be calculated by the software review according to the different projects corresponding to the software development and the different stages in the software maturity model, so that the structure of the software review is more in line with the actual development scene.
Preferably, in the software review time node period, code quality defect tracking and code defect solving efficiency calculation are performed, and a software development process quality management report is generated through statistics.
Preferably, the project execution index establishes a project requirement book before project execution, establishes a mapping relation between each requirement node in the project requirement book and a software review time node, and updates the development completion degree in real time in the software development process.
Preferably, the software maturity model performs hierarchical evaluation management on the software.
Preferably, a mapping relation between the hierarchical assessment management and the risk assessment model is established, and the software maturity model is assisted to carry out software quality assessment.
Specifically, the risk assessment data includes, but is not limited to, failure rate assessment, repair time assessment, demand coverage assessment, function call assessment, nesting depth assessment, and the like.
Preferably, the process management system supports multiple development languages and grammar structures corresponding to the multiple development languages.
Compared with the prior art, the invention has the beneficial effects that:
(1) The process management system for software development ensures that the actual requirements of projects are not separated in the software code development process, and simultaneously timely discovers and predicts development problems generated immediately, so that the software testing efficiency after the later-stage software development is finished is improved, and the software development management quality is improved.
(2) On the basis of the step (1), the automatic software review is performed by setting the software review time node, the software review time period is used for automatically performing directional review on development problems existing in the software development process, the problem that the review time is long due to manual review and a certain subjectivity exists in the review is avoided, the review can be performed immediately in the development process, the process management time of software development is shortened, and meanwhile the pertinence of the software development review under a single item is improved.
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FIG. 1 is a flow chart of a process management system for software development.
Detailed Description
Example 1:
in the process management system for software development described in this embodiment, as shown in fig. 1, the present invention specifically builds a process management model based on a combination of a software maturity model and a risk assessment model based on a software execution standard set forth in project execution indexes.
The software maturity model is used as an evaluation standard of software development degree and development quality, and is mainly used for measuring the perfection degree of a developed code, wherein the perfection degree is used as an evaluation standard with an actual project standard of an enterprise, and the current code degree is measured as an initial level, a management level, a definition level, a quantization level or an optimization level, so that whether the code at the current stage accords with the standard of project use or test only is judged. Because the coverage rate and the optimization degree of codes in each stage are different, the generated risk points are also different, and a risk assessment model is respectively added into each level related to the software maturity model for monitoring and timely finding out problems in each stage in the code development process in real time, so that a hierarchical risk management and prediction mode based on a software development process management system is established, and the software development management efficiency and the software optimization degree are improved.
And carrying out hierarchical evaluation management on the software in the software maturity model, establishing a mapping relation between the hierarchical evaluation management and the risk degree evaluation model, and assisting the software maturity model in carrying out software quality evaluation.
The risk assessment data includes a demand coverage assessment, which is a static test coverage for testing the code development amount of the code developer in the development period and the code development efficiency.
According to the process management system for software development, a process management model based on combination of a software maturity model and a risk degree evaluation model is established, firstly, the overall process management of the state of software development and the quality of software development is carried out through a software hierarchical evaluation management mode in the software maturity model, in the process of management, the risk points in the development process are subjected to regular software evaluation and risk point prediction through the risk degree evaluation model, meanwhile, in the process of evaluation of the risk degree evaluation model, specific project execution indexes are combined to serve as an evaluation range of software development, in the Bayesian posterior probability model, acquired risk evaluation data are used as initial prediction values, and risk avoidance processing is carried out by predicting possible risk points in a next stage of software evaluation time node.
Claims (10)
1. A process management system for software development is characterized in that a process management model based on a combination of a software maturity model and a risk assessment model is established on the basis of software execution standards set forth in project execution indexes.
2. The process management system for software development according to claim 1, wherein the risk assessment model automatically collects risk assessment data in the software development process, and establishes a bayesian posterior probability model according to the risk assessment data for predicting development risk points and risk node processing states in real time.
3. The process management system for software development of claim 2, wherein the risk assessment data establishes a software review time node in the middle of the software development process, and wherein automatic software review is performed at the software review time node.
4. A process management system for software development according to claim 3 wherein said automated software review combines software quality assessment criteria with project execution metrics as weight metrics to be calculated by the software review.
5. The process management system for software development according to claim 4 wherein the automatic software review uses a dynamic review mode based on changes in project execution metrics and review time periods.
6. A process management system for software development according to claim 3 wherein the code quality defect tracking and code defect resolution efficiency calculation are performed during the software review time node period and a software development process quality management report is statistically generated.
7. The process management system for software development according to claim 1 or 5, wherein the project execution index establishes a project requirement book before project execution, and establishes a mapping relationship between each requirement node in the project requirement book and the software review time node, and updates the development completion degree in real time during the software development.
8. The process management system for software development of claim 1, wherein the software maturity model performs hierarchical assessment management of the software.
9. The process management system for software development according to claim 8, wherein a mapping relationship between the hierarchical assessment management and the risk assessment model is established to assist the software maturity model in software quality assessment.
10. The process management system for software development of claim 1, wherein the process management system supports multiple development languages and syntax structures corresponding to the multiple development languages.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116993286A (en) * | 2023-07-24 | 2023-11-03 | 北京泰策科技有限公司 | Test management system and method based on test progress reverse project progress |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116993286A (en) * | 2023-07-24 | 2023-11-03 | 北京泰策科技有限公司 | Test management system and method based on test progress reverse project progress |
CN116993286B (en) * | 2023-07-24 | 2024-04-12 | 北京泰策科技有限公司 | Test management system and method based on test progress reverse project progress |
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