CN116993286B - Test management system and method based on test progress reverse project progress - Google Patents
Test management system and method based on test progress reverse project progress Download PDFInfo
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Abstract
The invention provides a test management system and a method based on a test progress reverse project progress, wherein the system comprises the following steps: the system comprises a demand setting module, a data processing module and an early warning output module; the method comprises the following steps: setting initial data requirements and evaluation standards of project progress tests; setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time; according to the evaluation result of the data processing module, sending an alarm notification to the quality risk; and simultaneously, proposing suggestions for increasing the test coverage rate, improving the system defect solving efficiency and the like according to the evaluation result. The method and the system realize the advanced prediction of the project progress, avoid the error of manual prediction of a supervision party and a construction party, effectively realize the monitoring of the project progress, and simultaneously realize the prediction of the project implementation quality and the delivery time.
Description
Technical Field
The invention relates to the technical field of data processing, in particular to a test management system and method based on a test progress reverse project progress.
Background
Project progress management is management of the progress degree of each stage of a project and the final completion period of the project in the implementation process of a certain project; in the process of executing the plan, whether the actual progress is carried out according to the plan requirement is often checked, if deviation occurs, the reason is found out in time, and necessary remedial measures are adopted or the original plan is adjusted and modified until the project is completed; the aim is to ensure that the project can achieve its overall objective on the premise of meeting its time constraints. Project schedule management includes two major parts of content, namely, the creation of a project schedule and the execution of the project schedule. Most of the current project management processes still need to communicate in the form of one-time oral communication or conference between the supervisor and the constructor, so that the supervisor can monitor the overall progress of the constructor, and the expected completion progress needs to be estimated before the project starts, so that each project work can be successfully carried out.
In the first prior art, application number CN201810248706.8 discloses a project progress supervision control system, which comprises a login module for obtaining corresponding management authority according to unique identification information, an input module for inputting and storing node completion progress information corresponding to the node completion progress of actual construction to a project progress database according to the management authority, an analysis module for analyzing the project urgency degree according to the node completion progress information, and an allocation module for allocating the acceptance time of the project node according to the project urgency degree in response to the analysis module; although the analysis and acceptance time distribution of a plurality of projects can be intelligently and automatically carried out, the problem that the project is delayed due to omission in management and control of a supervisor is avoided, and the management and control are orderly and convenient; however, the lack of a technical means for testing the progress of the project based on the test progress results in a large error in project progress estimation.
In the second prior art, application number CN201710646760.3 discloses a project progress management method and terminal equipment, the method comprises: according to the received project creation instruction, creating a project view, wherein the project view comprises a plurality of display areas which are sequentially arranged; generating a plurality of task bars in a display area; binding and displaying an attribute object icon for each task bar, wherein the attribute object icon is used for identifying implementation members of the task represented by the corresponding task bar; if a completion instruction about a task is received, changing the color of the attribute object icon displayed in a binding manner from a first preset value to a second preset value in a task bar corresponding to the task, so as to complete project progress updating. Although each implementation member of the project can visually check the responsible person of each task, the execution progress of each task is known, and complicated communication work is not needed, so that the management efficiency of the project progress is improved, and the period of software development is shortened; but the test management efficiency of the project progress is lower, and the complete evaluation of whether the project can be completed in time is inaccurate.
In the third prior art, application number CN202010491257.7 discloses a project progress auxiliary robot applied to construction supervision and supervision detection method, which comprises a machine body, a rolling element which is positioned on the machine body and is detachably connected with the side wall of the machine body in a rotating way, a camera device is arranged on the machine body, a detachable sampling mechanism is arranged in the machine body, and the project progress auxiliary robot further comprises a control module, a data input module, a manual progress overall module, a time timing module, a BIM modeling comparison module and an information release module. Although the remote operation of the supervision staff assists the robot to analyze and monitor the progress and sampling of the project, the progress test before project implementation cannot be achieved, so that a constructor and a supervision party cannot acquire future project progress data, project progress data are lost, and accurate control of project construction time is not facilitated.
The first, second and third existing technologies have low precision of the evaluation result of project progress, especially need to rely on personnel to calculate before project begins, cause the problem that the time node of project progress estimates the error is big, therefore, the invention provides a test management system and method based on the project progress of reverse thrust of test progress, can make a staged project progress control scheme, and obtain the quality of the current project, predict whether can deliver on time; and according to the result of the evaluation, giving an alarm and suggesting.
Disclosure of Invention
In order to solve the above technical problems, the present invention provides a test management system based on a test progress reverse project progress, comprising:
the requirement setting module is responsible for setting initial data requirements and evaluation standards of project progress tests, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution and demand review passing rate;
the data processing module is responsible for setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time;
the early warning output module is in charge of sending an alarm notification to the quality risk according to the evaluation result of the data processing module; and simultaneously, proposing suggestions for increasing the test coverage rate and improving the system defect solving efficiency according to the evaluation result.
Optionally, the demand setting module includes:
the requirement input submodule is in charge of acquiring target requirements required by project progress test through user input, test reports, a system defect tracking system, a requirement review record and the like;
The function setting submodule is in charge of setting a corresponding function setting file according to the target requirement, wherein the function setting file is an operation instruction executed by the target requirement;
the data packet compression sub-module is responsible for compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal;
the data packet Jie Yazi module is responsible for decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file.
Optionally, the data processing module includes:
the weight distribution sub-module is in charge of classifying the initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes;
the grading setting submodule is in charge of setting grading of each index according to the weight;
and the model building sub-module is responsible for building a quality evaluation model according to the weights and the scores and calculating the quality evaluation result of the current project.
Optionally, the coverage rate of the test function is divided into three levels of high, medium and low, the distribution rule of the system defects is divided into four levels of deadly, serious, general and tiny, the solution rate of the system defects is divided into three levels of fast, medium and slow, and the passing rate of the demand review is divided into three levels of qualification, disqualification and rechecking.
Optionally, the model building sub-module includes:
the control point setting unit is in charge of setting progress control points of project stageability according to project progress and time schedule, and the progress control points are set as follows: daily, weekly or yearly;
the first trigger unit is in charge of identifying a progress control point, sending a progress control point trigger instruction to an exchange control point, triggering a quality evaluation model by the exchange control point, and starting to calculate the quality of a current project;
the second trigger unit is in charge of realizing that the progress control point sends a progress control point trigger instruction to other progress control points, and the other progress control points directly interact with the exchange control points to calculate the quality of the current project; and summarizing the instructions of the projects of all the progress control points to obtain a staged project progress control scheme.
Optionally, the data processing module includes:
the periodic error calculation sub-module is responsible for acquiring the actual period and the expected period of the project progress in the staged project progress control scheme, obtaining the periodic error under each stage control point and simultaneously acquiring the quality of the project under each stage control point;
the absolute value calculation sub-module is responsible for obtaining the repaired period when the quality of each project is unqualified, and the repaired period is added with the period error to obtain the absolute value of the delivery time error under each stage control point;
And the delivery date calculating sub-module is responsible for accumulating the absolute value of the delivery time error under each phase control point to the total number of the control points in the total phase to obtain the average delivery time cycle error, namely the delivery date of project implementation.
Optionally, the early warning output module includes:
the result comparison sub-module is responsible for comparing the evaluation result with the expected evaluation result, and when the threshold value is exceeded, a quality evaluation model is started, and the quality of the current item is calculated again;
the re-comparison sub-module is responsible for comparing the re-calculated evaluation result with the expected evaluation result, and if the re-calculated evaluation result does not exceed the threshold value, starting a system defect tracking system, searching out the system defect and solving the system defect; if the threshold value is exceeded, starting an alarm output sub-module;
and the alarm output sub-module is responsible for sending out an evaluation result in the form of alarm notification and outputting a result of solving the system defects, and gives suggestions for increasing the test coverage rate and improving the system defect solving efficiency by combining the system defects.
The invention provides a test management method based on a test progress reverse project progress, which comprises the following steps:
setting initial data requirements and evaluation standards of project progress test, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution and demand review passing rate;
Setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time;
according to the evaluation result of the data processing module, sending an alarm notification to the quality risk; and simultaneously, proposing suggestions for increasing the test coverage rate and improving the system defect solving efficiency according to the evaluation result.
Optionally, the process of setting the initial data requirement and evaluation criteria of the project progress test includes the following steps:
acquiring target requirements required by project progress tests through user input, test reports, a system defect tracking system and a requirement review record;
setting a corresponding function setting file according to the target demand, wherein the function setting file is an operation instruction executed by the target demand;
compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal;
and decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file.
Optionally, the process of setting the scoring criteria according to the initial data requirement of the requirement setting module includes the following steps:
Classifying the initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes;
setting the grading of each index according to the weight, wherein the coverage rate of the test function is divided into three grades of high, medium and low, the distribution rule of the system defects is divided into four grades of deadly, serious, general and tiny, the solution rate of the system defects is divided into three grades of fast, medium and slow, and the passing rate of the requirement review is divided into three grades of qualification, disqualification and rechecking;
and establishing a quality evaluation model according to the weights and the scores, and calculating the quality evaluation result of the current project.
The requirement setting module of the invention is responsible for setting initial data requirements and evaluation standards of project progress test, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution rate, demand review pass rate and the like; the data processing module is responsible for setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time; the early warning output module is responsible for sending an alarm notice to the quality risk according to the evaluation result of the data processing module; meanwhile, proposing suggestions for increasing the test coverage rate, improving the system defect solving efficiency and the like according to the evaluation result; according to the scheme, the initial data requirement of project progress reverse thrust is set, so that the functionality of the test management system is improved, and the error of project progress feedback according to the test progress is effectively reduced; the project progress control scheme is obtained by processing the initial data requirement, so that the project progress is predicted in advance, the error of manual prediction of a supervision party and a construction party is avoided, the project progress is effectively monitored, the project implementation quality and delivery time are predicted, the intelligent level of a test management system is enhanced, the intelligent estimation of the project progress is realized, and the project construction quality is improved; the early warning output module is adopted to give an alarm to the quality risk, so that effective monitoring of quality is realized, a constructive scheme is provided for subsequent implementation, accidents are avoided, the reminding of the improvement of the initial data requirement of the test management system is also realized, the function of the test management system is further improved, and the precision of the project progress assessment result is improved.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.
The technical scheme of the invention is further described in detail through the drawings and the embodiments.
Drawings
The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:
FIG. 1 is a block diagram of a test management system based on a test progress thrust project progress in embodiment 1 of the present invention;
FIG. 2 is a block diagram of a demand setting module in embodiment 2 of the present invention;
FIG. 3 is a block diagram showing a data processing module in embodiment 3 of the present invention;
FIG. 4 is a block diagram of a model creation submodule in embodiment 4 of the present invention;
FIG. 5 is a block diagram of a data processing module in embodiment 5 of the present invention;
FIG. 6 is a block diagram of an early warning output module in embodiment 6 of the present invention;
FIG. 7 is a flowchart of a test management method based on the progress of the test progress reverse project in embodiment 7 of the present invention;
FIG. 8 is a process diagram showing the initial data requirements and evaluation criteria for setting project progress tests in accordance with embodiment 8 of the present invention;
FIG. 9 is a process diagram showing the setting of scoring criteria according to the initial data requirements of the requirement setting module in embodiment 9 of the present invention;
FIG. 10 is a diagram of a process of predicting whether an item will be delivered on time in accordance with embodiment 10 of the present invention;
FIG. 11 is a process diagram of issuing an alarm notification and advice in embodiment 11 of the present invention.
Detailed Description
The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.
The terminology used in the embodiments of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the application. As used in the examples and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.
When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present application as detailed in the accompanying claims. In the description of this application, it should be understood that the terms "first," "second," and the like are used merely to distinguish between similar objects and are not necessarily used to describe a particular order or sequence, nor should they be construed to indicate or imply relative importance. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.
Example 1: as shown in fig. 1, an embodiment of the present invention provides a test management system based on a test progress reverse project progress, including:
the requirement setting module is responsible for setting initial data requirements and evaluation standards of project progress tests, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution rate, demand review pass rate and the like;
the data processing module is responsible for setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time;
the early warning output module is in charge of sending an alarm notification to the quality risk according to the evaluation result of the data processing module; meanwhile, proposing suggestions for increasing the test coverage rate, improving the system defect solving efficiency and the like according to the evaluation result;
the working principle and beneficial effects of the technical scheme are as follows: the requirement setting module of the present embodiment is responsible for setting initial data requirements and evaluation criteria of project progress test, where the initial data requirements include: testing function coverage rate, system defect distribution rule, system defect resolution rate, demand review pass rate and the like; the data processing module is responsible for setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time; the early warning output module is responsible for sending an alarm notice to the quality risk according to the evaluation result of the data processing module; meanwhile, proposing suggestions for increasing the test coverage rate, improving the system defect solving efficiency and the like according to the evaluation result; according to the scheme, the initial data requirement of project progress reverse thrust is set, so that the functionality of the test management system is improved, and the error of project progress feedback according to the test progress is effectively reduced; the project progress control scheme is obtained by processing the initial data requirement, so that the project progress is predicted in advance, the error of manual prediction of a supervision party and a construction party is avoided, the project progress is effectively monitored, the project implementation quality and delivery time are predicted, the intelligent level of a test management system is enhanced, the intelligent estimation of the project progress is realized, and the project construction quality is improved; the early warning output module is adopted to give an alarm to the quality risk, so that effective monitoring of quality is realized, a constructive scheme is provided for subsequent implementation, accidents are avoided, the reminding of the improvement of the initial data requirement of the test management system is also realized, the function of the test management system is further improved, and the precision of the project progress assessment result is improved.
Example 2: as shown in fig. 2, on the basis of embodiment 1, the demand setting module provided in the embodiment of the present invention includes:
the requirement input submodule is in charge of acquiring target requirements required by project progress test through user input, test reports, a system defect tracking system, a requirement review record and the like;
the function setting submodule is in charge of setting a corresponding function setting file according to the target requirement, wherein the function setting file is an operation instruction executed by the target requirement;
the data packet compression sub-module is responsible for compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal;
the data packet Jie Yazi module is responsible for decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file;
the working principle and beneficial effects of the technical scheme are as follows: the requirement input submodule of the embodiment is responsible for acquiring target requirements required by project progress test through user input, test reports, a system defect tracking system, a requirement review record and the like; the function setting sub-module is responsible for setting a corresponding function setting file according to the target demand, wherein the function setting file is an operation instruction executed by the target demand; the data packet compression sub-module is responsible for compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal; the data packet Jie Yazi module is responsible for decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file; according to the scheme, the target requirements are acquired through user input, test reports, a system defect tracking system, a requirement review record and the like, so that the effect of human-computer dual-purpose is realized, the target requirements can be ensured to meet the implementation regulations of related projects, personalized setting can be performed according to the specific implementation requirements of the projects, and the accuracy of project progress test is ensured; the accurate receiving and sending of the function setting file are guaranteed through the compression and decompression of the data packet, the unification of the function setting file and the target requirement is guaranteed, and the method is also a basic guarantee of the accurate operation of the test management system.
Example 3: as shown in fig. 3, on the basis of embodiment 1, the data processing module provided in this embodiment includes:
the weight distribution sub-module is in charge of classifying the initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes;
the grading setting submodule is responsible for setting grading of each index according to the weight, the test function coverage rate is divided into three grades of high, medium and low, the system defect distribution rule is divided into four grades of deadly, serious, general and tiny, the system defect resolution rate is divided into three grades of fast, medium and slow, and the requirement evaluation passing rate is divided into three grades of qualification, disqualification and rechecking;
the model building sub-module is in charge of building a quality evaluation model according to the weights and the scores, and calculating a quality evaluation result of the current project;
the working principle and beneficial effects of the technical scheme are as follows: the weight distribution sub-module of the embodiment is responsible for classifying initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes; the grading setting submodule is responsible for setting grading of each index according to the weight, the test function coverage rate is divided into three grades of high, medium and low, the system defect distribution rule is divided into four grades of deadly, serious, general and tiny, the system defect resolution rate is divided into three grades of fast, medium and slow, and the requirement evaluation passing rate is divided into three grades of qualification, disqualification and rechecking; the model building sub-module is responsible for building a quality assessment model according to the weights and the scores, and calculating a quality assessment result of the current project; according to the scheme, different indexes are set according to different initial target requirements, and weights are distributed to each index, so that the problem of inaccurate project progress test results caused by different projects is avoided, and the range of practical application is expanded; different scoring standards are set for different initial target demands, a quality evaluation model is established, automatic evaluation of project quality is realized, and a precise test result is provided for testing.
Example 4: as shown in fig. 4, on the basis of embodiment 3, the model building sub-module provided in the embodiment of the present invention includes:
the control point setting unit is in charge of setting progress control points of project stageability according to project progress and time schedule, and the progress control points are set as follows: daily, weekly or yearly;
the first trigger unit is in charge of identifying a progress control point, sending a progress control point trigger instruction to an exchange control point, triggering a quality evaluation model by the exchange control point, and starting to calculate the quality of a current project;
the second trigger unit is in charge of realizing that the progress control point sends a progress control point trigger instruction to other progress control points, and the other progress control points directly interact with the exchange control points to calculate the quality of the current project; summarizing the instructions of the projects of all progress control points to obtain a staged project progress control scheme;
the working principle and beneficial effects of the technical scheme are as follows: the control point setting unit of this embodiment is responsible for setting progress control points of project graduating according to project progress and time schedule, the progress control points are set as: daily, weekly or yearly; the first trigger unit is in charge of identifying a progress control point, sending a progress control point trigger instruction to an exchange control point, triggering a quality evaluation model by the exchange control point, and starting to calculate the quality of a current project; the second trigger unit is responsible for realizing that the progress control point sends a progress control point trigger instruction to other progress control points, and the other progress control points directly interact with the exchange control points to calculate the quality of the current project; summarizing the instructions of the projects of all progress control points to obtain a staged project progress control scheme; according to the scheme, by setting the progress control points, the project implementation quality assessment under different progress control points is realized, the quality of the whole project implementation can be monitored, and the vector is ensured; meanwhile, the quality evaluation model is started through a plurality of progress control points, so that the intelligent level of quality evaluation is improved, the project progress is also specifically managed, and the accuracy of project progress test is improved.
Example 5: as shown in the figure, on the basis of embodiment 1, a data processing module provided in an embodiment of the present invention includes:
the periodic error calculation sub-module is responsible for acquiring the actual period and the expected period of the project progress in the staged project progress control scheme, obtaining the periodic error under each stage control point and simultaneously acquiring the quality of the project under each stage control point;
the absolute value calculation sub-module is responsible for obtaining the repaired period when the quality of each project is unqualified, and the repaired period is added with the period error to obtain the absolute value of the delivery time error under each stage control point;
the delivery date calculating sub-module is responsible for accumulating the absolute value of the delivery time error under each stage control point to the total number of the control points in the total stage to obtain the average delivery time period error, namely the delivery date of project implementation;
the working principle and beneficial effects of the technical scheme are as follows: the periodic error calculation sub-module of the embodiment is responsible for obtaining the actual period and the expected period of the project progress in the staged project progress control scheme, obtaining the periodic error under each stage control point, and simultaneously obtaining the quality of the project under each stage control point; the absolute value calculation submodule is in charge of acquiring a repaired period when the quality of each project is unqualified, and adding the repaired period and the period error to obtain the absolute value of the delivery time error under each stage control point; the delivery date calculating submodule is responsible for accumulating the absolute value of the delivery time error under each phase control point to the total number of the control points in the total phase to obtain the average delivery time cycle error, namely the delivery date of project implementation; according to the scheme, the periodic error of each stage control point is calculated, the repair period when the quality is unqualified is added, the periodic error total value of each stage control point is obtained, factors for delaying project progress are considered comprehensively, the calculation accuracy of absolute values of delivery time errors is improved, meanwhile, the accurate delivery time is obtained through calculation, the finishing period of future projects can be obtained through judgment of the delivery time, reliable reference data is provided for construction parties and supervision parties, project implementation time and efficiency are timely adjusted, and further the completion of project quality and quality is guaranteed.
Example 6: as shown in fig. 6, on the basis of embodiment 1, the early warning output module provided in the embodiment of the present invention includes:
the result comparison sub-module is responsible for comparing the evaluation result with the expected evaluation result, and when the threshold value is exceeded, a quality evaluation model is started, and the quality of the current item is calculated again;
the re-comparison sub-module is responsible for comparing the re-calculated evaluation result with the expected evaluation result, and if the re-calculated evaluation result does not exceed the threshold value, starting a system defect tracking system, searching out the system defect and solving the system defect; if the threshold value is exceeded, starting an alarm output sub-module;
the alarm output sub-module is responsible for sending out an evaluation result in an alarm notification mode, outputting a result of solving the system defects, and giving suggestions for increasing the test coverage rate and improving the system defect solving efficiency by combining the system defects;
the working principle and beneficial effects of the technical scheme are as follows: the result comparison sub-module of the embodiment is responsible for comparing the evaluation result with the expected evaluation result, and when the threshold value is exceeded, a quality evaluation model is started, and the quality of the current item is calculated again; the re-comparison sub-module is responsible for comparing the re-calculated evaluation result with the expected evaluation result, and if the re-calculated evaluation result does not exceed the threshold value, starting a system defect tracking system to find out the system defect and solving the system defect; if the threshold value is exceeded, starting an alarm output sub-module; the alarm output sub-module is responsible for sending out an evaluation result in the form of alarm notification and outputting a result of solving the system defects, and a suggestion for increasing the test coverage rate and improving the system defect solving efficiency is given by combining the system defects; the scheme wakes up secondary comparison of the evaluation result, ensures the accuracy of the output result of the quality evaluation model, further improves the accuracy of alarm output and improves the result accuracy of project progress test through secondary comparison and evaluation; meanwhile, the method gives constructive comments on the test coverage rate and system defects of the test management system, and further improves the functions of the system.
Example 7: as shown in fig. 7, on the basis of embodiment 1 to embodiment 6, the test management method based on the test progress reverse project progress provided by the embodiment of the invention includes the following steps:
s100: setting initial data requirements and evaluation standards of project progress test, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution rate, demand review pass rate and the like;
s200: setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time;
s300: according to the evaluation result of the data processing module, sending an alarm notification to the quality risk; meanwhile, proposing suggestions for increasing the test coverage rate, improving the system defect solving efficiency and the like according to the evaluation result;
the working principle and beneficial effects of the technical scheme are as follows: in this embodiment, first, an initial data requirement and an evaluation standard of a project progress test are set, where the initial data requirement includes: testing function coverage rate, system defect distribution rule, system defect resolution rate, demand review pass rate and the like; secondly, setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of the current project, and simultaneously predicting whether the project can be delivered on time; finally, according to the evaluation result of the data processing module, an alarm notification is sent out to the quality risk; meanwhile, proposing suggestions for increasing the test coverage rate, improving the system defect solving efficiency and the like according to the evaluation result; according to the scheme, the initial data requirement of project progress reverse thrust is set, so that the functionality of the test management system is improved, and the error of project progress feedback according to the test progress is effectively reduced; the project progress control scheme is obtained by processing the initial data requirement, so that the project progress is predicted in advance, the error of manual prediction of a supervision party and a construction party is avoided, the project progress is effectively monitored, the project implementation quality and delivery time are predicted, the intelligent level of a test management system is enhanced, the intelligent estimation of the project progress is realized, and the project construction quality is improved; the early warning output module is adopted to give an alarm to the quality risk, so that effective monitoring of quality is realized, a constructive scheme is provided for subsequent implementation, accidents are avoided, the reminding of the improvement of the initial data requirement of the test management system is also realized, the function of the test management system is further improved, and the precision of the project progress assessment result is improved.
Example 8: as shown in fig. 8, based on embodiment 7, the process of setting the initial data requirement and evaluation criteria of the project progress test provided in the embodiment of the invention includes the following steps:
s101: acquiring target requirements required by project progress tests through user input, test reports, a system defect tracking system, a requirement review record and the like;
s102: setting a corresponding function setting file according to the target demand, wherein the function setting file is an operation instruction executed by the target demand;
s103: compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal;
s104: decompressing the data packet, triggering a corresponding function setting file according to a selection instruction of project progress test, and reading and analyzing path information and an operation instruction of the function setting file;
the working principle and beneficial effects of the technical scheme are as follows: firstly, acquiring target requirements required by project progress tests through user input, test reports, a system defect tracking system, a requirement review record and the like; secondly, setting a corresponding function setting file according to the target demand, wherein the function setting file is an operation instruction executed by the target demand; compressing different operation instructions into data packets again, and sending the data packets to a specific initial data demand function terminal; finally, decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file; according to the scheme, the target requirements are acquired through user input, test reports, a system defect tracking system, a requirement review record and the like, so that the effect of human-computer dual-purpose is realized, the target requirements can be ensured to meet the implementation regulations of related projects, personalized setting can be performed according to the specific implementation requirements of the projects, and the accuracy of project progress test is ensured; the accurate receiving and sending of the function setting file are guaranteed through the compression and decompression of the data packet, the unification of the function setting file and the target requirement is guaranteed, and the method is also a basic guarantee of the accurate operation of the test management system.
Example 9: as shown in fig. 9, on the basis of embodiment 7, the process of setting the scoring criteria according to the initial data requirement of the requirement setting module provided in this embodiment includes the following steps:
s201: classifying the initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes;
s202: setting the grading of each index according to the weight, wherein the coverage rate of the test function is divided into three grades of high, medium and low, the distribution rule of the system defects is divided into four grades of deadly, serious, general and tiny, the solution rate of the system defects is divided into three grades of fast, medium and slow, and the passing rate of the requirement review is divided into three grades of qualification, disqualification and rechecking;
s203: establishing a quality evaluation model according to the weights and the scores, and calculating a quality evaluation result of the current project;
the working principle and beneficial effects of the technical scheme are as follows: in the embodiment, first, classifying initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes; secondly, grading each index according to the weight, wherein the coverage rate of the test function is divided into three grades of high, medium and low, the distribution rule of the system defects is divided into four grades of deadly, serious, general and tiny, the solution rate of the system defects is divided into three grades of fast, medium and slow, and the passing rate of the requirement evaluation is divided into three grades of qualification, disqualification and rechecking; finally, a quality evaluation model is established according to the weight and the score, and a quality evaluation result of the current project is calculated; according to the scheme, different indexes are set according to different initial target requirements, and weights are distributed to each index, so that the problem of inaccurate project progress test results caused by different projects is avoided, and the range of practical application is expanded; different scoring standards are set for different initial target demands, a quality evaluation model is established, automatic evaluation of project quality is realized, and a precise test result is provided for testing.
Example 10: as shown in fig. 10, on the basis of embodiment 7, the process for predicting whether an item can be delivered on time according to the embodiment of the present invention includes the following steps:
s204: acquiring the actual period and the expected period of the project progress in the staged project progress control scheme, acquiring the period error under each stage control point, and simultaneously acquiring the quality of the project under each stage control point;
s205: obtaining a repaired period when the quality of each project is unqualified, and adding the repaired period and a period error to obtain an absolute value of a delivery time error under each stage control point;
s206: accumulating the absolute value of the delivery time error under each phase control point to the total number of the control points in the total phase to obtain the average delivery time cycle error, namely the delivery time of project implementation;
the working principle and beneficial effects of the technical scheme are as follows: firstly, acquiring the actual period and the expected period of the project progress in a staged project progress control scheme, obtaining a period error under each stage control point, and simultaneously acquiring the quality of the project under each stage control point; secondly, obtaining a repaired period when the quality of each project is unqualified, and adding the repaired period and a period error to obtain an absolute value of a delivery time error under each stage control point; and finally, accumulating the absolute values of the delivery time errors under each stage control point to obtain the total number of the control points in the total stage, so as to obtain the average delivery time cycle error, namely, the project implementation time and efficiency are timely adjusted by calculating the cycle error of each stage control point and adding the repair cycle when the quality is unqualified, the total cycle error value of each stage control point is obtained, factors for delaying the project progress are considered comprehensively, the calculation precision of the absolute values of the delivery time errors is improved, meanwhile, the accurate delivery time is obtained through calculation, the completion time of future projects can be obtained through the judgment of the delivery time, reliable reference data is provided for constructors and proctoring parties, and further, the on-time and quality and quantity of the projects are ensured.
Example 11: as shown in fig. 11, on the basis of embodiment 7, the process of sending out alarm notification and advice provided in the embodiment of the present invention includes the following steps:
s301: comparing the evaluation result with the expected evaluation result, starting a quality evaluation model when the threshold value is exceeded, and calculating the quality of the current item again;
s302: comparing the recalculated evaluation result with the expected evaluation result, and starting a system defect tracking system if the calculated evaluation result does not exceed the threshold value, searching out the system defect, and solving the system defect; if the threshold value is exceeded, starting alarm output;
s303: sending out the evaluation result in the form of alarm notification, outputting the result of solving the system defects, and giving suggestions for increasing the test coverage rate and improving the system defect solving efficiency by combining the system defects;
the working principle and beneficial effects of the technical scheme are as follows: firstly, comparing an evaluation result with an expected evaluation result, starting a quality evaluation model when a threshold value is exceeded, and calculating the quality of the current item again; secondly, comparing the recalculated evaluation result with the expected evaluation result, and starting a system defect tracking system if the calculated evaluation result does not exceed a threshold value, searching out a system defect, and solving the system defect; if the threshold value is exceeded, starting an alarm output sub-module; finally, sending out the evaluation result in the form of alarm notification, outputting the result of solving the system defects, and giving suggestions for increasing the test coverage rate and improving the system defect solving efficiency by combining the system defects; the scheme wakes up secondary comparison of the evaluation result, ensures the accuracy of the output result of the quality evaluation model, further improves the accuracy of alarm output and improves the result accuracy of project progress test through secondary comparison and evaluation; meanwhile, the method gives constructive comments on the test coverage rate and system defects of the test management system, and further improves the functions of the system.
It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
Claims (5)
1. A test management system based on a test progress thrust project progress, comprising:
the requirement setting module is responsible for setting initial data requirements and evaluation standards of project progress tests, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution and demand review passing rate;
the data processing module is responsible for setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time;
the early warning output module is in charge of sending an alarm notification to the quality risk according to the evaluation result of the data processing module; meanwhile, a suggestion for increasing the test coverage rate and improving the system defect solving efficiency is provided according to the evaluation result;
A data processing module comprising:
the weight distribution sub-module is in charge of classifying the initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes;
the grading setting submodule is in charge of setting grading of each index according to the weight;
the model building sub-module is in charge of building a quality evaluation model according to the weights and the scores, and calculating a quality evaluation result of the current project;
the coverage rate of the test function is divided into three grades of high, medium and low, the distribution rule of the system defects is divided into four grades of deadly, serious, general and tiny, the solution rate of the system defects is divided into three grades of fast, medium and slow, and the passing rate of the demand review is divided into three grades of qualification, disqualification and review;
a model building sub-module comprising:
the control point setting unit is in charge of setting progress control points of project stageability according to project progress and time schedule, and the progress control points are set as follows: daily, weekly or yearly;
the first trigger unit is in charge of identifying a progress control point, sending a progress control point trigger instruction to an exchange control point, triggering a quality evaluation model by the exchange control point, and starting to calculate the quality of a current project;
the second trigger unit is in charge of realizing that the progress control point sends a progress control point trigger instruction to other progress control points, and the other progress control points directly interact with the exchange control points to calculate the quality of the current project; summarizing the instructions of the projects of all progress control points to obtain a staged project progress control scheme;
A data processing module comprising:
the periodic error calculation sub-module is responsible for acquiring the actual period and the expected period of the project progress in the staged project progress control scheme, obtaining the periodic error under each stage control point and simultaneously acquiring the quality of the project under each stage control point;
the absolute value calculation sub-module is responsible for obtaining the repaired period when the quality of each project is unqualified, and the repaired period is added with the period error to obtain the absolute value of the delivery time error under each stage control point;
and the delivery date calculating sub-module is responsible for accumulating the absolute value of the delivery time error under each phase control point to the total number of the control points in the total phase to obtain the average delivery time cycle error, namely the delivery date of project implementation.
2. The test management system based on the progress of the test progress back-push project according to claim 1, wherein the demand setting module comprises:
the requirement input submodule is in charge of acquiring target requirements required by project progress test through user input, test reports, a system defect tracking system and a requirement review record;
the function setting submodule is in charge of setting a corresponding function setting file according to the target requirement, wherein the function setting file is an operation instruction executed by the target requirement;
The data packet compression sub-module is responsible for compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal;
the data packet Jie Yazi module is responsible for decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file.
3. The test management system based on the progress of the test progress thrust project according to claim 1, wherein the early warning output module comprises:
the result comparison sub-module is responsible for comparing the evaluation result with the expected evaluation result, and when the threshold value is exceeded, a quality evaluation model is started, and the quality of the current item is calculated again;
the re-comparison sub-module is responsible for comparing the re-calculated evaluation result with the expected evaluation result, and if the re-calculated evaluation result does not exceed the threshold value, starting a system defect tracking system, searching out the system defect and solving the system defect; if the threshold value is exceeded, starting an alarm output sub-module;
and the alarm output sub-module is responsible for sending out an evaluation result in the form of alarm notification and outputting a result of solving the system defects, and gives suggestions for increasing the test coverage rate and improving the system defect solving efficiency by combining the system defects.
4. The test management method based on the test progress reverse project progress is characterized by comprising the following steps of:
setting initial data requirements and evaluation standards of project progress test, wherein the initial data requirements comprise: testing function coverage rate, system defect distribution rule, system defect resolution and demand review passing rate;
setting a scoring standard according to the initial data demand of the demand setting module, making a staged project progress control scheme, establishing a quality evaluation model, obtaining a quality evaluation result of a current project, and simultaneously predicting whether the project can be delivered on time;
according to the evaluation result of the data processing module, sending an alarm notification to the quality risk; meanwhile, a suggestion for increasing the test coverage rate and improving the system defect solving efficiency is provided according to the evaluation result;
a process for setting a scoring standard according to an initial data requirement of a requirement setting module, comprising the steps of:
classifying the initial target demands to obtain indexes corresponding to each initial target demand, and distributing weights to the indexes;
setting the grading of each index according to the weight, wherein the coverage rate of the test function is divided into three grades of high, medium and low, the distribution rule of the system defects is divided into four grades of deadly, serious, general and tiny, the solution rate of the system defects is divided into three grades of fast, medium and slow, and the passing rate of the requirement review is divided into three grades of qualification, disqualification and rechecking;
Establishing a quality evaluation model according to the weights and the scores, and calculating a quality evaluation result of the current project; according to project progress and time schedule, setting a progress control point of project stage, wherein the progress control point is set as follows: daily, weekly or yearly; identifying a progress control point, sending a progress control point trigger instruction to an exchange control point, triggering a quality assessment model by the exchange control point, and starting to calculate the quality of a current project; the realization progress control point sends a progress control point trigger instruction to other progress control points, and the other progress control points directly interact with the exchange control points to calculate the quality of the current project; summarizing the instructions of the projects of all progress control points to obtain a staged project progress control scheme;
a process for predicting whether an item can be delivered on time, comprising the steps of:
acquiring the actual period and the expected period of the project progress in the staged project progress control scheme, acquiring the period error under each stage control point, and simultaneously acquiring the quality of the project under each stage control point;
obtaining a repaired period when the quality of each project is unqualified, and adding the repaired period and a period error to obtain an absolute value of a delivery time error under each stage control point;
And accumulating the absolute value of the delivery time error under each phase control point to the total number of the control points in the total phase to obtain the average delivery time cycle error, namely the delivery date of project implementation.
5. The test management method based on the test progress back-off project progress according to claim 4, wherein the process of setting the initial data requirement and evaluation criteria of the project progress test comprises the steps of:
acquiring target requirements required by project progress tests through user input, test reports, a system defect tracking system and a requirement review record;
setting a corresponding function setting file according to the target demand, wherein the function setting file is an operation instruction executed by the target demand;
compressing different operation instructions into data packets and sending the data packets to a specific initial data demand function terminal;
and decompressing the data packet, triggering the corresponding function setting file according to the selection instruction of the project progress test, and reading and analyzing the path information and the operation instruction of the function setting file.
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