CN111191945A - Method and apparatus for calculating revision completion level of standard system - Google Patents

Abstract

The invention relates to the technical field of project completion level measurement, in particular to a method and equipment for calculating a standard system revision completion level. The method comprises the steps of determining an investigation element of a standard system revision item and a stage target value of the investigation element; determining the weight of at least one element to be considered according to an expected value; determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item; acquiring a stage actual completion value of at least one element under investigation; determining the completion rate of the corresponding investigation element by utilizing the ratio of the actual stage completion value to the target stage value in combination with the technical ready index; and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision. Through scientific and technological measurement, effective quantification and effective comparison are carried out on the progress of each project, scientific and technological statistics and comparison are achieved, and accurate control of the projects is facilitated.

Description

Method and apparatus for calculating revision completion level of standard system

Technical Field

The invention relates to the technical field of project completion level measurement, in particular to a method and equipment for calculating a standard system revision completion level.

Background

The standard is an important technical support for national economy and social development, is a 'pass' which moves to the international market, is a high point of market competition, establishes, executes and continuously perfects the standard, and is an effective means for continuously improving quality, management level and economic benefit. In recent years, the national regulatory revision has been highly emphasized, and the declaration of the regulatory revision item of the standards has been vigorously promoted. However, the current financial reports can only list the financial use conditions of the standard system revisions, but cannot be evaluated and managed according to the years, and how to scientifically and effectively measure the output efficiency of the standard system revisions becomes a key point. Currently, there is no effective method to effectively gauge the regulatory output efficiency of the standards.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide a calculation method and calculation equipment for the completion level of standard system revision, which are used for solving the technical metering problem of the completion level of projects such as standard system revision.

(II) technical scheme

In order to solve the above technical problem, the present invention provides a method for calculating a revision completion level of a standards system, comprising:

determining an investigation element of a standard system revision item and a stage target value of the investigation element; determining the weight of at least one element to be considered according to an expected value;

determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item;

acquiring a stage actual completion value of at least one element under investigation;

determining the completion rate of the corresponding investigation element by utilizing the ratio of the actual stage completion value to the target stage value in combination with the technical ready index;

and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision.

In some embodiments, preferably, determining the expedition element of the standard system revision item, the phase target value of the expedition element comprises:

determining the investigation element and the total target value of the standard system revision item;

and determining the stage target values respectively corresponding to all the investigation elements according to the investigation elements.

In some embodiments, preferably, the element under investigation includes: standard system revision investment, technical implicit income and technical explicit income.

In some embodiments, preferably, the input-output efficiency is calculated by using the weight of the element under investigation and the completion rate of the element under investigation, and obtaining the completion level of the standard system revision includes:

using rZ_t＝ω₁X_t+ω₂Y_tCalculating Z_t；

Wherein t is a time point; z_tRevising the input completion rate for the standard system at the time point t; x_tThe technology implicit profit completion rate is t time point; y is_tT is the technology explicit rate of return completion at the time point; omega₁As a technical implicit profit weight, 0 ≦ ω₁≤1；ω₂For the technology dominant gain weight, 0 is not more than omega₂Less than or equal to 1, and meets omega₁+ω₂＝1。

In some embodiments, preferably, the determining the completion rate of the corresponding element under investigation by using the ratio of the stage actual completion value to the stage target value in combination with the technical ready index includes:

X_t(stage actual completion value-t technical ready index of the staged unit)/(stage target completion value-t technical ready index of the staged unit).

In some embodiments, preferably, when the input-output efficiency is less than 1, the completion level of the standard system revision is obtained as not reaching the expected target; when the input-output efficiency is equal to 1, the completion level of the standard system revision is reached to the expected target; when the input-output efficiency is greater than 1, the completion level to the standards revision has exceeded the expected goal.

The present invention also provides a mastering completion level calculating device for performing the mastering completion level preparing method, including:

determining an investigation element of a standard system revision item and a stage target value of the investigation element; determining the weight of at least one element to be considered according to an expected value;

determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item;

acquiring a stage actual completion value of at least one element under investigation;

determining the completion rate of the corresponding investigation element by utilizing the ratio of the actual stage completion value to the target stage value in combination with the technical ready index;

and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision.

The invention also provides an electronic device, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, and is characterized in that when the processor executes the computer program, the computing method of the standard system revision completion level is realized.

The present invention also provides a non-transitory computer-readable storage medium having stored thereon computer instructions which, when executed by a computer, implement the method of calculating the revision completion level of the standards organization.

(III) advantageous effects

Determining an investigation element of a standard system revision item and a stage target value of the investigation element in the technology provided by the invention; determining the weight of at least one element to be considered according to an expected value; determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item; acquiring a stage actual completion value of at least one element under investigation; determining the completion rate of the corresponding investigation element by utilizing the ratio of the actual stage completion value to the target stage value in combination with the technical ready index; and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision. Determining the inspected elements according to actually related indexes in the standard system revision process, further determining indexes for effectively measuring the completion level, and then determining technical ready indexes of the periodic units by combining with project processes in the standard system revision process so as to further accurately measure the completion amount of the inspected elements; and then, calculating the completion rate of the investigation elements through the obtained completion values of the investigation elements, carrying out scientific and technological measurement of the completion rate of the investigation elements one by one (which is suitable for being called as investigation indexes), and finally obtaining the measurement problem of the completion level of the standard system revision by combining the output input condition.

Drawings

FIG. 1 is a schematic diagram of a method of calculating a standard system revision completion level according to an embodiment of the present invention.

Fig. 2 is a schematic physical structure diagram of an electronic device provided in an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In order to effectively measure the completion level of an item in the standard revision, the invention provides a method and a device for calculating the completion level of the standard revision.

A calculation method of standard system revision completion level is disclosed, as shown in FIG. 1, determining investigation element of standard system revision item, phase target value of investigation element; determining the weight of at least one element to be investigated according to the expected value; determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item; acquiring a stage actual completion value of at least one element under investigation; determining the completion rate of the corresponding investigation element by using the ratio of the actual completion value of the stage to the target value of the stage in combination with the technical ready index; and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision.

Determining the inspected elements according to actually related indexes in the standard system revision process, further determining indexes for effectively measuring the completion level, and then determining technical ready indexes of the periodic units by combining with project processes in the standard system revision process so as to further accurately measure the completion amount of the inspected elements; and then, calculating the completion rate of the investigation elements through the obtained completion values of the investigation elements, carrying out scientific and technological measurement of the completion rate of the investigation elements one by one (which can be called investigation indexes), and finally obtaining the measurement problem of the completion level of the standard system revision by combining the output and input conditions.

In the method for calculating the revision completion level of the standards system, the following steps can be performed:

firstly, according to indexes related to the standard system revision project progress, determining investigation elements such as standard system revision investment, technical implicit income, technical explicit income and the like, and determining stage target values of the three investigation elements;

in general, for a project, investment and profit are measures for effectively considering the tension of the project, and therefore, three indexes of standard system revision investment, technical implicit profit and technical explicit profit are listed as investigation elements.

Other elements of interest may be added to other items.

As the project progresses, the three elements to be examined can be measured and examined at each stage, and therefore, it is necessary to set stage target values of the three elements to be examined. If the whole project has a stage total target value, the total target value can be split to determine the stage target values of the three investigation elements, and when the stage target values of the three investigation elements are determined, the stage target values need to be determined according to an input-benefit scientific rule of project scientific progress, for example, an empirical distribution mode is used, or a scientific distribution mode which can be used for reference in the prior art metering is used.

The technology explicit benefits are realized economic benefits, the technology implicit benefits are realized technology added values, and the technology added values can be used for evaluating the difference value of the technology ready indexes at the end of an implementation period and the beginning of the implementation period of a project.

The weights of the technical implicit benefit and technical explicit benefit exploratory elements are then determined from the expectations of the standards revision.

Generally, in project process measurement of standard revision, income weight of technical implicit income and technical explicit income needs to be determined so as to better determine the proportion of the technical implicit income and the technical explicit income in the technical measurement.

Subsequently, a periodic item unit and a technical readiness index for the periodic unit of the standards revision item are determined.

The technical readiness level is the technical maturity of the staged project unit after the project is decomposed, the technical readiness index refers to the weighted average of the technical readiness level, the technical maturity is the basis of the staged development completion condition of the project, and the measurement completion rate can be more accurately obtained by considering the technical readiness index.

Subsequently, an actual completion value of each stage is acquired. In the step, the matching degree of the stage target value and the actual completion value of the element can be examined for three stages, and the authenticity, the integrity and the like of the data can be examined and determined.

Then, determining the completion rate of the corresponding investigation element by using the ratio of the actual stage completion value to the target stage value in combination with the technical ready index;

the investment completion rate is used for measuring the ratio of actual investment to planned investment in the project development period; the technology implicit profit completion rate is used for measuring the ratio of the realized technology increment value to the expected completed technology increment value in the project development period; the technology-explicit rate of return completion is used to gauge the ratio of economic benefits realized over the project development period to the economic benefits expected to be realized.

And then calculating input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision.

Using rZ_t＝ω₁X_t+ω₂Y_tCalculating Z_t；

Wherein t is a time point; z_tRevising the input completion rate for the standard system at the time point t; x_tThe technology implicit profit completion rate is t time point; y is_tT is the technology explicit rate of return completion at the time point; omega₁As a technical implicit profit weight, 0 ≦ ω₁≤1；ω₂For the technology dominant gain weight, 0 is not more than omega₂Less than or equal to 1, and meets omega₁+ω₂＝1。

Wherein the technology implicit profit completion rate needs to consider a technology ready index, X_t(stage actual completion value-t technical ready index of the staged unit)/(stage target completion value-t technical ready index of the staged unit).

When the input-output efficiency is less than 1, the completion level of standard system revision is obtained as not reaching the expected target; when the input-output efficiency is equal to 1, the completion level of the standard system revision is reached to the expected target; when the input-output efficiency is greater than 1, the completion level of the standard system revision has exceeded the expected target.

It should be noted that, for some reference, in some cases, if the method of setting the boundary conditions and the assignment values is adopted, the progress of the project can be classified into the following five types:

(1) zero input type

When Z is_tWhen 0, no charge is added. In this case, there may be a possibility thatThere are some innovative ideas and ideas, but there is generally no output because there is no financial support. This case does not have the basic condition for evaluation.

(2) Zero output type

When Z is_tNot equal to 0 and X_t＝Y_tWhen 0, the result indicates that there is neither a technical implicit benefit nor a technical explicit benefit. The investment is not sustainable in this case, and the evaluation conclusion at this point is a failure.

(3) Quasi-benefit type

When Z is_t≠0，Y_tNot equal to 0 and X_tWhen 0, the representation shows no technical implicit gain in a certain time frame. At this time Y_t＝Z_tNamely, the standard system revision investment is completely converted into the technology explicit benefit. In this case, the emphasis of the evaluation is a technology-dominant benefit.

(4) Quasi-storage type

When Z is_t≠0，X_tNot equal to 0 and Y_tWhen 0, this means that there is no technical overt benefit over a certain time frame. At this time X_t＝Z_tNamely, the standard system revision investment is completely converted into the technical implicit income. In this case, the emphasis of the evaluation is the technological implicit benefits.

(5) Reserve + benefit type

When Z is_tNot equal to 0 and 0<X_t<1，0<Y_t<1, representing that within a certain time range, the standard system revision has both technology explicit income and technology implicit income. In this case, the emphasis of the evaluation is on the technical implicit benefit and the technical explicit benefit.

For standard system revisions, only Y is satisfied within a certain time frame_t≥Z_tOnly then is it sustainable to have a reenter of standards revision. Only if a reengineering of the standards revision is sustainable will the standards revision form a virtuous circle of sustainable development. An important means of maintaining the virtuous cycle of the regulatory revision of the input-output is to constantly evaluate the input-output to achieve a dynamic balance.

And for the technical implicit income weight omega₁Technical dominant gain weight ω₂There are also three edge cases of the following values:

①ω₁＝0，ω₂1. Representing no anticipated goal of technical implicit benefits of standard revision at some point in time during the evaluation period.

②ω₁＝1，ω₂0. Representing that at some point in time during the evaluation period there is no anticipated goal for the technical overt return of the standards revision.

③0<ω₁<1，0<ω₂<1. Representing the prospective goal of technical implicit and technical explicit revenues to standard revisions at some point in time during the evaluation period.

The completion level in the process of revising can be measured by the technology and technology standard through the method.

The calculation method of the revision completion level of the standards will be described by way of a specific example:

the lead time of a standard revision item is 24 months from the early 2011 to the end 2012. The total investment of the project is 1000 thousands, the technology dominant income is 200 thousands, and the scientific and technological measurement according to the steps of the method is as follows:

and constructing the work decomposition units according to various aspects of information, and respectively determining the technical readiness level of the work decomposition units.

TABLE 1 Integrated Meter

①, proposing and confirming total target values of three factors of standard system revision project investment, technical implicit income and technical explicit income;

the technical ready index of the middle-term initial work decomposition unit is 5.05, and the technical ready index of the end-term work decomposition unit is 9.

② according to the standard systemRevised expectation value, determining technical implicit income weight w₁Is 0.4, the technical dominant gain weight w₂Is 0.6;

decomposing the total target values of the three factors of the standard system revision investment, the technical implicit income and the technical explicit income into staged target values;

recording (acquiring) the actual completion value of each stage;

comparing the stage target values of the three elements in each time stage with the actual completion values;

after confirming the recorded various data, calculating according to a formula to obtain a standard system revision input-output efficiency value.

(1) Measuring the input-output effect at the end of 2010:

Z_tthe ratio (actual input in evaluation period)/(planned input) 600 ten thousand/1000 ten thousand/60%

X_tNot (technical increase realized within evaluation period)/(expected technical increase achieved)

＝(6.4-5.05)/(9-5.05)＝1.35/3.95＝34.2％

Y_t0 ten thousand yuan/200 ten thousand yuan is 0 ═ to (economic benefit achieved in the evaluation period)/(economic benefit expected to be achieved) — (0)

r＝[ω₁X_t+ω₂Y_t]/Z_t＝(34.2×0.4+0×0.6)/60＝22.8％

And (4) evaluation conclusion: by the end of 2010, the target completion value of the implicit income of the standard system revision project is 34.2%, the target completion value of the explicit income is 0, and the expected target of investment is already completed by 60%. It follows that the project cost investment is not strictly qualified.

(2) Evaluation of input-output Effect at the end of 2012

Z_tThe ratio (actual input in evaluation period)/(planned input) is 1000 ten thousand/1000 ten thousand is 60%

X_tNot (technical increase realized within evaluation period)/(expected technical increase achieved)

＝(8.24-5.05)/(9-5.05)＝3.19/3.95＝80.8％

Y_tThe economic benefit achieved in the evaluation period)/(expected economic benefit achieved) is 5 ten thousand yuan/200 ten thousand yuan is 2.5%

r＝[ω₁X_t+ω₂Y_t]/Z_t＝(80.8×0.4+2.5×0.6)/60＝34.8％

By project completion level gauging, the conclusion is drawn: by the end of 2012, the target completion value of the implicit income of the standard system revision project is 80.8%, the target completion value of the explicit income is 2.5%, and the expected target of investment is already completed by 100%. It follows that the project development process does not strictly control the task goals at each stage, resulting in a project failure.

The invention also provides a computing device for executing the computing method, so as to execute the computing method, the computing device can be a hardware device or a software program, and the module setting can be determined according to the requirements of the method steps.

The invention also provides an electronic device which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the computer program to realize the calculation method of the standard system revision completion level.

The electronic device of the embodiment of the present invention may further include a communication interface and a bus. Referring to fig. 2, an entity structure diagram of an electronic device provided in an embodiment of the present invention includes: at least one memory 401, at least one processor 402, a communication interface 403, and a bus 404.

The memory 401, the processor 402 and the communication interface 403 complete mutual communication through the bus 404, and the communication interface 403 is used for information transmission between the electronic device and the target uncertain power system data device; the memory 401 stores a computer program operable on the processor 402, and the processor 402 executes the computer program to implement the steps of the uncertain power flow calculation method according to the embodiments described above.

It is understood that the electronic device at least includes a memory 401, a processor 402, a communication interface 403 and a bus 404, and the memory 401, the processor 402 and the communication interface 403 are connected in communication with each other through the bus 404, and can complete communication with each other, for example, the processor 402 reads program instructions of a calculation method from the memory 401. In addition, the communication interface 403 may also implement communication connection between the electronic device and a target data device, and may complete mutual information transmission, such as data reading through the communication interface 403.

When the electronic device is running, the processor 402 invokes the program instructions in the memory 401 to perform the methods provided by the method embodiments described above.

The program instructions in the memory 401 may be implemented in the form of software functional units and stored in a computer readable storage medium when sold or used as a stand-alone product. Alternatively, all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, where the program may be stored in a computer-readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The present invention also provides a non-transitory computer readable storage medium having stored thereon computer instructions which, when executed by a computer, implement a method of calculating a standard revision completion level.

It is to be understood that the above-described embodiments of the apparatus, the electronic device and the storage medium are merely illustrative, and that elements described as separate components may or may not be physically separate, may be located in one place, or may be distributed on different network elements. Some or all of the modules can be selected according to actual needs to achieve the purpose of the scheme of the embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. Based on such understanding, the technical solutions mentioned above may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as a usb disk, a removable hard disk, a ROM, a RAM, a magnetic or optical disk, etc., and includes several instructions for causing a computer device (such as a personal computer, a server, or a network device, etc.) to execute the methods of the method embodiments or some parts of the method embodiments.

In addition, it should be understood by those skilled in the art that in the specification of the embodiments of the present invention, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the description of the embodiments of the invention, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description. Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, to simplify the disclosure of embodiments of the invention and to aid in the understanding of one or more of the various inventive aspects.

However, the disclosed method should not be interpreted as reflecting an intention that: that is, the claimed embodiments of the invention require more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of an embodiment of this invention.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. A method for calculating a revision completion level of a standards system, comprising:

determining an investigation element of a standard system revision item and a stage target value of the investigation element; determining the weight of at least one element to be considered according to an expected value;

determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item;

acquiring a stage actual completion value of at least one element under investigation;

determining the completion rate of the corresponding investigation element by utilizing the ratio of the actual stage completion value to the target stage value in combination with the technical ready index;

and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision.

2. The method of calculating a standards revision completion level according to claim 1, wherein determining a survey element of a standards revision item, the phase target value of said survey element comprises:

determining the investigation element and the total target value of the standard system revision item;

and determining the stage target values respectively corresponding to all the investigation elements according to the investigation elements.

3. The method of calculating a standards revision completion level according to claim 2, wherein the element under investigation comprises: standard system revision investment, technical implicit income and technical explicit income.

4. The method of claim 3, wherein the calculating of the input-output efficiency using the weight of the consideration elements and the completion rate of the consideration elements comprises:

using rZ_t＝ω₁X_t+ω₂Y_tCalculating Z_t；

Wherein t is a time point; z_tRevising the input completion rate for the standard system at the time point t; x_tThe technology implicit profit completion rate is t time point; y is_tT is the technology explicit rate of return completion at the time point; omega₁As a technical implicit profit weight, 0 ≦ ω₁≤1；ω₂For the technology dominant gain weight, 0 is not more than omega₂Less than or equal to 1, and meets omega₁+ω₂＝1。

5. The method of calculating a standards revision completion level according to claim 4, wherein the determining the completion rate of the corresponding element under investigation by using the ratio of the phase actual completion value to the phase target value in combination with the technical readiness index comprises:

X_t(stage actual completion value-t technical ready index of the staged unit)/(stage target completion value-t technical ready index of the staged unit).

6. The method of calculating the completion level of standards revision according to any of claims 1 to 5, wherein when the input-output efficiency is less than 1, the completion level of standards revision is obtained as not reaching the intended target; when the input-output efficiency is equal to 1, the completion level of the standard system revision is reached to the expected target; when the input-output efficiency is greater than 1, the completion level to the standards revision has exceeded the expected goal.

7. A standards revision completion level computing apparatus for performing the method of preparing a standards revision completion level according to any one of claims 1 to 6, the method comprising:

determining an investigation element of a standard system revision item and a stage target value of the investigation element; determining the weight of at least one element to be considered according to an expected value;

determining a periodic item unit and a technical readiness index of the periodic unit of the standards revision item;

acquiring a stage actual completion value of at least one element under investigation;

determining the completion rate of the corresponding investigation element by utilizing the ratio of the actual stage completion value to the target stage value in combination with the technical ready index;

and calculating the input-output efficiency by using the weight of the inspected elements and the completion rate of the inspected elements to obtain the completion level of standard system revision.

8. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor, when executing the computer program, implements the method of calculating a standards revision completion level according to any one of claims 1 to 6.

9. A non-transitory computer readable storage medium having stored thereon computer instructions, wherein the computer instructions, when executed by a computer, implement a method of calculating a standards revision completion level according to any one of claims 1 to 6.

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