CN117610507A - Data processing method and device based on standard - Google Patents
Data processing method and device based on standard Download PDFInfo
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- CN117610507A CN117610507A CN202311585573.0A CN202311585573A CN117610507A CN 117610507 A CN117610507 A CN 117610507A CN 202311585573 A CN202311585573 A CN 202311585573A CN 117610507 A CN117610507 A CN 117610507A
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Abstract
The invention discloses a data processing method and device based on standards, wherein the method comprises the following steps: responding to the model construction operation of a user in a model construction module to obtain standard measuring and calculating model information; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model; responding to the model parameter input operation of a user in a model measuring and calculating module to obtain model parameter information; and carrying out calculation processing on the model parameter information by using the standard calculation model information to obtain model calculation result information. Therefore, the method and the device are beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
Description
Technical Field
The present invention relates to the field of computer technologies, and in particular, to a data processing method and apparatus based on standards.
Background
In modern society, the quality and performance requirements of systems, products and processes in various fields are continuously improved, and testing and verification based on industry standards become one of key links for ensuring the qualification of the systems, products and processes. However, conventional measuring methods and procedures present a number of challenges in terms of diverse standard requirements, complexity and efficiency, and the like, for which innovative solutions are sought. The traditional application measuring and calculating model usually needs to be designed and realized manually, which can cause problems of missing application scenes, inconsistency of measuring and calculating results and inefficiency of measuring and calculating processes in the case of a large-scale complex system. In addition, standards for different fields and applications require a wide variety of methods and procedures for measurement and calculation. The traditional method is difficult to meet multiple standards at the same time, and can cause inconsistency of measuring and calculating processes and even the occurrence of repeated work among different standards. This phenomenon is particularly prominent in the environment of technology and standard rapid iteration, limiting the timeliness and accuracy of the measurement model. Therefore, the data processing method and device based on the standard are provided, so that the accuracy and consistency of a model result are improved, the measuring and calculating efficiency is improved, the test period is shortened, and the high-quality standardized measuring and calculating and verifying are realized.
Disclosure of Invention
The technical problem to be solved by the invention is to provide the standard-based data processing method and device which are beneficial to improving the accuracy and consistency of model results, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In order to solve the above technical problems, a first aspect of an embodiment of the present invention discloses a data processing method based on standards, where the method includes:
responding to the model construction operation of a user in a model construction module to obtain standard measuring and calculating model information; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model;
responding to the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information;
and calculating the model parameter information by using the standard calculation model information to obtain model calculation result information.
As an optional implementation manner, in the first aspect of the embodiment of the present invention, the model building module includes a model creation sub-module and a model configuration sub-module;
the responding to the model construction operation of the user in the model construction module obtains a standard measuring and calculating model, which comprises the following steps:
Responding to basic information setting operation of a user in the model creation sub-module to obtain the model basic information;
and responding to the operation of the user on the model basic information and the model configuration operation of the model configuration sub-module to obtain the standard measuring and calculating model.
As an optional implementation manner, in the first aspect of the embodiment of the present invention, the model creation submodule includes a modeling operation area and a modeling presentation area; the modeling operation area comprises a first modeling operation area, a second modeling operation area and a third modeling operation area; the modeling display area comprises a first modeling display area, a second modeling display area and a third modeling display area;
the modeling operation area is positioned above the modeling display area; the first modeling operation area is positioned at the left side of the second modeling operation area; the left boundary of the first modeling operation area is vertically aligned with the left boundary of the first modeling display area, and completely covers the transverse areas of the left boundary and the right boundary of the first modeling display area, and partially covers the transverse area on the left side of the third modeling display area; the right boundary of the second modeling operation area is vertically aligned with the right boundary of the third modeling display area; the third modeling operation area is hidden and arranged at the rear end of the model creation sub-module, after the user performs model creation operation in the second modeling operation area, the third modeling operation area is displayed above the modeling display area, and the use states corresponding to the first modeling operation area and the second modeling operation area are changed from an operable state to an inoperable state; the first modeling display area is located above the second modeling display area and to the left of the third modeling display area; the second modeling display area is positioned on the left side of the third modeling display area; the upper boundary of the third modeling display area is horizontally aligned with the upper boundary of the first modeling display area; the lower boundary of the third modeling display area is positioned below the lower boundary of the second modeling display area;
The third modeling operation area comprises a first modeling input area, a second modeling input area, a first modeling selection area, a second modeling selection area and a third modeling selection area; the first modeling selection area and the second modeling selection area are located between the first modeling input area and the second modeling input area; the third modeling selection area is positioned below the second modeling input area; the left boundary and the right boundary corresponding to the first modeling input area, the second modeling input area, the first modeling selection area and the second modeling selection area are vertically aligned; the transverse area corresponding to the second modeling input area is not wider than the transverse area corresponding to the third modeling selection area;
the responding to the basic information setting operation of the user in the model creation sub-module obtains the model basic information, and the method comprises the following steps:
responsive to a user selection operation at the first modeling operation region, displaying the third modeling operation region over the modeling region;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from an operable state to an inoperable state;
Responding to the input operation of the user in the first modeling input area to obtain model name information;
responding to the selection operation of the user in the first modeling selection area to obtain model link classification information, and displaying the model link classification information in the first modeling display area;
responding to the selection operation of the user in the second modeling selection area to obtain model professional type information, and displaying the model professional type information in the second modeling display area;
responding to the input operation of the user in the second modeling input area to obtain model interpretation information;
loading current system time in response to the selection operation of the user in the third modeling selection area to obtain model time information;
hiding the third modeling operation area at the rear end of the model creation sub-module;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from an inoperable state to an operable state;
and fusing the model name information, the model link classification information, the model professional type information, the model interpretation information and the model time information to obtain the model basic information.
As an optional implementation manner, in the first aspect of the embodiment of the present invention, the third modeling display area includes a model information display area and a model information editing area;
after the basic information setting operation of the model creation sub-module is responded to the user, the selection operation of the model basic information is responded to the user, and before the model configuration operation of the model configuration sub-module is responded to the user, the standard measuring and calculating model is obtained, the method further comprises the following steps:
acquiring sequence number information in the third modeling display area; the serial number information characterizes the model serial number of the model basic information generated by the model creation sub-module; the model serial numbers are sequentially generated according to the sequence of the model creation time corresponding to the model time information;
determining a target model sequence number based on the sequence number information;
sequentially displaying the target model serial number, model name information in the model basic information, model interpretation information in the model basic information and the model time information in the model information display area from left to right;
loading a model information editing subunit and displaying the model information editing subunit in the model information editing area; the model information editing subunit is used for performing operation, and/or editing operation, and/or deleting operation, and/or offline operation on the model basic information.
As an optional implementation manner, in the first aspect of the embodiment of the present invention, the obtaining the standard measurement model in response to the operation of the user on the model basic information and the model configuration operation of the model configuration sub-module includes:
responding to the operation of the user on the model basic information in the third modeling display area by a model basic information editing area, and loading and displaying the model configuration sub-module;
and responding to the model configuration operation of the user in the model configuration sub-module to obtain the standard measuring and calculating model.
As an optional implementation manner, in the first aspect of the embodiment of the present invention, the model configuration submodule includes a tool area, a first editing display area, a second editing display area, and a third editing display area; the first editing display area comprises a first editing sub-area and a first display sub-area; the second editing display area comprises K second editing display subareas; each second editing display subarea comprises a second display subarea, a second editing subarea and a third editing subarea; the tool area is positioned above the first editing display area and the second editing display area, the left boundary of the tool area is vertically aligned with the left boundary of the first editing display area and the third editing display area respectively, and the right boundary of the tool area is vertically aligned with the right boundary of the second editing display area; the second editing display area is positioned on the right side of the first editing display area and the third editing display area, the upper boundary of the second editing display area is horizontally aligned with the upper boundary of the first editing display area, and the lower boundary of the second editing display area is horizontally aligned with the lower boundary of the third editing display area; the left boundary of the third editing display area is vertically aligned with the left boundary of the first display subarea in the first editing display area, and the right boundary of the third editing display area is vertically aligned with the right boundary of the first editing subarea in the first editing display area; the tool area is used for displaying model name information in the model basic information;
The responding to the model configuration operation of the user in the model configuration sub-module obtains the standard measuring and calculating model, which comprises the following steps:
responding to the selection operation of the first display subarea on the first editing display area by the user to obtain first model node information; the first model node information comprises M pieces of model node information to be edited; m is a positive integer not less than 3;
displaying the first model node information in the third editing display area;
responding to the connection operation of the user on the to-be-edited model node information in the first model node information in the third editing display area, and obtaining model connection relation information; the model connection relation information comprises N model connection relation pairs;
responding to the selection operation of the user on the standard type and the model type in the third editing display area, and obtaining standard parameter information;
for any one of the to-be-edited model node information, responding to the selection operation of the user in the third editing display area, and displaying model configuration information corresponding to the to-be-edited model node information in the second editing display area;
Responding to the editing operation and the selecting operation of the user in the second editing display area and the second editing subarea and the third editing subarea, and obtaining target model node information corresponding to the model node information to be edited;
and responding to the selection operation of the first editing subarea of the user in the first editing display area, compiling the standard parameter information, the model connection relation information and all the target model node information to obtain the standard measuring and calculating model.
In a first aspect of the embodiment of the present invention, the calculating the model parameter information using the standard calculating model information to obtain model calculating result information includes:
performing parameter verification on the model parameter information to obtain a verification result;
when the verification result is yes, updating model parameters of a standard measuring and calculating model in the standard measuring and calculating model information by using the model parameter information based on consistency of parameter name matching;
performing simulation operation on the standard measuring and calculating model to obtain model measuring and calculating result information;
and when the verification result is negative, triggering and executing the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information.
The second aspect of the embodiment of the invention discloses a data processing device based on standards, which comprises:
the first response module is used for responding to the model construction operation of the user in the model construction module to obtain standard measuring and calculating model information; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model;
the second response module is used for responding to the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information;
the processing module is used for calculating the model parameter information by utilizing the standard calculation model information to obtain model calculation result information.
In a third aspect the invention discloses another standard-based data processing apparatus, said apparatus comprising:
a memory storing executable program code;
a processor coupled to the memory;
the processor invokes the executable program code stored in the memory to perform some or all of the steps in the standard-based data processing method disclosed in the first aspect of the embodiment of the present invention.
A fourth aspect of the invention discloses a computer readable storage medium storing computer instructions which, when invoked, are adapted to perform part or all of the steps of the standard-based data processing method disclosed in the first aspect of the embodiments of the invention.
Compared with the prior art, the embodiment of the invention has the following beneficial effects:
in the embodiment of the invention, standard measuring and calculating model information is obtained in response to model construction operation of a user in a model construction module; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model; responding to the model parameter input operation of a user in a model measuring and calculating module to obtain model parameter information; and carrying out calculation processing on the model parameter information by using the standard calculation model information to obtain model calculation result information. Therefore, the method and the device are beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a flow chart of a standard-based data processing method according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of a standard-based data processing apparatus according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of another data processing apparatus based on standards according to an embodiment of the present invention.
Detailed Description
In order to make the present invention better understood by those skilled in the art, the following description will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or device that comprises a list of steps or elements is not limited to the list of steps or elements but may, in the alternative, include other steps or elements not expressly listed or inherent to such process, method, article, or device.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.
The invention discloses a data processing method and device based on standards, which are beneficial to improving the accuracy and consistency of model results, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying. The following will describe in detail.
Example 1
Referring to fig. 1, fig. 1 is a flow chart of a standard-based data processing method according to an embodiment of the invention. The standard-based data processing method described in fig. 1 is applied to a model management system, such as a local server or a cloud server for standard-based data processing management, which is not limited in the embodiments of the present invention. As shown in fig. 1, the standard-based data processing method may include the following operations:
101. And responding to the model construction operation of the user in the model construction module to obtain standard measuring and calculating model information.
In the embodiment of the invention, the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model.
102. And responding to the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information.
103. And carrying out calculation processing on the model parameter information by using the standard calculation model information to obtain model calculation result information.
It should be noted that, in response to the model parameter input operation of the user in the model measurement module, the model parameter information is the model parameter of the standard measurement model input by the user, where the model parameter includes a device type (character string format), a device number (numerical format), and a device driving mileage (numerical format), and the embodiment of the invention is not limited.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In an optional embodiment, the model building module includes a model creation sub-module and a model configuration sub-module;
Responding to the model construction operation of a user in a model construction module to obtain a standard measuring and calculating model, wherein the method comprises the following steps:
responding to basic information setting operation of a user in a model creation sub-module to obtain model basic information;
and responding to the operation of the user on the model basic information and the model configuration operation of the model configuration sub-module to obtain the standard measuring and calculating model.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In another alternative embodiment, the model creation sub-module includes a modeling operations area and a modeling presentation area; the modeling operation area comprises a first modeling operation area, a second modeling operation area and a third modeling operation area; the modeling display area comprises a first modeling display area, a second modeling display area and a third modeling display area;
the modeling operation area is positioned above the modeling display area; the first modeling operation area is positioned on the left side of the second modeling operation area; the left boundary of the first modeling operation area is vertically aligned with the left boundary of the first modeling display area, and completely covers the transverse areas of the left boundary and the right boundary of the first modeling display area, and partially covers the transverse area on the left side of the third modeling display area; the right boundary of the second modeling operation area is vertically aligned with the right boundary of the third modeling display area; the third modeling operation area is hidden and arranged at the rear end of the model creation sub-module, after a user performs model creation operation in the second modeling operation area, the third modeling operation area is displayed above the modeling display area, and the use states corresponding to the first modeling operation area and the second modeling operation area are changed from an operable state to an inoperable state; the first modeling display area is located above the second modeling display area and to the left of the third modeling display area; the second modeling display area is positioned on the left side of the third modeling display area; the upper boundary of the third modeling display area is horizontally aligned with the upper boundary of the first modeling display area; the lower boundary of the third modeling display area is positioned below the lower boundary of the second modeling display area;
The third modeling operation area comprises a first modeling input area, a second modeling input area, a first modeling selection area, a second modeling selection area and a third modeling selection area; the first modeling selection area and the second modeling selection area are positioned between the first modeling input area and the second modeling input area; the third modeling selection area is positioned below the second modeling input area; the left boundary and the right boundary corresponding to the first modeling input area, the second modeling input area, the first modeling selection area and the second modeling selection area are vertically aligned; the transverse area corresponding to the second modeling input area is not wider than the transverse area corresponding to the third modeling selection area;
responding to the basic information setting operation of the user in the model creation sub-module to obtain model basic information, wherein the method comprises the following steps:
responsive to a user selection operation at the first modeling operation region, displaying a third modeling operation region over the modeling region;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from an operable state to an inoperable state;
responding to the input operation of a user in a first modeling input area to obtain model name information;
Responding to the selection operation of a user in a first modeling selection area to obtain model link classification information, and displaying the model link classification information in a first modeling display area;
responding to the selection operation of the user in the second modeling selection area to obtain model professional type information, and displaying the model professional type information in the second modeling display area;
responding to the input operation of the user in the second modeling input area to obtain model interpretation information;
loading the current system time in response to the selection operation of the user in the third modeling selection area to obtain model time information;
hiding the third modeling operation area at the rear end of the model creation sub-module;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from the inoperable state to the operable state;
and fusing the model name information, the model link classification information, the model professional type information, the model interpretation information and the model time information to obtain model basic information.
It should be noted that, in the present application, the selection operation is to click a selection button, such as a save button, a cancel button, a new model button, etc., on the interface by the user, which is not limited in the embodiments of the present invention.
It should be noted that, the model name information characterizes the model name of the standard measurement model, such as the fuel consumption test model.
It should be noted that, the model link classification information characterizes links to which the model belongs, such as an A1 link and an A2 link in AA and a B1 link in BB.
It should be noted that the foregoing model professional type information characterizes the professional type of the model, such as an automobile class.
It should be noted that the above model interpretation information characterizes the usage function of the model.
It should be noted that the model time information characterizes the generation time of the model basic information, such as 2023-05-05 12:42:23.
It should be noted that the operable state and the inoperable state in the above-mentioned use states respectively represent that the content of the current area can be edited and that the content of the current area cannot be edited.
The transverse region represents the span of the region in the transverse direction.
The positions of the boundary lines of the alignment characterization areas are flush.
It should be noted that, the back end characterization model creation sub-module of the third modeling operation area hidden in the model creation sub-module is not displayed at the front end of the model creation sub-module, but is not displayed as hidden data.
The fusion of the model name information, the model link classification information, the model professional type information, the model interpretation information and the model time information is to splice the data information in sequence.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In yet another alternative embodiment, the third modeling presentation area includes a model information presentation area and a model information editing area;
after the model basic information is obtained in response to the basic information setting operation of the user in the model creation sub-module, and before the standard measuring and calculating model is obtained in response to the selection operation of the user on the model basic information and the model configuration operation of the model configuration sub-module, the method further comprises:
acquiring sequence number information in a third modeling display area; the serial number information characterizes the model serial number of the model basic information generated by the model creation sub-module; the model serial numbers are sequentially generated according to the sequence of the model creation time corresponding to the model time information;
Determining a target model sequence number based on the sequence number information;
sequentially displaying the target model serial number, model name information in the model basic information, model interpretation information and model time information in the model basic information in a model information display area from left to right;
loading a model information editing subunit and displaying the model information editing subunit in a model information editing area; the model information editing subunit is used for performing operation, and/or editing operation, and/or deleting operation, and/or offline operation on the model basic information.
The above-mentioned sequence number information is based on that the target model sequence number is determined by adding 1 to the largest model sequence number in the sequence number information, so as to obtain the target model sequence number.
It should be noted that the model information editing subunit is preset in the system, and is a modularized data unit, which may be generated by a programming language in the prior art, such as python, etc., and the embodiment of the present invention is not limited.
The above operation, and/or the editing operation, and/or the deleting operation, and/or the offline operation are performed by clicking the operation button, the editing button, the deleting button, and the offline button, respectively. Further, the operation characterization performs model configuration on the model basic information. The editing operation characterizes the modification operation of the model basic information. The deletion operation characterization deletes the model base information. The offline operation characterization changes the state of the model basic information to unpublished.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In yet another alternative embodiment, the standard measurement model is obtained in response to a user operation on model base information and a model configuration operation at a model configuration sub-module, comprising:
responding to the operation of the model basic information editing area of the user in the third modeling display area, and loading a display model configuration sub-module;
and responding to the model configuration operation of the user in the model configuration sub-module to obtain the standard measuring and calculating model.
It should be noted that, the loading display model configuration sub-module is automatically performed by the system, and loads the code data information pre-placed in the system.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In an alternative embodiment, the model configuration submodule includes a tool area, a first edit display area, a second edit display area, and a third edit display area; the first editing display area comprises a first editing sub-area and a first display sub-area; the second editing display area comprises K second editing display subareas; each second editing display sub-area comprises a second display sub-area, a second editing sub-area and a third editing sub-area; the tool area is positioned above the first editing display area and the second editing display area, the left boundary of the tool area is vertically aligned with the left boundary of the first editing display area and the third editing display area respectively, and the right boundary of the tool area is vertically aligned with the right boundary of the second editing display area; the second editing display area is positioned on the right side of the first editing display area and the third editing display area, the upper boundary of the second editing display area is horizontally aligned with the upper boundary of the first editing display area, and the lower boundary of the second editing display area is horizontally aligned with the lower boundary of the third editing display area; the left boundary of the third editing display area is vertically aligned with the left boundary of the first display subarea in the first editing display area, and the right boundary of the third editing display area is vertically aligned with the right boundary of the first editing subarea in the first editing display area; the tool area is used for displaying model name information in the model basic information;
Responding to the model configuration operation of the user in the model configuration sub-module to obtain a standard measuring and calculating model, wherein the standard measuring and calculating model comprises the following components:
responding to the selection operation of the first display subarea on the first editing display area by the user on the model node, and obtaining first model node information; the first model node information comprises M pieces of model node information to be edited; m is a positive integer not less than 3;
displaying the first model node information in a third editing display area;
responding to the connection operation of the user on the model node information to be edited in the first model node information in the third editing display area, and obtaining model connection relation information; the model connection relation information comprises N model connection relation pairs;
responding to the selection operation of the user on the standard type and the model type in the third editing display area to obtain standard parameter information;
for any model node information to be edited, responding to the selection operation of a user in a third editing display area, and displaying model configuration information corresponding to the model node information to be edited in the second editing display area;
responding to the editing operation and the selecting operation of the second editing subarea and the third editing subarea in the second editing display area by a user, and obtaining target model node information corresponding to the model node information to be edited;
And compiling the standard parameter information, the model connection relation information and all the target model node information to obtain a standard measuring and calculating model in response to the selection operation of the first editing subarea in the first editing display area by the user.
The above N is a positive integer not less than M minus 1.
The above K is an integer of 1 to 3. Further, the second edit display section is non-uniform in span of the portrait region for different K's. Further, at k=1, the span of the second edit display sub-area in the portrait area is largest.
It should be noted that, the model nodes include an input node, a standard data node, a calculation node, an output node, and a model node, which is not limited in the embodiment of the present invention.
The model connection relationship represents a data flow relationship between model nodes.
It should be noted that, the above selection operation on the standard type and the model type is to search and select the standard, for example, search and select "standard oil consumption standard for equipment (hundred kilometers oil consumption"), and select the measurement model corresponding to the model, for example, oil consumption measurement, which is not limited in the embodiments of the present invention. Further, after the standard type and the model type are selected, the system automatically acquires data information in the standard according to the standard type and the model type so as to obtain standard parameter information.
It should be noted that, the editing operation and the selecting operation of the second editing sub-area and the third editing sub-area in the second editing display area include editing a calculation script of a calculation node, editing a formula parameter, selecting a parameter coding type of an output node, editing a parameter name, and the like, which are not limited in the embodiment of the present invention.
It should be noted that, in response to the selection operation of the user on the first editing sub-region in the first editing display area, the compiling of the standard parameter information, the model connection relationship information and all the target model node information is performed by clicking the save button by the user after determining all the data information, and the system automatically performs data compiling according to the generated data information to generate the corresponding model.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
In another alternative embodiment, the calculating the model parameter information by using standard calculating model information to obtain model calculating result information includes:
Performing parameter verification on the model parameter information to obtain a verification result;
when the verification result is yes, updating model parameters of the standard measuring and calculating model in the standard measuring and calculating model information by using model parameter information based on consistency of parameter name matching;
performing simulation operation on the standard measuring and calculating model to obtain model measuring and calculating result information;
and when the verification result is negative, triggering and executing the model parameter input operation in response to the model measuring and calculating module by the user to obtain the model parameter information.
It should be noted that, the above parameter verification includes consistency verification, data true-false verification, and the like, and the embodiment of the present invention is not limited.
It should be noted that, the updating of the model parameters of the standard measurement model in the standard measurement model information by using the model parameter information based on the consistency of parameter name matching is to replace the parameters in the model parameter information to the model parameters of the standard measurement model according to the consistency of parameter names or name numbers corresponding to the model parameters.
It should be noted that, the above simulation operation on the standard measurement model is performed by the system itself, and the embodiment of the present invention is not limited.
Therefore, the data processing method based on the standard described by the embodiment of the invention is beneficial to improving the accuracy and consistency of the model result, improving the measuring and calculating efficiency and shortening the test period, thereby realizing high-quality standardized measuring and calculating and verifying.
Example two
Referring to fig. 2, fig. 2 is a schematic structural diagram of a standard-based data processing apparatus according to an embodiment of the present invention. The apparatus described in fig. 2 can be applied to a model management system, such as a local server or a cloud server for standard-based data processing management, and the embodiment of the invention is not limited. As shown in fig. 2, the apparatus may include:
a first response module 201, configured to obtain standard measurement model information in response to a model building operation performed by a user in the model building module; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model;
the second response module 202 is configured to respond to a model parameter input operation of the user in the model measurement module, and obtain model parameter information;
the processing module 203 is configured to perform calculation processing on the model parameter information by using standard calculation model information, so as to obtain model calculation result information.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
In another alternative embodiment, as shown in FIG. 2, the model building module includes a model creation sub-module, a model configuration sub-module;
The first response module 201 responds to the model building operation of the user in the model building module to obtain a standard measuring and calculating model, which comprises the following steps:
responding to basic information setting operation of a user in a model creation sub-module to obtain model basic information;
and responding to the operation of the user on the model basic information and the model configuration operation of the model configuration sub-module to obtain the standard measuring and calculating model.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
In yet another alternative embodiment, as shown in FIG. 2, the model creation sub-module includes a modeling operational area and a modeling presentation area; the modeling operation area comprises a first modeling operation area, a second modeling operation area and a third modeling operation area; the modeling display area comprises a first modeling display area, a second modeling display area and a third modeling display area;
the modeling operation area is positioned above the modeling display area; the first modeling operation area is positioned on the left side of the second modeling operation area; the left boundary of the first modeling operation area is vertically aligned with the left boundary of the first modeling display area, and completely covers the transverse areas of the left boundary and the right boundary of the first modeling display area, and partially covers the transverse area on the left side of the third modeling display area; the right boundary of the second modeling operation area is vertically aligned with the right boundary of the third modeling display area; the third modeling operation area is hidden and arranged at the rear end of the model creation sub-module, after a user performs model creation operation in the second modeling operation area, the third modeling operation area is displayed above the modeling display area, and the use states corresponding to the first modeling operation area and the second modeling operation area are changed from an operable state to an inoperable state; the first modeling display area is located above the second modeling display area and to the left of the third modeling display area; the second modeling display area is positioned on the left side of the third modeling display area; the upper boundary of the third modeling display area is horizontally aligned with the upper boundary of the first modeling display area; the lower boundary of the third modeling display area is positioned below the lower boundary of the second modeling display area;
The third modeling operation area comprises a first modeling input area, a second modeling input area, a first modeling selection area, a second modeling selection area and a third modeling selection area; the first modeling selection area and the second modeling selection area are positioned between the first modeling input area and the second modeling input area; the third modeling selection area is positioned below the second modeling input area; the left boundary and the right boundary corresponding to the first modeling input area, the second modeling input area, the first modeling selection area and the second modeling selection area are vertically aligned; the transverse area corresponding to the second modeling input area is not wider than the transverse area corresponding to the third modeling selection area;
the first response module 201 responds to the basic information setting operation of the user in the model creation sub-module to obtain model basic information, which comprises the following steps:
responsive to a user selection operation at the first modeling operation region, displaying a third modeling operation region over the modeling region;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from an operable state to an inoperable state;
responding to the input operation of a user in a first modeling input area to obtain model name information;
Responding to the selection operation of a user in a first modeling selection area to obtain model link classification information, and displaying the model link classification information in a first modeling display area;
responding to the selection operation of the user in the second modeling selection area to obtain model professional type information, and displaying the model professional type information in the second modeling display area;
responding to the input operation of the user in the second modeling input area to obtain model interpretation information;
loading the current system time in response to the selection operation of the user in the third modeling selection area to obtain model time information;
hiding the third modeling operation area at the rear end of the model creation sub-module;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from the inoperable state to the operable state;
and fusing the model name information, the model link classification information, the model professional type information, the model interpretation information and the model time information to obtain model basic information.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
In yet another alternative embodiment, as shown in FIG. 2, the third modeling presentation area includes a model information presentation area and a model information editing area;
after the first response module 201 responds to the basic information setting operation of the user in the model creation sub-module to obtain the model basic information, the second response module 202 responds to the selection operation of the user on the model basic information and the model configuration operation in the model configuration sub-module to obtain the standard measurement model, and before the first response module 201 is further used for:
acquiring sequence number information in a third modeling display area; the serial number information characterizes the model serial number of the model basic information generated by the model creation sub-module; the model serial numbers are sequentially generated according to the sequence of the model creation time corresponding to the model time information;
determining a target model sequence number based on the sequence number information;
sequentially displaying the target model serial number, model name information in the model basic information, model interpretation information and model time information in the model basic information in a model information display area from left to right;
loading a model information editing subunit and displaying the model information editing subunit in a model information editing area; the model information editing subunit is used for performing operation, and/or editing operation, and/or deleting operation, and/or offline operation on the model basic information.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
In yet another alternative embodiment, as shown in fig. 2, the first response module 201 obtains a standard measurement model in response to a user operation on model basic information and a model configuration operation in a model configuration sub-module, including:
responding to the operation of the model basic information editing area of the user in the third modeling display area, and loading a display model configuration sub-module;
and responding to the model configuration operation of the user in the model configuration sub-module to obtain the standard measuring and calculating model.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
In yet another alternative embodiment, as shown in FIG. 2, the model configuration sub-module includes a tool region, a first edit display region, a second edit display region, and a third edit display region; the first editing display area comprises a first editing sub-area and a first display sub-area; the second editing display area comprises K second editing display subareas; each second editing display sub-area comprises a second display sub-area, a second editing sub-area and a third editing sub-area; the tool area is positioned above the first editing display area and the second editing display area, the left boundary of the tool area is vertically aligned with the left boundary of the first editing display area and the third editing display area respectively, and the right boundary of the tool area is vertically aligned with the right boundary of the second editing display area; the second editing display area is positioned on the right side of the first editing display area and the third editing display area, the upper boundary of the second editing display area is horizontally aligned with the upper boundary of the first editing display area, and the lower boundary of the second editing display area is horizontally aligned with the lower boundary of the third editing display area; the left boundary of the third editing display area is vertically aligned with the left boundary of the first display subarea in the first editing display area, and the right boundary of the third editing display area is vertically aligned with the right boundary of the first editing subarea in the first editing display area; the tool area is used for displaying model name information in the model basic information;
The first response module 201 responds to the model configuration operation of the user in the model configuration sub-module to obtain a standard measuring and calculating model, which comprises the following steps:
responding to the selection operation of the first display subarea on the first editing display area by the user on the model node, and obtaining first model node information; the first model node information comprises M pieces of model node information to be edited; m is a positive integer not less than 3;
displaying the first model node information in a third editing display area;
responding to the connection operation of the user on the model node information to be edited in the first model node information in the third editing display area, and obtaining model connection relation information; the model connection relation information comprises N model connection relation pairs;
responding to the selection operation of the user on the standard type and the model type in the third editing display area to obtain standard parameter information;
for any model node information to be edited, responding to the selection operation of a user in a third editing display area, and displaying model configuration information corresponding to the model node information to be edited in the second editing display area;
responding to the editing operation and the selecting operation of the second editing subarea and the third editing subarea in the second editing display area by a user, and obtaining target model node information corresponding to the model node information to be edited;
And compiling the standard parameter information, the model connection relation information and all the target model node information to obtain a standard measuring and calculating model in response to the selection operation of the first editing subarea in the first editing display area by the user.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
In yet another alternative embodiment, as shown in fig. 2, the processing module 203 performs a calculation process on the model parameter information by using standard calculation model information to obtain model calculation result information, including:
performing parameter verification on the model parameter information to obtain a verification result;
when the verification result is yes, updating model parameters of the standard measuring and calculating model in the standard measuring and calculating model information by using model parameter information based on consistency of parameter name matching;
performing simulation operation on the standard measuring and calculating model to obtain model measuring and calculating result information;
and when the verification result is negative, triggering and executing the model parameter input operation in response to the model measuring and calculating module by the user to obtain the model parameter information.
It can be seen that implementing the standard-based data processing apparatus depicted in fig. 2 is advantageous for improving accuracy and consistency of model results, improving efficiency of measurement and calculation, and shortening test period, thereby achieving high-quality standardized measurement and verification.
Example III
Referring to fig. 3, fig. 3 is a schematic structural diagram of another standard-based data processing apparatus according to an embodiment of the present invention. The apparatus described in fig. 3 can be applied to a model management system, such as a local server or a cloud server for standard-based data processing management, which is not limited in the embodiment of the present invention. As shown in fig. 3, the apparatus may include:
a memory 301 storing executable program code;
a processor 302 coupled with the memory 301;
processor 302 invokes executable program code stored in memory 301 for performing the steps in the standards-based data processing method described in embodiment one.
Example IV
The embodiment of the invention discloses a computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer to execute the steps in the standard-based data processing method described in the embodiment one.
Example five
The present invention discloses a computer program product comprising a non-transitory computer readable storage medium storing a computer program operable to cause a computer to perform the steps of the standard-based data processing method described in embodiment one.
The apparatus embodiments described above are merely illustrative, in which the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over multiple network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.
From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.
Finally, it should be noted that: the disclosure of the data processing method and apparatus based on the standard in the embodiment of the present invention is only a preferred embodiment of the present invention, and is only for illustrating the technical scheme of the present invention, but not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.
Claims (10)
1. A method of standard-based data processing, the method comprising:
responding to the model construction operation of a user in a model construction module to obtain standard measuring and calculating model information; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model;
responding to the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information;
and calculating the model parameter information by using the standard calculation model information to obtain model calculation result information.
2. The method of claim 1, wherein the model building module comprises a model creation sub-module and a model configuration sub-module;
the responding to the model construction operation of the user in the model construction module obtains a standard measuring and calculating model, which comprises the following steps:
responding to basic information setting operation of a user in the model creation sub-module to obtain the model basic information;
and responding to the operation of the user on the model basic information and the model configuration operation of the model configuration sub-module to obtain the standard measuring and calculating model.
3. The criteria-based data processing method of claim 2, wherein the model creation submodule includes a modeling operation region and a modeling presentation region; the modeling operation area comprises a first modeling operation area, a second modeling operation area and a third modeling operation area; the modeling display area comprises a first modeling display area, a second modeling display area and a third modeling display area;
the modeling operation area is positioned above the modeling display area; the first modeling operation area is positioned at the left side of the second modeling operation area; the left boundary of the first modeling operation area is vertically aligned with the left boundary of the first modeling display area, and completely covers the transverse areas of the left boundary and the right boundary of the first modeling display area, and partially covers the transverse area on the left side of the third modeling display area; the right boundary of the second modeling operation area is vertically aligned with the right boundary of the third modeling display area; the third modeling operation area is hidden and arranged at the rear end of the model creation sub-module, after the user performs model creation operation in the second modeling operation area, the third modeling operation area is displayed above the modeling display area, and the use states corresponding to the first modeling operation area and the second modeling operation area are changed from an operable state to an inoperable state; the first modeling display area is located above the second modeling display area and to the left of the third modeling display area; the second modeling display area is positioned on the left side of the third modeling display area; the upper boundary of the third modeling display area is horizontally aligned with the upper boundary of the first modeling display area; the lower boundary of the third modeling display area is positioned below the lower boundary of the second modeling display area;
The third modeling operation area comprises a first modeling input area, a second modeling input area, a first modeling selection area, a second modeling selection area and a third modeling selection area; the first modeling selection area and the second modeling selection area are located between the first modeling input area and the second modeling input area; the third modeling selection area is positioned below the second modeling input area; the left boundary and the right boundary corresponding to the first modeling input area, the second modeling input area, the first modeling selection area and the second modeling selection area are vertically aligned; the transverse area corresponding to the second modeling input area is not wider than the transverse area corresponding to the third modeling selection area;
the responding to the basic information setting operation of the user in the model creation sub-module obtains the model basic information, and the method comprises the following steps:
responsive to a user selection operation at the first modeling operation region, displaying the third modeling operation region over the modeling region;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from an operable state to an inoperable state;
Responding to the input operation of the user in the first modeling input area to obtain model name information;
responding to the selection operation of the user in the first modeling selection area to obtain model link classification information, and displaying the model link classification information in the first modeling display area;
responding to the selection operation of the user in the second modeling selection area to obtain model professional type information, and displaying the model professional type information in the second modeling display area;
responding to the input operation of the user in the second modeling input area to obtain model interpretation information;
loading current system time in response to the selection operation of the user in the third modeling selection area to obtain model time information;
hiding the third modeling operation area at the rear end of the model creation sub-module;
changing the use states corresponding to the first modeling operation area and the second modeling operation area from an inoperable state to an operable state;
and fusing the model name information, the model link classification information, the model professional type information, the model interpretation information and the model time information to obtain the model basic information.
4. A criterion-based data processing method as claimed in claim 3, wherein the third modeling presentation area includes a model information presentation area and a model information editing area;
after the basic information setting operation of the model creation sub-module is responded to the user, the selection operation of the model basic information is responded to the user, and before the model configuration operation of the model configuration sub-module is responded to the user, the standard measuring and calculating model is obtained, the method further comprises the following steps:
acquiring sequence number information in the third modeling display area; the serial number information characterizes the model serial number of the model basic information generated by the model creation sub-module; the model serial numbers are sequentially generated according to the sequence of the model creation time corresponding to the model time information;
determining a target model sequence number based on the sequence number information;
sequentially displaying the target model serial number, model name information in the model basic information, model interpretation information in the model basic information and the model time information in the model information display area from left to right;
Loading a model information editing subunit and displaying the model information editing subunit in the model information editing area; the model information editing subunit is used for performing operation, and/or editing operation, and/or deleting operation, and/or offline operation on the model basic information.
5. The method of claim 4, wherein said obtaining the standard measurement model in response to the user operating on the model base information and the model configuration operation at the model configuration sub-module comprises:
responding to the operation of the user on the model basic information in the third modeling display area by a model basic information editing area, and loading and displaying the model configuration sub-module;
and responding to the model configuration operation of the user in the model configuration sub-module to obtain the standard measuring and calculating model.
6. The criteria-based data processing method of claim 5, wherein the model configuration sub-module comprises a tool region, a first edit display region, a second edit display region, and a third edit display region; the first editing display area comprises a first editing sub-area and a first display sub-area; the second editing display area comprises K second editing display subareas; each second editing display subarea comprises a second display subarea, a second editing subarea and a third editing subarea; the tool area is positioned above the first editing display area and the second editing display area, the left boundary of the tool area is vertically aligned with the left boundary of the first editing display area and the third editing display area respectively, and the right boundary of the tool area is vertically aligned with the right boundary of the second editing display area; the second editing display area is positioned on the right side of the first editing display area and the third editing display area, the upper boundary of the second editing display area is horizontally aligned with the upper boundary of the first editing display area, and the lower boundary of the second editing display area is horizontally aligned with the lower boundary of the third editing display area; the left boundary of the third editing display area is vertically aligned with the left boundary of the first display subarea in the first editing display area, and the right boundary of the third editing display area is vertically aligned with the right boundary of the first editing subarea in the first editing display area; the tool area is used for displaying model name information in the model basic information;
The responding to the model configuration operation of the user in the model configuration sub-module obtains the standard measuring and calculating model, which comprises the following steps:
responding to the selection operation of the first display subarea on the first editing display area by the user to obtain first model node information; the first model node information comprises M pieces of model node information to be edited; m is a positive integer not less than 3;
displaying the first model node information in the third editing display area;
responding to the connection operation of the user on the to-be-edited model node information in the first model node information in the third editing display area, and obtaining model connection relation information; the model connection relation information comprises N model connection relation pairs;
responding to the selection operation of the user on the standard type and the model type in the third editing display area, and obtaining standard parameter information;
for any one of the to-be-edited model node information, responding to the selection operation of the user in the third editing display area, and displaying model configuration information corresponding to the to-be-edited model node information in the second editing display area;
Responding to the editing operation and the selecting operation of the user in the second editing display area and the second editing subarea and the third editing subarea, and obtaining target model node information corresponding to the model node information to be edited;
and responding to the selection operation of the first editing subarea of the user in the first editing display area, compiling the standard parameter information, the model connection relation information and all the target model node information to obtain the standard measuring and calculating model.
7. The method for processing data based on standard according to claim 1, wherein said calculating the model parameter information using the standard calculation model information to obtain model calculation result information comprises:
performing parameter verification on the model parameter information to obtain a verification result;
when the verification result is yes, updating model parameters of a standard measuring and calculating model in the standard measuring and calculating model information by using the model parameter information based on consistency of parameter name matching;
performing simulation operation on the standard measuring and calculating model to obtain model measuring and calculating result information;
And when the verification result is negative, triggering and executing the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information.
8. A standard-based data processing apparatus, the apparatus comprising:
the first response module is used for responding to the model construction operation of the user in the model construction module to obtain standard measuring and calculating model information; the standard measuring and calculating model information comprises model basic information and a standard measuring and calculating model;
the second response module is used for responding to the model parameter input operation of the user in the model measuring and calculating module to obtain model parameter information;
the processing module is used for calculating the model parameter information by utilizing the standard calculation model information to obtain model calculation result information.
9. A standard-based data processing apparatus, the apparatus comprising:
a memory storing executable program code;
a processor coupled to the memory;
the processor invokes the executable program code stored in the memory to perform the standard based data processing method of any one of claims 1-7.
10. A computer readable storage medium storing computer instructions which, when invoked, are adapted to perform the standard based data processing method according to any one of claims 1-7.
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