CN113515489A - Method and system for checking direction observation result - Google Patents

Abstract

The invention discloses a method and a system for checking a direction observation result, which are characterized in that target result data are obtained by obtaining to-be-processed direction observation result data, wherein the to-be-processed direction observation result data comprise an observation direction identifier and an observation angle identifier, and the target result data are checked into a check data set, wherein the check data set is a data set corresponding to a target data set in a database example; the provided data verification method is used for verifying according to the set granularity, so that the problem of low verification efficiency caused by the fact that all data in a database example need to be verified when the example level is verified in the related technology is solved, on one hand, when a user only needs to verify part of data in the database example, the part of data needing to be verified can be verified, and the verification efficiency is improved; on the other hand, other data and access are not affected in the partial data verification process in the database example, and the data accuracy is increased to the maximum extent possible.

Description

Method and system for checking direction observation result

Technical Field

The invention relates to the technical field of data verification, in particular to a method and a system for verifying a direction observation result.

Background

Conventionally, a corresponding target building is observed through an instrument, data is obtained and then is manually calculated and processed, and therefore the problem of inaccuracy in data processing exists (for example, when data cannot be accurately calculated during manual verification, errors exist in measurement originally, and the error range is enlarged in a mode of manual calculation).

Therefore, the data result is verified by adopting a computer, so that the data result is accurately verified to obtain the result with the minimum error, the safety of the corresponding building is ensured, and the error minimization in the construction process is ensured.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method and a system for checking a direction observation result, which solves the problem of error reduction of a data result.

The invention is realized by the following technical scheme:

a method of directional observation verification, the method comprising:

acquiring to-be-processed direction observation result data sent by a data processing end, wherein the to-be-processed direction observation result data comprises an observation direction identifier and an observation angle identifier, and the observation angle identifier is used for uniquely identifying a target data set to be verified in a database example;

acquiring target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

Further, the acquiring target result data corresponding to the observation direction identifier and the observation angle identifier includes:

acquiring a target observation direction file and a target observation angle file corresponding to the observation direction identifier;

determining service check data corresponding to the target data set in the target observation direction file according to the observation angle identifier, and determining log data corresponding to the target data set in the target observation angle file; the target observation direction file is a pre-stored file obtained by completely pre-storing the database once at a target pre-storing moment, and the target observation angle file is a pre-stored file obtained by pre-storing the operation log of the database between the target pre-storing moment and the observation direction identifier.

Further, the verifying the target result data to a verification data set includes:

writing back the service check data corresponding to the target data set to the check data set; and after the data write-back is completed, replaying the log data corresponding to the target data set into the check data set.

Further, the acquiring the target viewing direction file corresponding to the viewing direction identifier includes:

according to the observation direction identifier, determining a pre-storage time closest to the observation direction identifier in a pre-storage center as a target pre-storage time, wherein N observation direction files and pre-storage times corresponding to the N observation direction files are stored in the pre-storage center, and N is a positive number; and acquiring the target observation direction file corresponding to the target prestoring time.

Further, the method further comprises:

completely pre-storing the database once every a preset time interval to obtain an observation direction file, wherein the observation direction file comprises service check data corresponding to M data sets in the database, and M is a positive number;

the determining, according to the observation angle identifier, service verification data in the target data set in the target observation direction file includes: and filtering the target observation direction file through a built-in filter according to the observation angle identifier to obtain service verification data corresponding to the target data set.

The method comprises the steps that operation logs of a database are prestored at preset time intervals or in real time to obtain an observation angle file, wherein the observation angle file comprises log data corresponding to M data sets in the database, and M is a positive number;

the determining log data corresponding to the target data set in the target observation angle file includes: and filtering the target observation angle file through a built-in filter according to the observation angle identification to obtain log data corresponding to the target data set.

Further, the playing back the log data corresponding to the target data set to the check data set includes:

initializing a standard value of service verification data, wherein the standard value of the service verification data is used for indicating the number of log data corresponding to one verification operation;

acquiring a service check parameter, wherein the service check parameter is used for indicating the size of a service check parameter corresponding to the log data in the service check data;

adjusting the standard value of the service verification data according to the service verification parameter; and continuously executing the verification operation on the log data according to the adjusted service verification data.

Further, the adjusting the standard value of the service verification data according to the service verification parameter includes:

when the service verification parameter meets a preset condition, multiplying a standard value of the service verification data by a first preset coefficient, and calculating to obtain an adjusted standard value of the service verification data;

when the service verification time delay does not meet the preset condition, dividing the standard value of the service verification data by a second preset coefficient, and calculating to obtain the adjusted standard value of the service verification data, wherein both the first preset coefficient and the second preset coefficient are greater than 1; the preset conditions comprise that the query rate per second is greater than a first preset threshold value, and/or the evaluation delay is smaller than a second preset threshold value.

Further, the acquiring target result data corresponding to the observation direction identifier and the observation angle identifier includes:

when a pre-storing moment which is the same as the observation direction identifier is found in a pre-storing center, determining the pre-storing moment as a target pre-storing moment, wherein N observation direction files and pre-storing moments corresponding to the N observation direction files are stored in the pre-storing center, and N is a positive number;

acquiring a target observation direction file corresponding to the observation direction identifier; and determining the service verification data corresponding to the target data set in the target observation direction file according to the observation angle identifier.

Further, the observation result data of the direction to be processed further includes a check set identifier of the check data set, and the method further includes:

creating the check data set corresponding to the check set identification in the database instance according to the check set identification in the observation result data of the direction to be processed; wherein the check set identifier is different from the set identifiers corresponding to the at least two data sets in the database instance.

A system for checking a direction observation result comprises a data processing terminal, wherein the data processing terminal is in communication connection with the data processing terminal, and the data processing terminal is specifically used for:

acquiring to-be-processed direction observation result data sent by a data processing end, wherein the to-be-processed direction observation result data comprises an observation direction identifier and an observation angle identifier, and the observation angle identifier is used for uniquely identifying a target data set to be verified in a database example;

acquiring target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention relates to a method and a system for checking a direction observation result, which are characterized in that target result data corresponding to an observation direction identifier and an observation angle identifier are acquired by acquiring to-be-processed direction observation result data sent by a data processing end, wherein the to-be-processed direction observation result data comprise the observation direction identifier and the observation angle identifier, and the target result data are checked into a check data set, and the check data set is a data set corresponding to the target data set in a database example; the data verification method provided by the embodiment of the invention is used for verifying according to the set granularity, so that the problem of low verification efficiency caused by the fact that all data in the database example needs to be verified during example level verification in the related technology is solved, on one hand, when a user only needs to verify part of data in the database example, the part of data needing to be verified can be verified, and the verification efficiency is improved; on the other hand, other data and access are not affected in the partial data verification process in the database example, and the data accuracy is increased to the maximum extent possible.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic diagram of a system for checking a directional observation result according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for checking a direction observation result according to an embodiment of the present invention;

fig. 3 is a functional block diagram of an apparatus for checking a direction observation result according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

To facilitate the description of the method and system for checking a directional observation result, please refer to fig. 1, which provides a schematic diagram of a communication architecture of a system 100 for checking a directional observation result according to an embodiment of the present invention. The system 100 for checking the direction observation result may include a data processing terminal 200 and a data collecting terminal 300, where the data processing terminal 200 is in communication connection with the data collecting terminal 300.

In a specific embodiment, the data processing terminal 200 and the data collecting terminal 300 may be a desktop computer, a tablet computer, a notebook computer, a mobile phone, or other electronic devices capable of implementing data processing and data communication, which is not limited herein.

On the basis of the above, please refer to fig. 2, which is a flowchart illustrating a method for checking a direction observation result according to an embodiment of the present invention, where the method for checking a direction observation result can be applied to the data processing server in fig. 1, and further, the method for checking a direction observation result specifically includes the following contents described in step S21 to step S25.

Step S21, obtaining to-be-processed direction observation result data sent by the data processing end, wherein the to-be-processed direction observation result data comprises an observation direction identifier and an observation angle identifier, and the observation angle identifier is used for uniquely identifying a target data set to be verified in a database instance.

Step S22, acquiring target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

It can be understood that, when the contents described in the above step S21-step S25 are executed, target result data corresponding to the observation direction identifier and the observation angle identifier are obtained by obtaining to-be-processed direction observation result data sent by the data processing end, where the to-be-processed direction observation result data includes the observation direction identifier and the observation angle identifier, and the target result data is verified to a verification data set, where the verification data set is a data set corresponding to the target data set in the database instance; the data verification method provided by the embodiment of the invention is used for verifying according to the set granularity, so that the problem of low verification efficiency caused by the fact that all data in the database example needs to be verified during example level verification in the related technology is solved, on one hand, when a user only needs to verify part of data in the database example, the part of data needing to be verified can be verified, and the verification efficiency is improved; on the other hand, other data and access are not affected in the partial data verification process in the database example, and the data accuracy is increased to the maximum extent possible.

In a specific implementation process, the inventor finds that, when acquiring the target result data corresponding to the viewing direction identifier and the viewing angle identifier, there is a technical problem that data acquisition is inaccurate, so that it is difficult to accurately obtain the target result data, and in order to improve the technical problem, the step of acquiring the target result data corresponding to the viewing direction identifier and the viewing angle identifier, which is described in step S21, may specifically include the contents described in step S211 and step S212 below.

And step S211, acquiring a target observation direction file and a target observation angle file corresponding to the observation direction identifier.

Step S212, determining service check data corresponding to the target data set in the target observation direction file according to the observation angle identifier, and determining log data corresponding to the target data set in the target observation angle file; the target observation direction file is a pre-stored file obtained by completely pre-storing the database once at a target pre-storing moment, and the target observation angle file is a pre-stored file obtained by pre-storing the operation log of the database between the target pre-storing moment and the observation direction identifier.

It can be understood that, when the contents described in the above steps S211 and S212 are executed, the technical problem of inaccurate data acquisition is avoided when the target result data corresponding to the viewing direction identifier and the viewing angle identifier is acquired, so that the target result data can be accurately obtained.

In a specific implementation process, the inventors found that, when the target result data is verified in the check data set, there is a technical problem of data transmission error, so that the target result data cannot be accurately transmitted to the check data set, and in order to improve the technical problem, the step of verifying the target result data in the check data set described in step S22 may specifically include the following content described in step S221.

Step S221, writing back the service check data corresponding to the target data set to the check data set; and after the data write-back is completed, replaying the log data corresponding to the target data set into the check data set.

It can be understood that, when the content described in step S221 is executed, when the target result data is verified to the verification data set, the technical problem of data transmission error is avoided, so that the target result data can be accurately transmitted to the verification data set.

In a specific implementation process, the inventor finds that, when acquiring a target viewing direction file corresponding to the viewing direction identifier, there is a technical problem that the viewing direction identifier is not accurate, so that it is difficult to accurately acquire the target viewing direction file, and in order to improve the technical problem, the step of acquiring the target viewing direction file corresponding to the viewing direction identifier described in step S212 may specifically include the following step Q1.

Step Q1, according to the observation direction identifier, determining the pre-stored time closest to the observation direction identifier in a pre-stored center as a target pre-stored time, wherein N observation direction files and the pre-stored times corresponding to the N observation direction files are stored in the pre-stored center, and N is a positive number; and acquiring the target observation direction file corresponding to the target prestoring time.

It can be understood that when the content described in the above step Q1 is executed, the technical problem of inaccuracy of the viewing direction identifier is avoided when the target viewing direction file corresponding to the viewing direction identifier is obtained, so that the target viewing direction file can be obtained accurately.

Based on the above basis, the method also comprises the following contents described in steps W1-W4.

And step W1, completely pre-storing the database once at preset time intervals to obtain an observation direction file, wherein the observation direction file comprises service check data corresponding to M data sets in the database, and M is a positive number.

Step W2, the determining, according to the observation angle identifier, the service verification data in the target data set in the target observation direction file includes: and filtering the target observation direction file through a built-in filter according to the observation angle identifier to obtain service verification data corresponding to the target data set.

Step W3, wherein, an observation angle file is obtained by pre-storing the operation logs of the database at preset time intervals or in real time, the observation angle file comprises log data corresponding to M data sets in the database, and M is a positive number.

Step W4, the determining, in the target viewing angle file, log data corresponding to the target data set includes: and filtering the target observation angle file through a built-in filter according to the observation angle identification to obtain log data corresponding to the target data set.

It can be understood that, when the contents described in the above steps W1-W4 are executed, the corresponding data in the database can be accurately checked, so that the diversity and accuracy of the data in the database can be ensured.

In the specific implementation process, the inventor finds that, when the log data corresponding to the target data set is played back to the check data set, the target data set is not reliable and is difficult to be reliably sent to the check data set, and in order to improve the above technical problem, the step of playing back the log data corresponding to the target data set to the check data set described in step S221 may specifically include the following contents described in step E1 to step E3.

And step E1, initializing a standard value of the service verification data, wherein the standard value of the service verification data is used for indicating the number of log data corresponding to one verification operation.

Step E2, obtaining a service verification parameter, where the service verification parameter is used to indicate a size of a service verification parameter corresponding to the log data in the service verification data.

Step E3, according to the service verification parameters, adjusting the standard value of the service verification data; and continuously executing the verification operation on the log data according to the adjusted service verification data.

It can be understood that, when the content described in the above-mentioned step E1-step E3 is executed, the problem that the target data set is not reliable is avoided when the log data corresponding to the target data set is played back into the check data set, so that the log data can be reliably sent into the check data set.

In a specific implementation process, the inventor finds that the service verification parameter includes a query rate per second and/or an evaluation delay, and when the standard value of the service verification data is adjusted according to the service verification parameter, there is a technical problem that the adjustment is inaccurate, so that it is difficult to obtain an accurate adjusted result.

Step a1, when the service verification parameter meets a preset condition, multiplying the standard value of the service verification data by a first preset coefficient, and calculating to obtain the adjusted standard value of the service verification data.

A2, when the service verification time delay does not meet a preset condition, dividing the standard value of the service verification data by a second preset coefficient, and calculating to obtain an adjusted standard value of the service verification data, wherein both the first preset coefficient and the second preset coefficient are greater than 1; the preset conditions comprise that the query rate per second is greater than a first preset threshold value, and/or the evaluation delay is smaller than a second preset threshold value.

It can be understood that, when the contents described in step a1 and step a2 are executed, the service verification parameters include a query rate per second and/or an evaluation delay, and when the standard value of the service verification data is adjusted according to the service verification parameters, the technical problem of inaccurate adjustment is avoided, so that an accurate adjusted result can be obtained.

In a specific implementation process, the inventor finds that, when the target result data corresponding to the observation direction identifier and the observation angle identifier are obtained, there is a practical problem that the target result data are inaccurate, so that it is difficult to obtain accurate target result data, and in order to improve the above technical problem, the step of obtaining the target result data corresponding to the observation direction identifier and the observation angle identifier described in step S21 is specifically described as including the following steps F1 and F2.

Step F1, when a pre-stored time identical to the observation direction identifier is found in a pre-stored center, determining the pre-stored time as a target pre-stored time, wherein N observation direction files and pre-stored times corresponding to the N observation direction files are stored in the pre-stored center, and N is a positive number.

Step F2, obtaining a target observation direction file corresponding to the observation direction identification; and determining the service verification data corresponding to the target data set in the target observation direction file according to the observation angle identifier.

It can be understood that, when the contents described in the above steps F1 and F2 are executed, the actual problem that the target result data is inaccurate is avoided when the target result data corresponding to the viewing direction identifier and the viewing angle identifier is obtained, so that accurate target result data can be obtained.

Based on the above basis, the to-be-processed direction observation result data further includes a check set identifier of the check data set, and the method further includes the following content described in step H1.

Step H1, according to the check set identifier in the observation result data of the direction to be processed, creating the check data set corresponding to the check set identifier in the database instance; wherein the check set identifier is different from the set identifiers corresponding to the at least two data sets in the database instance.

It can be understood that, when the content described in the above step H1 is executed, the technical problem of checking the accuracy of the set identification is effectively solved.

Based on the same inventive concept, there is also provided a system for checking a direction observation result, comprising a data processing terminal, the data processing terminal is in communication connection with the data processing terminal, and the data processing terminal is specifically configured to:

acquiring to-be-processed direction observation result data sent by a data processing end, wherein the to-be-processed direction observation result data comprises an observation direction identifier and an observation angle identifier, and the observation angle identifier is used for uniquely identifying a target data set to be verified in a database example;

acquiring target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

Based on the same inventive concept, please refer to fig. 3 in combination, a functional block diagram of an apparatus 500 for checking a direction observation result is also provided, and a detailed description about the apparatus 500 for checking a direction observation result is as follows.

An apparatus 500 for checking a direction observation result, applied to a data processing terminal, the apparatus 500 comprising:

a data obtaining module 510, configured to obtain to-be-processed direction observation result data sent by a data processing end, where the to-be-processed direction observation result data includes an observation direction identifier and an observation angle identifier, and the observation angle identifier is used to uniquely identify a target data set to be verified in a database instance;

a data checking module 520, configured to obtain target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A method for directional observation verification, the method comprising:

acquiring to-be-processed direction observation result data sent by a data processing end, wherein the to-be-processed direction observation result data comprises an observation direction identifier and an observation angle identifier, and the observation angle identifier is used for uniquely identifying a target data set to be verified in a database example;

acquiring target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

2. The method of claim 1, wherein the obtaining target result data corresponding to the viewing direction identifier and the viewing angle identifier comprises:

acquiring a target observation direction file and a target observation angle file corresponding to the observation direction identifier;

determining service check data corresponding to the target data set in the target observation direction file according to the observation angle identifier, and determining log data corresponding to the target data set in the target observation angle file; the target observation direction file is a pre-stored file obtained by completely pre-storing the database once at a target pre-storing moment, and the target observation angle file is a pre-stored file obtained by pre-storing the operation log of the database between the target pre-storing moment and the observation direction identifier.

3. The method of claim 1, wherein the verifying the target result data into a verified data set comprises:

writing back the service check data corresponding to the target data set to the check data set; and after the data write-back is completed, replaying the log data corresponding to the target data set into the check data set.

4. The method of claim 2, wherein obtaining the target viewing direction file corresponding to the viewing direction identifier comprises:

according to the observation direction identifier, determining a pre-storage time closest to the observation direction identifier in a pre-storage center as a target pre-storage time, wherein N observation direction files and pre-storage times corresponding to the N observation direction files are stored in the pre-storage center, and N is a positive number; and acquiring the target observation direction file corresponding to the target prestoring time.

5. The method of claim 2, further comprising:

completely pre-storing the database once every a preset time interval to obtain an observation direction file, wherein the observation direction file comprises service check data corresponding to M data sets in the database, and M is a positive number;

the determining, according to the observation angle identifier, service verification data in the target data set in the target observation direction file includes: filtering the target observation direction file through a built-in filter according to the observation angle identification to obtain service verification data corresponding to the target data set;

the method comprises the steps that operation logs of a database are prestored at preset time intervals or in real time to obtain an observation angle file, wherein the observation angle file comprises log data corresponding to M data sets in the database, and M is a positive number;

the determining log data corresponding to the target data set in the target observation angle file includes: and filtering the target observation angle file through a built-in filter according to the observation angle identification to obtain log data corresponding to the target data set.

6. The method of claim 3, wherein the playing back the log data corresponding to the target data set into the check data set comprises:

initializing a standard value of service verification data, wherein the standard value of the service verification data is used for indicating the number of log data corresponding to one verification operation;

acquiring a service check parameter, wherein the service check parameter is used for indicating the size of a service check parameter corresponding to the log data in the service check data;

adjusting the standard value of the service verification data according to the service verification parameter; and continuously executing the verification operation on the log data according to the adjusted service verification data.

7. The method according to claim 6, wherein the service verification parameters include query rate per second and/or evaluation delay, and the adjusting the standard value of the service verification data according to the service verification parameters includes:

when the service verification parameter meets a preset condition, multiplying a standard value of the service verification data by a first preset coefficient, and calculating to obtain an adjusted standard value of the service verification data;

when the service verification time delay does not meet the preset condition, dividing the standard value of the service verification data by a second preset coefficient, and calculating to obtain the adjusted standard value of the service verification data, wherein both the first preset coefficient and the second preset coefficient are greater than 1; the preset conditions comprise that the query rate per second is greater than a first preset threshold value, and/or the evaluation delay is smaller than a second preset threshold value.

8. The method of claim 1, wherein the obtaining target result data corresponding to the viewing direction identifier and the viewing angle identifier comprises:

when a pre-storing moment which is the same as the observation direction identifier is found in a pre-storing center, determining the pre-storing moment as a target pre-storing moment, wherein N observation direction files and pre-storing moments corresponding to the N observation direction files are stored in the pre-storing center, and N is a positive number;

acquiring a target observation direction file corresponding to the observation direction identifier; and determining the service verification data corresponding to the target data set in the target observation direction file according to the observation angle identifier.

9. The method according to any one of claims 1 to 8, wherein the direction observation result data to be processed further includes a check set identifier of the check data set, the method further comprising:

creating the check data set corresponding to the check set identification in the database instance according to the check set identification in the observation result data of the direction to be processed; wherein the check set identifier is different from the set identifiers corresponding to the at least two data sets in the database instance.

10. The system for checking the direction observation result is characterized by comprising a data processing end which is in communication connection with the data processing end, wherein the data processing end is specifically used for:

acquiring to-be-processed direction observation result data sent by a data processing end, wherein the to-be-processed direction observation result data comprises an observation direction identifier and an observation angle identifier, and the observation angle identifier is used for uniquely identifying a target data set to be verified in a database example;

acquiring target result data corresponding to the observation direction identifier and the observation angle identifier; and checking the target result data into a check data set, wherein the check data set is a data set corresponding to the target data set in the database instance.

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