CN114706960A

CN114706960A - File information checking method based on cloud computing and file checking terminal

Info

Publication number: CN114706960A
Application number: CN202210627616.6A
Authority: CN
Inventors: 张文广; 李�浩
Original assignee: Jinan Cadre And Personnel Archives Service Center
Current assignee: Jinan Cadre And Personnel Archives Service Center
Priority date: 2022-06-06
Filing date: 2022-06-06
Publication date: 2022-07-05
Anticipated expiration: 2042-06-06
Also published as: CN114706960B

Abstract

The invention provides a file information checking method based on cloud computing and a file checking terminal, relating to the technical field of file checking, wherein a first file analysis sequence associated with a first file checking keyword in a first file retrieval path and a second file analysis sequence associated with a second file checking keyword in a corresponding second file retrieval path are analyzed, and then file information in the first file analysis sequence and file information in the second file analysis sequence are respectively analyzed based on a pre-configured file analysis framework, so that associated file information related to a file writing problem of a file storage area to be checked is determined by analyzing a file information set with an associated file checking relationship, and the associated file information and the file storage area to be checked are established into a binding relationship, thereby greatly improving the file checking efficiency and avoiding false checking by manual work, the accuracy of the analysis and inspection of the file is improved.

Description

File information checking method based on cloud computing and file checking terminal

Technical Field

The invention relates to the technical field of file inspection, in particular to a file information inspection method and a file inspection terminal based on cloud computing.

Background

The file is the original record with preservation value in various forms directly formed by people in various social activities. Archives include personal files, equipment files, enterprise files, office files, and the like.

With the advancement of science and technology, the existing files are usually electronic files, i.e., file information is recorded into a computer or the internet for storage. Generally, when the file information is stored, the file information is only classified and stored in the disk, and the integrity and classification accuracy of the file information are not checked. The current checking process mainly calls checking archive information manually, so that the checking efficiency is low and the checking accuracy is low.

Disclosure of Invention

The invention provides a cloud computing-based archive information checking method which can check archive information of an archive storage area to be checked and improve checking efficiency.

The archive information checking method based on cloud computing comprises the following steps:

step S101, acquiring a first file inspection keyword corresponding to a file storage area to be inspected in an associated file storage area set corresponding to a first file retrieval path;

step S102, at least one second file examination keyword is obtained from the associated file storage area set, and a first file analysis sequence associated with the first file examination keyword in a first file retrieval path and a second file analysis sequence associated with a second file retrieval path corresponding to the second file examination keyword within a preset time are analyzed;

step S103, respectively analyzing the archive information in the first archive analysis sequence and the archive information in the second archive analysis sequence based on a pre-configured archive analysis framework, and respectively obtaining a first archive information set in the first archive analysis sequence and a second archive information set in the second archive analysis sequence;

step S104, determining associated file information related to the file writing problem of the file storage area to be inspected from the first file information set and the second file information set respectively, and establishing a binding relationship between the associated file information and the file storage area to be inspected;

step S105, the associated file information and the checking status of the file storage area to be checked are sent to the file checking terminal.

Preferably, the method further comprises:

step S106, according to the binding relationship between the associated file information and the file storage area to be inspected, the record inspection operation between the first file inspection record corresponding to the first file information set and the second file inspection record corresponding to the second file information set is inspected and controlled.

Preferably, the archive checking terminal checks the archive in the archive storage area to be checked every preset time; the first file of the inspection is provided with the following key words:

M_Y,Dthe number of times that the user Y calls a certain file D;

M_D,gthe number of times that the keyword g is checked is previously set for the profile D;

how many different users have called the archive D;

the examination keyword is set for how many users the profile D has been examined by.

Preferably, step S103 further comprises:

step S1031, respectively analyzing the archive information in the first archive analysis sequence and the archive information in the second archive analysis sequence based on a pre-configured archive analysis framework to obtain archive export information in the first archive analysis sequence and archive export information in the second archive analysis sequence;

profile export information may include confidence levels for each candidate profile information in different ping profile categories;

step S1032 selects a set formed by corresponding candidate archive information with a confidence degree greater than a preset archive confidence check value according to the archive export information in the first archive analysis sequence and the archive export information in the second archive analysis sequence, as the first archive information set in the first archive analysis sequence and the second archive information set in the second archive analysis sequence, respectively.

Preferably, S104 further includes:

step S1041, obtaining a file storage area to be inspected, in which the first file information set and the second file information set are associated with a file writing problem of the file storage area to be inspected, and constructing a first file storage matrix corresponding to the first file information set and a second file storage matrix corresponding to the second file information set according to the file storage area to be inspected;

step S1042, extracting the problem information of the first file information set in each file storage matrix unit of the first file storage matrix, determining the file storage matrix unit of the second file storage matrix corresponding to the file storage area to be inspected as the target file storage matrix unit, and fusing the problem file information into the target file storage matrix unit according to the file information fusion algorithm and the behavior characteristic vector set of the second file information set;

step S1043, using the abnormal association storage bit of the target file as the target, obtaining the first problem file matrix information in the target file storage matrix unit, fusing the first problem file matrix information to the file storage matrix unit where the problem file information is located according to the reverse problem file information data corresponding to the problem file information data, obtaining the second problem file matrix information corresponding to the first problem file matrix information in the file storage matrix unit where the problem file information is located, and summarizing the first problem file matrix information and the second problem file matrix information into the target problem file matrix information;

step S1044, obtaining a problem archive storage matrix unit in which problem archive information is fused into a target archive storage matrix unit, sequentially obtaining associated archive storage matrix information corresponding to the target problem archive matrix information in a second archive storage matrix according to the contact ratio between the target problem archive matrix information and matrix parts corresponding to a plurality of matrix information to be traversed on the problem archive storage matrix unit until the unit identifier of the archive storage matrix unit in which the obtained associated archive storage matrix information is located is consistent with the unit identifier of the target problem archive matrix information in the first archive storage matrix, stopping obtaining associated archive storage matrix information in a next archive storage matrix unit, and determining common archive information between the target problem archive matrix information and the associated archive storage matrix information obtained each time as associated archive information related to the archive writing problem of the archive storage area to be inspected, and establishing a binding relationship between the associated file information and the file storage area to be inspected.

Preferably, step S1041 further comprises:

step S10411, obtaining a first characteristic mark of each file information characteristic information in the first file information set and a second characteristic mark of each file information characteristic information in the second file information set;

in the substep S10412, a first profile storage matrix corresponding to the first profile information set is constructed according to a first associated access configuration file corresponding to the first feature identifier in advance, and a second profile storage matrix corresponding to the second profile information set is constructed according to a second associated access configuration file corresponding to the second feature identifier in advance.

Preferably, step S106 further comprises the following manner:

step S1061, adding the file storage areas to be inspected corresponding to the first file inspection record and the second file inspection record to the interface of the inspection process;

step S1062, under the interface of the checking process, according to the file information of the file storage area to be checked corresponding to the checking position requested, simulating the related file information corresponding to the file storage area to be checked in the first file checking record and the second file checking record to obtain the checking control instruction of checking the file in the interface of the checking process for each related file information, and respectively extracting the checking control result of the corresponding related file information under each recording checking task from the checking control instruction corresponding to each related file information;

step S1063, performing inspection control on the inspection control result of the corresponding related file information under the corresponding record inspection task according to the binding relationship between the related file information and the file storage area to be inspected for each record inspection task.

Preferably, step S1062 further includes:

step S10621, establishing the checking process information of the file storage area to be checked according to the record information of the file checking record aiming at the checking file of the file storage area to be checked;

step S10622, instantiating the inspection process information of the inspection file in the storage area of the file to be inspected according to the requested inspection position to obtain the file information of the storage area of the file to be inspected corresponding to the requested inspection position;

step S10623, determining the checking process instruction set of the storage area of the file to be checked according to the file information of the storage area of the file to be checked, and simulating each related file information according to the checking process instruction set to obtain the checking control instruction of checking the file in the checking process interface of each related file information.

Preferably, step S10623 further includes:

(1) accessing corresponding recorded inspection process information according to the inspection process instruction set, and simulating each related inspection process through the recorded inspection process information;

(2) determining an inspection control point corresponding to the inspection attribute of each relevant archive information according to different inspection control types called for each inspection process;

(3) determining different checking attributes of each piece of relevant file information, and acquiring a first checking record matching file set matched with at least two identical checking records matched with a plurality of corresponding checking records, and a second checking record matching file set with the calling times larger than the preset times in the matching of the remaining checking records;

(4) generating an inspection control instruction for determining an inspection file according to an inspection record matching file set which is selected from the first inspection record matching file set and has the calling times larger than the preset times and serves as a target inspection record matching file set and at least one second inspection record matching file set;

(5) and determining the inspection control instruction of the inspection file in the inspection process interface of each piece of relevant file information.

The invention also provides a file checking terminal for realizing the file information checking method based on the cloud computing, which comprises the following steps:

the memory is used for storing a computer program and a file information checking method based on cloud computing;

the processor is used for executing the computer program and the archive information checking method based on the cloud computing so as to realize the step of the archive information checking method based on the cloud computing;

the display screen is used for displaying the checking process information and the checking result information of the archive information checking method based on the cloud computing;

and the communication module is used for being in communication connection with the archive server and the archive database respectively.

According to the technical scheme, the invention has the following advantages:

in the cloud computing-based archive information checking method, by analyzing a first archive resolution sequence associated with a first archive checking keyword in a first archive retrieval path and a second archive resolution sequence associated with a second archive checking keyword in a corresponding second archive retrieval path, then, the archive information in the first archive resolution sequence and the archive information in the second archive resolution sequence are respectively resolved based on a pre-configured archive resolution framework, thereby determining the associated file information related to the file writing problem of the file storage area to be inspected by analyzing the file information set having the associated file inspection relationship, and establishing a binding relationship between the associated file information and the file storage area to be inspected, therefore, the file inspection efficiency is greatly improved, the manual inspection and misjudgment can be avoided, and the accuracy of file analysis and inspection is improved.

The invention can also confirm the corresponding examination attribute of each target file in the target examination record according to the examination control instruction, and confirm the examination control instruction of each relevant file information in the examination process interface according to the corresponding examination attribute of each target file, so that the examination control instruction can meet the examination requirement and the parameter setting of the examination, and the accuracy and pertinence of the examination are improved.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a diagram of a document verification terminal.

Fig. 2 is a flowchart of a method for checking profile information based on cloud computing.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The units and algorithm steps of each example described in the embodiment disclosed in the cloud computing-based archive information checking method provided by the invention can be realized by electronic hardware, computer software or a combination of the two, and in order to clearly illustrate the interchangeability of hardware and software, the components and steps of each example have been generally described in terms of functions in the above description. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The block diagram shown in the attached drawing of the cloud computing-based archive information inspection method provided by the invention is only a functional entity and does not necessarily correspond to a physically independent entity. I.e. these functional entities may be implemented in the form of software, or in one or more hardware modules or integrated circuits, or in different networks and/or processor means and/or microcontroller means.

In the cloud computing-based archive information checking method provided by the invention, it should be understood that the disclosed system, device and method can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may also be an electric, mechanical or other form of connection.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention may be practiced without one or more of the specific details, or with other methods, components, devices, steps, and so forth. In other instances, well-known methods, devices, implementations or operations have not been shown or described in detail to avoid obscuring aspects of the invention.

The cloud computing-based archive information inspection method related by the invention is executed by an archive inspection terminal, as shown in fig. 1, and comprises the following steps:

The archive verification terminal may further include: the interface module and the power module can also be provided with other modules according to actual needs, so that the requirements of functions are met.

The archival verification terminal can be implemented in various forms. For example, the terminal described in the embodiments of the present invention may include a mobile terminal such as a mobile phone, a smart phone, a notebook computer, a Personal Digital Assistant (PDA), a tablet computer (PAD), and the like, and a fixed terminal such as a Digital TV, a desktop computer, and the like. In the following, it is assumed that the terminal is a mobile terminal. However, it will be understood by those skilled in the art that the configuration according to the embodiment of the present invention can be applied to a fixed type terminal in addition to elements particularly used for moving purposes.

Specifically, as shown in fig. 2, the present invention provides a method for checking archive information based on cloud computing

Step S101, obtaining a first file examining keyword corresponding to a file storage area to be examined in a related file storage area set corresponding to a first file retrieving path.

The archive information is stored in the archive storage area to be inspected, and in order to inspect the archive information, the archive information stored in the archive storage area to be inspected needs to be called.

Illustratively, the user sets the archive check key words on the archive check terminal to check the archive information stored in the archive storage area to be checked in a targeted manner.

The file checking terminal checks the files in the file storage area to be checked every preset time; the setting mode of the document checking keyword for checking is as follows:

MY, D is the number of times that the user Y calls a certain file D;

MD and g are the times that the archive D is set as the checking key word g in advance;

the number of different users who have called the file D;

The file checking terminal can automatically execute the checking of the files in the file storage area to be checked and can also check the files in the file storage area to be checked according to the starting control instruction of the user.

Step S102, at least one second document inspection keyword is obtained from the associated document storage area set, and a first document parsing sequence associated with the first document inspection keyword in the first document retrieval path and a second document parsing sequence associated with the second document retrieval path corresponding to the second document inspection keyword within a preset time are parsed.

Step S103, respectively analyzing the archive information in the first archive analysis sequence and the archive information in the second archive analysis sequence based on a pre-configured archive analysis framework, and respectively obtaining a first archive information set in the first archive analysis sequence and a second archive information set in the second archive analysis sequence.

Step S104, respectively determining the associated file information related to the file writing problem of the file storage area to be inspected from the first file information set and the second file information set, and establishing a binding relationship between the associated file information and the file storage area to be inspected.

In the cloud-computing-based file information inspection method, the first file retrieval path may be an inspection path when the file inspection terminal identifies the file storage area to be inspected, which has a file writing problem, at the first file inspection keyword, the associated file storage area set may include at least one second file inspection keyword, each second file inspection keyword has an associated file inspection relationship between the corresponding second file retrieval path and the first file inspection keyword, and the second file retrieval path is a linkage inspection path of the first file retrieval path.

Specifically, the archive checking terminal may have a plurality of checking paths during checking the archive, and the archive may be classified into a national institution archive, an enterprise archive, a business archive, a personal archive, and the like.

The recording information can be divided into text files, graphic files and audio/video files.

The path division can also be performed according to different file storage areas. For example, files are stored in different database partitions, and the examination is performed by using the storage partitions as paths.

The profile verification key may be understood as profile information specifically verified by the profile verification terminal, such as: checking the profile information of a certain person, or a certain enterprise. It is also possible to check whether the file storage partition is storing according to the type of file to be stored in the partition. If a plurality of types of file information exist, whether the file information is accurately divided into the corresponding storage partitions or not is judged.

Specific examples are not listed here, and the inspection conditions may be set according to actual needs.

In the invention, after a certain file checking terminal identifies the file storage area to be checked with the file writing problem, the file checking terminal retrieves the position of the file writing problem for identification checking. The files with the writing problems are configured as first file checking keywords, a first file analysis sequence associated with the first file checking keywords in a first file retrieval path and a second file analysis sequence associated with the second file checking keywords in a corresponding second file retrieval path are called, and a checking process is executed.

The file information checking method based on cloud computing is characterized in that a first file resolution sequence associated with a first file checking keyword in a first file retrieval path and a second file resolution sequence associated with a second file checking keyword in a corresponding second file retrieval path are analyzed, then, the archive information in the first archive resolution sequence and the archive information in the second archive resolution sequence are respectively resolved based on a pre-configured archive resolution framework, thereby determining the associated file information related to the file writing problem of the file storage area to be inspected by analyzing the file information set having the associated file inspection relationship, and establishing a binding relationship between the associated file information and the file storage area to be inspected, therefore, the file inspection efficiency is greatly improved, the manual inspection and misjudgment can be avoided, and the accuracy of file analysis and inspection is improved.

In the cloud computing-based archive information inspection method provided by the present invention, step S103 further includes:

and step S1031, analyzing the archive information in the first archive analysis sequence and the archive information in the second archive analysis sequence respectively based on a pre-configured archive analysis framework to obtain archive export information in the first archive analysis sequence and archive export information in the second archive analysis sequence.

The profile export information may include confidence levels for each of the candidate profile information in the different pinging profile categories.

Step S1032 selects a set formed by corresponding candidate archive information having a confidence level greater than a preset archive confidence check value according to the archive export information in the first archive analysis sequence and the archive export information in the second archive analysis sequence, as the first archive information set in the first archive analysis sequence and the second archive information set in the second archive analysis sequence, respectively.

Specifically, the archive resolution framework may be configured as follows:

(1) and acquiring an archive check sample set, wherein the archive check sample set comprises a plurality of check samples and archive information editing contents in each check archive category corresponding to each check sample.

For example, profile information edits may be used to indicate a corresponding ping profile type in the ping profile types.

The checking type of the file can be a national institution type file, an enterprise unit type file, a business unit type file, and a personal type file.

Or a school roll file, a personnel file, and an employee file.

Or the type of the profile is: doc type, Excel type, xls type, ppt type, bmp type, jpg type, txt type, sound file, and movie file, etc.

(2) And extracting the file characteristic vector in each inspection file category in each inspection sample in the file inspection sample set by adopting a convolutional neural network model, and inputting the file characteristic vector into a file classification module to obtain file inspection classification data corresponding to the file characteristic vector.

In the invention, in order to realize the binding relationship of the characteristics in the file information, a plurality of convolution checking modules corresponding to the checking file types can be included.

(3) And adjusting model parameters of the preset convolutional neural network model according to the loss function value between the file inspection classification data corresponding to the file feature vector of each inspection file category in each inspection sample set of the file inspection sample set and the file information editing content, then carrying out iterative training, and outputting a file analysis framework obtained by training when the preset convolutional neural network model reaches a training end condition.

The archive information inspection method based on cloud computing can output the archive analysis framework obtained by training when the archive inspection loss function value is lower than the function threshold. Or outputting the file analysis framework obtained by training when the loss function value does not continuously decrease.

Therefore, the archive information checking method based on cloud computing provided by the invention analyzes the archive information in the first archive analysis sequence and the archive information in the second archive analysis sequence by adopting the archive analysis framework obtained by training, can quickly and accurately check the archive information set with the associated archive checking relationship, and improves the checking efficiency.

In the cloud computing-based archive information inspection method according to the present invention, step S104 further includes:

step S1041, acquiring the file storage area to be inspected, which is associated with the file write problem in the file storage area to be inspected, in the first file information set and the second file information set, and constructing a first file storage matrix corresponding to the first file information set and a second file storage matrix corresponding to the second file information set according to the file storage area to be inspected.

Illustratively, the first archive storage matrix and the second archive storage matrix may each include a plurality of archive information characteristics.

The profile information characteristic may be used to indicate the corresponding profile memory matrix unit of the profile memory region to be inspected.

The archive storage matrix unit is used to represent a plurality of archive information in the archive storage area to be inspected, and for those skilled in the art, the number and type of the archive information may be set according to actual requirements, which is not limited in detail in the present invention.

and obtaining the abnormal association storage bit of the target file in the target file storage matrix unit, and generating problem file information data between the first file information set and the second file information set according to the information transfer part between the problem file information and the abnormal association storage bit of the target file.

Step S1043, using the abnormal association storage bit of the target file as the target, obtaining the first problem file matrix information in the target file storage matrix unit, fusing the first problem file matrix information to the file storage matrix unit where the problem file information is located according to the reverse problem file information data corresponding to the problem file information data, obtaining the second problem file matrix information corresponding to the first problem file matrix information in the file storage matrix unit where the problem file information is located, and summarizing the first problem file matrix information and the second problem file matrix information into the target problem file matrix information.

Step S1041 in the present invention further includes:

step S10411, a first feature identifier of each file information feature information in the first file information set and a second feature identifier of each file information feature information in the second file information set are obtained.

In this embodiment, the archive checking terminal may be configured with the feature identifiers of different archive information feature information and the archive storage matrix corresponding to each feature representation in advance, so that the first archive storage matrix and the second archive storage matrix may be further constructed by obtaining the first feature identifier of each archive information feature information in the first archive information set and the second feature identifier of each archive information feature information in the second archive information set.

In step S10412, the embodiment may respectively match corresponding archive information node data from the first archive information set and the second archive information set according to the information transfer portion between the problem archive information and the target archive abnormal association storage location, so as to generate problem archive information data between the first archive information set and the second archive information set.

Further, in order to facilitate retrieving and viewing the archive information, the cloud-computing-based archive information checking method according to the present invention further includes the following step S106.

On this basis, step S106 further includes the following steps:

step S1061, add the file storage areas to be inspected corresponding to the first file inspection record and the second file inspection record to the interface of the inspection process.

Step S1062, under the interface of the checking process, according to the file information of the file storage area to be checked corresponding to the requested checking position, simulating the related file information corresponding to the file storage area to be checked in the first file checking record and the second file checking record to obtain a checking control instruction for checking the file in the interface of the checking process by using each related file information, and respectively extracting the checking control result of the corresponding related file information under each record checking task from the checking control instruction corresponding to each related file information.

Step S1063, according to the binding relationship between the associated file information and the file storage area to be inspected for each record inspection task, performing inspection control on the inspection control result of the corresponding associated file information under the corresponding record inspection task, so that the inspection control result under the record inspection task after the inspection control is completed can complete the inspection control in the record inspection operation between the first file inspection record and the second file inspection record, thereby obtaining each target inspection file inspection record after the inspection control.

In one embodiment of the present invention, based on step S1062, a possible embodiment is given below to illustrate the specific implementation thereof in a non-limiting manner.

Step S10621, establishing the checking process information of the storage area of the file to be checked according to the record information of the file checking record corresponding to the checking file of the storage area of the file to be checked.

For example, the inspection process information may be used to reflect the inspection process information for the inspection performed in the archive storage area to be inspected.

Step S10622, instantiating the inspection process information of the inspection file in the storage area of the file to be inspected according to the requested inspection position, so as to obtain the file information of the storage area of the file to be inspected corresponding to the requested inspection position.

Illustratively, step S10623 may be implemented by:

(1) corresponding recorded ping process information is accessed based on the ping process instruction set and each associated ping process is simulated by the recorded ping process information.

wherein the inspection attributes of the different inspection control types correspond to the different inspection control points, respectively.

(3) And determining different inspection attributes of each piece of relevant file information, acquiring a first inspection record matching file set matched with at least two identical inspection records matched with the corresponding inspection records, and acquiring a second inspection record matching file set with the calling times larger than the preset times in the rest inspection record matching.

(4) And generating an inspection control instruction for determining the inspection files according to the inspection record matching file set which is selected from the first inspection record matching file set and has the calling times larger than the preset times as a target inspection record matching file set and at least one second inspection record matching file set.

For example, the ping attribute corresponding to each target profile in the target ping record may be determined according to the ping control instruction, and the ping control instruction for each relevant profile information to ping the profile in the ping process interface may be determined according to the ping attribute corresponding to each target profile.

The cloud computing-based archive information verification method is the unit and algorithm steps of each example described in connection with the embodiments disclosed herein, and can be implemented in electronic hardware, computer software, or a combination of both, and in the above description, the components and steps of each example have been generally described in terms of functions in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

Those skilled in the art will appreciate that aspects of the cloud computing-based profile information verification method may be embodied as a system, method, or program product. Accordingly, various aspects of the present disclosure may be embodied in the form of: an entirely hardware embodiment, an entirely software embodiment (including firmware, microcode, etc.) or an embodiment combining hardware and software aspects that may all generally be referred to herein as a "circuit," module "or" system.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A cloud computing-based archive information checking method is characterized by comprising the following steps:

step S102, at least one second file inspection keyword is obtained from the associated file storage area set, and a first file analysis sequence associated with the first file inspection keyword in a first file retrieval path and a second file analysis sequence associated with a second file retrieval path corresponding to the second file inspection keyword in a preset time are analyzed;

2. The cloud-computing-based archive information verification method according to claim 1, wherein the method further comprises:

3. The cloud-computing-based archive information verification method according to claim 1,

the file checking terminal checks the files in the file storage area to be checked every preset time; the first file of the inspection is provided with the following key words:

M_Y,Dthe number of times that the user Y calls a certain file D;

M_D,gthe number of times that the document D is previously set as the inspection keyword g;

the number of different users who have called the file D;

4. The cloud-computing-based archive information verification method according to claim 1,

step S103 further includes:

the profile export information may include confidence levels for each candidate profile information in different ping profile categories;

5. The cloud-computing-based archive information verification method according to claim 1,

s104 further comprises:

step S1043, taking the abnormal association storage bit of the target file as a target, acquiring first problem file matrix information from a target file storage matrix unit, fusing the first problem file matrix information to a file storage matrix unit where the problem file information is located according to reverse problem file information data corresponding to the problem file information data, obtaining second problem file matrix information corresponding to the first problem file matrix information from the file storage matrix unit where the problem file information is located, and summarizing the first problem file matrix information and the second problem file matrix information into target problem file matrix information;

6. The cloud-computing-based archive information verification method according to claim 5,

step S1041 further includes:

7. The cloud-computing-based archive information verification method according to claim 1,

step S106 further includes the following manner:

step S1062, under the interface of the checking process, according to the file information of the file storage area to be checked corresponding to the requested checking position, simulating the related file information corresponding to the file storage area to be checked in the first file checking record and the second file checking record to obtain a checking control instruction of checking the file in the interface of the checking process for each related file information, and respectively extracting the checking control result of the corresponding related file information under each record checking task from the checking control instruction corresponding to each related file information;

8. The cloud-computing-based archive information verification method according to claim 7,

step S1062 further includes:

step S10622, instantiating the inspection process information of the inspection file in the storage area of the file to be inspected according to the requested inspection location, and obtaining the file information of the storage area of the file to be inspected corresponding to the requested inspection location;

9. The cloud-computing-based archive information verification method according to claim 8,

step S10623 further includes:

(2) determining an inspection control point corresponding to the inspection attribute of each relevant file information according to different inspection control types called for each inspection process;

10. A file checking terminal for realizing a file information checking method based on cloud computing is characterized by comprising the following steps:

a processor for executing the computer program and the cloud-based profile information verification method to implement the steps of the cloud-based profile information verification method according to any one of claims 1 to 9;