CN116091008A

CN116091008A - Mine ecological restoration project data management method and device and electronic equipment

Info

Publication number: CN116091008A
Application number: CN202310362859.6A
Authority: CN
Inventors: 李万增; 张鸽; 董国明; 刘建兵; 孙学亮; 郑思辉; 王启星; 周颖; 于帅; 杜洪章; 夏慧洁; 孙瑜皎; 王杏苹; 马志远; 王锴; 李胜
Original assignee: Second Geological Brigade Of Hebei Provincial Bureau Of Geology And Mineral Exploration And Development Hebei Province Mine Environment Restoration And Treatment Technology Center
Current assignee: Second Geological Brigade Of Hebei Provincial Bureau Of Geology And Mineral Exploration And Development Hebei Province Mine Environment Restoration And Treatment Technology Center
Priority date: 2023-04-07
Filing date: 2023-04-07
Publication date: 2023-05-09
Anticipated expiration: 2043-04-07
Also published as: CN116091008B

Abstract

The application relates to a mine ecological restoration project data management method, a device and electronic equipment, belonging to the technical field of project data management, wherein the method comprises the following steps: acquiring account information input by a current user, wherein the account information comprises an account and a password; checking the account information, and determining whether login is allowed; if login is allowed, determining the operation authority and the information circulation level corresponding to the user according to the account information; searching a corresponding operation interface template according to the operation authority, and presenting an operation interface based on the operation interface template; searching a project data file path corresponding to the information circulation level, and displaying prompt information containing the project data file path. The method has the effect of improving the management efficiency of the mine ecological restoration project data.

Description

Mine ecological restoration project data management method and device and electronic equipment

Technical Field

The application relates to the technical field of project data management, in particular to a mine ecological restoration project data management method, a device and electronic equipment.

Background

The mine ecological restoration project is an important measure for avoiding continuous deterioration of the mine ecological structure, and has the advantages of long construction period, more links needing coordination, more types of archives formed in the construction process and high management difficulty.

At present, an engineering project data management platform is available, all project related data are stored on the engineering project data management platform, and each level of units related to engineering can log in the engineering project data management platform to inquire and audit the project data on line.

However, because the number of the mine ecological restoration project data is large and complicated, when a user checks or reviews the mine ecological restoration project data on a platform, the target mine ecological restoration project data needs to be searched one by one in all the data, time is wasted in the operation process easily, and the efficiency of the mine ecological restoration project data circulation is reduced.

Disclosure of Invention

In order to improve the management efficiency of mine ecological restoration project data, the application provides a mine ecological restoration project data management method, device and electronic equipment.

In a first aspect, the present application provides a method for managing mine ecological restoration project data, which adopts the following technical scheme:

A mine ecological restoration project data management method comprises the following steps:

acquiring account information input by a current user, wherein the account information comprises an account and a password;

checking the account information, and determining whether login is allowed;

if login is allowed, determining the operation authority and the information circulation level corresponding to the user according to the account information;

searching a corresponding operation interface template according to the operation authority, and presenting an operation interface based on the operation interface template;

searching a project data file path corresponding to the information circulation level, and displaying prompt information containing the project data file path.

By adopting the technical scheme, when a user logs in the platform, the electronic equipment acquires account information input by the current user, and then the account information is checked, after the permission of login is determined, the electronic equipment determines the operation authority and the information circulation level of the user according to the account information, so that an operation interface template is determined according to the operation authority, the operation interface is presented, and a corresponding project data file path is displayed on the operation interface, so that the operation interface related to the operation authority can be displayed according to the account of the user, personalized setting is carried out according to the user, the operation interface is concise, the process of searching project data and checking can be accelerated, and the project data of mine restoration projects can be efficiently managed.

Further, the determining the operation authority corresponding to the user according to the account information includes:

obtaining a unit type of the user, wherein the type comprises a construction unit, a supervision unit, a construction quality inspection unit and a third party management unit;

and determining corresponding operation authorities according to the types, wherein the operation authorities comprise one or more of basic design, data compiling, data auditing, data checking, file management, retrieval and message reminding.

By adopting the technical scheme, the electronic equipment classifies the operation authorities according to the unit types, and the operation authorities corresponding to the units of each type are different, so that the electronic equipment can determine the operation authorities according to the unit types corresponding to the users, and the operation authorities of the users can be rapidly analyzed according to the account information.

Further, before determining the operation authority and the information circulation level corresponding to the user according to the account information, the method further includes:

receiving a unit upper-lower relationship input by a user with basic design operation authority;

and determining the information circulation level of the corresponding user of each unit based on the relation, wherein the information circulation level of the upper unit is higher than that of the lower unit.

By adopting the technical scheme, only users with basic design operation authorities can input the upper and lower relationships of units, the possibility of data errors caused by multiparty editing is reduced, the information circulation levels corresponding to the users can be matched according to the upper and lower relationships, and the user setting operation process is simplified.

Further, the operation interface template includes a plurality of operation modules, and the searching for the corresponding operation interface template according to the operation authority, and presenting the operation interface based on the operation interface template includes:

acquiring historical operation information of a current user on each operation module in preset time, wherein the historical operation information comprises checking times and a time average value of single checking;

determining the use level of the current unit on each operation module according to the historical operation information;

determining a presentation strategy of each operation module on the operation interface according to the use level;

acquiring a task to be handled of a current unit;

judging whether the presentation strategy needs to be adjusted according to the task to be handled, and if so, adjusting the presentation strategy;

otherwise, the rendering policy is kept unchanged.

By adopting the technical scheme, the electronic equipment analyzes according to the historical operation information of the user, and particularly analyzes according to the checking times of each operation module and the time average value of single checking, determines the presentation strategy of the operation module on the operation interface, and finally adjusts again according to the task to be handled, so that the operation interface which is more suitable for the current requirement of the user is obtained.

Further, the determining the usage level of the current unit for each operation module according to the historical operation information includes:

acquiring a plurality of pieces of history operation information corresponding to adjacent time periods;

calculating a first ratio of the viewing times of the operation module to the time average value in each piece of historical operation information;

according to the first ratio corresponding to different time periods and the weight corresponding to each time period, calculating to obtain a second ratio of each operation module;

determining an operation change trend value according to the first ratio corresponding to different time periods;

multiplying the second ratio of each operation module by the operation change trend value, and calculating to obtain a calculated value;

and obtaining the use level of each operation module according to the calculated value.

Through adopting above-mentioned technical scheme, electronic equipment acquires a plurality of historical operation information, look over the number of times and the time mean calculation of operation module in each historical operation information obtain first ratio, simplify user's historical operation information, still obtain operation change trend value, calculate through the weight that the time quantum corresponds and first ratio and obtain the second ratio, second ratio and operation change trend value are the performance that the user used the habit to each operation module, electronic equipment unifies two types of data, obtain the calculated value, thereby confirm the use level of operation module according to the calculated value.

Further, determining a presentation strategy of each operation module on the operation interface according to the use level, including: determining a secondary operation module and at least one primary operation module on an operation interface according to the use level of each operation module, wherein the order of the primary operation modules is positioned before the secondary operation module;

if the number of the main operation modules is more than two, determining the correlation between the main operation modules, and determining the presentation strategy of the main operation modules according to the correlation, wherein the method comprises the following steps:

the determining the correlation between the primary operational modules includes:

acquiring historical click information of a user on the operation module within preset time;

determining first operation information of continuously clicking the main operation module with the highest use level and other operation modules according to the historical click information;

generating a plurality of combinations based on the primary operation module with the highest use level and each of the remaining primary operation modules;

according to the historical click information, respectively determining second operation information corresponding to clicking operation modules included in each combination;

calculating the ratio of the number of each second operation information to the number of the first operation information respectively, and calculating to obtain the correlation between each main operation module and the main operation module with the highest use level;

The determining the presentation policy of the main operation module according to the correlation includes:

if the correlations are not larger than the preset value, the main operation modules are presented in sequence;

if only one correlation is larger than a preset value, two main operation modules corresponding to the correlation are presented in parallel;

if at least two main operation modules with the highest use level exist, the corresponding main operation modules are displayed in parallel on one side of the main operation module with the highest use level;

and determining the presentation size of the operation module according to the information quantity of the operation module.

By adopting the technical scheme, the electronic equipment further performs refined analysis on each operation module, determines the main operation module and the secondary operation module according to the historical operation information of the user, further sorts the main operation modules, determines at least one more important main operation module, determines the presentation strategy according to the correlation between other main operation modules and the main operation module with the highest use level, and provides the optimal operation interface for the user.

In another possible implementation, the method further includes:

Responding to a search request triggered by a current user, and acquiring historical browsing information of the current user in preset time;

determining browsing keywords based on the historical browsing information, and frequency and time of the browsing keywords;

determining sensitive keywords according to the frequency and time of the browsing keywords;

acquiring search information input by a user;

judging whether the sensitive keywords exist in the search information, if so, preferentially searching the sensitive keywords to obtain a search list;

otherwise, searching the browsing keywords with highest frequency preferentially, and arranging the search results in descending order according to the historical query time to obtain a search list.

By adopting the technical scheme, the electronic equipment analyzes according to the historical browsing information of the user, analyzes the search preference of the user and analyzes the refinement requirement of the user, so that the sensitive keywords in the current search request are determined, the project data related to the sensitive keywords are recommended to the user, and the search speed is improved.

Further, the determining the sensitive keyword according to the frequency and time of the browsing keyword includes:

screening and obtaining first keywords larger than a preset frequency based on the frequency of the browsing keywords;

Obtaining daily retrieval frequency of the first keywords according to the time of each first keyword;

determining a weight value corresponding to each day, wherein the weight value is inversely proportional to a difference value from the current date;

calculating the product of the daily search frequency and the corresponding weight value, and calculating the sum of the products to obtain sensitivity;

and determining at least one sensitive keyword according to the sensitivity.

By adopting the technical scheme, the electronic equipment calculates according to the frequency and time of the keyword browsed by the user, on one hand, the influence of the frequency of the keyword browsed is considered, and on the other hand, the time factor is added, so that the sensitive keyword more relevant to the current retrieval requirement is determined, and the retrieval precision is improved.

In a second aspect, the present application provides a mine ecological restoration project data management device, which adopts the following technical scheme:

the acquisition module is used for acquiring account information input by a current user, wherein the account information comprises an account and a password;

the account auditing module is used for auditing the account information and determining whether login is allowed or not;

the processing module is used for determining the operation authority and the information circulation level corresponding to the user according to the account information when the account auditing module determines that login is allowed;

The presentation module is used for searching a corresponding operation interface template according to the operation authority and presenting an operation interface based on the operation interface template;

and the display module is used for searching the project data file path corresponding to the information circulation level and displaying the prompt information containing the project data file path.

By adopting the technical scheme, when a user logs in the platform, the acquisition module acquires account information input by the current user, the account auditing module audits the account information, and after the permission of login is determined, the processing module determines the operation authority and the information circulation level of the user according to the account information, so that the presentation module determines an operation interface template according to the operation authority and presents the operation interface, and the presentation module presents a corresponding project data file path on the operation interface, so that the operation interface related to the operation authority can be presented according to the account of the user, personalized setting can be carried out according to the user, the operation interface is concise, the process of searching the project data and auditing can be accelerated, and the project data of mine restoration engineering can be managed efficiently.

In a third aspect, the present application provides an electronic device, which adopts the following technical scheme:

An electronic device, comprising:

at least one processor;

a memory;

at least one computer program, wherein the at least one computer program is stored in the memory and configured to be executed by the at least one processor, the at least one computer program configured to: executing the mine ecological restoration project data management method according to any one of the first aspects.

By adopting the technical scheme, the processor executes the computer program in the memory, when a user logs in the platform, the account information input by the current user is acquired, the account information is further checked, after the permission of login is determined, the operation authority and the information circulation level of the user are determined according to the account information, so that the operation interface template is determined according to the operation authority, the operation interface is presented, and the corresponding project data file path is displayed on the operation interface, therefore, the operation interface related to the operation authority can be displayed according to the account of the user, personalized setting is carried out according to the user, the operation interface is concise, the process of searching the project data and checking can be accelerated, and the project data of mine restoration engineering can be efficiently managed.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a user logs in a platform, the electronic equipment acquires account information input by the current user, and then the account information is audited, and after the permission of login is determined, the electronic equipment determines the operation authority and the information circulation level of the user according to the account information, so that an operation interface template is determined according to the operation authority, an operation interface is presented, and a corresponding project data file path is displayed on the operation interface, so that the operation interface related to the operation authority can be displayed according to the account of the user, personalized setting can be carried out according to the user, the operation interface is concise, the process of searching project data and auditing can be accelerated, and the project data of mine repair engineering can be efficiently managed;

2. only users with basic design operation authority can input the upper and lower relationships of units, so that the possibility of data errors caused by multiparty editing is reduced, the corresponding information circulation level of the users can be matched according to the upper and lower relationships, and the user setting operation process is simplified;

3. analyzing according to historical operation information of a user, specifically, analyzing according to the number of times of checking each operation module and the time average value of single checking, determining the presentation strategy of the operation module on an operation interface, and finally, adjusting again according to tasks to be handled, so that the operation interface which is more suitable for the current requirements of the user is obtained.

Drawings

FIG. 1 is a flow chart of a method for managing project data of ecological restoration projects of mines in an embodiment of the application.

FIG. 2 is a block diagram of a mining ecological restoration project data management device in an embodiment of the present application.

Fig. 3 is a block diagram of an electronic device in an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

In addition, the term "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In this context, unless otherwise specified, the term "/" generally indicates that the associated object is an "or" relationship.

The embodiment of the application discloses a mine ecological restoration project data management method which is executed by electronic equipment, wherein the electronic equipment can be a server or terminal equipment, the server can be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, and a cloud server for providing cloud computing service. The terminal device may be, but is not limited to, a smart phone, a tablet computer, a desktop computer, etc.

Referring to fig. 1, the method includes the following steps (step S101 to step S105):

step S101: and acquiring account information input by the current user, wherein the account information comprises an account and a password.

Step S102: and auditing the account information to determine whether login is allowed. If the login is permitted, steps S103 to S105 are executed. If login is not allowed, the account is not available, namely the account is unregistered, or the password is wrong, the electronic equipment generates wrong information, and the user is prompted to re-register or re-input the password.

Specifically, the electronic equipment pre-stores a user database, registered account information is stored in the user database, the electronic equipment searches an account input by a user from the user database, if the account is found, the electronic equipment judges whether the input password is consistent with the stored password, and if the input password is consistent with the stored password, the electronic equipment allows login; if the passwords are inconsistent, login is not allowed.

And when the account number cannot be found, the electronic equipment prompts the user to register according to the unit name. After the user registration is completed, the registered account number and password are stored in a user database in correspondence with the unit name.

Step S103: and determining the operation authority and the information circulation level corresponding to the user according to the account information.

Specifically, if the operation rights of the users are different, the functions that the users can operate and view in the current system are different, and further, when the project data of the mine ecological restoration project needs to be checked, the project data files are transferred to the corresponding accounts by one step according to the information transfer.

Further, determining the operation authority corresponding to the user according to the account information comprises:

obtaining unit types of users, wherein the types comprise a design unit, a investigation unit, a construction unit, a supervision unit, a construction quality inspection unit and a third party management unit;

The operation authorities of the design units and the investigation units comprise data compiling, data auditing, data checking, file management, retrieval and message reminding.

The operation authority of the construction unit comprises basic design, data compiling, data auditing, data checking, file management, retrieval and message reminding.

The operational rights of other units than the construction unit include data auditing, viewing data, file management, retrieval, and message reminding.

The information circulation sequence of each unit is generally a design unit, a investigation unit, a construction unit, a supervision unit, a construction quality inspection unit, a management unit or a third party management unit, and a construction unit.

Step S104: and searching a corresponding operation interface template according to the operation authority, and presenting the operation interface based on the operation interface template.

Specifically, if the operation rights of the users are different, the corresponding operation interface templates are different, and the different operation interface templates are different in the type of the operation module.

Step S105: searching a project data file path corresponding to the information circulation level, and displaying prompt information containing the project data file path.

Specifically, when the project data stream of the mine ecological restoration project is transferred to the right library of the current user, the electronic equipment searches the corresponding project data file, and displays the prompt information comprising the path of the project data file on the operation interface, so that the user can only check the project data transferred to the current account with the right and the flow of the project data, and the operation interface is simple and easy to check.

Further, before step S103, in order to facilitate the entry of the basic information, the method further includes (steps S11 to S12):

step S11: a unit context is received for user input having a base design operational right.

Specifically, a user with a basic design operation authority is a construction unit, and the construction unit sets up a superior-subordinate relationship corresponding to each type of unit in a basic design module in an operation interface. For example, a design unit < investigation unit < construction quality inspection unit < supervision unit < management unit or third party management unit < construction unit. The electronic device displays an input box in the base design module.

Step S12: and determining the information circulation level of the corresponding user of each unit based on the relation, wherein the information circulation level of the upper unit is higher than that of the lower unit.

Specifically, the construction unit inputs the unit name into the corresponding input box, and the electronic equipment matches each unit into the corresponding upper and lower relationship, so as to determine the information circulation level according to the upper and lower relationship. For example, project data of the construction unit is next transferred to a rights library of the construction quality inspection unit.

Further, after the electronic device determines the operation interface template, in order to enable the user to more quickly find the file to be processed, an operation interface fitting the user requirement is provided, and the electronic device can further adjust the operation interface template and then display the operation interface template.

Generally, the operation interface template comprises a plurality of operation modules, such as a basic design module, a data compiling module, a data auditing module, a data checking module, a file management module, a retrieval module and a message reminding module.

The basic design module is used for carrying out system parameter setting and current engineering parameter setting. The system parameter setting comprises data template setting, wherein the data template setting is used for warehousing, modifying, importing, exporting and the like of the data template of the ecological restoration project, and the warehoused data template is subjected to intelligent classification according to newly added types of automatic selection such as construction technology preparation files, qualification reporting materials, engineering progress control data, construction logs, sub-unit subsection project construction and quality inspection, completion stage data, construction image data and the like; the current engineering parameter setting comprises the entry of engineering information, construction units, management units, supervision units, construction units, design units, investigation units and other engineering profile tables, the filling of engineering project division tables, the setting of account numbers and passwords of users such as construction units, management units, supervision units, construction unit quality inspection departments, data operators and the like.

The data compiling module is used for starting the user rights of the construction unit and entering an editing interface of the mine ecological restoration engineering data, the editing interface of the mine ecological restoration engineering data automatically generates a catalog according to the setting of an engineering project dividing table, the completion condition and the flow condition of the corresponding data can be seen by clicking the corresponding catalog, the completed data can be modified, exported and the like, unfilled data can be input and the like by utilizing a corresponding data template, and can also be imported and exported and the like, and each catalog file can be saved and submitted after being filled, so that the catalog file can be pushed into a construction quality inspection unit rights library.

The data auditing module and the checking data module are used for receiving and checking the data files pushed by the upper-level departments or units, inputting auditing comments and reversely pushing the auditing comments to the upper-level departments or units for modification if the auditing has problems, inputting the auditing comments and carrying out electronic signature if the auditing has no problems, storing and submitting the auditing comments and the electronic signature to the lower-level unit weight library, and submitting the auditing to all archives related to the units if the auditing has no problems.

The file management module is used for managing the construction data conditions of the related projects, and the construction data can be managed and checked according to time, place, completion conditions and the like.

The retrieval module is used for quickly and accurately searching and checking the data according to the condition selection.

The message reminding module is used for reminding the conditions of sending and receiving the messages and the like of the information.

Further, step S104 includes (step S1041 to step S1045):

step S1041: acquiring historical operation information of a current user on each operation module in preset time, wherein the historical operation information comprises checking times and a time average value of single checking.

Specifically, the preset time can be set according to actual needs, if the units of the project data are required to be checked or edited frequently, the preset time can be properly shortened, such as a week, and if the units of the project data are not required to be checked frequently, the preset time can be properly increased, such as a month.

And the electronic equipment further acquires the historical operation information of the current user within the preset time. The more the user views a certain operation module, the higher the use frequency of the corresponding operation module can be reflected; and dividing the total time value of each check by the check times to obtain a single check time average value, wherein the longer the single check time average value is, the higher the use value of the corresponding operation module can be reflected.

Step S1042: the use level of the current unit on each operation module is determined according to the historical operation information, and the method comprises the following steps (step S21 to step S26):

Step S21: and acquiring a plurality of pieces of historical operation information corresponding to the adjacent time periods.

Specifically, in order to be able to perform analysis according to a large amount of operation information of the user more accurately, the electronic device acquires historical operation information corresponding to a plurality of time periods.

Step S22: and calculating a first ratio of the time average value of the operation module to the checking times in each piece of historical operation information.

Specifically, the electronic device calculates a first ratio corresponding to each piece of historical operation information, and then obtains a plurality of first ratios. The first ratio can reflect the use value of the operation module, the higher the first ratio is, the more stable the user stays in the corresponding operation module, the less the clicking times are possible, but the longer the stay time of each time is; the lower the first ratio, the shorter the user dwell time, and it can be presumed that the user is not looking for and using in detail.

Step S23: and calculating a second ratio of each operation module according to the first ratio corresponding to different time periods and the weight corresponding to each time period.

Specifically, the electronic device presets weights corresponding to each time period, generally, the closer the time period is to the current time, the higher the weights corresponding to the time periods are, and the sum of all the weights is one.

The electronic equipment multiplies the first ratio of the operation module in each time period with the corresponding weight, and calculates to obtain a second ratio of the operation module.

Step S24: and determining an operation change trend value according to the first ratio corresponding to different time periods.

Specifically, the electronic device determines that the initial value of the operation change trend value is 0, and compares a second first ratio with the first ratio from a first ratio corresponding to a second time period, and when the second ratio is smaller than the first ratio, the operation change trend value is increased by one; if the operation trend value is equal to the operation trend value, the operation trend value is unchanged; if the operation trend value is greater than the operation trend value, the operation trend value is reduced by one.

And then, the electronic equipment compares the third first ratio with the second first ratio to obtain an updated operation change trend value until the first ratios corresponding to all the time periods are compared, and a final operation change trend value is obtained.

Step S25: and multiplying the second ratio of each operation module by the operation change trend value, and calculating to obtain a calculated value.

Specifically, the electronic device calculates the calculated value of each operation module, and the higher the first ratio is, the larger the operation change trend value is, the larger the corresponding calculated value is, the higher the use value of the corresponding operation module is, and the greater the possibility that the next time the user uses the operation module again is.

Step S26; and obtaining the use level of each operation module according to the calculated value.

Specifically, the larger the calculated value, the higher the corresponding usage level. The electronic equipment sequentially sorts the operation modules according to the sequence from the large to the small of the calculated value, and then the use levels of the operation modules are set according to the sequence, and the use level at the beginning and the end of the sequence is highest and is sequentially reduced.

Step S1043: and determining the presentation strategy of each operation module in the operation interface according to the use level. Specifically, step S1043 includes the following steps (step S31 to step S33):

step S31: according to the use level of each operation module, determining a secondary operation module and at least one primary operation module on an operation interface, wherein the presentation sequence of the primary operation module is positioned before the secondary operation module.

Specifically, the electronic device presets a limit value, and an operation module with a calculated value larger than the limit value is determined as a primary operation module, and the rest is determined as a secondary operation module. In the operator interface, the primary operator module is presented before the secondary operator module.

Step S32: if the number of the main operation modules is more than two, determining the correlation between the main operation modules, and determining the presentation strategy of the main operation modules according to the correlation, wherein the method comprises the following steps of (S321-S322):

Wherein, step S321: the correlation between the main operation modules is determined, including (step S41 to step S45):

step S41: and acquiring historical click information of the user on the operation module within preset time.

Specifically, the historical click information is a record of clicking the operation module by the user within a preset time.

Step S42: and determining the first operation information of the main operation module and other operation modules with the highest continuous click use level according to the historical click information.

Specifically, the electronic device determines click information of the main operation module with the highest level in the historical click information, and then combines click information of other operation modules adjacent to the main operation module to obtain first operation information.

Step S43: based on the most used primary operational module and each remaining primary operational module, a plurality of combinations are generated.

Specifically, if the main operation module with the highest usage level is a, the remaining main operation modules include B, C, D and the like, the combination includes AB, AC, and AD.

Step S44: and respectively determining second operation information corresponding to clicking the operation modules included in each combination according to the historical click information.

Specifically, the electronic device determines, from the historical click information, second operation information of clicking each combination, wherein the order of clicking is not counted.

Step S45: and respectively calculating the ratio of the number of each second operation information to the number of the first operation information, and calculating the correlation between each main operation module and the main operation module with the highest use level.

Specifically, the ratio can show the proportion of the current combination in all combinations, and the larger the ratio is, the larger the correlation can be considered, so that when the user uses the main operation module with the highest level, the current main operation module is matched with the main operation module.

Step S322: determining a presentation policy of the main operation module according to the correlation, including (step S51 to step S53):

step S51: and if each correlation is not greater than the preset value, sequentially presenting the main operation modules.

Step S52: if only one correlation is larger than the preset value, two main operation modules corresponding to the correlation are presented in parallel.

Specifically, the electronic device presents two main operation modules in parallel, and the rest operation modules are sequentially arranged below.

Step S53: if at least two correlations are larger than a preset value, the corresponding main operation modules are displayed in parallel on one side of the main operation module with the highest use level.

For example, if the correlation between the combination AB and the AC is greater than the preset value, the electronic device displays the main operation modules B and C in parallel on the side of the main operation module a with the highest use level.

Step S33: and determining the presentation size of the operation module according to the information quantity of the operation module.

Specifically, the larger the information amount of the operation module is, the larger the corresponding size is, so that the user can check conveniently. Further, the electronic apparatus can determine the sizes of the main operation module with the highest use level and the main operation module displayed in parallel, and the remaining operation modules are sized according to the information amount.

Step S1044: and obtaining the task to be handled of the current unit.

Specifically, the task to be handled is generally an audit task to be handled, and after the next level unit delivers the project data file to the current unit, the task to be handled is displayed in the account of the current unit. The task to be handled is the task that the current user needs to process preferentially.

Step S1045: judging whether the presentation strategy needs to be adjusted according to the task to be handled, and if so, adjusting the presentation strategy;

otherwise, the rendering policy is kept unchanged.

Specifically, in order for the electronic device to enable the user to process the task to be handled preferentially, when the user has the task to be handled, the presentation policy is adjusted, and after determining the presentation policy in step S1043, the module corresponding to the task to be handled is adjusted to the first position of the display interface; when no task to be done exists, the presentation strategy is unchanged.

In another possible implementation manner, in order to enable the user to quickly find the corresponding target when using the search module, the method further includes (steps S61 to S67):

step S61: and responding to the retrieval request triggered by the current user, and acquiring the historical browsing information of the current user in the preset time.

Specifically, when a user enters the search module, a search request is triggered, and the electronic device responds to the search request. The preset time can be set according to actual needs and can be three days, one week and the like.

Step S62: browsing keywords, and frequency and time of browsing the keywords are determined based on the historical browsing information.

Specifically, the electronic device analyzes the historical browsing information, collects the input search words, determines the search words as browsing keywords, and further analyzes and obtains the frequency and time of the browsing keywords.

S63: determining sensitive keywords according to the frequency and time of browsing the keywords, including (step S631 to step S635):

step S631: and screening the frequency based on the browsing keywords to obtain first keywords with the frequency larger than the preset frequency.

Specifically, in order to obtain the key point of the search of the user in the near term, the browsing keywords are primarily screened, the preset frequency is used as a judgment standard, for example, the frequency of searching the browsing keywords A and B in 3 days by the user is greater than the preset frequency, and then the browsing keywords A and B are both first keywords.

Step S632: and obtaining the daily retrieval frequency of the first keywords according to the time of each first keyword.

For example, when the current date is 14 days and the preset time is 3 days, the electronic device determines the daily search frequency of the browsing keywords a and B on 11 days, 12 days and 13 days, respectively.

Step S533: and determining a weight value corresponding to each day, wherein the weight value is inversely proportional to the difference value from the current date.

For example, the electronic device calculates a difference between the day and the current date, substitutes the difference into a preset inverse proportion equation, and calculates a weight value corresponding to the day.

Step S634: and calculating the product of the daily search frequency and the corresponding weight value, and calculating the sum of the products to obtain the sensitivity.

Specifically, as the browsing keywords are closer to the current date, the possibility of searching again on the current date is higher, the daily searching frequency and the weight value are multiplied, and the time factor is added, so that the actual sensitivity of the user is calculated and is more fit.

Step S635: at least one sensitive keyword is determined based on the sensitivity.

Specifically, the electronic device ranks the browsing keywords according to the descending order of sensitivity, and at least one browsing keyword located at the head of the team serves as the sensitive keyword.

Step S64: and acquiring retrieval information input by a user.

Step S65: judging whether sensitive keywords exist in the search information, if yes, executing step S56: preferentially searching the sensitive keywords to obtain a search list;

otherwise, step S67 is executed: and preferentially searching the browsing keywords with highest frequency, and arranging the search results in descending order according to the historical query time to obtain a search list.

Specifically, when sensitive keywords exist in the keyword information, firstly, searching data related to the sensitive keywords to generate a search list; when the keyword information does not include the sensitive keyword, the browsing keywords with highest frequency are searched first, and then the search results of the browsing keywords are ordered according to the historical query time, so that the item data which the user wants to query is presented in the clue list more quickly.

In order to better perform the above method, the embodiment of the present application further provides a mine ecological restoration project data management apparatus, referring to fig. 2, the mine ecological restoration project data management apparatus 200 includes:

the obtaining module 201 is configured to obtain account information input by a current user, where the account information includes an account and a password;

The account auditing module 202 is used for auditing account information and determining whether login is allowed;

the processing module 203 determines the operation authority and the information circulation level corresponding to the user according to the account information when the account auditing module 202 determines that login is allowed;

the presenting module 204 is configured to find a corresponding operation interface template according to the operation authority, and present the operation interface based on the operation interface template;

the display module 205 is configured to search a project data file path corresponding to the information circulation level, and display a prompt message including the project data file path.

Further, when the processing module 203 determines the operation right corresponding to the user according to the account information, the processing module is specifically configured to:

Further, before the processing module 203, the mine ecological restoration project data management apparatus 200 further includes:

The relationship receiving module is used for receiving the unit upper-lower relationship input by the user with the basic design operation authority;

and the information circulation level determining module is used for determining the information circulation level of the corresponding user of each unit based on the relation, wherein the information circulation level of the upper unit is higher than that of the lower unit.

In another possible implementation, the operation interface template includes a plurality of operation modules, and the presentation module 204 is specifically configured to:

determining a presentation strategy of each operation module in an operation interface according to the use level;

acquiring a task to be handled of a current unit;

otherwise, the rendering policy is kept unchanged.

Further, when the presentation module 204 determines the usage level of the current unit for each operation module according to the historical operation information, the method is specifically used for:

Calculating a first ratio of the number of times of checking the operation module to the time average value in each piece of historical operation information;

Further, the presentation module 204 is specifically configured to, when determining the presentation policy of each operation module in the operation interface according to the usage level: according to the use level of each operation module, a secondary operation module and at least one primary operation module on an operation interface are determined, and the order of the primary operation modules is positioned before the secondary operation module.

In another possible implementation, the main operation modules are more than two, and the presentation module 204 includes:

the correlation determination submodule is used for determining correlation among main operation modules, and is particularly used for:

acquiring historical click information of a user on an operation module within preset time;

According to the historical click information, determining first operation information of a main operation module and other operation modules with highest continuous click use level;

generating a plurality of combinations based on the primary operation module having the highest usage level and each of the remaining primary operation modules;

the presentation policy determination submodule is used for determining the presentation policy of the main operation module according to the relevance, and is specifically used for:

if each correlation is not greater than the preset value, the main operation modules are presented in sequence;

if at least two correlations are larger than a preset value, the corresponding main operation modules are displayed in parallel on one side of the main operation module with the highest use level;

In another possible implementation, the mine ecological restoration project material management apparatus 200 further includes:

the search request response module is used for responding to a search request triggered by the current user and acquiring historical browsing information of the current user in preset time;

the browsing keyword determining module is used for determining browsing keywords based on the historical browsing information, and frequency and time of the browsing keywords;

the sensitive keyword determining module is used for determining sensitive keywords according to the frequency and time of browsing the keywords;

the retrieval information acquisition module is used for acquiring retrieval information input by a user;

the sensitive keyword judging module is used for judging whether sensitive keywords exist in the search information;

the first retrieval module is used for preferentially retrieving the sensitive keywords to obtain a retrieval list when the sensitive keyword judgment module judges that the sensitive keywords are yes;

and the second retrieval module is used for preferentially retrieving the browsing keywords with highest frequency when the sensitive keywords are judged to be negative, and arranging retrieval results in descending order according to the historical query time to obtain a retrieval list.

Further, the sensitive keyword determining module is specifically configured to:

screening the frequency based on the browsing keywords to obtain first keywords with the frequency larger than a preset frequency;

Obtaining daily search frequency of the first keywords according to the time of each first keyword;

at least one sensitive keyword is determined based on the sensitivity.

The various modifications and specific examples of the method in the foregoing embodiments are equally applicable to the mine ecological restoration project data management apparatus of the present embodiment, and the implementation method of the mine ecological restoration project data management apparatus of the present embodiment will be apparent to those skilled in the art from the foregoing detailed description of the mine ecological restoration project data management method, so that the detailed description thereof will not be repeated for the sake of brevity.

In order to better implement the above method, an embodiment of the present application provides an electronic device, referring to fig. 3, an electronic device 300 includes: a processor 301, a memory 303, and a display screen 305. Wherein the memory 303 and the display 305 are both coupled to the processor 301, such as via a bus 302. Optionally, the electronic device 300 may also include a transceiver 304. It should be noted that, in practical applications, the transceiver 304 is not limited to one, and the structure of the electronic device 300 is not limited to the embodiment of the present application.

The processor 301 may be a CPU (Central Processing Unit ), general purpose processor, DSP (Digital Signal Processor, data signal processor), ASIC (Application Specific Integrated Circuit ), FPGA (Field Programmable Gate Array, field programmable gate array) or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules, and circuits described in connection with this disclosure. Processor 301 may also be a combination that implements computing functionality, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

Bus 302 may include a path to transfer information between the components. Bus 302 may be a PCI (Peripheral Component Interconnect, peripheral component interconnect Standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. Bus 302 may be divided into an address bus, a data bus, a control bus, and the like.

The Memory 303 may be, but is not limited to, a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory ), a CD-ROM (Compact Disc Read Only Memory, compact disc Read Only Memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 303 is used for storing application program codes for executing the present application and is controlled to be executed by the processor 301. The processor 301 is configured to execute the application code stored in the memory 303 to implement what is shown in the foregoing method embodiments.

The electronic device 300 shown in fig. 3 is only an example and should not be construed as limiting the functionality and scope of use of the embodiments herein.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

In addition, it is to be understood that relational terms such as first and second are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims

1. The mine ecological restoration project data management method is characterized by comprising the following steps of:

checking the account information, and determining whether login is allowed;

2. The method according to claim 1, wherein the determining the operation authority corresponding to the user according to the account information includes:

obtaining a unit type of the user, wherein the type comprises a design unit, a investigation unit, a construction unit, a supervision unit, a construction quality inspection unit and a third party management unit;

3. The method of claim 2, wherein before determining the operation authority and the information circulation level corresponding to the user according to the account information, the method further comprises:

4. The method of claim 1, wherein the operator interface template comprises a plurality of operator modules, and wherein presenting an operator interface based on the operator interface template comprises:

acquiring a task to be handled of a current unit;

Otherwise, the rendering policy is kept unchanged.

5. The method of claim 4, wherein determining a usage level of each of the operation modules by a current unit based on the historical operation information comprises:

6. The method according to claim 4 or 5, wherein determining a presentation policy of each operation module at the operation interface according to the usage level comprises:

determining a secondary operation module and at least one primary operation module on an operation interface according to the use level of each operation module, wherein the presentation sequence of the primary operation module is positioned before the secondary operation module;

If the number of the main operation modules is more than two, the method further comprises:

determining the correlation between the primary operational modules includes:

determining a presentation policy of the primary operational module according to the correlation, comprising:

7. The method according to claim 1, wherein the method further comprises:

determining browsing keywords and frequency and time of the browsing keywords based on the historical browsing information;

acquiring search information input by a user;

8. The method of claim 7, wherein said determining sensitive keywords based on the frequency and time of the browsing keywords comprises:

and determining at least one sensitive keyword according to the sensitivity.

9. A mine ecological restoration project data management device, comprising:

10. An electronic device, characterized in that,

at least one processor;

a memory;

at least one computer program, wherein the at least one computer program is stored in the memory and configured to be executed by the at least one processor, the at least one computer program configured to: performing the mine ecological restoration project data management method of any one of claims 1 to 8.