CN115545622A - Engineering material storage management system and method based on digital construction - Google Patents
Engineering material storage management system and method based on digital construction Download PDFInfo
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Abstract
The invention relates to the technical field of warehousing system management, in particular to a project material warehousing management system and a project material warehousing management method based on digital construction, wherein the project material warehousing management system comprises the steps of monitoring interface information of each operation interface in a digital project material warehousing system; respectively capturing and extracting information of warehousing management operations of all authority users in all authority user sets in the digital engineering material warehousing system; capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehouse management operation set respectively, and constructing a corresponding work execution track; at least one work execution track is correspondingly arranged in an operation interface range and an interface data range; capturing associated work execution tracks for each work execution track; and initiating intelligent reminding to the corresponding authority user.
Description
Technical Field
The invention relates to the technical field of warehousing system management, in particular to a project material warehousing management system and method based on digital construction.
Background
Because the number of workers in charge of the storage of each project material is large, the work content in charge is different, and the management authorities are different, although in a digital storage management system, the corresponding display of different operation interface ranges and interface data ranges based on the roles and authority contents corresponding to different authority accounts can be realized, so that the relative independence and relative safety of data in each link are ensured; however, if there is some sequential work content in execution, or a continuous state, when the staff responsible for the work content is on line in the system at the same time, there is a relative change of data, that is, a relative delay in information due to a time delay, for example, two accounts with different authority levels are on line at the same time, and after the low-level account executes the corresponding work content, the work content page corresponding to the high-level account generates the latest work data.
Disclosure of Invention
The present invention aims to provide a system and a method for managing storage of engineering materials based on digital construction, so as to solve the problems in the background art.
In order to solve the technical problems, the invention provides the following technical scheme: a project material warehousing management method based on digital construction comprises the following steps:
step S100: distributing different authority management accounts to all users in charge of the warehousing management of each project material based on the corresponding responsible project content; each user logs in the digital engineering material warehousing system on an operation terminal through the distributed authority management account, and the digital engineering material warehousing system displays corresponding operation interfaces and interface data for each authority user on the corresponding operation terminal based on the account role and the account authority content of each authority user;
step S200: monitoring interface information of each operation interface in the digital engineering material warehousing system; collecting the corresponding displayed operation interfaces and the authority users with the same interface data respectively to obtain a plurality of authority user sets; one set of authority users corresponds to one operation interface range and an interface data range; respectively capturing and extracting information of warehousing management operations of all authority users in all authority user sets in the digital engineering material warehousing system;
because the corresponding users with the same operation interface range and the same interface data range are often users with the same authority function, or the working contents which are often responsible for the same authority function, the operation tracks extracted from the workers who are responsible for the same working contents can represent the working operation steps which are required to be carried out by the workers in the daily working process;
step S300: extracting each authority user set to obtain a reference warehousing management operation set based on the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set; capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehousing management operation set, integrating and extracting execution information corresponding to each work execution node, and constructing corresponding work execution tracks respectively; at least one work execution track is correspondingly arranged in an operation interface range and an interface data range;
step S400: all work execution tracks generated in the process of warehousing management of each engineering material are sorted and collected, and the execution response influence is identified and judged among all the work execution tracks to capture the associated work execution tracks for each work execution track;
step S500: the method comprises the steps of monitoring login operation of each authority user in a digital engineering material warehousing system in real time, and initiating intelligent reminding to the corresponding authority user when two simultaneously online authority users belong to two authority sets respectively and an execution response influence exists between work execution tracks corresponding to the two authority sets.
Further, step S200 includes:
step S201: capturing all warehousing management operations generated after logging in the digital engineering material warehousing system every time for each authority user in each authority user set, and respectively obtaining a warehousing management operation set generated in the corresponding logging-in process of each authority user;
step S202: setting the corresponding operation interface range asThe interface data range isIs a set of authorized usersTo, forThe warehouse management operation set generated by each authority user in each login process is captured and collected to captureThe user with any authority in the process of any login is within the range of the operation interfaceThe first warehouse management operation sets generated according to the time sequence are respectively locked in the warehouse management operation sets after the operation is finished and in the interface data rangeEach interface region within which data changes occur;
step S203: to pairExtracting N identical warehousing management operations which exist continuously from each first warehousing management operation set of each right user in the system, wherein,(ii) a When the interface areas corresponding to the N identical warehousing management operations are the same, the Nth identical warehousing management operation is reserved, other N-1 identical warehousing management operations are removed, and the user with any authority is obtained through sorting in the range of the operation interface in any login processA corresponding second warehouse management operation set generated according to the time sequence; setting the total warehousing management operation number in each first warehousing management operation set as w1, and setting the total warehousing management operation number in the corresponding second warehousing management operation set as w2; wherein, the first and the second end of the pipe are connected with each other,;
the repeated deletion is to remove the phenomenon that repeated operation occurs due to the misoperation of a worker, which only needs to be carried out once;
step S204: and setting each authority user in each authority user set to correspond to the second warehousing management operation set to be used as warehousing management operation generated by each authority user in the digital engineering material warehousing system.
Further, step S300 includes:
step S301: collecting the second warehousing management operation sets of all the authority users in each authority user set to obtainJudging the second warehousing management operation set with the highest repeated occurrence frequency to be a reference warehousing management operation set in an operation interface range and an interface data range corresponding to each authority user set; setting each warehousing management operation in the reference warehousing management operation set as a work execution node existing in an operation interface range and an interface data range corresponding to each authority user set;
step S302: integrating information of any warehousing management operation and interface area corresponding to any warehousing management operation to obtain execution information on any corresponding work execution node(ii) a Wherein the content of the first and second substances,indicating the warehousing management operation corresponding to the jth work execution node,express correspondenceThe interface region of (a);
step S303: capturing and collecting execution information of all work execution nodes in the operation interface range and the interface data range corresponding to each authority user set, and constructing work execution tracks existing in the operation interface range and the interface data range corresponding to each authority user set(ii) a Wherein, the first and the second end of the pipe are connected with each other,、、、respectively indicate the 1 st, 2 nd, and,N work execution nodes.
Further, step S400 includes:
step S401: extracting all interface areas with data change in the digital engineering material warehousing system when each authority user finishes any warehousing management operation;
step S402: if the user set with authority exists、fb,The corresponding operation interface range is fbCorrespond toThe work execution trajectory ofCorrespond tob is a work execution path(ii) a When catchingArbitrary authority user in (1)After each execution of a warehouse management operationThen, the range of all the interface regions corresponding to the data changes generated in the digital engineering material warehousing system isAnd Y is atThe interface region contained in (1); wherein the content of the first and second substances,belong toCorresponding benchmark warehouse management operation set(ii) a Then judgeTo pairThere is an execution response impact inWarehouse management operations inTo pairThere is an effect of the execution response that,is thatThe associated work execution trajectory;
step S403: and locking other work execution tracks with execution response influence on each work execution track for each work execution track, and marking all the warehouse management operations with execution response influence on each work execution track in other work execution tracks.
Further, step S500 includes:
step S501: when two authority users are captured and are in an online operation state at the same time, the two authority users belong to two authority sets respectivelyAnd two sets of permissionsCorresponding work execution traceSatisfyIs thatIs associated with the work execution trajectory and isMiddle pairThe warehouse management operation with the influence of the execution response comprises;
Step S502: belonging to each time two authorized users are capturedIs performed by authorized usersAfter any one warehousing management operation, belonging to two authority usersThe authorized user initiates intelligent reminding.
In order to better realize the method, the engineering material warehousing management system is further provided, and the system comprises: the system comprises a digitalized engineering material warehousing system construction module, a right account number distribution management module, a right information management module, a warehousing management operation information capturing and extracting module, a work execution track construction module, an execution response influence judgment module and an intelligent reminding module;
the digital engineering material warehousing system construction module is used for constructing a digital engineering material warehousing system for realizing engineering material warehousing and performing system input on each engineering material warehousing management;
the system comprises a permission account number distribution management module, a digital engineering material warehousing system and a digital engineering material warehousing system, wherein the permission account number distribution management module is used for distributing different permission management account numbers to all users in charge of the warehousing management of each engineering material based on corresponding responsible project contents, and each user logs in the digital engineering material warehousing system through the distributed permission management account number on an operation terminal;
the authority information management module is used for displaying corresponding operation interfaces and interface data on corresponding operation terminals for all authority users, and displaying corresponding operation interfaces and interface data on corresponding operation terminals for all authority users based on account roles and account authority contents of all authority users;
the storage management operation information capturing and extracting module is used for respectively capturing and extracting the storage management operation generated by each authority user in each authority user set in the digital engineering material storage system;
the work execution track construction module is used for extracting a reference warehousing management operation set from each authority user set according to the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set; capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehousing management operation set, integrating and extracting execution information corresponding to each work execution node, and constructing corresponding work execution tracks respectively;
the execution response influence judging module is used for sorting and collecting all work execution tracks generated in the process of warehousing management of each engineering material, identifying and judging the execution response influence among all the work execution tracks and capturing associated work execution tracks for all the work execution tracks;
and the intelligent reminding module is used for monitoring the login operation of each authority user in real time, and initiating intelligent reminding to the corresponding authority user when two simultaneously online authority users belong to two authority sets and an execution response influence exists between work execution tracks corresponding to the two authority sets.
Further, the warehousing management operation information capturing and extracting module comprises a first warehousing management operation set extracting unit, an operation information identification processing unit and a second warehousing management operation set extracting unit;
the warehouse management operation set extraction unit is used for extracting a first warehouse management operation set generated by each authority user in each login process;
the operation information identification processing unit is used for respectively locking each warehouse management operation in the first warehouse management operation set after the operation is finished, and carrying out information identification on each repeated warehouse management operation in each interface area with data change in the corresponding interface data range;
and the second warehouse management operation set extraction unit is used for receiving the data in the operation information identification processing unit and finishing the extraction of the second warehouse management operation set.
Further, the work execution track construction module comprises a reference warehousing management operation set extraction unit, a work execution node information processing unit and a work execution track construction unit;
the work execution track construction unit is used for extracting a reference warehousing management operation set from each authority user set according to the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set;
the work execution node information processing unit is used for capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set respectively based on each benchmark warehousing management operation set, and integrating and extracting execution information corresponding to each work execution node;
and the work execution track construction unit is used for receiving the data in the work execution node information processing unit and constructing a work execution track.
Compared with the prior art, the invention has the following beneficial effects: the invention can capture and identify the work track generated when each authority account number completes the response work, and identify and extract some authority account numbers with a sequence on the execution of the work content, thereby solving the phenomenon of relative lag of data information based on the phenomenon, being beneficial to the development of the mutual cooperation work among all levels of working personnel in the process of project storage, and improving the work efficiency.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic flow chart of a digital construction-based engineering material warehousing management method of the present invention;
fig. 2 is a schematic structural diagram of a project material warehousing management system based on digital construction.
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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
Referring to fig. 1-2, the present invention provides a technical solution: a project material storage management method based on digital construction comprises the following steps:
step S100: distributing different authority management accounts to all users in charge of the warehousing management of each project material based on the corresponding responsible project content; each user logs in the digital engineering material warehousing system on an operation terminal through the distributed authority management account, and the digital engineering material warehousing system displays corresponding operation interfaces and interface data for each authority user on the corresponding operation terminal based on the account role and the account authority content of each authority user;
step S200: monitoring interface information of each operation interface in the digital engineering material warehousing system; collecting the corresponding displayed operation interfaces and the authority users with the same interface data respectively to obtain a plurality of authority user sets; one set of authority users corresponds to one operation interface range and an interface data range; respectively capturing and extracting information of warehousing management operations of all authority users in all authority user sets in the digital engineering material warehousing system;
wherein, step S200 includes:
step S201: capturing all warehousing management operations generated after logging in the digital engineering material warehousing system every time for each authority user in each authority user set, and respectively obtaining a warehousing management operation set generated in the corresponding logging-in process of each authority user;
step S202: setting the corresponding operation interface range asThe interface data range isIs a set of authorized usersTo, forThe warehouse management operation set generated by each authority user in each login process is captured and collected to captureThe user with any authority can log in the operation interface at any timeThe first warehouse management operation sets generated according to the time sequence are respectively locked in the warehouse management operation sets after the operation is finished and in the interface data rangeEach interface region within which data changes occur;
step S203: to pairExtracting N identical warehousing management operations which exist continuously from each first warehousing management operation set of each right user in the system, wherein,(ii) a When the interface areas corresponding to the N same warehousing management operations are the same, the Nth same warehousing management operation is reserved and is subjected toThe N-1 same storage management operations of the user are removed and sorted to obtain the range of the operation interface of the user with any authority during any login processCorresponding second warehouse management operation sets generated according to the time sequence; setting the total warehousing management operation number in each first warehousing management operation set as w1 and the total warehousing management operation number in the corresponding second warehousing management operation set as w2; wherein, the first and the second end of the pipe are connected with each other,;
step S204: setting each authority user in each authority user set to correspond to a second warehousing management operation set as the warehousing management operation generated by each authority user in the digital engineering material warehousing system;
step S300: extracting each authority user set to obtain a reference warehouse management operation set based on the repeated distribution condition among the warehouse management operation sets corresponding to each authority user in each authority user set; capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehousing management operation set, integrating and extracting execution information corresponding to each work execution node, and constructing corresponding work execution tracks respectively; at least one work execution track is correspondingly arranged in an operation interface range and an interface data range;
wherein, step S300 includes:
step S301: collecting the second warehousing management operation sets of the authority users in each authority user set to obtainJudging that the second warehousing management operation set with the highest repeated occurrence frequency is a reference warehousing management operation set in an operation interface range and an interface data range corresponding to each authority user set; each warehouse management operation in the reference warehouse management operation set is set as each rightLimiting a work execution node existing in an operation interface range and an interface data range corresponding to the user set;
step S302: integrating information of any warehouse management operation and interface area corresponding to any warehouse management operation to obtain execution information on any corresponding work execution node(ii) a Wherein the content of the first and second substances,indicating the warehousing management operation corresponding to the jth work execution node,express correspondenceThe interface region of (a);
step S303: capturing and collecting execution information of all work execution nodes in the operation interface range and the interface data range corresponding to each authority user set, and constructing work execution tracks existing in the operation interface range and the interface data range corresponding to each authority user set(ii) a Wherein the content of the first and second substances,、、、respectively indicate the 1 st, 2 nd,N work execution nodes;
step S400: all work execution tracks generated in the process of warehousing management of each engineering material are sorted and collected, the identification and judgment of execution response influence are carried out among all the work execution tracks, and the associated work execution tracks are captured for all the work execution tracks;
wherein, step S400 includes:
step S401: extracting all interface areas with data change in the digital engineering material warehousing system when each authority user finishes any warehousing management operation;
step S402: if the authorized user set exists、fb,The corresponding operation interface range isFb the corresponding operation interface range isCorrespond toThe work execution trajectory ofCorrespond tob a job execution path is(ii) a When catchingOf an arbitrary authority userAfter each execution of a warehouse management operationThen, the range of all the interface regions corresponding to the data change generated in the digital engineering material warehousing system isAnd Y is atThe interface region contained in (1); wherein the content of the first and second substances,belong toCorresponding benchmark warehouse management operation set(ii) a Then judgeTo pairThere is an execution response impact inWarehouse management operations inFor is toThere is an execution response impact that is present,is thatThe associated work execution trajectory;
step S403: locking other work execution tracks with execution response influence on each work execution track for each work execution track, and marking all warehouse management operations with execution response influence on each work execution track in other work execution tracks;
for example, in the process of project material warehousing, the work execution track corresponding to the primary authority userWork execution track corresponding to secondary authority userThe requirements are met,is thatThe associated work execution trajectory of (a) is,
the primary authority user D has a warehousing management operation D1 in the operation range of the account authority: inputting the bill information of the material demand plan, and having an execution response influence on a secondary authority user g; at the moment, the warehousing management operation D1 is a track required to be executed in workCarrying out marked warehousing management operation;
specifically, after the warehousing management operation D1 is operated by the primary authority user D, a warehousing management operation G1 appears in an authority operation range corresponding to the secondary authority user G: carrying out approval and verification on the input document information; namely, the work content in charge of the secondary authority user g comprises the receipt information of each material requirement plan input by the primary authority user d, and the receipt information is approved or corrected;
step S500: monitoring the login operation of each authority user in the digital engineering material warehousing system in real time, and initiating intelligent reminding to the corresponding authority user when two authority users which are captured to be online at the same time belong to two authority sets and an execution response influence exists between work execution tracks corresponding to the two authority sets;
wherein, step S500 includes:
step S501: when two authority users are captured and are in an online operation state at the same time, the two authority users belong to two authority sets respectivelyAnd two sets of permissionsCorresponding work execution traceSatisfyIs thatIs associated with a job execution path, and isMiddle pairThe warehouse management operation with the influence of the execution response comprises;
Step S502: belongings to each time two authorized users are capturedAuthority of user operation completionAfter any one warehousing management operation, belonging to two authority usersThe user initiates intelligent reminding;
for example, when the primary right user D and the secondary right user g are captured and in an online operation state at the same time, after the primary right user D is captured and the warehousing management operation D1 is operated, an intelligent prompt is initiated to the secondary right user g, and the secondary right user g can process the next to-be-approved item in time based on the intelligent prompt.
In order to better realize the method, the engineering material warehousing management system is further provided, and the system comprises: the system comprises a digitalized engineering material warehousing system construction module, a right account number distribution management module, a right information management module, a warehousing management operation information capturing and extracting module, a work execution track construction module, an execution response influence judgment module and an intelligent reminding module;
the digital engineering material storage system construction module is used for constructing a digital engineering material storage system for realizing engineering material storage and performing system input on each engineering material storage management;
the system comprises a permission account number distribution management module, a digital engineering material warehousing system and a storage management module, wherein the permission account number distribution management module is used for distributing different permission management account numbers to all users responsible for the warehousing management of each engineering material based on corresponding responsible project contents, and each user logs in the digital engineering material warehousing system through the distributed permission management account number on an operation terminal;
the authority information management module is used for displaying corresponding operation interfaces and interface data on corresponding operation terminals for all authority users, and displaying corresponding operation interfaces and interface data on corresponding operation terminals for all authority users based on account roles and account authority contents of all authority users;
the storage management operation information capturing and extracting module is used for respectively capturing and extracting the storage management operation generated by each authority user in each authority user set in the digital engineering material storage system;
the warehousing management operation information capturing and extracting module comprises a first warehousing management operation set extracting unit, an operation information identification processing unit and a second warehousing management operation set extracting unit;
the warehouse management operation set extraction unit is used for extracting a first warehouse management operation set generated by each authority user in each corresponding login process;
the operation information identification processing unit is used for locking each warehousing management operation in the first warehousing management operation set after the operation is finished, and performing information identification on each repeatedly-occurring warehousing management operation in each interface area with data change in the corresponding interface data range;
the second warehouse management operation set extraction unit is used for receiving the data in the operation information identification processing unit and finishing the extraction of the second warehouse management operation set;
the work execution track construction module is used for extracting the reference warehousing management operation set from each authority user set according to the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set; capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehousing management operation set, integrating and extracting execution information corresponding to each work execution node, and constructing corresponding work execution tracks respectively;
the work execution track construction module comprises a reference warehousing management operation set extraction unit, a work execution node information processing unit and a work execution track construction unit;
the work execution track construction unit is used for extracting the reference warehousing management operation set from each authority user set according to the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set;
the work execution node information processing unit is used for capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set respectively based on each benchmark warehousing management operation set, and integrating and extracting execution information corresponding to each work execution node;
the work execution track construction unit is used for receiving the data in the work execution node information processing unit and constructing a work execution track;
the execution response influence judging module is used for sorting and collecting all work execution tracks generated in the process of warehousing management of each engineering material, identifying and judging the execution response influence among all the work execution tracks and capturing associated work execution tracks for all the work execution tracks;
and the intelligent reminding module is used for monitoring the login operation of each authority user in real time, and initiating intelligent reminding to the corresponding authority user when two simultaneously online authority users belong to two authority sets and an execution response influence exists between work execution tracks corresponding to the two authority sets.
It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. A project material warehousing management method based on digital construction is characterized by comprising the following steps:
step S100: distributing different authority management accounts to all users in charge of the warehousing management of each project material based on the corresponding responsible project content; each user logs in a digital engineering material warehousing system on an operation terminal through an assigned authority management account, and the digital engineering material warehousing system displays corresponding operation interfaces and interface data for each authority user on the corresponding operation terminal based on the account role and the account authority content of each authority user;
step S200: monitoring interface information of each operation interface in the digital engineering material warehousing system; collecting the corresponding displayed operation interfaces and the authority users with the same interface data respectively to obtain a plurality of authority user sets; one set of authorized users corresponds to one operation interface range and one interface data range; respectively capturing and extracting information of warehousing management operations of all authority users in all authority user sets in the digital engineering material warehousing system;
step S300: extracting each authority user set to obtain a reference warehousing management operation set based on the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set; respectively capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehouse management operation set, integrating and extracting execution information corresponding to each work execution node, and respectively constructing corresponding work execution tracks; at least one work execution track is correspondingly arranged in an operation interface range and an interface data range;
step S400: all work execution tracks generated in the process of warehousing management of each engineering material are sorted and collected, and the execution response influence is identified and judged among all the work execution tracks to capture the associated work execution tracks for each work execution track;
step S500: and monitoring the login operation of each authority user in the digital engineering material warehousing system in real time, and initiating intelligent reminding to the corresponding authority user when two simultaneously online authority users belong to two authority sets respectively and an execution response influence exists between work execution tracks corresponding to the two authority sets.
2. The method for managing the warehouse of engineering materials based on digital construction as claimed in claim 1, wherein the step S200 comprises:
step S201: capturing all warehousing management operations generated after logging in a digital engineering material warehousing system every time for each authority user in each authority user set to respectively obtain a warehousing management operation set generated in the logging-in process of each corresponding authority user;
step S202: setting the corresponding operation interface range asThe interface data range isIs a set of authorized usersTo, forThe warehouse management operation set generated by each authority user in each login process is captured and collected to captureIn any arbitrary authority user, in any one login process, in the operation fieldArea of surfaceThe first warehouse management operation sets generated according to the time sequence are respectively locked in the warehouse management operation sets after the operation is finished and in the interface data rangeEach interface region within which data changes occur;
step S203: extracting N identical warehouse management operations which exist continuously for each first warehouse management operation set of each authority user, wherein,(ii) a When the interface areas corresponding to the N identical warehousing management operations are the same, the Nth identical warehousing management operation is reserved, other N-1 identical warehousing management operations are removed, and the user with any authority is obtained through sorting in the range of the operation interface in any login processA corresponding second warehouse management operation set generated according to the time sequence; setting the total warehousing management operation number in each first warehousing management operation set as w1, and setting the total warehousing management operation number in the corresponding second warehousing management operation set as w2; wherein, the first and the second end of the pipe are connected with each other,;
step S204: and setting a second warehousing management operation set corresponding to each authority user in each authority user set as the warehousing management operation generated by each authority user in the digital engineering material warehousing system.
3. The method for warehousing engineering materials based on digital construction as claimed in claim 2, wherein the step S300 comprises:
step S301: collecting the second warehousing management operation sets of the authority users in each authority user set to obtainJudging that the second warehousing management operation set with the highest repeated occurrence frequency is a reference warehousing management operation set in an operation interface range and an interface data range corresponding to each authority user set; setting each warehousing management operation in the benchmark warehousing management operation set as a work execution node existing in an operation interface range and an interface data range corresponding to each authority user set;
step S302: integrating information of any warehouse management operation and interface area corresponding to the warehouse management operation to obtain execution information on any corresponding work execution node(ii) a Wherein the content of the first and second substances,indicating the warehousing management operation corresponding to the jth work execution node,represent a correspondenceThe interface region of (a);
step S303: capturing all work execution nodes in the operation interface range and the interface data range corresponding to each authority user set, collecting execution information, and constructing work execution tracks in the operation interface range and the interface data range corresponding to each authority user set(ii) a Wherein,、、、Respectively indicate the 1 st, 2 nd, and,N work execution nodes.
4. The method for warehousing engineering materials based on digital construction as claimed in claim 3, wherein the step S400 comprises:
step S401: extracting all interface areas with data change in the digital engineering material warehousing system when each authority user finishes any warehousing management operation;
step S402: if the authorized user set exists、,The corresponding operation interface range is,The corresponding operation interface range isThe corresponding work execution trajectory isCorrespond toThe work execution trajectory of(ii) a When catchingOf an arbitrary authority userAfter each execution of a certain warehousing management operationThen, the range of all the interface regions corresponding to the data change generated in the digital engineering material warehousing system isAnd Y is atThe interface region contained in (1); wherein the content of the first and second substances,belong toCorresponding radicalQuasi-warehouse management operation set(ii) a Then judgeTo pairThere is an execution response impact inWarehouse management operations inTo pairThere is an execution response impact that is present,is thatThe associated work execution trajectory;
step S403: and locking other work execution tracks with execution response influence on each work execution track, and marking all warehouse management operations with execution response influence on each work execution track in the other work execution tracks.
5. The method for managing the warehouse of engineering materials based on digital construction as claimed in claim 1, wherein the step S500 comprises:
step S501: when two authority users are captured and are in an online operation state at the same time, the two authority users belong to two authority sets respectivelyAnd the two sets of permissionsCorresponding work execution traceSatisfyIs thatIs associated with the work execution trajectory and isMiddle pairThe warehouse management operation with the influence of the execution response comprises;
6. An engineering material warehousing management system applying the engineering material warehousing management method based on digital construction as claimed in any one of claims 1 to 5, characterized in that the system comprises: the system comprises a digitalized engineering material warehousing system construction module, a right account number distribution management module, a right information management module, a warehousing management operation information capturing and extracting module, a work execution track construction module, an execution response influence judgment module and an intelligent reminding module;
the digital engineering material warehousing system construction module is used for constructing a digital engineering material warehousing system for realizing engineering material warehousing and performing system input on each engineering material warehousing management;
the authority account number distribution management module is used for distributing different authority management account numbers to all users in charge of the storage management of each project material based on the corresponding responsible project content, and each user logs in the digital project material storage system through the distributed authority management account number on the operation terminal;
the authority information management module is used for displaying corresponding operation interfaces and interface data on corresponding operation terminals for all authority users, and displaying corresponding operation interfaces and interface data on corresponding operation terminals for all authority users based on account roles and account authority contents of all authority users;
the storage management operation information capturing and extracting module is used for respectively capturing and extracting the storage management operation generated by each authority user in each authority user set in the digital engineering material storage system;
the work execution track construction module is used for extracting a reference warehousing management operation set from each authority user set according to the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set; capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set based on each benchmark warehouse management operation set, integrating and extracting execution information corresponding to each work execution node, and constructing corresponding work execution tracks respectively;
the execution response influence judging module is used for sorting and collecting all work execution tracks generated in the process of warehousing management of each engineering material, identifying and judging the execution response influence among all the work execution tracks and capturing associated work execution tracks for all the work execution tracks;
the intelligent reminding module is used for monitoring the login operation of each authority user in real time, and when two authority users who are on line at the same time are captured and belong to two authority sets respectively and an execution response influence exists between work execution tracks corresponding to the two authority sets, intelligent reminding is initiated to the corresponding authority users.
7. The engineering material warehousing management system according to claim 6, wherein the warehousing management operation information capturing and extracting module comprises a first warehousing management operation set extracting unit, an operation information recognition processing unit and a second warehousing management operation set extracting unit;
the warehouse management operation set extraction unit is used for extracting a first warehouse management operation set generated by each authority user in each login process;
the operation information identification processing unit is used for respectively locking each warehouse management operation in the first warehouse management operation set after the operation is finished, and carrying out information identification on each warehouse management operation which repeatedly appears in each interface area with data change in the corresponding interface data range;
and the second warehouse management operation set extraction unit is used for receiving the data in the operation information identification processing unit and finishing the extraction of the second warehouse management operation set.
8. The engineering material warehousing management system according to claim 6, wherein the work execution trajectory construction module comprises a reference warehousing management operation set extraction unit, a work execution node information processing unit and a work execution trajectory construction unit;
the work execution track construction unit is used for extracting a reference warehousing management operation set from each authority user set according to the repeated distribution condition among the warehousing management operation sets corresponding to each authority user in each authority user set;
the work execution node information processing unit is used for capturing all work execution nodes existing in an operation interface range and an interface data range corresponding to each authority user set respectively based on each benchmark warehouse management operation set, and integrating and extracting execution information corresponding to each work execution node;
and the work execution track construction unit receives the data in the work execution node information processing unit and constructs a work execution track.
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