CN111967229B

CN111967229B - Efficient tag type data analysis method and system

Info

Publication number: CN111967229B
Application number: CN202010902010.XA
Authority: CN
Inventors: 申建常
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-01
Filing date: 2020-09-01
Publication date: 2024-09-06
Anticipated expiration: 2040-09-01
Also published as: CN111967229A

Abstract

The invention provides a high-efficiency tag type data analysis method and an analysis system, wherein the analysis system comprises a storage module, a node module, a tag module, a modification module, a node mobile module and a file adding module; the plurality of main nodes, the sub nodes and the connecting lines are connected to display the flow information of the case under each case theme name, and the case process files are conveniently checked by adding the case process files on the nodes with the case process files, so that the added case process files can be modified in batches; the system has the advantages that the system is high in working efficiency, a case handling person can conveniently check and modify files, the state or information of the node can be displayed by adding the label on the node, the analysis effect is good, in addition, if a case modifies the subject of the case or part of the flow in the case processing process, the current node with the modification and the child nodes thereof can be moved to a new main node together, a case flow is not required to be newly established, and the system is convenient and efficient to operate.

Description

Efficient tag type data analysis method and system

Technical Field

The invention relates to the technical field of data processing, in particular to a high-efficiency tag type data analysis method and system.

Background

The case process file is used as an important clue, records important record information in a certain case process, and the case process information and the case processing state are used as display of the case processing process, and records the occurrence process of each case, so that the case process file has an important effect on the detection of the case.

At present, the case management mainly depends on a manual management mode, but the mode cannot directly and efficiently display the flow of each case; in pursuit of more efficient case data analysis, the prior art such as CN201710959202.2, published days: 2018.02.23, which discloses a data analysis method and device, specifically discloses: according to the data association of the multi-mode data chain, a specific structure of the multi-mode data chain is obtained, wherein the specific structure comprises a connecting wire and a connecting wire node; obtaining attribute information of a connecting line of the multi-mode data chain; obtaining the weight of the connecting wire according to the attribute information and the specific structure of the connecting wire of the multi-mode data chain; obtaining key nodes according to the weight of the connecting lines; according to the key node, a first key path is obtained, wherein the first key path is the key path of the key node; according to the weight of the connecting wire, a second critical path is obtained, the second critical path is a critical path of the connecting wire, the scheme can solve the technical problems that the efficiency is low and the case handling is inconvenient for a plurality of persons in the case material organizing process, the scheme can determine the relevance of the cases through the determination of the critical nodes and the critical paths of the cases, thereby facilitating the detection of the cases, the method can only determine the critical nodes through the information of the plurality of nodes to achieve the purpose of detecting the cases, but for the determined data chain, the method can not realize that a certain important case process file is quickly put on the nodes, for the uploaded case process file, if a part of contents in the process file need to be modified, or need to be deleted and then uploaded, the operation is complex, and if a part of processes of a certain case needs to be modified, the whole multi-mode data chain needs to be modified, the operation is complex, and the efficiency is low.

Disclosure of Invention

The invention provides a high-efficiency tag type data analysis method and system which are convenient and efficient to operate and good in analysis effect.

In order to achieve the above object, a high-efficiency tag-type data analysis method comprises: the method comprises the following steps: 1) Creating a case theme, wherein the case theme comprises more than one node, and the node comprises a main node and a sub node; the main node and the sub node are connected through a connecting wire; each node attribute and the connecting line attribute are stored correspondingly to the corresponding case theme name;

2) If the case process file is required to be added to the node, adding the case process file to the node; correspondingly storing the case process file and the corresponding case theme name; when more than one case process file needs to be modified, determining key information before modification and key information after modification, and modifying corresponding key information in the case process files;

3) If the node needs to be added with a label, adding the label on a connecting wire corresponding to the node, and modifying the label attribute;

4) And if the position of the current node needs to be modified, acquiring the position to which the current node is to be moved, determining the position closest to the main node with the current node, after the current node and the child node of the current node move together, reestablishing a connecting line between the current node and the main node, and correspondingly storing the node attribute, the connecting line attribute and the corresponding case theme after the movement.

According to the method, the flow information of the cases under each case theme name is displayed through the connection of the plurality of main nodes, the plurality of sub nodes and the connecting lines, and the case process files are added to the nodes with the case process files, so that the case process files are convenient to check, and the added case process files correspond to the nodes, and therefore data analysis is convenient for personnel; batch modification can also be performed on the added case process files; the system has the advantages that the system is high in working efficiency, a case handling person can conveniently check and modify files, in addition, the current state or key information of the node can be displayed by adding the label on the node, the check is convenient, the analysis effect is good, and if a case modifies a case theme or a part of flow in the case processing process, the current node and the child nodes of the case to be modified can be moved to a new main node, a case flow is not required to be newly established, and the system is convenient and efficient to operate.

Further, the step 3) specifically further includes: determining the attribute of the label to be searched, searching the label with the same label attribute under each case theme according to the label attribute, displaying the label corresponding nodes and connecting lines with the same label attribute, and hiding other label corresponding nodes and connecting lines without the same label attribute.

According to the method, the labels are added to the nodes, and the corresponding nodes are screened out according to different label attributes; thus, different nodes with the same label attribute can be synchronously screened out; therefore, the flow of the cases with the same label characteristics can be conveniently displayed, and data analysis can be conveniently carried out.

Further, in step 2), adding the case process file to the node specifically includes: after the node position obtains the paste command, uploading the copied case process file and displaying the key information of the case process file on the connecting line of the node.

According to the method, when the case process file is added, only the copied case process file is required to be pasted at the node position, so that the operation is simple.

Further, in step 4), the "the current node moves together with the current node ' further includes moving together the current node and the current node's child node and the case process file and the tag on the current node and the current node's child node.

According to the method, the case process file and the label are set according to the node, so that if the node moves, the case process file and the label do not move; thus, the situation that the case process file and the label are not matched with the node can occur; this can have an impact on data analysis and also can increase the workload of the relevant personnel. A case process file and a label which move along with the node; this avoids the impact on the data analysis.

Further, the tag attributes include tag color, shape and tag name; the node attributes include: node position, hierarchical relationship of nodes, and names of nodes; the key information before modification includes a case name before modification, a case theme name before modification, and a case creation time before modification.

According to the method, through different tag attributes, the tags can be set according to requirements, so that the tags can be classified conveniently, and corresponding nodes can be screened conveniently; managing the nodes through the node attributes; by confirming the key information before modification, the difference between the key information after modification and the key information before modification can be known when the case process file is modified.

The invention also provides a high-efficiency tag type data analysis system which comprises a storage module, a node module, a tag module, a modification module, a node mobile module and a file adding module; the node module is used for creating a case theme, wherein the case theme comprises more than one node, and the node comprises a main node and a sub node; the main node and the sub node are connected through a connecting wire;

The label module is used for adding labels on connecting wires corresponding to the nodes if the nodes need to be added with labels;

The storage module is used for storing each node attribute and the connecting line attribute corresponding to the corresponding case theme name; correspondingly storing the node attribute, the connecting line attribute and the corresponding case theme after moving; correspondingly storing the case process file and the corresponding case theme name;

The file adding module is used for adding the case process file on the node if the case process file needs to be added on the node, and keeping the case process file and the corresponding case theme name in the storage module;

the modification module is used for modifying the case process file on the node; the modified document is stored in a storage module;

The node moving module is used for acquiring the position to be moved by the current node if the position of the current node needs to be modified, determining the position closest to the main node with the current node, moving the current node and the sub-node of the current node together, and reestablishing a connecting line between the current node and the main node.

According to the setting, the main nodes and the sub nodes which are connected through the connecting lines are set according to different case subjects through the node setting module, so that the node relation is clear; is easy to understand; by setting a label module; the labels are arranged on the nodes to be added with the labels, and different nodes are distinguished through the labels, so that analysis is convenient; meanwhile, the label is managed, and meanwhile, the node is managed; changing the position of the node by setting a node moving module; the relation between the main node and the sub node can be reset; thus, the use is convenient, and the analysis is convenient; the case process files are added through the file adding module, so that the case process files can be conveniently checked, and the added case process files correspond to the nodes, so that data analysis can be conveniently carried out by personnel;

the case process file is modified on the system by arranging the modification module, and the modified case process file is stored in the storage module, so that the operation is simple; and storing the data generated by the system by arranging a storage module.

Further, the system also comprises a label screening module, which is used for determining the label attribute to be searched, searching labels with the same label attribute under each case theme according to the label attribute, displaying the label corresponding nodes with the same label attribute and the connecting lines, and hiding other label corresponding nodes without the same label attribute and the connecting lines.

The corresponding nodes are screened out according to different tag attributes; thus, different nodes with the same label attribute can be synchronously screened out.

Further, the file adding module specifically includes: and the node position acquires the case process file to be copied by the paste command, and displays the key information of the case process file on a connecting line of the node.

According to the setting, when the case process file is added, only the copied case process file is required to be pasted at the node position, and the operation is simple.

Further, the node moving module further comprises a file moving module for moving the current node, the child node of the current node, the case process files on the child nodes of the current node and the current node, and the labels.

By the arrangement, the case process file and the label on the node move along with the node through the file moving module.

Further, the color, shape and name of the label are set through a label module; the names, positions and node hierarchy relations of the nodes are set by the node modules.

By setting the different tag attributes, the tags can be set according to the requirements, so that the tags can be classified conveniently, and the corresponding nodes can be screened conveniently; the nodes are managed by setting node attributes; by confirming the key information before modification, the difference between the key information after modification and the key information before modification can be known when the case process file is modified.

Drawings

FIG. 1 is a flow chart of a data analysis method of the present invention.

FIG. 2 is a diagram illustrating a usage state of the data analysis system according to the present invention.

Fig. 3 is a usage state diagram of the node screening module in fig. 2 after screening.

Fig. 4 is a state diagram of the node movement module in fig. 2 after movement.

FIG. 5 is a diagram illustrating another usage of the data analysis system according to the present invention.

Fig. 6 is a view of the usage state of fig. 5 after screening by the tag module.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

Example 1

A high-efficiency tag type data analysis system comprises a storage module, a node module, a tag module, a modification module, a node mobile module, a file adding module, a tag screening module and a node screening module.

As shown in fig. 2, the node module is configured to create a case theme, where the case theme includes more than one node, and the node includes a main node 1 and a child node; the main node and the sub node are connected through a connecting wire; the main node 1 is a node with the theme of the new case as the name, and the level of the child node is provided with N levels; in the present embodiment, the child node hierarchy is provided with five levels, and the child nodes include a zeroth child node 2, a first child node 31, a second child node 32, a third child node 33, a fourth child node 34, a fifth child node 35, a sixth child node 36, a seventh child node 37, and an eighth child node 38; the zeroth child node 2 is a first-level child node, and the first child node 31, the second child node 32 and the third child node 33 are second-level child nodes; the fourth child node 34 and the fifth child node 35 are three-level word nodes; the sixth child node 36 and the seventh child node 37 are four-level word nodes; the eighth child node 38 is a five-level word node.

The label module is used for adding the label 7 on the connecting wire corresponding to the node if the node needs to be added with the label 7; setting label color, label shape and label name through a label module; through setting up different label attribute, can set up the label according to the demand, be convenient for classify the label, be convenient for screen out corresponding node.

The storage module is used for storing each node attribute and the connecting line attribute corresponding to the corresponding case theme name; correspondingly storing the node attribute, the connecting line attribute and the corresponding case theme after moving; and correspondingly storing the case process file and the corresponding case theme name.

The file adding module is used for adding the case process file 8 on the node if the case process file 8 needs to be added on the node, and keeping the case process file 8 and the corresponding case theme name in the storage module; the file adding module specifically comprises: and the node position acquires the case process file to be copied by the paste command, and displays the key information of the case process file on a connecting line of the node. When the case process files are added, only the copied case process files are required to be pasted at the node positions, and the operation is simple. The case process file 8 includes a document and a picture.

The modification module is used for modifying the document of the case process file 8 on the node; the modified document is stored in the storage module. The pre-modification key information and the post-modification key information are determined by the modification module. The key information before modification comprises a case name before modification, a case theme name before modification, a case creation time before modification and case content before modification; the modified key information includes a modified case name, a modified case theme name, a modified case creation time, and modified case contents.

The label screening module is used for determining the label attribute to be searched, searching labels with the same label attribute under each case theme according to the label attribute, displaying the label corresponding node with the same label attribute, all the superior nodes and subordinate nodes related to the node and connecting lines, and hiding other label corresponding nodes and connecting lines without the same label attribute. Screening out corresponding nodes according to different tag attributes; thus, not only is a target node screened out independently; different nodes with the same label attribute can be synchronously screened out.

As shown in fig. 5 and 6, in the present embodiment, taking a tag name of a tag module as an example, different tag names including a first tag name 71, a second tag name 72, a third tag name 73, and a fourth tag name 74 are set by the tag module; by looking up the third tag name 73, then displaying the corresponding node with the third tag name 73, all the upper and lower nodes associated with the node, and the connection lines, other corresponding nodes and connection lines without the third tag name 73 are hidden.

As shown in fig. 2 and 3, the node screening module is configured to screen nodes, select a node, then display all the upper nodes, lower nodes and connecting lines associated with the current node and the current node, and hide other nodes and connecting lines not associated with the node. In this embodiment, when the eighth sub-node 38 is screened, the eighth sub-node 38 and all the upper nodes and connecting lines associated with the eighth sub-node 38 are displayed; the nodes and connections not associated with the eighth child node 38 are hidden.

The node moving module is used for acquiring the position to be moved by the current node if the position of the current node needs to be modified, determining the position closest to the main node with the current node, moving the current node and the sub-node of the current node together, and reestablishing a connecting line between the current node and the main node. Setting the name, the position and the node hierarchical relationship of the nodes through the node module; and managing the nodes by setting the node attributes.

The node moving module also comprises a file moving module which is used for moving the current node, the child node of the current node, the case process files on the child nodes of the current node and the current node together with the labels. And the file moving module is arranged to realize the case process file on the node and the movement of the label along with the node.

As shown in fig. 2 and 4; in the present embodiment, the sixth child node 36, the seventh child node 37, and the eighth child node 38 are all lower nodes of the fifth child node 35, that is, all child nodes of the fifth child node 35; the fifth child node 35 moves; the sixth child node 36, the seventh child node 37 and the eighth child node 38 move together; while tag 7 on the sixth child node 36; the case process file 8 on the seventh byte 37 moves together. The connection line is re-established between the fifth sub-node 35 and the main node 1. The fifth child node 35 is a three-level child node before moving, the sixth child node 36 is a four-level child node before moving, the seventh child node 37 is a four-level child node before moving, and the eighth child node 38 is a five-level child node before moving; the fifth sub-node 35 is moved to be a second-level sub-node, the sixth sub-node 36 is moved to be a third-level sub-node, the seventh sub-node 37 is moved to be a third-level sub-node, and the eighth sub-node 38 is moved to be a fourth-level word node.

By arranging the node module, the main nodes and the sub nodes which are connected through the connecting lines are arranged according to different case subjects, so that the node relationship is clear; is easy to understand; by setting a label module; the labels are arranged on the nodes to be added with the labels, and different nodes are distinguished through the labels, so that analysis is convenient; meanwhile, the label is managed, and meanwhile, the node is managed; changing the position of the node by setting a node moving module; the relation between the main node and the sub node can be reset; thus, the use is convenient, and the analysis is convenient; the case process files are added through the file adding module, so that the case process files can be conveniently checked, and the added case process files correspond to the nodes, so that data analysis can be conveniently carried out by personnel; the case process file is modified on the system by arranging the modification module, and the modified case process file is stored in the storage module, so that the operation is simple; and storing the data generated by the system by arranging a storage module.

As shown in fig. 1, the analysis method of the present invention comprises the steps of:

1) Creating a case theme, wherein the case theme comprises more than one node, and the node comprises a main node and a sub node; the main node and the sub node are connected through a connecting wire; each node attribute and the connecting line attribute are stored correspondingly to the corresponding case theme name;

2) If the case process file is required to be added to the node, adding the case process file to the node; correspondingly storing the case process file and the corresponding case theme name; if the case process files do not need to be added to the nodes, judging whether the case process files need to be added to other nodes, and when more than one case process file needs to be modified, determining key information before modification and key information after modification, and modifying the corresponding key information in the case process files; specifically, the key information before modification and the key information after modification can be provided for users to fill in the form of a dialog box, and the corresponding case process file can be replaced by the key information after modification after the key information before modification is completely filled in; if the case process file is not required to be modified, the system is in a waiting state, and judges whether the case process file is required to be added to other nodes,

3) If the node needs to be added with a label, adding the label on a connecting wire corresponding to the node, and modifying the label attribute; if no label is required to be added to the node, the node is in a waiting state;

4) If the position of the current node needs to be modified, acquiring the position to which the current node is to be moved, determining the position closest to the main node with the current node, after the current node and the child node of the current node move together, reestablishing a connecting line between the current node and the main node, and correspondingly storing the node attribute, the connecting line attribute and the corresponding case theme after the movement; and if the position of the current node does not need to be modified, the node is in a waiting state.

The method, in step 3), specifically further includes: determining the attribute of the label to be searched, searching the label with the same label attribute under each case theme according to the label attribute, displaying the label corresponding node with the same label attribute, all the superior nodes and inferior nodes related to the node and connecting lines, and hiding other label corresponding nodes and connecting lines which do not have the same label attribute. By adding labels on the nodes, the corresponding nodes are screened out according to different label attributes; thus, different nodes with the same label attribute can be synchronously screened out; this facilitates data analysis.

In the step 2), adding the case process file on the node specifically includes: and the node position acquires the case process file to be copied by the paste command, and displays the key information of the case process file on a connecting line of the node. When the case process files are added, only the copied case process files are required to be pasted at the node positions, so that the operation is simple. When the case process file is modified, the case process file needing to be modified is selected and then modified in batches through a modification module.

In step 4), the "the current node and the child node of the current node move together" further includes that the current node and the child node of the current node and the case process files and labels on the current node and the child node of the current node move together. Because the case process files and the labels are set according to the nodes, the case process files and the labels correspond to the nodes, if the nodes move, the case process files and the labels do not move; thus, the situation that the case process file and the label are not matched with the node can occur; this can have an impact on data analysis and also can increase the workload of the relevant personnel. A case process file and a label which move along with the node; this avoids the impact on the data analysis.

The tag attributes comprise tag color, shape and tag name; the node attributes include: node position, hierarchical relationship of nodes, and names of nodes; the key information before modification comprises a case name before modification, a case theme name before modification, a case creation time before modification and case content before modification; the modified key information includes a modified case name, a modified case theme name, a modified case creation time, and modified case contents.

Through different tag attributes, tags can be set according to requirements, so that the tags can be classified conveniently, and corresponding nodes can be screened conveniently; managing the nodes through the node attributes; by confirming the key information before modification, the difference between the key information after modification and the key information before modification can be known when the case process file is modified.

According to the method, the flow information of the cases under each case theme name is displayed through the connection of the plurality of main nodes, the plurality of sub nodes and the connecting lines, and the case process files are added to the nodes with the case process files, so that the case process files are convenient to check, and the added case process files correspond to the nodes, and therefore data analysis is convenient for personnel; batch modification can also be performed on the added case process files; the system has the advantages that the system is high in working efficiency, a case handling person can conveniently check and modify files, in addition, the current state or key information of the node can be displayed by adding labels on the node, the check is convenient, the analysis effect is good, in addition, if a case modifies a case theme or a part of flow in the case processing process, the current node with the modification and the child nodes thereof can be moved to a new main node, a case flow is not required to be established, and the system is convenient and efficient to operate. The invention is applicable to criminal cases; correspondingly inputting the information found in investigate into a case processes into the analysis system; then analyzing the case by an analysis method; therefore, the working efficiency is high, and meanwhile, the analysis effect on the case situation is good.

Claims

1. A high-efficiency label type data analysis method is characterized in that: the method comprises the following steps: 1) Creating a case theme, wherein the case theme comprises more than one node, and the node comprises a main node and a sub node; the main node and the sub node are connected through a connecting wire; each node attribute and the connecting line attribute are stored correspondingly to the corresponding case theme name;

Adding the case process file on the node specifically comprises the following steps: the node position obtains a case process file to be copied by a paste command, uploads the case process file and displays key information of the case process file on a connecting line of the node; when the case process files are added, only the copied case process files are required to be pasted at the node positions; 3) If the node needs to be added with a label, adding the label on a connecting wire corresponding to the node, and modifying the label attribute; determining the attribute of the label to be searched, searching the label with the same label attribute under each case theme according to the label attribute, displaying the label corresponding node and the connecting line with the same label attribute, and hiding other label corresponding nodes and connecting lines without the same label attribute;

4) If the position of the current node needs to be modified, the position to which the current node is to be moved is obtained, the position closest to the main node with the current node is determined, the current node, the child nodes of the current node, the case process files and the labels on the current node and the child nodes of the current node are moved together, a connecting line is reestablished between the current node and the main node, and the node attribute, the connecting line attribute and the corresponding case theme after the movement are correspondingly stored.

2. The method for efficiently analyzing tag-type data according to claim 1, wherein: the tag attributes comprise tag color, shape and tag name; the node attributes include: node position, hierarchical relationship of nodes, and names of nodes; the key information before modification includes a case name before modification, a case theme name before modification, and a case creation time before modification.

3. The utility model provides a high-efficient label formula data analysis system which characterized in that: the system comprises a storage module, a node module, a label screening module, a modification module, a node mobile module and a file adding module; the node module is used for creating a case theme, wherein the case theme comprises more than one node, and the node comprises a main node and a sub node; the main node and the sub node are connected through a connecting wire;

The label screening module is used for determining the label attribute to be searched, searching labels with the same label attribute under each case theme according to the label attribute, displaying the label corresponding nodes and connecting lines with the same label attribute, and hiding other label corresponding nodes and connecting lines without the same label attribute;

The storage module is used for storing each node attribute and the connecting line attribute corresponding to the corresponding case theme name; correspondingly storing the node attribute, the connecting line attribute and the corresponding case theme after moving; corresponding case process files and corresponding case theme names are correspondingly stored;

The file adding module is used for adding the case process file on the node if the case process file needs to be added on the node, and keeping the case process file and the corresponding case theme name in the storage module; the node position obtains a case process file to be copied by a paste command, uploads the case process file and displays key information of the case process file on a connecting line of the node;

The modification module is used for modifying the case process document on the node; the modified document is stored in a storage module;

The node moving module is used for acquiring the position to be moved by the current node if the position of the current node needs to be modified, determining the position closest to the main node with the current node, moving the current node and the sub-node of the current node together, and reestablishing a connecting line between the current node and the main node; the node moving module also comprises a file moving module which is used for moving the current node, the child node of the current node, the case process files on the child nodes of the current node and the current node together with the labels.

4. A high efficiency tagged data analysis system as claimed in claim 3, wherein: the color, shape and name of the label are set through a label module; the names, positions and node hierarchy relations of the nodes are set by the node modules.