CN116187771A - Scene flood control plan management system and method based on structural decomposition - Google Patents

Abstract

The invention relates to a scene flood control plan management system and method based on structural decomposition, wherein the system comprises the following steps: the system comprises a plan management layer, a plan management layer and a control layer, wherein the plan management layer comprises a plurality of plan tree structure catalogues for plan management, nodes of the plan tree structure catalogues are associated with plan content data blocks, the plan tree structure catalogues are formed by dividing plans according to the purposes, the levels and the related application planes of the plans, and the last node on the plan tree structure catalogues is a plan name for correspondingly implementing the plans on the corresponding purposes, levels and application planes; the preset content data block is obtained by carrying out structural decomposition on preset content, and is associated with a corresponding node on the corresponding preset tree structure directory; a protocol application layer comprising an application tag library; and the application middle layer comprises an association relation between nodes on the label tree structure catalogue in the plan application layer and nodes on each plan tree structure catalogue in the plan management layer. The method is suitable for the field of flood prevention emergency informationized management.

Description

Scene flood control plan management system and method based on structural decomposition

Technical Field

The invention relates to a scene flood control plan management system and method based on structural decomposition. The method is suitable for the field of flood prevention emergency informatization management.

Background

In the basic requirements of the latest water conservancy service 'four-pre' function, the water conservancy department makes clear regulations on the connotation of a 'pre-project', requires that the flood control pre-project is combined with the running condition of the water conservancy project, the current situation of economic and social development and the like, evaluates and prefers the pre-project set, discovers problems in time, iterates and optimizes the scheme, and accordingly formulates countermeasures such as the running of the water conservancy project, emergency dispatch, disaster prevention and risk avoidance of personnel and the like, forms schemes and plans of the water conservancy project dispatch of a river basin or region and the like, and realizes the scientificity and operability of the water conservancy project.

The flood control plan has rich content, is an important guide in actual flood control work, has certain regularity, and is suitable for preventing and emergency disposal of sudden flood and drought disasters in the whole country. Various indexes of a prevention and early warning mechanism, emergency response, emergency guarantee, post-treatment action and the like are provided in the plan, and further, a specific execution scheme is provided in various indexes in the plans of various places, waterfalls and engineering.

The preparation of the plans is characterized by carrying out block preparation by a division door, taking Beijing city flood prevention plans as an example, and the Beijing city flood prevention overall plans, flood prevention schemes, flood dispatching schemes, danger avoiding transfer schemes and emergency rescue schemes exist, and the descriptions and the application of the early warning indexes, flood prevention emergency response indexes, flood dispatching indexes and flood prevention indexes are inconsistent to a certain extent.

The aspect of the plan content is determined according to the making characteristics and the professional characteristics, and the aspect of the prior plan informatization and intelligent management is provided with an emergency plan driving system based on a flow engine combining the plan making flow; the emergency plan processing method based on rule engine digital plan modeling comprises the steps of decomposing all operation matters specified by a text emergency plan into a visualized flow chart to serve as an emergency treatment flow, taking decision and judgment contents in experience knowledge as judgment rules of emergency events, monitoring emergency time elements in real time, analyzing and judging based on the judgment rules; the intelligent plan management system and the intelligent plan management method are specially aimed at the plan compiling characteristics and the content integrity; there are applications in intelligent processing of the content of a project, including extraction and management of keywords of the project, etc.

The existing informatization system has a certain effect in the aspect of intelligent plan management, however, the intelligent application enters the management system through customization at present, so that the management layer and the application layer cannot be separated, the intelligent aspect of management is often focused, for example, the process is formulated, and the automatic extraction of plan knowledge is sometimes performed. Often, the intelligent application and the data management are not decoupled enough, so that the method has larger cost on the aspects of dynamic flow, change of requirements and data maintenance of the plan making process, and once the structure of the plan is changed, the original intelligent plan management system can be reconstructed at larger cost. On the other hand, the intelligent extraction and automatic identification still do not avoid manual intervention, often take a large effort to construct a system, have a strong intelligent function, but the effect in application is not as obvious as expected.

The content of flood control plans, such as flood prevention schemes, flood scheduling schemes, danger avoidance transfer schemes and emergency rescue schemes, is that some core contents are rearranged from different scenes, the content is relatively consistent in a river basin or a certain administrative division, and the flood control plans special for engineering are arranged in terms of fineness granularity, and the content arrangement is carried out from the aspect of flood control engineering safety in engineering flood season. Under normal conditions, the plans have very strong guiding effect on flood control treatment operation, the connotation is very important, the data are strict, and the practical application has the difficulties that the contents are too many, the plans at each level cannot be uniformly managed, the management fineness is insufficient, the contents of the plans cannot be penetrated in, and the contents of the plans are relatively uniformly marked, so that the trouble on convenience in the use of the plans is caused.

Disclosure of Invention

The invention aims to solve the technical problems that: aiming at the problems, a system and a method for managing a scene flood control plan based on structural decomposition are provided.

The technical scheme adopted by the invention is as follows: a structured decomposition-based scenerized flood control plan management system, comprising:

the system comprises a plan management layer, a plan management layer and a control layer, wherein the plan management layer comprises a plurality of plan tree structure catalogues for plan management, nodes of the plan tree structure catalogues are associated with plan content data blocks, the plan tree structure catalogues are formed by dividing plans according to the purposes, the levels and the related application planes of the plans, and the last node on the plan tree structure catalogues is a plan name for correspondingly implementing the plans on the corresponding purposes, levels and application planes; the preset content data block is obtained by carrying out structural decomposition on preset content, and is associated with a corresponding node on the corresponding preset tree structure directory;

the application layer of the plan comprises an application tag library, wherein a plurality of application tags established for application scenes of the plan are arranged in the application tag library, and the application tags in the tag library are constructed based on the mutual relation to form a tag tree structure catalog;

and the application middle layer comprises an association relation between nodes on the label tree structure catalog in the label tree structure catalog application layer and nodes on each label tree structure catalog in the label tree structure catalog management layer so as to establish association between the nodes on the label tree structure catalog and the corresponding label content data blocks of the nodes on the corresponding label tree structure catalog.

The use is based on the type of disaster incident; the hierarchy includes a country hierarchy, a place hierarchy, an engineering hierarchy.

The construction method of the management system is characterized by comprising the following steps of:

dividing the plans according to the purposes, the levels and the related application planes of the plans to form a plurality of plan tree structure catalogues for managing the plans;

carrying out structural decomposition on the content of the plan to obtain a plurality of plan content data blocks, managing the decomposed plan content by a plan tree structure catalog, expressing the document title structure hierarchical relation of the original plan content by a tree structure, and associating the corresponding plan content data blocks to nodes corresponding to the plan tree structure catalog of the plan management;

establishing a plan application tag library, wherein the application tag library is internally provided with a plurality of application tags established for a plan application scene, the application tags in the tag library are constructed based on the mutual relation to form a tag tree structure catalog, and the nodes of the tag tree structure catalog are application tags;

and associating the nodes on the label tree structure catalog with the corresponding nodes on the corresponding pre-scheme tree structure catalog, so that association is established between the nodes on the label tree structure catalog and the pre-scheme content data blocks corresponding to the nodes on the corresponding pre-scheme tree structure catalog.

A method for managing the management system, characterized in that:

acquiring an application tag selected by a user from a tag tree structure directory based on a certain preset application scene;

the block of protocol content data associated with the application tag is assembled based on the selected application tag and presented to the user.

The management interface based on the management method is characterized by comprising a label catalog area and a plan display area, wherein the label catalog area displays the label tree structure catalog, and the plan display area displays a plan content data block which is collected and associated with the application label based on the selected application label.

A storage medium having stored thereon a computer program executable by a processor, characterized by: the computer program when executed implements the steps of the construction method and/or the management method.

A computer device having a memory and a processor, the memory having stored thereon a computer program executable by the processor, characterized by: the computer program when executed implements the steps of the construction method and/or the management method.

The beneficial effects of the invention are as follows: according to the method, the management of the plan itself is carried out, the structural management of the plan is combined and managed to form a plan management layer, the plan application layer carries out plan specific application management, the connection between the plan management layer and the plan application layer is established through the application middle layer, the plan content is applied to an actual application scene through the association relationship while the plan itself content is effectively managed, the plan predefined application layer is divided, multiple application division sets can be arranged, the plan is combined from different dimensions to serve as pre-treatment of specific application, and the plan application efficiency can be improved.

The invention effectively manages valuable data originally scattered in each specific plan document, can be applied to various scenes including plan knowledge management and digital twin-basin specific business application, and has higher efficiency and universality.

The method divides the plan management layer, the application middle layer and the plan application layer, separates management and actual application, enables the structured library of plan management to be used for a plurality of scenes, has flexible application, clear responsibility and no intervention, simultaneously separates different functional layers, and has clear relative requirement limit and wide scene applicability due to the introduction of an intelligent algorithm.

Drawings

Fig. 1 is a schematic architecture diagram of a scene flood control plan management system based on structural decomposition according to an embodiment of the present invention.

Fig. 2 is a directory level exploded view of a national flood control drought-resistant emergency plan according to an embodiment of the present invention.

Fig. 3 is a directory hierarchical exploded view of a flood control drought-resistant emergency plan for a city according to an embodiment of the present invention.

Fig. 4 is a schematic diagram illustrating a directory hierarchy decomposition of a superscalar flood defence scheme for an east dike of a lake in accordance with an embodiment of the present invention.

Fig. 5 is a further exploded schematic view of a certain lake-eastern dike superstandard flood defence protocol superstandard flood handling provided by an embodiment of the present invention.

Fig. 6 is a schematic diagram of an example of a tree structure of a protocol according to an embodiment of the present invention.

Fig. 7 is a schematic diagram illustrating exploded details of a scenario for use in a flood area according to an embodiment of the present invention.

Fig. 8 is a schematic diagram illustrating an exploded example of a market-level plan according to an embodiment of the present invention.

Fig. 9 is an example of an application tag library and a corresponding data content collection schematic diagram according to an embodiment of the present invention.

Fig. 10 is a schematic diagram of a pre-warning function module reference plan provided in an embodiment of the present invention.

Fig. 11 is a schematic diagram of an emergency function module referencing scheme provided in an embodiment of the present invention.

Detailed Description

The embodiment is a scene flood control plan management system based on structural decomposition, which comprises a plan management layer, a plan application layer and an application middle layer.

In this embodiment, a plurality of plan tree structure directories for plan management are included in a plan management layer, and nodes of the plan tree structure directories are associated with plan content data blocks, where the plan tree structure directories are formed by dividing plans according to purposes, levels and related application planes of the plans; the preset content data block is obtained by carrying out structural decomposition on preset content, and is associated with a corresponding node on the corresponding preset tree structure directory.

In this example, an application tag library is included in the application layer of the plan, and a plurality of application tags established for different application scenes of the plan are provided in the application tag library, and the application tags in the tag library are constructed to form a tag tree structure directory based on the inclusion relationship between the corresponding application scenes.

In this embodiment, the application middle layer includes an association relationship between a node on the label tree structure directory in the label application layer and a node on each of the label tree structure directories in the label management layer, so that an association is established between the node on the label tree structure directory and a corresponding label content data block corresponding to the node on the corresponding label tree structure directory.

As shown in fig. 1, the method for constructing the scenerising flood control plan management system in this embodiment includes the following steps:

step one, managing different types of plans in a tree structure. Dividing the plans according to the levels of the plans and the related application planes to form a plurality of plan tree structures for managing the plans, the level of the plans such as national level plans, river basin level plans, provincial water administration authorities plans, local water administration authorities plans, the plan application surface is such as a river basin flood control plan, a river basin engineering flood control plan, a river basin flood storage area application plan and a river basin super-standard flood treatment plan. In addition, according to the purpose of the plan, other types of plans, such as typhoon plans and flood plans, can be divided, and the other types of plans are further taken into management together.

In this embodiment, the management plan may be a plurality of tree structures or a single tree structure, and the tree structure of the management plan is similar to a directory according to the content of the specific management plan, and the principle is that the hierarchical relationship between the plans can be reflected, and the hierarchical relationship needs to be applied when the hierarchical relationship is applied, and the node of the tree structure manages the specific plan, and may also be regarded as the node instantiation of the tree structure of the plan management.

In this example, different types of plans are managed in a tree structure, that is, the plans are associated with nodes of the tree structure, if necessary, a plurality of tree structures can be managed, and the plans can be associated with a plurality of nodes of a plurality of trees, but attention is paid to the fact that the decomposition of the tree structure needs to be according to a certain dimension.

In this embodiment, different types of plans are managed in a tree structure, that is, the plans are associated to nodes of the tree structure, and labels of the tree structure nodes of the plans are managed, which can be used as classification information of the plans carried by the plans.

And secondly, managing the content of the plan in a mode of adding structured data in a tree structure. And step one, managing the plan by using the tree structure, wherein the end node of the tree structure is the plan name, namely the corresponding specific implementation plan. And carrying out structural decomposition on the content of the plan to obtain a plan content data block, wherein the decomposed content is managed in a tree structure, so that the hierarchical relationship of the title structure of the original document content is expressed in the tree structure, and the corresponding structural data is associated to the corresponding nodes of the tree structure to manage the structural data of the plan.

The tree structure decomposition in the plan is determined according to the content of the plan, the division fineness can be determined according to actual needs, the content of the plan is completely structured and marked by the tree structure nodes corresponding to the plan, and the child nodes are provided with the information of the father nodes. The content of the plan is also provided with node information for managing the tree structures for a plurality of plans. If the content of the plan is not further structured, the plan information is only managed in the first step, and structured plan data management is refinement and embodiment of the content of the plan itself.

In this embodiment, the content of the plan is managed in a manner of tree structure and structured data, and the content of the plan is digitally mapped in a manner of tree structure and structured data block.

In this example, the content of the pre-plan is structured and decomposed, and the decomposed content is managed in a tree structure, so that the hierarchical relationship of the title structure of the original document content is expressed in the tree structure, that is, the tree structure of the content of the management pre-plan is the structure of the content of the reaction pre-plan.

In this embodiment, the content of the plan is structurally decomposed, and the corresponding structured data is associated to the node corresponding to the tree structure, so as to manage the structured data of the plan, the decomposition degree is determined according to the specific content of the plan, the decomposition depth is consistent with the managed tree structure after decomposition, that is, the tree structure of the content of the plan keeps the title level of the plan consistent, but is not necessarily completely consistent with the title structure, and the title structure is regarded as a complete tree structure, so that the content decomposition can be a root node of the tree structure, or can be extended to a child node on the basis of the complete title tree structure as required.

The content of the general plan is structured and decomposed, corresponding structured data are associated to nodes corresponding to the tree structure so as to manage the structured data of the plan, decomposed content data blocks of the plan are naturally associated to corresponding header nodes, the content of the decomposed content data blocks corresponds to the decomposition structure, child nodes are provided with information of father nodes, and the content of all the child nodes can be acquired through the father nodes and combined into a form before decomposition.

The decomposition content of the plan is also provided with node information for managing tree structures for a plurality of plans, namely, the tree structure nodes for managing the plans in the step one serve as labels, and are also related to specific decomposition content of the plan.

And thirdly, establishing a plan application tag library and associating the structured plan content. Separate from the tree structure of the managed plan, an independent plan application tag library is established, the application tag library is a group of tag tree structure directories, and the nodes of the tag tree structure directories are specific application tags.

The construction of the application tag library is determined according to actual needs, the tree structure is still that the child nodes have parent node information, the application tag library is a tree structure tag group, can be set according to the function points of specific functional modules, can be set according to the standardized plan operation flow, can be in various setting modes, can not interfere with each other, and is automatically divided according to application scenes.

In this embodiment, the nodes of the application tag tree structure are associated with the structured data of the pre-application, so that the data after the structured decomposition of the pre-application is identified from several dimensions, and the pre-application itself level (the pre-application management tree in the first step), the pre-application content original identification (the structured tree for the structured decomposition of the pre-application in the second step), and the pre-application direction level may be set in multiple numbers, that is, the structured content of the pre-application managed in the first step and the second step may be associated with multiple nodes of the sub-application tag library in the multiple application tag libraries.

By establishing the application label of the plan and associating specific structured data of the plan, label content of the structured data of the plan is enriched, namely, more guiding application labels can be added on the basis of the management of the structural information of the plan, and the guiding application labels are used for collecting different scenes and serve as a dimension identification of the content of the plan.

In this embodiment, the application tag library is a set of tree-structured tags, and a tree structure can be used as a sub-application tag library, and multiple sub-application tag libraries do not interfere with each other.

In this example, the construction of the application tag library depends on actual needs, and tree-structured application tags can be continuously added in the application process, and the new application tags do not affect the original application tag structural design and relevance, and the new application tag refers to adding nodes in the original sub-application tag library or adding the sub-application tag library. The settings of the application tag library may be adjusted during the application process, but care should be taken to add adjustment rules to avoid that the already associated schema data structures will be allowed to be adjusted, including deleted, due to adjustment and disappearance.

In this embodiment, the association of application labels is a pre-application, or pre-processing, and the structural library of the original plan decomposition, that is, the plan managed in the first step and the second step, and the structured data of the plan are not changed, so as to be used as a base library for plan management and application, and the establishment and association of the application labels of the plan are intermediate layers of a specific application layer and a management layer.

The application management method of the scene flood control plan management system in the embodiment comprises the following steps:

acquiring an application tag selected by a user from a tag tree structure directory based on a certain preset application scene;

the block of protocol content data associated with the application tag is assembled based on the selected application tag and presented to the user.

In the embodiment, the label system is managed and applied by utilizing the plans established in the first step, the second step and the third step, and the label system is automatically collected to a specific application layer through label guidance. And thirdly, on the basis of managing the content of the plan, a plurality of sets of application label systems are established so as to be suitable for different service application scene demands, and the content of the plan is applied to specific service application scenes according to the demands in a mode of recording the labels and keywords of the plan.

In this example, the plan application is equivalent to a search record after plan management, the plan content corresponding to the search record is namely a structured plan management object, and different data blocks are assembled into corresponding service application scenes as required, so that the plan management layer and the application layer are separated, the plan content is updated, and the application layer automatically refers to and automatically updates.

The searching mode in the embodiment is multidimensional, and the intelligent algorithm can be further utilized to assist in positioning, including full text searching and full text analysis, which is an intelligent application which can be continuously added on the basis of the technical scheme, but does not deviate from the technical scheme or rely on the technical scheme to be processed more efficiently.

The management of the scheme itself, the structured management and the combined management of the scheme form a scheme management layer, and the division of the scheme application layer and the specific application management of the scheme are separated to form a scheme application layer. When the content of the plan is effectively managed, the content of the plan is applied to an actual scene in a mode of searching records by the plan, the predefined application layer of the plan is divided, multiple sets of application division can be set, the plan is combined from different dimensions to be used as the pre-processing of specific applications, and the application efficiency of the plan can be improved. Valuable data originally scattered in each specific plan document is effectively managed, and the method can be applied to various scenes including plan knowledge management and digital twin-basin specific business application, and is higher in efficiency and more universal.

The searching of the plan is also an application, the content of the corresponding structured plan data block can be found through the searching and matching of the labels of the plan, and in the third step, some application labels are added to the structured data block of the plan, the labels are application labels outside the management and the identification of the plan, the collection of the data block can be obtained rapidly through the matching of the labels, if the labels are added more, the collection of the related data block can be obtained more accurately, and the method has a very good application effect.

In this embodiment, the searching of the plan is performed by searching and matching the labels of the plan, and the association of the application labels of the plan predefines a general application scene, and the matching of the application labels of the scene and the management labels of the plan can obtain the required content data block of the plan by matching the labels of the scene and the management labels of the plan, and the matching of the two is performed by searching keywords. Furthermore, an intelligent matching algorithm can be introduced, so that the matching efficiency and accuracy are improved, and the manual judgment is reduced, but the management modes and the association of the first, second and third steps are required to be established.

According to the embodiment, the content of the plan can be applied to a specific service scene according to the needs in a mode of recording the label and the keyword of the plan, namely, the corresponding data blocks in different plans are extracted, and the application guide can be achieved through recording and searching the record.

The application layer and the application middle layer are separated, namely the third step and the management layer, namely the first step and the second step, the management layer is used for managing a plurality of plans and realizing expansion and updating of contents, the expansion of the contents is only carried out on the structuring and the management plans, the application layer is not involved, the application layer is single work, the application layer guides and searches records through labels, and the data of the application layer can be automatically updated along with the increase of the contents.

The scheme searching mode is multidimensional, and the intelligent algorithm can be further utilized to assist in positioning, including full text searching and full text analysis, so that the scheme is an intelligent application which can be continuously added on the basis of the technical scheme, but does not deviate from the technical scheme or rely on the technical scheme to be processed more efficiently.

When the scheme is specifically applied, the scheme data block is obtained through a recording and searching mode, and the scheme data block has certain automaticity, can be freely combined at multiple positions on a service layer and a functional module, is used for automatically extracting the scheme content and automatically extracting the content in cooperation with an actual workflow.

The embodiment also provides a management interface based on the application management method in the embodiment, which comprises a tag directory area and a plan display area, wherein the tag directory area displays the tag tree structure directory, and the plan display area displays a plan content data block which is collected and associated with the application tag based on the selected application tag.

The present embodiment also provides a storage medium having stored thereon a computer program executable by a processor, which when executed implements the steps of the construction method and the management method in the present example.

The present embodiment also provides a computer device having a memory and a processor, the memory having stored thereon a computer program executable by the processor, the computer program when executed implementing the steps of the construction method and the management method in the present embodiment.

The following description is made in connection with specific examples:

first, description will be made of managing different types of plans in a tree structure, and according to the classification of the plans, the plans are classified into the national level according to the class of the plans, for example: the emergency plan of national safety production accident disaster, the general emergency plan of national emergency public event, the emergency plan of national flood prevention and drought resistance, the emergency plan of national emergency geological disaster, the emergency plan of national communication guarantee, and the like. The river basin is provided with a river basin level plan, a place plan and a specific hydraulic engineering plan, and the production accident disaster emergency plan, the flood prevention drought resistance emergency plan, the sudden geological disaster emergency plan, the typhoon emergency plan and the like are divided from the objects of the plans and different dimensions according to the above examples. Are different types of divisions of the plan application, classification, and application objects. When in actual use, the method comprises the steps of establishing a local plan and a drainage basin plan by taking national-level plans and specifications as guidance, and performing a certain degree of specific response and specific-layer operation according to the content of the plan of the above level, namely, establishing the plan, namely, from top to bottom, and using the plan, namely, the plan is often combined, but finding the corresponding plan according to different scenes and application conditions.

The general manner of use is described herein in connection with specific protocols. As shown in fig. 2, the directory hierarchy of the national flood prevention drought resistance emergency plan includes general rules, organization command systems and responsibilities, prevention and early warning mechanisms, emergency response, emergency guarantee and post-improvement work. Fig. 3 is a catalog level decomposition of a flood control drought-resistant emergency plan for a certain city, including general rules, organizational command systems and responsibilities, monitoring and early warning, emergency response and post-treatment. Fig. 4 is a catalog level of a superstandard flood defense plan for an east dike of a certain lake, and the content comprises general rules, engineering overview, risk analysis, monitoring, forecasting and early warning, superstandard flood treatment and safeguard measures. Fig. 5 shows further expansion of a certain lake-lake east dike superstandard flood defence protocol superstandard flood treatment or further decomposition of a directory hierarchy, and further expansion can be seen as well as on-site emergency command institutions, organization mass transfer and the like. From the above list, it can be seen that the catalog level decomposition content and structure of the flood control drought-resistant emergency plan of a certain city are similar to those of the national flood control drought-resistant emergency plan, and the super standard defense plan of a specific project is a refinement of a specific defense mode, but the content such as organization, mass transfer of organization and the like is crossed with the superior plan, and in actual operation, an organization command system is established according to flood standards and corresponding administrative officers, and corresponding organization and defense work is performed according to the local plan, and the specific defense work is performed by reusing the specific plan on the specific project. That is, it is a process of using a plan dynamically, because the plan has rules and modes of its formulation, and conditions and objects of use of the features. For example, it is required to find mass transfer, and it is required to find descriptions in the whole plan, but often, such descriptions are not particularly detailed, and the detailed contents are distributed in the plans of each project, so that the transfer information in the plans needs to be manually counted again to achieve the effect of aspect application. Similar things are numerous, and the overall requirement is that for a job, by looking for multiple places for multiple plans, to manually match the human study, the efficiency is relatively low for such operations as emergency. And because the levels and directions of the plans are more, the plan is unfavorable for ordinary study, and because the contents are too much and scattered, the plan needs a long time to read and understand the plan, and has high requirements on personnel. Often, different personnel refer to the plans to do respective related work, which is necessary for the management and automatic data collection of the plans, because the searching of the plans is difficult and easy to miss, moreover, the number of the plans is also large, no good management port and mode exist, the plans are often not found, and more precisely, the specific data in the plans are found.

Returning to the point that the tree structure manages different types of plans, the tree structure is established according to the classification, and then the tree structure is used as a catalog to associate and manage specific plans. As shown in fig. 6, is an actual one of the plan tree structure settings. According to the types, the schemes are divided into the storage flood areas, the city level schemes are used, and the further decomposition of the storage flood area schemes is the scheme of the specific storage flood areas, namely the instantiation of the nodes.

The content of the plan is decomposed and managed in a structured way, as shown in fig. 7, in which a certain flood area applies the content decomposition of the plan, and the decomposition is as follows: after flood storage area profile, operation preparation, engineering operation, personnel returning and goodwill, the corresponding decomposed nodes are corresponding data blocks in the plan. Further, as shown in fig. 8, the method is a decomposition example of a market-level plan, and the content of flood control response is further decomposed according to the need, so that the specific content of each response can be obtained, and the method is based on subsequent application.

As shown in fig. 9, for an example of an application tag library, the tag library is an application tag built for the purpose of reprocessing the plan. The specific mode is to establish a label library with an application tree structure, and then to associate the structured data in the structured library which reflects the content of the plan with specific nodes of the label library for use. The application label is related to two plan content nodes, namely, a plan transfer setting and a response starting are applied to a flood storage area, so that the two data blocks can be displayed together. The application tag library can be set up into a plurality of applications, and then a plurality of scenes are associated, and it is known that the association is performed here, namely, the rapid rearrangement of the plans is performed, and it can be seen that a plurality of associations can be set up to form a plurality of ways of assembling the plans, but such assembling is enough for some scene applications, but some scenes are not refined enough.

The specific content of the transfer arrangement of the flood storage areas is found, and the data content related to the emergency refuge transfer of the emergency plans and the engineering emergency plans of the flood storage areas is obtained only by applying the label of the label library, and when the method is applied, for example, the engineering is matched to the specific engineering plan through the occurrence of the emergency function module, the data block content is limited by the combination of the two labels, the emergency refuge transfer content of a certain engineering can be freely combined according to other requirements, screening is realized, the method is realized by searching the content of a plan library, and the searching result is the set of the structured plan content. As shown in fig. 10, for the early warning function module, the structural data content related to early warning in the plan is referred, so that after the content of the plan is updated, the data related to the referred function module is updated together. Thus, the management and application layers are separated and do not interfere with each other, and various application scenes can be set up in the application layer and the application middle layer to meet the requirements of different functional modules. Thus, the proposal automatically moves according to the module, and the effect and efficiency of the proposal are far greater than that of the full-text retrieval of the keywords because the collection of the data blocks related to the keywords is obtained. As shown in FIG. 11, the system is an emergency function module, and personnel and placement point information in the plan are obtained by label matching, so that further function point design and application can be performed. Therefore, at the application layer, the method is flexible and changeable, has good adaptability, builds a knowledge base of the plan at a certain layering degree, and can be used for automatically converting the content of the plan.

Claims (7)

1. A structured decomposition-based scenerized flood control plan management system, comprising:

the system comprises a plan management layer, a plan management layer and a control layer, wherein the plan management layer comprises a plurality of plan tree structure catalogues for plan management, nodes of the plan tree structure catalogues are associated with plan content data blocks, and the plan tree structure catalogues are formed by dividing plans according to purposes, levels and related application planes of the plans; the preset content data block is obtained by carrying out structural decomposition on preset content, and is associated with a corresponding node on the corresponding preset tree structure directory;

the application layer of the plan comprises an application tag library, wherein a plurality of application tags established for application scenes of the plan are arranged in the application tag library, and the application tags in the tag library are constructed based on the mutual relation to form a tag tree structure catalog;

and the application middle layer comprises an association relation between nodes on the label tree structure catalog in the label tree structure catalog application layer and nodes on each label tree structure catalog in the label tree structure catalog management layer so as to establish association between the nodes on the label tree structure catalog and the corresponding label content data blocks of the nodes on the corresponding label tree structure catalog.

2. The structural decomposition based scenerized flood control plan management system of claim 1, wherein: the use is based on the type of disaster incident; the hierarchy includes a country hierarchy, a place hierarchy, an engineering hierarchy.

3. A method of constructing the management system of claim 1 or 2, characterized by:

dividing the plans according to the purposes, the levels and the related application planes of the plans to form a plurality of plan tree structure catalogues for managing the plans;

carrying out structural decomposition on the content of the plan to obtain a plurality of plan content data blocks, managing the decomposed plan content by a plan tree structure catalog, expressing the document title structure hierarchical relation of the original plan content by a tree structure, and associating the corresponding plan content data blocks to nodes corresponding to the plan tree structure catalog of the plan management;

establishing a plan application tag library, wherein the application tag library is internally provided with a plurality of application tags established for a plan application scene, the application tags in the tag library are constructed based on the mutual relation to form a tag tree structure catalog, and the nodes of the tag tree structure catalog are application tags;

and associating the nodes on the label tree structure catalog with the corresponding nodes on the corresponding pre-scheme tree structure catalog, so that association is established between the nodes on the label tree structure catalog and the pre-scheme content data blocks corresponding to the nodes on the corresponding pre-scheme tree structure catalog.

4. A management method of the management system according to claim 1 or 2, characterized in that:

acquiring an application tag selected by a user from a tag tree structure directory based on a certain preset application scene;

the block of protocol content data associated with the application tag is assembled based on the selected application tag and presented to the user.

5. A management interface based on the management method of claim 4, comprising a tab directory area and a plan presentation area, wherein the tab directory area displays the tab tree structure directory, and the plan presentation area displays a collection of plan content data blocks associated with the application tab based on the selected application tab.

6. A storage medium having stored thereon a computer program executable by a processor, characterized by: the computer program when executed implements the steps of the construction method of claim 3 and/or the management method of claim 4.

7. A computer device having a memory and a processor, the memory having stored thereon a computer program executable by the processor, characterized by: the computer program when executed implements the steps of the construction method of claim 3 and/or the management method of claim 4.

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