CN114860734A - Processing method for data presentation of multi-source index structure fusion and scene restoration - Google Patents

Abstract

The invention discloses a processing method for data presentation of multi-source index structure fusion and scene restoration. According to the method, the technical methods of original data structure and resource directory presentation, index system structure fusion construction, automatic data extraction, application scene tracing reduction and the like are adopted, the problems of data multi-form presentation, index fusion presentation, scene tracing reduction and the like are systematically solved, the index system fusion presentation, entity application scene reduction, data classification presentation and automatic extraction can be realized, and a feasible application scheme is provided for large-scale multi-source data extraction and accurate data relation expression.

Description

Processing method for data presentation of multi-source index structure fusion and scene restoration

Technical Field

The invention relates to the technical field of big data processing, in particular to a processing method for data presentation of multi-source index structure fusion and scene restoration.

Background

The existing method for presenting multi-source index structure and data usually adopts a processing method of directly presenting according to a source or an entity, and the problems of nonstandard and inflexible indicator presentation method, relatively independent data, incapability of associated presentation, loss of hidden information, difficulty in scene restoration and the like are caused by the lack of uniform cross-source indicator fusion, entity fusion, mutual data supplement and association, scene recording and the like. Mainly in the following aspects.

1) The presentation of the index system is not flexible. The index system constructed in the prior art is generally constructed according to the source, and cross-source fusion and entity fusion are not or rarely achieved, so that the presentation mode is single, the index system is not systematic and the like.

2) The data is relatively independent and can not be presented in a correlated way. In the prior art, when entity data are extracted, related information such as the association relationship between the entity data and the discrimination of the same entity is rarely extracted and stored systematically, so that the entity data are relatively isolated and the data association presentation cannot be realized.

3) The data scene is lost and cannot be traced back. In the prior art, information such as a data application scene and a main and subsidiary entity application scene is not recorded usually, so that a large amount of hidden information is lost, data tracing, scene restoration and the like are not facilitated, and the problems of inaccurate pointing, inaccurate expression and the like are often caused during data extraction.

Disclosure of Invention

The invention provides a processing method for data presentation of multi-source index structure fusion and scene reduction, which is used for solving the problems of index system fusion presentation, entity application scene reduction, data classification presentation, automatic extraction and the like of multi-source data and provides a feasible application scheme for large-scale multi-source data extraction and accurate data relation expression.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows.

A processing method for data presentation of multi-source index structure fusion and scene restoration specifically comprises the following steps:

A1. initializing a user interaction interface according to a framework structure set by a system, wherein the user interaction interface comprises a function area, a data source structure display area, a resource classification display area, an index system display area, a user selection area and a data display and application scene tracing area;

A2. according to the function set by the user, a functional area is constructed for the user to select, and user selection information GN is obtained;

A3. reading related data by using an original data structure presenter, constructing an original data display area for a user to select, monitoring user selection information GN transmitted in the step A2, and updating the information of the original data display area in real time; then, reading and presenting application scene information of related original data according to the option information YX of the user in the original data display area;

A4. reading related data by using a resource directory automatic presenter, constructing a resource classification display area for a user to select, monitoring user selection information GN transmitted in the step A2, and updating information of the resource classification display area in real time; then, reading and presenting application scene information of related resource classification according to the option information ZX of the user in the resource classification display area;

A5. monitoring the option information YX transmitted by the step A3 and the option information ZX transmitted by the step A4, reading related data by using an index system automatic builder, and presenting an index system structure in an index system display area; then, reading and presenting application scene information of a related index system structure according to the option information BX of the user in the index system display area;

A6. displaying the selected information of the user in the user selection area according to the selection item information BX, the selection item information YX and the selection item information ZX of the user; meanwhile, providing functional keys of 'browsing data' and 'downloading data' for the user to select;

A7. judging the option information SX of the user in the user selected area, if the user selects the function key of 'browse data', jumping to the step A8 for execution, and if the user selects the function key of 'download data', jumping to the step A9 for execution;

A8. reading related data by using an automatic data extractor, presenting the data in a data display and application scene tracing area, and presenting data scene tracing information by using a scene tracing reducer according to the selection requirement of a user in the data display and application scene tracing area;

A9. and extracting related data by using an automatic data extractor for downloading by a user.

In the above processing method for data presentation of multi-source index structure fusion and scene restoration, the method for presenting original data in step a3 is to present the source, library, table and corresponding application scene information of the original data according to a hierarchical structure, and the specific method is as follows:

A31. reading a data set DSA of source, library and table information from a source application scene database SDB by default according to the hierarchical structure of the source, library and table, and initializing an original data display area of a user interaction interface for a user to select;

A32. monitoring and receiving selected information GN transmitted by the functional area, judging whether the selected information GN exists, if so, executing step A33, otherwise, executing step A34;

A33. filtering the data set DSA according to the selected information GN to form a data subset DSA ', and updating an original data display area by using the data subset DSA' for selection by a user;

A34. acquiring option information YX of a user in an original data display area according to user requirements;

A35. and reading and presenting corresponding survey system, sample list, warehousing time and data range application scene information from a source application scene database SDB according to the option information YX, writing the option information YX into a user selected area, transmitting the option information YX into an index system automatic builder, and ending.

In the above processing method for data presentation of multi-source index structure fusion and scene restoration, the automatic resource directory presenter in step a4 presents an entity and an application scene corresponding to the entity according to a preset resource directory hierarchical structure, and the specific method is as follows:

A41. reading a data set DSB of entity directory information from an entity directory database EDDB by default according to a preset resource directory structure, and initializing a resource classification display area of a user interaction interface;

A42. monitoring and receiving selected information GN transmitted by the functional area, judging whether the selected information GN exists, if so, executing step A43, otherwise, executing step A44;

A43. filtering the data set DSB according to the selected information GN to form a data subset DSB ', and updating the resource classification display area by using the data subset DSB' for the user to select;

A44. acquiring option information ZX of a user in a resource classification display area according to user requirements;

A45. and reading and presenting corresponding source, library, main entity and accessory entity application scene information from the entity dynamic library application scene database SRVDB according to the option information ZX, writing the option information ZX into a user selected area, transmitting the option information ZX into an index system automatic builder, and ending.

In the above processing method for data presentation of multi-source index structure fusion and scene restoration, the automatic indicator system builder described in step a5 builds an indicator system according to user requirements, and presents a corresponding application scene, and the specific method is as follows:

A51. monitoring and receiving selection item information YX of an original data structure presenter and selection item information ZX of a resource directory automatic presenter;

A52. if the option information YX exists, jumping to the step a53 execution, if the option information ZX exists, jumping to the step a55 execution;

A53. reading index system structure information eis from a corresponding index structure database IDB according to the selection item information YX; constructing an index system structure by using the index system structure information eis, and presenting the index system structure in an index system display area for a user to select;

A54. acquiring selection item information BX of a user in an index system display area according to user requirements; reading and presenting application scene information including the same-name indexes and the index sources from the corresponding index structure database IDB and the source application scene database SDB according to the selection item information BX, and simultaneously, jumping to the step A57 to execute;

A55. reading entity index system structure information rvis from a corresponding entity dynamic database RVDB according to the selection item information ZX; constructing an index system structure by utilizing the entity index system structure information rvis, and displaying the index system structure in an index system display area for a user to select;

A56. according to the user requirements, acquiring selection item information BX of a user in an index system display area, reading and presenting application scene information comprising a main entity, an auxiliary entity and a corresponding relation between the main entity and the auxiliary entity from an entity dynamic database RVDB and an entity dynamic database SRVDB according to the selection item information BX, and simultaneously, jumping to the step A57 for execution;

A57. and writing the user selection item information BX into the user selection area.

In the above processing method for data presentation of multi-source index structure fusion and scene restoration, the automatic data extractor in step A8 calls related data according to a user instruction, and provides data browsing and downloading, and the specific method is as follows:

A81. monitoring and receiving the option information SX of the user in the user selected area,

A82. reading user authority information PL, and reading information such as option information YX, option information ZX and option information BX of a user selected area;

A83. judging, if the option information YX exists, jumping to the step A84 to execute, if the option information ZX exists, jumping to the step A85 to execute;

A84. reading related data information from a corresponding original data database OVDB according to the option information YX and the option information BX in combination with the user authority information PL to form a data set DSC, and jumping to the step A86 for execution;

A85. reading related data information from a corresponding entity dynamic database RVDB according to the option information ZX and the option information BX in combination with the user authority information PL to form a data set DSD, and jumping to the step A86 for execution;

A86. reading option information SX of a user in a user selected area, judging, jumping to step A87 to execute if the option information SX is preview data, and pushing data of a data set DSC or a data set DSD to the user if the option information SX is download data, and ending;

A87. data of the data set DSC or the data set DSD are presented in a data display area for a user to select;

A88. and acquiring the recording information RX selected by the user in the data display area, transmitting the recording information RX to the scene tracing restorer, starting the scene tracing restorer to operate, and ending.

In the above processing method for data presentation of multi-source index structure fusion and scene restoration, the scene tracing restorer described in step a88 retrieves data scene tracing information from a related database according to a user instruction, and presents the data scene tracing information in a data presentation area, and the specific method is as follows:

A881. monitoring and receiving recorded information RX;

A882. reading the option information ZX of the user selected area and reading the user authority information PL;

A883. judging whether the option information ZX exists, if so, executing the step A884, otherwise, ending;

A884. setting a temporary variable RX, and assigning the record information RX to the temporary variable RX;

A885. judging whether the user can trace the source of the information of the temporary variable rx or not according to the user authority information PL, if so, jumping to the step S886 for execution, otherwise, ending;

A886. reading corresponding record data r from a corresponding entity dynamic database RVDB according to the related attribute of a temporary variable rx in combination with user permission information PL;

A887. the related information of the recorded data r is used as scene tracing information of the temporary variable rx and is displayed in a data display area for a user to select;

A888. according to the user selection item, the record information selected by the user is obtained and given to the temporary variable rx, and simultaneously, the step A885 is skipped to execute.

Due to the adoption of the technical scheme, the technical progress of the invention is as follows.

According to the method, the technical methods of original data structure and resource directory presentation, index system structure fusion construction, automatic data extraction, application scene tracing reduction and the like are adopted, the problems of data multi-form presentation, index fusion presentation, scene tracing reduction and the like are systematically solved, the index system fusion presentation, entity application scene reduction, data classification presentation and automatic extraction can be realized, and a feasible application scheme is provided for large-scale multi-source data extraction and accurate data relation expression.

The present invention mainly has the following remarkable effects.

1) The index structure is systematized. According to the invention, the index structure is presented by utilizing information such as a marking index system, an entity structure and the like after multi-source data fusion, and compared with the prior art, the index system is more standard and has clearer levels; the entity classification is clear and the structure is uniform; the expression mode is simple and the combination mode is flexible.

2) And (6) associating. In the extraction process, the index structure, data and other information presented by the invention record the data relationship information in the separation process of the main and auxiliary entities, and the source information and other implicit relationship attributes in the index fusion process, compared with the prior art, the entities, the data and the index structure can be correlated; and the layer-by-layer retrospective restoration of the entity and the data is realized.

3) And (6) visualizing the scene. The information of the source base table, the entity, the index and the like presented by the invention records rich application scene information in the processes of data extraction and entity separation, and compared with the prior art, the source base table, the entity, the index, the data and the like can present the application scene in real time.

Drawings

FIG. 1 is a schematic structural diagram of a user interaction interface during presentation in accordance with the present invention;

FIG. 2 is a block diagram of the present invention;

FIG. 3 is a flow chart of the present invention;

FIG. 4 is a schematic diagram of a workflow of the raw data structure rendering process according to the present invention;

FIG. 5 is a schematic view of a workflow for automatic presentation of a resource directory according to the present invention;

FIG. 6 is a schematic diagram of a work flow of automatic construction of the index system according to the present invention;

FIG. 7 is a schematic view of the automatic data extraction process of the present invention;

fig. 8 is a schematic diagram of a workflow of the entity scene retroactive restoration according to the present invention.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

A processing method for data presentation of multi-source index structure fusion and scene restoration is characterized in that a user interaction interface is constructed based on six databases, original data structures, resource classification, index system structures, data and traceability information are presented according to personalized options of a user, and meanwhile application scenes of the selected information items are displayed in real time.

The seven databases include: 1) an original data database OVDB (origin value database) for storing original data converted from spreadsheet data into database format; 2) a source application scene database SDB (sense database) for storing information such as source, library and table; storing information such as table documents, sample table documents, index structures, table numerical items and the like, and corresponding relations among the information; 3) an entity dynamic database RVDB (relative Variety database) for storing the indexes and data of the entities from different sources after integration; 4) an entity dynamic application scene database SRVDB (sense of relative Variety database) for storing the information of source, library, table and the like of multi-source data based on an entity dynamic library (RVDB), and the information of application scenes of a main entity, an auxiliary entity, the main entity and the auxiliary entity; 5) an entity Directory database EDDB (entity Directory database) stores entity Directory information of different sources of externally provided services; 6) index structure database IDB (indicators DataBase), index structure IS at the storage period, and standard index system structure EIS.

In the present invention, the terminology used includes: 1) a Source (Source) S, which is used to describe a set of data sets of a particular subject, with stability and continuity over a period of time; 2) a repository (Data-Set) DS, which refers to a Set of Data sets generated by a source over a period of time, and may be composed of one or more two-dimensional Data tables; 3) table (Table) T, which refers to a two-dimensional data Table in the library; 4) an Entity (Entity), which can be a research object with relative stability and uniqueness described by a group of characteristic variables, is divided into a main Entity and an auxiliary Entity according to the mutual dependent relationship among different entities; 5) a Main Entity (Main Entity) refers to a research Entity described by all or most of attributes in a source, generally, only one Main Entity in one source is represented in an Entity (Main Entity corresponding to the Entity) format, and the Main Entity is represented as m (m); 6) a subordinate Entity (subordinate Entity) refers to an Entity dependent on a principal Entity in a source, and generally, a subordinate Entity is a part of the principal Entity or a set of variables used for describing attributes of the principal Entity, and is represented in a format of "Entity (principal Entity corresponding to Entity)", and the subordinate Entity is represented as s (m).

In order to satisfy the personalized interaction between the user and the module, the user interaction interface displayed by the invention mainly comprises a functional area, an original data display area, a resource classification display area, an index system display area, a user selection area and a data display and application scene tracing area, as shown in fig. 1. Wherein: 1) a function area providing a system function set for a user; 2) the original data display area displays the structure and hierarchy of original data, application scene and other information according to the modes of a source, a library, a table and the like; 3) the resource classification display area displays information such as entity data and application scenes according to a resource catalog set by the system; 4) the index system display area is used for displaying information such as an index system of a source base table or an entity, an application scene and the like according to user requirements; 5) the user selection area displays information such as a source base table, an entity, an index and the like which are selected by a user according to the user requirement; 6) and the data display and application scene traceability area displays the related data and application scene traceability information according to the user requirements.

The implementation of the invention depends on a plurality of modules to realize, as shown in fig. 2, the invention comprises a user personalized interaction device, an original data structure presenter, a resource directory automatic presenter, an index system automatic construction presenter, a data automatic extractor and a scene tracing restorer; the system comprises an original data structure presenter, a resource directory automatic presenter, an index system automatic construction presenter, a data automatic extractor and a scene tracing restorer.

A processing method for data presentation of multi-source index structure fusion and scene restoration is disclosed, and the flow is shown in FIG. 3, which specifically includes the following steps.

A1. Initializing a user interaction interface according to a framework structure set by a system, wherein the user interaction interface comprises a function area, a data source structure display area, a resource classification display area, an index system display area, a user selection area and a data display and application scene tracing area.

A2. And according to the functions set by the user, a functional area is constructed for the user to select, and user selected information GN is obtained, wherein the user selected information GN comprises index information ZB, time information DATA and the like.

A3. Reading related data by using an original data structure presenter, constructing an original data display area for a user to select, monitoring user selection information GN transmitted in the step A2, and updating the information of the original data display area in real time; and then, reading and presenting application scene information of the related original data according to the option information YX of the user in the original data display area.

The flow of the original data presentation method in this step is shown in fig. 4, and the source, library, table and corresponding application scenario information of the original data are presented according to a hierarchical structure, and the specific method is as follows.

A31. And reading a data set DSA of source, library and table information from a source application scene database SDB by default according to the hierarchical structure of the source, library and table, and initializing an original data display area of a user interaction interface for a user to select.

A32. Monitoring and receiving the selected information GN transmitted by the functional area, judging whether the selected information GN exists, if so, executing the step A33, otherwise, executing the step A34.

A33. And filtering the data set DSA according to the selected information GN to form a data subset DSA ', and updating the original data display area by using the data subset DSA' for the user to select.

A34. And acquiring the option information YX of the user in the original data display area according to the user requirement.

A35. And reading and presenting corresponding survey system, sample list, warehousing time and data range application scene information from a source application scene database SDB according to the option information YX, writing the option information YX into a user selected area, transmitting the option information YX into an index system automatic builder, and ending.

A4. Reading related data by using a resource directory automatic presenter, constructing a resource classification display area for a user to select, monitoring user selection information GN transmitted in the step A2, and updating information of the resource classification display area in real time; and then, reading and presenting application scene information of related resource classification according to the option information ZX of the user in the resource classification display area.

The resource directory automatic presenter in this step presents the entity and the application scenario corresponding to the entity according to the preset resource directory hierarchical structure, and the specific flow is as shown in fig. 5, and the method is as follows.

A41. And reading a data set DSB of the entity directory information from the entity directory database EDDB by default according to a preset resource directory structure, and initializing a resource classification display area of the user interaction interface.

A42. Monitoring and receiving the selected information GN transmitted by the functional area, judging whether the selected information GN exists, if so, executing the step A43, otherwise, executing the step A44.

A43. And filtering the data set DSB according to the selection information GN to form a data subset DSB ', and updating the resource classification display area by using the data subset DSB' for the user to select.

A44. And acquiring the option information ZX of the user in the resource classification display area according to the user requirement.

A45. And reading and presenting corresponding source, library, main entity and accessory entity application scene information from the entity dynamic library application scene database SRVDB according to the option information ZX, writing the option information ZX into a user selected area, transmitting the option information ZX into an index system automatic builder, and ending.

A5. Monitoring the option information YX transmitted by the step A3 and the option information ZX transmitted by the step A4, reading related data by using an index system automatic builder, and presenting an index system structure in an index system display area; and then, reading and presenting application scene information of a related index system structure according to the selection item information BX of the user in the index system display area.

The automatic indicator system builder of this step builds an indicator system according to the user's requirements, and presents the corresponding application scenario, and the specific flow is as shown in fig. 6, and the method is as follows.

A51. And monitoring and receiving the selection item information YX of the original data structure presenter and the selection item information ZX of the resource directory automatic presenter.

A52. If the option information YX exists, it jumps to the step a53 execution, and if the option information ZX exists, it jumps to the step a55 execution.

A53. Reading index system structure information eis from a corresponding index structure database IDB according to the selection item information YX; and constructing an index system structure by using the index system structure information eis, and presenting the index system structure in an index system display area for the user to select.

A54. Acquiring selection item information BX of a user in an index system display area according to user requirements; and according to the selection item information BX, reading and presenting the application scene information comprising the same-name indexes and the index sources from the corresponding index structure database IDB and the source application scene database SDB, and simultaneously, jumping to the step A57 for execution.

A55. Reading entity index system structure information rvis from a corresponding entity dynamic database RVDB according to the selection item information ZX; and constructing an index system structure by utilizing the entity index system structure information rvis, and displaying the index system structure in an index system display area for a user to select.

A56. According to the user requirement, acquiring the option information BX of the user in the index system display area, reading and presenting the application scene information comprising the main entity, the subordinate entities and the corresponding relation between the main entity and the subordinate entities from the entity dynamic database RVDB and the entity dynamic database application scene database SRVDB according to the option information BX, and simultaneously, jumping to the step A57 for execution.

A57. And writing the user selection item information BX into the user selection area.

A6. Displaying the selected information of the user in the user selection area according to the selection item information BX, the selection item information YX and/or the selection item information ZX of the user; meanwhile, function keys of 'browsing data' and 'downloading data' are provided for the user to select.

A7. And judging the option information SX of the user in the user selected area, jumping to the step A8 for execution if the user selects a 'browse data' function key, and jumping to the step A9 for execution if the user selects a 'download data' function key.

A8. And reading related data by using the automatic data extractor, presenting the data in the data display and application scene tracing area, and presenting the data scene tracing information by using the scene tracing reducer according to the requirements of a user on selection of the data display and application scene tracing area.

The data automatic extractor in this step calls related data according to a user instruction, and provides data browsing and downloading, and a specific flow is shown in fig. 7, and the method is as follows.

A81. And monitoring and receiving option information SX of a user in a user selected area.

A82. Reading user authority information PL, and reading information such as option information YX, option information ZX and option information BX of the user selected area.

A83. It is judged that if the option information YX exists, it jumps to the step a84 execution, and if the option information ZX exists, it jumps to the step a85 execution.

A84. And reading related data information from a corresponding original data database OVDB according to the option information YX and the user authority information PL according to the option information BX to form a data set DSC, and jumping to the step A86 for execution.

A85. According to the option information ZX, reading related data information from the corresponding entity dynamic database RVDB according to the option information BX in combination with the user right information PL to form a data set DSD, and jumping to step a86 for execution.

A86. Reading the option information SX of the user in the user selection area, judging, jumping to step A87 to execute if the option information SX is preview data, and pushing the data of the data set DSC or data set DSD to the user if the option information SX is download data, and ending.

A87. And presenting the data of the data set DSC or the data set DSD in a data display area for a user to select.

A88. And acquiring the recording information RX selected by the user in the data display area, transmitting the recording information RX to the scene tracing restorer, starting the scene tracing restorer to operate, and ending.

The scene tracing restorer described in this step calls data scene tracing information from a relevant database according to a user instruction, and presents the data scene tracing information in a data display area, and a specific flow is shown in fig. 8, and the method is as follows.

A881. Monitors and receives the logging information RX.

A882. Reading the option information ZX of the user selected area and reading the user authority information PL.

A883. And judging whether the option information ZX exists or not, if so, executing the step A884, and if not, ending.

A884. And setting a temporary variable RX, and assigning the record information RX to the temporary variable RX.

A885. And judging whether the user can trace the source of the information of the temporary variable rx or not according to the user authority information PL, if so, jumping to the step S886 for execution, and if not, ending.

A886. And reading corresponding record data r from a corresponding entity dynamic database RVDB according to the related attribute of the temporary variable rx in combination with the user permission information PL.

A887. And taking the relevant information of the recorded data r as scene tracing information of the temporary variable rx, and displaying the scene tracing information in a data display area for a user to select.

A888. According to the user selection item, the record information selected by the user is obtained and given to the temporary variable rx, and simultaneously, the step A885 is skipped to execute.

A9. And extracting related data by using an automatic data extractor for downloading by a user.

The application of the invention can realize the following functions.

1) The index structure system and the expression mode are flexible. According to the invention, by utilizing the information of the fused multi-source standard index system, the entity structure, the entity directory item and the like, the data can be presented with the index structure and the data according to the modes of a source library table, a resource directory, an entity and the like and according to the needs, so that the index is more standard, the hierarchy is clearer, the structure is more systematic and the expression is more flexible.

2) Data interconnection and relationships are various. The invention realizes the mutual association of data, the mutual integration of indexes, the individualized and diversified presentation of data relation by utilizing the formed same entity information, entity directory information, entity dynamic library information and the like.

3) Data can be traced back, and a scene can be restored. According to the invention, through utilizing the formed information such as the source application scene, the dynamic library application scene, the entity application scene, the same entity and the like, the layer-by-layer traceability of the data and the real-time presentation of the scene are realized, so that the data direction is more definite, the expression is more accurate, and the readability is stronger.

Claims (6)

1. A processing method for data presentation of multi-source index structure fusion and scene restoration is characterized by comprising the following steps:

A1. initializing a user interaction interface according to a framework structure set by a system, wherein the user interaction interface comprises a function area, a data source structure display area, a resource classification display area, an index system display area, a user selection area and a data display and application scene tracing area;

A2. according to the function set by the user, a functional area is constructed for the user to select, and user selection information GN is obtained;

A3. reading related data by using an original data structure presenter, constructing an original data display area for a user to select, monitoring user selection information GN transmitted in the step A2, and updating the information of the original data display area in real time; then, reading and presenting application scene information of related original data according to the option information YX of the user in the original data display area;

A4. reading related data by using a resource directory automatic presenter, constructing a resource classification display area for a user to select, monitoring user selection information GN transmitted in the step A2, and updating information of the resource classification display area in real time; then, reading and presenting application scene information of related resource classification according to the option information ZX of the user in the resource classification display area;

A5. monitoring the option information YX transmitted by the step A3 and the option information ZX transmitted by the step A4, reading related data by using an index system automatic builder, and presenting an index system structure in an index system display area; then, reading and presenting application scene information of a related index system structure according to the option information BX of the user in the index system display area;

A6. displaying the selected information of the user in the user selection area according to the selection item information BX, the selection item information YX and the selection item information ZX of the user; meanwhile, providing functional keys of 'browsing data' and 'downloading data' for the user to select;

A7. judging the option information SX of the user in the user selected area, if the user selects the function key of 'browse data', jumping to the step A8 for execution, and if the user selects the function key of 'download data', jumping to the step A9 for execution;

A8. reading related data by using a data automatic extractor, presenting the data in a data display and application scene tracing area, and presenting data scene tracing information by using a scene tracing reducer according to the selection requirement of a user in the data display and application scene tracing area;

A9. and extracting related data by using an automatic data extractor for downloading by a user.

2. The processing method for data presentation of multi-source index structure fusion and scene restoration according to claim 1, wherein the method for original data presentation in step a3 is to present the source, library, table and corresponding application scene information of original data according to a hierarchical structure, and the specific method is as follows:

A31. reading a data set DSA of source, library and table information from a source application scene database SDB by default according to the hierarchical structure of the source, library and table, and initializing an original data display area of a user interaction interface for a user to select;

A32. monitoring and receiving selected information GN transmitted by the functional area, judging whether the selected information GN exists, if so, executing step A33, otherwise, executing step A34;

A33. filtering the data set DSA according to the selected information GN to form a data subset DSA ', and updating an original data display area by using the data subset DSA' for selection by a user;

A34. acquiring option information YX of a user in an original data display area according to user requirements;

A35. and reading and presenting corresponding survey system, sample list, warehousing time and data range application scene information from a source application scene database SDB according to the option information YX, writing the option information YX into a user selected area, transmitting the option information YX into an index system automatic builder, and ending.

3. The processing method for data presentation of multi-source index structure fusion and scene restoration according to claim 1, wherein the automatic resource directory presenter of step a4 presents the entity and the application scene corresponding to the entity according to a preset resource directory hierarchical structure, and the specific method is as follows:

A41. reading a data set DSB of entity directory information from an entity directory database EDDB by default according to a preset resource directory structure, and initializing a resource classification display area of a user interaction interface;

A42. monitoring and receiving selected information GN transmitted by the functional area, judging whether the selected information GN exists, if so, executing step A43, otherwise, executing step A44;

A43. filtering the data set DSB according to the selected information GN to form a data subset DSB ', and updating the resource classification display area by using the data subset DSB' for the user to select;

A44. acquiring option information ZX of a user in a resource classification display area according to user requirements;

A45. and reading and presenting corresponding source, library, main entity and accessory entity application scene information from the entity dynamic library application scene database SRVDB according to the option information ZX, writing the option information ZX into a user selected area, transmitting the option information ZX into an index system automatic builder, and ending.

4. The processing method for data presentation of multi-source index structure fusion and scene restoration according to claim 1, wherein the index system automatic builder of step a5 builds an index system according to user requirements and presents a corresponding application scene, and the specific method is as follows:

A51. monitoring and receiving selection item information YX of an original data structure presenter and selection item information ZX of a resource directory automatic presenter;

A52. if the option information YX exists, jumping to the step a53 execution, if the option information ZX exists, jumping to the step a55 execution;

A53. reading index system structure information eis from a corresponding index structure database IDB according to the selection item information YX; constructing an index system structure by using the index system structure information eis, and presenting the index system structure in an index system display area for a user to select;

A54. acquiring selection item information BX of a user in an index system display area according to user requirements; reading and presenting application scene information including the same-name indexes and the index sources from the corresponding index structure database IDB and the source application scene database SDB according to the selection item information BX, and simultaneously, jumping to the step A57 to execute;

A55. reading entity index system structure information rvis from a corresponding entity dynamic database RVDB according to the selection item information ZX; constructing an index system structure by utilizing the entity index system structure information rvis, and displaying the index system structure in an index system display area for a user to select;

A56. according to the user requirements, acquiring selection item information BX of a user in an index system display area, reading and presenting application scene information comprising a main entity, an auxiliary entity and a corresponding relation between the main entity and the auxiliary entity from an entity dynamic database RVDB and an entity dynamic database SRVDB according to the selection item information BX, and simultaneously, jumping to the step A57 for execution;

A57. and writing the user selection item information BX into the user selection area.

5. The processing method for data presentation of multi-source index structure fusion and scene restoration according to claim 1, wherein the automatic data extractor in step A8 retrieves related data according to a user instruction, and provides data browsing and downloading, and the specific method is as follows:

A81. monitoring and receiving the option information SX of the user in the user selected area,

A82. reading user authority information PL, and reading information such as option information YX, option information ZX and option information BX of a user selected area;

A83. judging, if the option information YX exists, jumping to the step A84 to execute, if the option information ZX exists, jumping to the step A85 to execute;

A84. reading related data information from a corresponding original data database OVDB according to the option information YX and the option information BX in combination with the user authority information PL to form a data set DSC, and jumping to the step A86 for execution;

A85. reading related data information from a corresponding entity dynamic database RVDB according to the option information ZX and the option information BX in combination with the user authority information PL to form a data set DSD, and jumping to the step A86 for execution;

A86. reading the option information SX of the user in the user selection area, judging, jumping to step A87 to execute if the option information SX is preview data, and pushing data of a data set DSC or a data set DSD to the user if the option information SX is download data, and ending;

A87. data of the data set DSC or the data set DSD are presented in a data display area for a user to select;

A88. and acquiring the recording information RX selected by the user in the data display area, transmitting the recording information RX to the scene tracing restorer, starting the scene tracing restorer to operate, and ending.

6. The processing method of data presentation of multi-source index structure fusion and scene restoration according to claim 5, wherein the scene tracing restorer of step a88 retrieves data scene tracing information from a related database according to a user instruction, and presents the data scene tracing information in a data presentation area, and the specific method is as follows:

A881. monitoring and receiving recorded information RX;

A882. reading the option information ZX of the user selected area and reading the user authority information PL;

A883. judging whether the option information ZX exists, if so, executing the step A884, otherwise, ending;

A884. setting a temporary variable RX, and assigning the record information RX to the temporary variable RX;

A885. judging whether the user can trace the source of the information of the temporary variable rx or not according to the user authority information PL, if so, jumping to the step S886 for execution, otherwise, ending;

A886. reading corresponding recorded data r from a corresponding entity dynamic database RVDB according to the relevant attribute of a temporary variable rx by combining user authority information PL;

A887. the related information of the recorded data r is used as scene tracing information of the temporary variable rx and is displayed in a data display area for a user to select;

A888. according to the user selection item, the record information selected by the user is obtained and given to the temporary variable rx, and simultaneously, the step A885 is skipped to execute.

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