CN115129216A - Cross-organization data configuration management method and system - Google Patents

Abstract

The invention relates to a cross-organization data configuration management method and a system, wherein the method can be operated in a zero-code mode, and the method at least comprises the following steps: in response to a space creation request, creating at least one subordinate user space corresponding to the designated user space based on the designated user space, wherein the subordinate user space is actively configured with general data corresponding to the level of the subordinate user space and user space specific data configured by a user in a customized manner, and the creation operation and/or the customized configuration of the user space are performed based on visible operation instructions of the user. The system realizes the creation and the custom configuration of the user space in a zero-code mode, can ensure that data can be subjected to standard customization, data diversified input, baseline management, effective data transmission and data safety management, has a complete authority system, can be self-perfected and energized, and does not need developers to participate.

Description

Cross-organization data configuration management method and system

Technical Field

The present invention relates to the field of data configuration technologies, and in particular, to a cross-organization data configuration management method and system.

Background

With the advance of digital construction, more and more enterprises realize the transition from informatization to digitization, but in the construction process, data among different organizations, including enterprises, departments, branch companies, sub-companies, systems and subsystems, are in a split form, so that resource waste is caused. The system has various types, and the related services are different, so that the requirements are different; the technologies adopted by part of the systems are too old, the upgrading and maintenance cost is high, and effective upgrading cannot be carried out. The system construction cost budget of each independent organization is low because each organization has no overall planning. These factors lead enterprises to have great difficulty in advancing the digitization process, and a platform with a high starting point overall architecture and low cost and sustainable development needs to be introduced. According to the needs of the national sustainable development strategy, the platform should have the capability of initializable expansion and collaborative development to realize good data management ecology.

In particular, when a large-scale company has many subsidiaries, many kinds of projects, many and complex project data types, and the data extraction related to the project is complicated. Moreover, the authority management of a plurality of projects can only be embodied in code information of background data and cannot be visually displayed on a terminal, so that managers of each project cannot call corresponding data or build management data of corresponding levels according to levels and subordinate authorities, and the management capability and the information interaction capability among a plurality of subsidiaries are greatly limited. In the prior art, a manager can only see data in the authority of the manager by taking a corresponding account and a corresponding password. The superior data of the project data is managed in several levels, the information is well established in a background, and managers cannot directly know and directly adjust and manage the authority. Similarly, a high-level manager cannot synchronously display and synchronously call the projects belonging to the plurality of subsidiaries managed by the manager according to the levels, can only sequentially view data of each project, is time-consuming and obvious, but cannot change the data, and particularly cannot directly and intuitively change the management authority of each project, the management level of each project and the data adjustment of each project from a terminal without using codes. However, when the authority level of a certain item needs to get rid of the authority control of the current upper management, even if the upper manager agrees, the terminal cannot directly see the upper shutdown mechanism and directly apply for the management authority transfer of the item management to the upper level, so that the current situation has to be maintained.

For example, chinese patent CN113646754A discloses a cross-organization worksheet sharing method including: receiving a data set configuration for a worksheet from a client, wherein the data set configuration comprises permissions on data sets from databases stored on a cloud-based data warehouse managed by the client; generating worksheet metadata for the worksheet using the dataset; and in response to receiving a request for the worksheet from a client system: sending a database query to the cloud-based data warehouse, wherein the database query is generated using the worksheet metadata comprising the permissions on the dataset; receiving the data set from the cloud-based data warehouse in response to the database query; and presenting the worksheet containing the dataset to the client system using the dataset configuration, including limiting the presentation based on permissions on the dataset received from the client. Although the invention can realize the sharing of the cross-organization worksheet, the invention can not realize the cross-organization management of the worksheet.

Chinese patent CN109033444A discloses a method and device for realizing cross-organization boundary data sharing based on object storage technology, which includes: performing data processing on the file in the object storage device by using the metadata server, and generating operation information according to the data processing; according to the operation information, according to different classes of tenants, allocating independent logic spaces in the object storage equipment; the logical space needs to authenticate the visitor when accessing; distributing the logic spaces to obtain an original catalog, a backup data catalog and an unstructured catalog of each logic space; determining a logic space to be operated according to the operation information, and performing data processing operation on data in an original directory of the logic space to be operated; and transferring the data subjected to the data processing operation to a metadata server to realize data sharing. Although the invention can realize cross-organization sharing of data, the authority level relation of each management organization is in background coding, and a manager cannot manage each project in a visible mode at a terminal.

For example, chinese patent CN114022119A discloses a zero-code project management method, a network device and a storage medium of a project management system, the method includes: responding to the project creation request, and outputting the selectable modules and the corresponding operation authority; acquiring selected information; the selected information comprises a selected target module and corresponding operation authority; associating a target user of a target module; the target user corresponds to a login account of the project management system; responding to the login request, and acquiring account information in the login request; according to the account information, confirming that the login user is the target user; displaying functional information which can be operated by a target user on a page corresponding to a target module in the project management system; and the function information operated by the target user corresponds to the operation authority of the target module.

The prior art cannot realize cross-enterprise, cross-organization, cross-stage, cross-industry and cross-data type services at present, does not have a complete authority system under the condition of no participation of developers, and cannot complete and enable self.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the applicant has studied a great deal of documents and patents in making the present invention, but not the details and contents thereof listed therein, the present invention is by no means characterized by those prior art, but by the fact that the present invention has all the features of the prior art, and the applicant reserves the right to add related art to the background art.

Disclosure of Invention

Technical schemes of cross-organization worksheet sharing, data sharing and the like realized in the prior art can be realized only by professional developers. Common workers cannot realize cross-enterprise, cross-organization, cross-stage, cross-industry and cross-data type business of metadata without the participation of professional developers.

Aiming at the defects of the prior art, the invention provides a cross-organization data configuration management method and a cross-organization data configuration management system, which can realize the organization of metadata in a configuration management mode only by using natural language without using programming language, thereby ensuring that data can be subjected to standard customization, data diversification input, baseline management, effective data transmission and data safety management, and meanwhile, the system has a complete authority system and can be self-perfected and energized.

A cross-organization data configuration management method, the method operable in a zero-code manner, the method comprising at least:

creating, in response to the space creation request, at least one subordinate user space corresponding thereto based on the designated user space,

the lower level user space is actively configured with general data corresponding to its level and user space specific data configured by user-definition, wherein,

the creation operation and/or the custom configuration of the user space are carried out based on visible operation instructions of a user.

Preferably, the visible operation instruction at least comprises operation instructions in the forms of clicking, selecting, inputting natural language information and inputting voice information.

Preferably, several subordinate user spaces can accept the viewing and/or management of their superior spaces in a parallel and/or subordinate manner, and the viewed and/or managed data at least comprises class data and running state.

Preferably, under the condition that the upper level space to which the designated user space belongs agrees, the designated user space can realize space transfer in a mode of not being managed by the authority of the upper level space; and/or

Under the condition that the upper level space to which the designated user space belongs agrees, the designated user space can be adjusted in a space level mode without being managed by the authority of the upper level space.

Preferably, the user space can independently configure the micro-service data of the user space in a customized manner by the user,

the configuration of the microservice data can be effected by visible operating instructions, and/or

The microservice data enables the addition or adjustment of unrecorded microservices in the form of added code.

Preferably, the data interface of the user space is at least provided with a space interface and/or a class interface,

under the condition that the space interface is in an open state, any two user spaces can perform data interaction between the user spaces under the condition that the space interface establishes connection, and/or

Under the condition that the class interface is in an open state, any two user spaces can carry out mapping relation configuration of class data and/or fields between the user spaces under the condition that the class interface establishes connection.

Preferably, the user space-specific data configured by user-definition comprises at least configuration data displayed in natural language and configured in a visible manner of operation,

the configuration type of the custom configuration at least comprises class configuration, rule configuration, event configuration, trigger configuration, authority configuration, relation configuration, interface configuration, page configuration, space configuration and/or template configuration.

Preferably, in response to viewing and/or managing command information of an upper level user space, a number of subordinate spaces and/or subordinate spaces of the lower level space belonging to the upper level user space can visually list and display data contents or space operation states related to the command information.

Preferably, in response to a creation request of a designated user space, the designated user space and its dependent user spaces can be copied and created in a template manner.

The invention also provides a data configuration management system, which at least comprises:

a creating unit for creating at least one lower level user space corresponding thereto based on the designated user space in response to the space creation request,

a configuration unit for actively configuring the generic data corresponding to the level of the subordinate user space and performing a user-defined configuration of the user space-specific data based on a user operation,

the creation operation and/or the custom configuration of the user space are carried out based on visible operation instructions of a user.

The creation unit and the configuration unit can be integrated on one processor or application specific integrated chip. Alternatively, the data configuration management method of the present invention is executed by one, two or more processors or application-specific integrated chips as a connected creation unit and configuration unit, respectively.

Drawings

FIG. 1 is a schematic diagram of logical association of configuration management of spaces in a preferred embodiment provided by the present invention;

FIG. 2 is a schematic diagram of a configuration service provided by the cross-organizational data configuration management system provided by the present invention.

List of reference numerals

1: a system service project; 2: a space service item; 3: zero level data; 101: a first level first user space; 102: a first level second user space; 110: first-level general data; 120: first user space specific data; 130: second user space specific data; 203: a second level third user space; 204: a second level fourth user space; 210: second level general data; 230: general data of upper level space; 240: fourth user space specific data; 300: and (5) performing space transfer operation.

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

The invention provides a cross-organization data configuration management method and a cross-organization data configuration management system. The present invention can also provide a storage device capable of storing an operation program of the data arrangement management method of the present invention. The invention also provides an electronic device which can operate and operate the cross-organization data configuration management method.

System service item 1: refers to the service provided by the data configuration management system, which is the smallest microservice.

And under the condition of upgrading the data configuration management system, only part or all modules in the microservice are upgraded. In addition, the system is upgraded in an incremental mode, and the storage and the use of user data cannot be influenced. The number of the micro-services is small, the micro-services are basically stable, no subversive change exists, and the micro-services are convenient to maintain and upgrade. Allowing specific microservices to be installed in specific spaces without affecting the underlying service logic.

As shown in FIG. 2, the data configuration management system provides multidimensional microservices. The microservice is based on service items on a base service paper, allowing a user to perform configuration operations. Through configuration management, a user can create a collaborative workspace and define collaborative work data and services.

As shown in fig. 2, the basic service items include at least a log system, a basic rights management system, a database payment service system, and basic metadata.

The micro-service of the configuration of the data configuration management system at least comprises the following steps: metadata configuration, class configuration, rule configuration, event configuration, authority configuration, space setting, page configuration, relationship configuration, trigger configuration and interface configuration.

And (3) metadata configuration: the metadata configuration is a configuration of data types. The data configuration management system provides common data types including: common data types: bone, int, double, string, date _ and _ time and special data types image (picture), file, foreign key, etc. The data configuration management system supports custom data types, including: custom length strings, text and numbers with data sets, etc.

Class configuration: the data configuration management system provides a method for configuring classes. When creating a class, whether an instance of the class is a single instance or a multi-instance needs to be defined, attributes can be added in the class by using metadata, and each class has a unique identifier in a system and cannot be repeated. Within a class, rules can be referenced so that data standards can be configured. The class definition is wide, and can be used for defining personnel, equipment, roads, safety quality risk classification, environment, point surface body, business forms and the like.

Rule configuration: some rules of data need to be defined, such as formula calculation, data association, data verification, automatic sequence, unique judgment, data set linkage, page behavior linkage and the like,

event configuration: the data configuration management system provides an event configuration function, can configure the instance creation and data modification logic of a class independently, and can configure the data summary report event to be provided for triggering and calling so as to modify the business of data or output the data result.

Triggering and configuring: the data configuration management system provides a plurality of triggering modes including: button triggering, timing triggering, condition triggering and the like, wherein the condition triggering can monitor attribute change of the class instance, and an event is called to perform data processing after the condition is met.

And (3) permission configuration: the data configuration management system can configure the authority in the space and associate the user with the authority through the basic service. Configurable permissions include: the authority of each class, the independent authority of the attribute in each class, the authority of each function button and operation in the current-level space can be independently configured, and the administrator authority of all the subordinate spaces can be configured.

And (3) relation configuration: the data configuration management system provides a relationship maintenance function, can customize relationship types, and comprises the following steps: parent-child relationships, peer relationships, collaborative relationships, logical position relationships, spatial position relationships, and the like, and the relationships can be referred by examples and can be used for calling and displaying two-dimensional and three-dimensional data.

Interface configuration: the interfaces are divided into two interfaces of space and space, class and class. The configuration content comprises independent opening of space and class interfaces, mapping relation of classes and fields and the like, and the data interaction between the space and the space can be realized by opening the space and the space interfaces. And realizing data interaction between classes through interface configuration of the classes. And the interface is allowed to be opened, the classes of different spaces are accessed, and data interaction and transmission are carried out.

Page configuration: the data configuration management system provides basic navigation, pages, windows, and dashboards. The method can configure menus and buttons, configure views, configure page input control such as page filling, read-only and hiding, realize linkage between multiple data and buttons, refer an association process to a page through configuration, and realize rapid data association circulation and query.

Spatial configuration: a data configuration management system provides a method for configuring a space. In the space configuration, a space can be defined to distribute the authority of an organization and a user, deploy an application and perform application management, support a space instance hierarchy configuration function, and support a configuration function of individually configuring classes, attributes, rules, events, triggers and the like in a space instance. Space migration and upgrade operations are supported.

Template configuration: the data configuration management system has rich configuration functions, and in order to avoid repeated configuration, the configuration can be stored as a template, and after the configuration is stored in the template, a space can be created by using the template, and a new space including metadata, classes, rules, pages, interfaces, authorities and the like can be created by attaching a configuration result.

The data configuration management system includes a system space. The system space belongs to the self-contained space of the system, provides basic system service and has the highest management authority. The system space has system services, subordinate spaces and services can be configured, service upgrading can be performed, and the sustainable expansion of the system is guaranteed. The system space can be developed as required for cooperative maintenance of the code, and can also be packaged without opening the system space permission.

System space data: the method mainly comprises management data, wherein the management data comprises a subordinate space running state, a server state, a database state, an authorized occupation state and the like, and no special user-defined service exists.

User space: the system is created by system space, has independent configuration and user functions, and can independently set database addresses, security policies and the like.

User space system service: the user space is authorized by the system space or the superior space to obtain all or part of system services, and can realize related data management and functions through system configuration and distribute the authority to the inferior space for use again.

User space service: the user space allows code to be added to realize special functions, such as interface adjustment, special algorithms and the like, and function maintenance and debugging are carried out on the basis of system service.

And (3) updating the spatial configuration: the spatial configuration supports real-time updating, an incremental updating method is adopted in the principle of configuration updating, historical data of a user and data in operation of the user are not influenced, and only future data of the user are updated according to methods and strategies.

Spatial user usage: the user can carry out data acquisition, data input, data linkage updating and the like through the space, and daily work can be carried out more familiar through the personalized configuration page. The space user is the only management in the whole system, and the user can carry out ownership transfer on data and services.

Spatial data and services: the method has the advantages that the instance is obtained in the class range, attribute content can be added, modified and deleted, the instance and the data modification record can be recorded based on the system log, and cross-instance, cross-category and cross-space transmission can be performed on the data based on the interface. Based on data transfer between each space, data combination version control and data baseline management can be achieved.

General data service: the universal data service is characterized in that the service data rule can be standardized, customized, used and uniformly maintained relative to different space ranges.

Exclusive data service: the exclusive data service is an application created in the space, is not applied to other spaces, and the data can still interact with data and applications in other different spaces through interfaces and mapping.

And (3) conversion between the general data service and the special data service: the universal data service and the exclusive data service can be mutually converted, and when the exclusive data service is opened to a subordinate space or other spaces, the exclusive data service is converted into the exclusive data service.

Spatial transfer: the space and the hierarchy of the space are adjustable and transferable. The original subordinate space may become an independent space due to business reasons, so as to be separated from the association relation with the upstream space and have independent control authority.

System service data and user data: the system service data belongs to a management interface, and the system service data can configure functions and management authority; the user data is the actual application data generated in the service. The system configuration data and the user data are managed based on different interfaces of the authority. The historical user data cannot be seen in the configuration data modification, the historical user data cannot be influenced, and the configuration data cannot be influenced by the user data.

Example 1

Fig. 1 is a schematic diagram of logical association of actual operation interfaces of the cross-organization data configuration management method and system of the present invention.

As shown in FIG. 1, a cross-organizational data configuration management system includes at least one processor and a memory unit. The processor is used for creating a system space and a plurality of user spaces, and performing configuration management on the user spaces in response to the operation of a user. The processor is provided with at least one data interface.

The processor includes at least a creation unit and a configuration unit.

A creating unit for creating at least one lower level user space corresponding thereto based on the designated user space in response to the space creation request,

the configuration unit is used for actively configuring general data corresponding to the level of the subordinate user space and performing user-defined configuration of the exclusive data of the user space based on user operation, wherein the creation operation and/or the user-defined configuration of the user space are performed based on a visible operation instruction of a user.

The creation unit and the configuration unit can be integrated on one processor or application specific integrated chip. Alternatively, the data configuration management method of the present invention is executed by one, two or more processors or application-specific integrated chips as a connected creation unit and configuration unit, respectively.

The storage unit is at least used for storing zero level data, general data of each level space and user space exclusive data.

At least a system space is arranged in the processor. The system space provides the underlying system services and microservices. The data of the system space is zero level data 3. The zero-level data 3 is mainly management data, at least comprises a subordinate space running state, a server state, a database state, an authorized occupation state and the like, and no special user-defined service exists.

Preferably, the cross-organization data configuration management system further comprises at least one terminal. The terminal is used for receiving the operation instruction information of the user and sending the operation instruction information to the processor. The terminal is also used for displaying a cross-organization data configuration management interface and configuration management information to a user. The terminal is provided with at least one data interface which establishes a connection relationship with the data interface of the processor in a wired or wireless mode so as to transmit information. The terminal includes an interaction component for a user to input configuration information, management information and/or instruction information, etc.

In response to a space creation request message from at least one terminal, a system space in the processor creates a first level first user space 101. The first level first user space 101 is configured with first level general data 110. In response to the configuration information and the input information sent by the terminal, the first-level first user space 101 performs personalized configuration according to the configuration instruction information and the input information. The first level first user space 101 is set or entered by a first user and forms first user space specific data 120.

Preferably, the system space in the processor creates the first level second user space 102 in response to a space creation request message from a user terminal. The first level second user space 102 is configured with first level general data 110. In response to the configuration information sent by the terminal, the first-level second user space 102 performs personalized configuration according to the configuration instruction information and the input information. Second user space-specific data 130 is set or entered by a second user and formed within the first level second user space 102.

The first level first user space 101 and the first level second user space 102 belong to the same subordinate space of the system space. The first level first user space 101 and the first level second user space 102 belong to parallel user spaces, and each has independent configuration and user functions.

Preferably, the permissions of the respective first levels of user space are granted by the system space. Likewise, the rights of a user space at a certain level are granted by its upper level space. For example, the user space of the first level is an upper level space of the user space of the second level. The second level of user space is a lower level space of the first level of user space. The right of the user space can be re-assigned to the use of the subordinate space.

As shown in fig. 1, the second level third user space 203 is a lower level space of the first level second user space 102. In creating the space, the second-level third user space 203 can acquire not only the second-level general data 210 but also the upper-level spatial general data 230 set by the second-level third user space 203 from its upper-level space, i.e., the second-level third user space 203. The upper level space general data 230 may be partially from the first level general data 110 of the upper level space, or partially from the first user space specific data 120 of the upper level user space.

As shown in fig. 1, the second level fourth user space 204 is a lower level space of the first level first user space 101. Second level the fourth user space 204 is configured with second level general data 210. The fourth user space-specific data 240 of the second level fourth user space 204 may be partially from the first level general data 110 of the upper level space or partially from the second user space-specific data 130 of the upper level user space.

The configuration management information of each space is operable in natural language display, and common workers can create corresponding user spaces through interactive components at the terminal, even repeatedly create the same space, so that participation of developers is reduced, and cross-organization space creation and data sharing of the common workers are realized.

Preferably, in response to the creation request information of the terminal and the designated user space, the processor creates the same user space with the designated user space as a template. For example, the first level user space is provided with four second level user spaces. Then the new space created with the first level user space as a template is also the first level user space and also has four second level user spaces.

The space creation and the copy of different levels in the invention enable the staff not to be limited, manage the user space in the corresponding authority management and create a new space.

And a level incidence relation is set between the subordinate user space and the superior user space. The level association relationship between the subordinate user space and the superior user space can be eliminated based on the user operation, for example, in response to an operation instruction of the user, the level association relationship between the second-level third user space 203 and the superior space thereof is cancelled, so that the second-level third user space 203 forms an independent second-level space, and space transfer is realized.

In the case of a user space in a space migration, the hierarchy of the user space can be adjusted, or the user space does not have an upper user space and is directly subordinate to the management range of the system space. This enables the user space to be adjusted across the organization.

Preferably, the user space presents an interface when the space is created. The interface of the user space is capable of establishing connections to enable data interaction from space to space. The user space allows an open interface, accesses classes among different spaces, and performs data interaction and transmission.

Preferably, the space in the present invention can be displayed at least as data, a table, a virtual image, a virtual space, and the like at the terminal, and can be switched between a two-dimensional image and a three-dimensional image.

For example, when the terminal is a virtual image display device, a space of a certain user can be displayed as a two-dimensional image or a three-dimensional image.

And responding to a specific instruction sent by a user through the terminal, and interchanging and displaying the three-dimensional image of the user space and the two-dimensional image or the two-dimensional table.

For example, when the terminal is a VR device (virtual reality equipment), the first level first user space can be configured with a three-dimensional architectural model image presentation. The second level third user space can be configured with data of a two-dimensional table showing corresponding data with a three-dimensional building model image, for example, size data of respective parts of the building model. The second level third user space is a subordinate user space of the first level first user. And responding to the switching instruction information sent by the terminal, and switching the three-dimensional stereo image of the building model into a two-dimensional table of the building model by the processor for displaying.

Preferably, in response to the instruction information of the user terminal, the user space adjusts the spatial data of the user space in the virtual reality environment in real time based on the behavior information and/or the control instruction fed back by the terminal. For example, the stereoscopic image of the building model displayed by the terminal realizes the display position change based on the behavior information and/or the control instruction fed back by the terminal.

Preferably, the association relationship of data between two user spaces is represented by a virtually visible identifier, thereby facilitating the judgment of the data association relationship of the user spaces by the user.

Preferably, the plurality of user spaces are displayed in the virtual environment in the form of a two-dimensional table in response to behavior information and/or control instructions transmitted by the terminal. In the case of an interfacing between two user spaces, the designation data of the a user space is transferred to the designation location of the B user space and a virtually visible identification is established. At this time, the designated data in the a space changes, and the related data in the B user space correspondingly changes. For example, the indicia may be a visible three-dimensional pattern of connected lines, lights, colors, motions, and combinations thereof.

For example, in a virtual environment, visible light is connected between the positions of the columns in the user space displayed as a three-dimensional building model and the data of the parts displayed as a two-dimensional table, and the parameters representing the column parts correspond to the data of the connected parts in the two-dimensional table. When the data of the connected part in the two-dimensional table is modified, the position of the column of the user space displayed as the three-dimensional building model is changed correspondingly in real time. Based on the association and the action of the two cross-organization user spaces, the user space with brand-new work content is generated, the complex steps of repeatedly copying data, searching data and circularly modifying the data by a user are reduced, the defect of incompatibility does not exist between the space data, and the real cross-organization, cross-stage and cross-data type information configuration and space sharing are realized. In the invention, the user space can be displayed in a virtual reality image through the terminal. And the scene in the virtual reality is configured and personalized by a user through the terminal. The user space can also create several sub-user spaces. The sub-user space is a lower-level user space of the user space, and the authority of the sub-user space is configured by the upper-level space. The sub-user spaces are allocated to different users for use, and the user-specific data is formed by different users in a customized mode.

As another example, the user has created a new user space that is presented in a two-dimensional table. However, the data for the new user space needs to come from thirty different types of user spaces with different attributes. In the virtual environment, thirty user space indications in various forms are displayed in different space orientations by a user, the user establishes data transmission indications for the data at the specified positions of the user spaces and the positions of the newly-built new user spaces, and the data at the specified positions are transmitted to the corresponding positions of the new user spaces in a manner of adapting to the classes of the new user spaces, so that the transmission and management of cross-data types are realized. Cross-organizational data configuration management can also be achieved when the user space is in a different organizational architecture.

As described above, the cross-organizational data configuration management method and system of the present invention, when configuring and managing data through different user spaces, overcome the drawback that data and/or management operations can only be transmitted by layer-by-layer management in the conventional management, achieve cross-organizational management of a higher-level user space on a lower-level space and several subordinate user spaces thereof, and also achieve cross-organizational, cross-layer data acquisition and configuration operations of the lower-level user space. All configuration operations of the invention are visible, and the user can perform visible operations through the terminal equipment, so that the difficulty of project management is obviously reduced, the standard customization of user space, data diversified input, baseline management, effective data transmission and data security management are realized, and meanwhile, the system has a complete authority system, can complete and enable itself, and does not need the participation of developers.

Preferably, error checking mechanisms also exist in the various spaces of the present invention. When the data of one space is from a plurality of spaces, the multi-class data in the space form space data information based on a scientific calculation method, and when the certain class of data is unreasonable, a user can simply trace the source according to the space data and the dependency relationship of the space, so that the source of the error data can be quickly found and the error data can be uniformly corrected. Therefore, the spatial dependency relationship and the spatial information thereof are self-consistent with each other to form an error checking mechanism for accurate tracing.

Therefore, in the cross-organization system, the configuration service related by the invention has an error checking mechanism, and system configuration accidents such as dead loop and the like are not allowed to occur, so that the functional safety of the system is ensured.

Meanwhile, the system has clear division and interfaces among all the configuration services, and the data can be successfully verified in the data transmission process among the modules so as to protect the data security of the system.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents. The present description contains several inventive concepts, such as "preferably", "according to a preferred embodiment" or "optionally", each indicating that the respective paragraph discloses a separate concept, the applicant reserves the right to submit divisional applications according to each inventive concept.

Claims (10)

1. A method for cross-organization data configuration management, the method being operable with zero code, the method comprising at least:

creating, in response to the space creation request, at least one subordinate user space corresponding thereto based on the designated user space,

said lower level user space is actively provided with generic data corresponding to its level and user space specific data configured by user-definition, wherein,

the creation operation and/or the custom configuration of the user space are carried out based on visible operation instructions of a user.

2. The cross-organization data configuration management method according to claim 1, wherein the visible operation instructions at least comprise operation instructions in the form of clicking, selecting, inputting natural language information, inputting voice information.

3. The cross-organizational data configuration management method according to claim 1 or 2, wherein several lower level user spaces can accept viewing and/or management of their upper level spaces in a parallel and/or dependent manner, the viewed and/or managed data comprising at least class data and operating status.

4. The method for managing data configuration across organizations according to any one of claims 1 to 3, wherein, under the condition that the upper level space to which the designated user space belongs agrees, the designated user space can realize space transfer in a mode of not being managed by the authority of the upper level space; and/or

Under the condition that the upper level space to which the designated user space belongs agrees, the designated user space can be adjusted in a space level mode without being managed by the authority of the upper level space.

5. The cross-organization data configuration management method according to any one of claims 1 to 4, wherein the user space can be independently configured with micro-service data of the user space in a user-defined manner by a user,

the configuration of the microservice data can be effected by visible operating instructions, and/or

The microservice data enables the addition or adjustment of unrecorded microservices in the form of added code.

6. The method for managing data configuration across organizations according to any one of claims 1 to 5, wherein the data interface of the user space is at least provided with a space interface and/or a class interface,

in the case of an open state at a spatial interface, any two user spaces can interact with each other in terms of establishing a connection between the spatial interfaces, and/or

Under the condition that the class interface is in an open state, any two user spaces can carry out mapping relation configuration of class data and/or fields between the user spaces under the condition that the class interface establishes connection.

7. The cross-organization data configuration management method according to any one of claims 1 to 6, wherein the user space specific data configured by user-definition at least comprises configuration data displayed in natural language and configured in a visible operation mode,

the configuration type of the custom configuration at least comprises class configuration, rule configuration, event configuration, trigger configuration, authority configuration, relation configuration, interface configuration, page configuration, space configuration and/or template configuration.

8. The cross-organization data configuration management method according to any one of claims 1 to 7, wherein in response to view and/or management command information of an upper level user space, a plurality of lower levels of the upper level user space and/or a plurality of subordinate spaces of the lower levels can be visibly listed and display data contents or space operation states related to the command information.

9. The cross-organization data configuration management method according to any one of claims 1 to 8, wherein in response to a creation request of a designated user space, the designated user space and its dependent user spaces can be copied and created in a template manner.

10. A data configuration management system, comprising at least:

a creating unit for creating at least one lower level user space corresponding thereto based on the designated user space in response to the space creation request,

a configuration unit for actively configuring the generic data corresponding to the level of the subordinate user space and performing a user-defined configuration of the user space-specific data based on a user operation,

the creation operation and/or the custom configuration of the user space are carried out based on visible operation instructions of a user.

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