CN115080544A - Method and device for twin and subscription organization history state - Google Patents

Abstract

The application provides a method and a device for twin and subscribing historical states of tissues, which are used for realizing the historical state of a twin entity tissue through a digital twin technology. The method specifically comprises the following steps: respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of the at least one sub-tissue; the target organizational model and the at least one sub-organizational model each include a temporal attribute; setting values of time attributes in the target tissue model and the at least one sub-tissue model as historical time to indicate time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association relationship between the target tissue model and the at least one sub-tissue model, the first association relationship being used to associate the at least one sub-tissue model to the target tissue model.

Description

Method and device for twin and subscription organization history state

Technical Field

The application relates to the technical field of data processing, in particular to a method and a device for twin and subscription of historical states of organizations.

Background

An organization is a collective or group of people who cooperate and combine with each other to achieve a certain goal. In the industrial context, an organization may be different companies, may be different departments of the same company, may be with different teams in a single department, and so on. Regardless of the size of organization, it is necessary to grasp the history status information of the organization to manage the organization. It is difficult for general processing methods to efficiently manage such complicated and enormous information.

However, with the digital twinning technique, this problem can be effectively solved. The Digital Twin (DT) is also called as "Digital mapping" or "Digital mirror image", and is a simulation process that makes full use of data such as physical models, sensor updates, and operation histories, integrates multiple disciplines, multiple physical quantities, multiple scales, and multiple probabilities, and completes mapping in a virtual space, thereby reflecting the full life cycle process of corresponding entity equipment. In short, a digital twin is a virtual "digital twin", "digital clone" of a transaction in the real world in a virtual digital space. The digital twins originate from the field of industrial manufacturing, and with the industrial informatization, automation and the rapid development of the internet of things, the heat of the digital twins technology is continuously improved, so that the digital twins technology is considered to be one of the key technologies of the interconnection of everything.

Through a digital twinning technology, a digital model can be established for a real organization so as to realize the control on organization information. In the current digital twinning field, only a few twinning schemes are available for the historical state of the tissue.

Therefore, a method for twinning the historical state of the tissue is needed to achieve digital twinning of the historical state of the tissue.

Disclosure of Invention

The application provides a method and a device for twin and subscribing historical states of tissues, which are used for realizing the historical state of a twin entity tissue through a digital twin technology.

In a first aspect, the present application provides a method for history states of twin tissue, specifically comprising: aiming at a target tissue and at least one sub-tissue belonging to the target tissue, respectively establishing a target tissue model and at least one sub-tissue model; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute; setting values of time attributes in the target tissue model and the at least one sub-tissue model as historical time, wherein the historical time is used for indicating time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association of the target tissue model with the at least one sub-tissue model, the first association being used to associate the at least one sub-tissue model to the target tissue model.

In the scheme, digital twinning can be performed on each organization according to the actual organization situation to obtain the corresponding organization model, so that the information of each organization is provided for a user through the creation of each organization model, and the digital management of the organization is realized. Meanwhile, the time corresponding to each historical data in the organization model is recorded through the time attribute, so that the information stored in the organization model is more accurate and comprehensive. And moreover, the incidence relation among the organization models can be established according to the hierarchical relation among the real organizations, so that the information of the relation among the real organizations is provided for the user through the incidence relation among the organization models, and the efficiency of the user on organization management is improved.

Optionally, the historical time is at least one time before the current time or at least one duration before the current time.

In the method, the user can acquire the time corresponding to each historical data through the time attribute in the organization model, so that the historical state of the organization corresponding to the organization model and the information corresponding to the historical state are acquired more clearly, and the management of the organization information is enhanced.

Optionally, the first association relationship is used to indicate that the target tissue model and the at least one child tissue model are in a parent-child relationship.

In the method, the relation between the models is strengthened and the model management efficiency is improved through the first incidence relation.

Optionally, the establishing a first association relationship between the target tissue model and the at least one sub-tissue model includes: identifying the target organization model as a parent model, and identifying the at least one child organization model as a child model belonging to the parent organization model.

Optionally, the target tissue model and the at least one sub-tissue model further include spatial attributes, and the spatial attributes are used to describe one or more of the following information of the target tissue model and the at least one sub-tissue model: coordinate system information, spatial position information, geometric shape information, spatial range information.

In the method, the spatial attribute is added in the organization model, so that the organization information contained in the organization model is more comprehensive and complete. Meanwhile, the association relation among the organization models is associated based on the spatial attributes, so that the association among the organization models is tighter, and the quick searching and other management of the organization models is facilitated.

Optionally, a spatial coordinate system is established in the target tissue model, and an origin of the spatial coordinate system and a position of the target tissue model are kept relatively fixed; determining the position information of the at least one sub-tissue by taking the space coordinate system as a reference coordinate system of the at least one sub-tissue; and assigning a value to the spatial attribute of the at least one sub-organization model according to the position information of the at least one sub-organization.

In this way, the spatial attributes of the sub-organization model can be determined according to the sub-organization and the spatial coordinate system of the target organization associated with the sub-organization, so that the association relationship between the target organization and at least one sub-organization associated with the target organization is strengthened, and the management efficiency of the organization information is improved.

Optionally, the target organization model and the at least one sub-organization model further include a position attribute, and the position attribute is used to describe a position role in an organization corresponding to the target organization model and the at least one sub-organization model.

In the method, the information contained in the organization model is perfected by adding the position attribute, and the effectiveness of organization management is improved.

Optionally, the target tissue model and the at least one sub-tissue model further include a model identifier, and the model identifier is used to uniquely identify the target tissue model and the at least one sub-tissue model.

Optionally, generating, by the target tissue model and at least one sub-tissue model, a parent object record of the target tissue and at least one child object record of at least one child tissue at least one time before the current time or at least one duration before the current time; the parent object record is used for describing the attribute state of the target organization at least one time before the current time or at least one duration time before the current time; the at least one sub-object record is used to describe the attribute status of the at least one sub-organization at least one time before the current time or at least one duration before the current time.

In the method, the corresponding object record is generated through the model, so that the user can obtain the same and standard historical state information about the entity, the use experience of the user is improved, and the complexity of obtaining the information is reduced.

Optionally, a second association relationship between the parent object record and the at least one child object record is established; wherein each child object record of the at least one child object record has a unique parent object record, the parent object record and the at least one child object record each include a time range, and the time range of the child object record is within the time range of the parent object record.

In this mode, the generated parent object record and child object record are linked, so that the association relationship between organizations can be implemented, the association relationship between organizations and between information can be strengthened, and the efficiency of organization information management can be improved.

Optionally, the target organization model and the at least one sub-organization model further include member attributes, and the member attributes are used for describing user-defined data.

In the method, the user can respectively store the differentiation information of each organization in the organization model corresponding to the organization through the member attributes, so that the condition that all the organization models are modified due to the differentiation information of the independent organization is avoided, and the adaptability and the practicability of the scheme are improved.

In a second aspect, the present application provides a method for subscribing to a historical state of an organization, where the method specifically includes: respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of the at least one sub-tissue model; the target tissue model and the at least one sub-tissue model each include a temporal attribute; setting values of time attributes in the target tissue model and the at least one sub-tissue model as historical time, wherein the historical time is used for indicating time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association relationship between the target tissue model and the at least one sub-tissue model, the first association relationship being used for associating the at least one sub-tissue model to the target tissue model; receiving a first request from a terminal device, wherein the first request is used for requesting to subscribe to the historical state of the target organization; in response to the first request, performing a subscription operation on the target organizational model; and executing the subscription operation on the at least one sub-organization model according to the first association relation between the at least one sub-organization model and the target organization model.

In the scheme, based on the existence of the first association relationship between the models, after subscribing the target organization model, the same subscription operation may be performed on the associated at least one sub-organization model according to the association relationship in the target organization model. Therefore, the user only needs to send out an instruction of subscribing the target organization model, and can simultaneously subscribe the organization models associated with the target organization model and obtain the change information of the models in time. More comprehensive information can be obtained through simple operation, and the intelligent degree of subscription operation is improved.

Optionally, the first request carries a subscription item, and the method further includes: generating subscription information matched with the subscription item when the target organization model and/or the at least one sub-organization model are/is changed; and sending the subscription information to the terminal equipment.

In the method, the server sends the corresponding subscription information to the terminal device according to the subscription item carried in the first request, so that the subscription requirement of the user can be met, tracking of other model information is avoided, and fine management of entity information is realized.

Optionally, the subscription item includes: spatial attributes, and/or, member attributes.

Optionally, the variation comprises: a sub-model change for indicating a change in a number of the at least one sub-tissue model corresponding to the target tissue model.

In a third aspect, the present application provides an apparatus for historical status of twin tissue, the apparatus comprising: the creating module is used for respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute; a processing module, configured to set a value of a time attribute in the target tissue model and the at least one sub-tissue model as a historical time, where the historical time is used to indicate a time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association of the target tissue model with the at least one sub-tissue model, the first association being used to associate the at least one sub-tissue model to the target tissue model.

Optionally, the historical time is at least one time before the current time or at least one duration before the current time.

Optionally, the first association relationship is used to indicate that the target tissue model and the at least one child tissue model are in a parent-child relationship.

Optionally, when the processing module is configured to establish the first association relationship between the target tissue model and the at least one sub-tissue model, the processing module is specifically configured to: identifying the target organization model as a parent model, and identifying the at least one child organization model as a child model belonging to the parent organization model.

Optionally, the target tissue model and the at least one sub-tissue model further include spatial attributes, and the spatial attributes are used to describe one or more of the following information of the target tissue model and the at least one sub-tissue model: coordinate system information, spatial position information, geometric shape information, spatial range information.

Optionally, the apparatus is further configured to: the creating module is further used for establishing a space coordinate system in the target tissue model, and the origin of the space coordinate system and the position of the target tissue model are kept relatively fixed; the processing module is further used for determining the position information of the at least one sub-tissue by taking the spatial coordinate system as a reference coordinate system of the at least one sub-tissue; and assigning a value to the spatial attribute of the at least one sub-organization model according to the position information of the at least one sub-organization.

Optionally, the target organization model and the at least one sub-organization model further include a position attribute, and the position attribute is used to describe the position role in the organization corresponding to the target organization model and the at least one sub-organization model.

Optionally, the target tissue model and the at least one sub-tissue model further include a model identifier, and the model identifier is used to uniquely identify the target tissue model and the at least one sub-tissue model.

Optionally, the processing module is further configured to: generating, by the target organization model and at least one child organization model, a parent object record of the target organization and at least one child object record of at least one child organization at least one time before the current time or at least one duration before the current time; the parent object record is used for describing the attribute state of the target organization at least one time before the current time or at least one duration time before the current time; the at least one sub-object record is used to describe the attribute status of the at least one sub-organization at least one time before the current time or at least one duration before the current time.

Optionally, the processing module is further configured to: establishing a second incidence relation between the parent object record and the at least one child object record; wherein each child object record of the at least one child object record has a unique parent object record, the parent object record and the at least one child object record each include a time range, and the time range of the child object record is within the time range of the parent object record.

Optionally, the target organization model and the at least one sub-organization model further include member attributes, and the member attributes are used for describing user-defined data.

In a fourth aspect, the present application provides an apparatus for subscribing to a historical state of an organization, the apparatus comprising: the system comprises a creation module, a selection module and a selection module, wherein the creation module is used for respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute; a processing module, configured to set a value of a time attribute in the target tissue model and the at least one sub-tissue model as a historical time, where the historical time is used to indicate a time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association relationship between the target tissue model and the at least one sub-tissue model, the first association relationship being used to associate the at least one sub-tissue model to the target tissue model; a receiving module, configured to receive a first request from a terminal device, where the first request is used to request subscription to a history state of the target organization; a response module for performing a subscription operation on the target organizational model in response to the first request; and executing the subscription operation on the at least one sub-organization model according to the first incidence relation between the at least one sub-organization model and the target organization model.

Optionally, the first request carries a subscription item, and the apparatus further includes: a sending module, configured to generate subscription information matching the subscription item when the target organization model and/or the at least one sub-organization model changes; and sending the subscription information to the terminal equipment.

Optionally, the subscription item includes: spatial attributes, and/or, member attributes.

Optionally, the variation comprises: a sub-model change for indicating a change in a number of the at least one sub-tissue model corresponding to the target tissue model.

In a fifth aspect, an electronic device is provided, comprising: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor, and the at least one processor causes the apparatus to perform the method of the first aspect or any one of the alternative embodiments of the first aspect by executing the instructions stored by the memory.

A sixth aspect provides a computer-readable storage medium for storing instructions that, when executed, cause a method as in the first aspect or any one of the alternative embodiments of the first aspect to be implemented.

The technical effects or advantages of one or more of the technical solutions provided in the third, fourth, fifth and sixth aspects of the embodiments of the present application can be correspondingly explained by the technical effects or advantages of one or more of the corresponding technical solutions provided in the first and second aspects.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic diagram of one possible organizational structure provided by an embodiment of the present application;

FIG. 2 is a flow chart of a method for providing a historical state of a twin tissue according to an embodiment of the present disclosure;

FIG. 3 is a method for assigning spatial attributes of a sub-organizational model according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating a positional relationship between tissue models according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a member structure provided in an embodiment of the present application;

FIG. 6 is a flowchart of a method for subscribing to an organization history status according to an embodiment of the present application;

FIG. 7 is a flowchart of a method for querying historical status of an organization according to an embodiment of the present application;

FIG. 8 is a flowchart of a method for deleting an organization history according to an embodiment of the present disclosure;

FIG. 9 provides an apparatus for providing a historical status of twin tissue for an embodiment of the present application;

FIG. 10 provides an apparatus for subscribing to an organization's historical status according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions of the present application are described in detail below with reference to the drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present application are detailed descriptions of the technical solutions of the present application, and are not limitations of the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

It should be understood that the terms first, second, etc. in the description of the embodiments of the present application are used for distinguishing between the descriptions and not for indicating or implying relative importance or order. In the description of the embodiments of the present application, "a plurality" means two or more.

The term "and/or" in the embodiment of the present application is only one kind of association relationship describing an associated object, and means that three kinds of relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

The term "tissue" in the examples of the present application encompasses two meanings: organization of physical properties and organization of abstract logical concepts. The organization of the physical nature corresponds to the entity organization in the real world, such as 'factory-workshop-production line' and the like, and each organization has a physical spatial range; the organization of abstract logical concepts does not necessarily correspond to a physical organization in the real world, and is more prone to logical, conceptual "organizational structures," such as "company-division-department," which focus on attribution relationships, may not have a spatial scope, or may have a logical spatial scope. In the embodiment of the present application, the kind of the tissue is not particularly limited.

The historical states of the organizations can be identified by the spatial information corresponding to the past time of each organization and other attributes of the organizations themselves. The information is twinned to generate a uniform data structure, namely organization historical data corresponding to each organization.

It should be noted that the embodiment of the present application is applicable to application scenarios of various types of twin organizations, including factory workshops, company departments, project teams, and the like. Referring to fig. 1, a schematic diagram of a possible organizational structure is provided according to an embodiment of the present application. The organizational framework shown in FIG. 1 is divided into three levels, respectively: first-stage: a head office; and (2) second stage: company A, company B; third-stage: department 1, department 2, department 3, department 4, department 5, department 6. Where the organizations in the hierarchy manage their subordinate organizations in turn. It should be understood that the organizational structure shown in fig. 1 is only one possible organizational structure provided by the embodiments of the present application, and in real life, there may be a greater number or a lesser number of hierarchical structures, and in each layer of organizational structure, there may be a greater number or a lesser number of organizations, and the present application is not limited thereto.

Referring to fig. 2, a flowchart of a method for history status of a twin tissue according to an embodiment of the present application is provided. The execution main body of the method can be various devices with computing functions, such as a notebook computer, a desktop computer, a server and the like, and also can be various mobile terminal devices, such as a mobile phone, a platform and other terminal devices which can realize computing functions. It should be understood that the above-described apparatus is illustrative only and that the present application is not limited thereto. The method comprises the following specific steps:

step S201: and respectively establishing a target tissue model and at least one sub-tissue model aiming at the target tissue and at least one sub-tissue belonging to the target tissue.

The target organization may be a company, a department, a factory, a plant, etc., and at least one sub-organization may be a sub-company, a sub-department, a plant, a pipeline, etc. corresponding to the target organization, which is not limited in this application. For convenience of explanation, the method will be described below by taking the target organization as the company a in fig. 1, and at least one organization as the departments 1, 2, and 3 managed by the company a in fig. 1 as an example.

The target tissue model corresponds to the target tissue and is used for describing the historical state of the target tissue; at least one sub-organization model corresponds to the at least one sub-organization model and is used for describing the historical state of the at least one sub-organization model. The various types of organization models all include time attributes for describing the time corresponding to the data in the organization models.

It should be noted that the existence form of each organization model to be created may include different kinds. For example, the data may be stored in a data table format, may be stored in an image format, or may be stored in other possible data storage formats, and the present application is not limited thereto.

Step S202: and setting the values of the time attributes in the target tissue model and the at least one sub-tissue model as historical time, wherein the historical time is used for indicating the time corresponding to the data in the target tissue and the at least one sub-tissue model.

Optionally, the time attribute in each type of tissue model is used to describe the time corresponding to the historical data in the tissue model. For example, for a company a, the first piece of history data may be data indicating that the company a is established, and the time corresponding to the data is the time when the company a is established (for example, 1 month and 1 day 2020). For another example, since one piece of history data of the company a is used for replacement of a person who represents the position of the total manager of the company, the time corresponding to the piece of history data is the day (for example, 1/2021/1) on which the total manager has changed in personal selection.

Therefore, the user can know the time corresponding to each historical data through the time attributes in the organization models, so that the historical state of the organization corresponding to the organization model and the corresponding information are more clearly obtained, and the management of the organization information is enhanced.

Optionally, the historical time may be at least one time before the current time or at least one duration before the current time.

For example, the history time corresponding to the history data established by the recording company may be recorded at a certain time of 1 month and 1 day of 2020, or may be recorded as the entire duration of 1 month and 1 day. Specific historical data selects which historical time to record, and can be selected according to actual requirements, and the method is not limited in the application.

Optionally, each type of tissue model may further include a data time attribute, where the data time attribute is used to describe a time when historical data in the tissue model is recorded or modified.

Illustratively, the first historical data of the company A is also taken as an example for explanation. Although the time attribute corresponding to the historical data of the company A indicates that the company is established in 1 month and 1 day of 2020, the creation of the organization model occurs in 1 month and 1 day of 2022, so the value of the data time attribute corresponding to the historical data is 2022, 1 month and 1 day. In addition, for some historical data, an error revision may occur, for example, when an error is found in a piece of historical data, a value in the piece of historical data may be found to have an error and may be revised, and at this time, the value of the data time attribute corresponding to the piece of historical data may be updated in time to indicate the latest revision time of the piece of historical data.

In the method, the historical data can be more accurately displayed to the user through the data time attribute, and the updating condition of the historical data is displayed, so that the user can more finely manage the organization information.

Step S203: establishing a first association relationship between the target tissue model and the at least one sub-tissue model, wherein the first association relationship is used for associating the at least one sub-tissue model to the target tissue model.

Illustratively, a first association relationship between the target tissue model and the at least one sub-tissue model is established based on an association relationship existing between the target tissue and the at least one sub-tissue in reality, and the first association relationship is used for associating the at least one sub-tissue model with the target tissue model.

Taking the company a in fig. 1 as an example, the company a manages three subordinate organizations including a department 1, a department 2, and a department 3, and therefore, after the target organization model corresponding to the company a, the sub-organization model 1 corresponding to the department 1, the sub-organization model 2 corresponding to the department 2, and the sub-organization model 3 corresponding to the department 3 are created, a first association relationship between the models may be created according to a real superior-inferior relationship between the company a and the departments 1, 2, and 3, and the first association relationship may be used to associate the sub-organization models 1, 2, and 3 to the target organization model.

Optionally, the first association may be used to indicate that the target organization model and the at least one child organization model are in a parent-child relationship (or an affiliation, etc.). The target organization model is identified as a parent organization, at least one child organization model is identified as a child model, the parent-child relationship is used for indicating that the child model belongs to the parent model, and if the parent-child relationship corresponds to reality, the child organization is represented as belonging to the target organization.

In the scheme, each organization can be digitally twinned according to the actual organization condition to obtain the corresponding organization model, so that the information of each organization is provided for a user through the creation of each organization model, and the digital management of the organization is realized. Meanwhile, the time corresponding to each historical data in the organization model is recorded through the time attribute, so that the information stored in the organization model is more accurate and comprehensive. And moreover, the incidence relation among the organization models can be established according to the hierarchical relation among the real organizations, so that the information of the relation among the real organizations is provided for the user through the incidence relation among the organization models, and the efficiency of the user on organization management is improved.

Optionally, the target organization model and the at least one sub-organization model may further include a position attribute, and the position attribute is used to describe a position role in an organization corresponding to the target organization model and the at least one sub-organization model. For example, company a includes station roles having: company manager, department leader, accounting, etc., and thus, the post attributes in the target organization model include post roles of company manager, department leader, accounting, etc.

It should be understood that the position attributes in the target organization model and at least one sub-organization model may be the same or different, and the specific value is determined by the specific position condition in the real organization corresponding to the organization model. For example, the post attributes of the organization model corresponding to the head office may include a director, etc., while the post attributes of the organization model corresponding to each branch office may not include the two post roles. For example, the post attributes of the organization model corresponding to each branch include post roles such as accounting and administrative.

Optionally, each of the above organizational models further includes a spatial attribute, where the spatial attribute is used to describe one or more of the following items of information in each of the organizational models: coordinate system information, spatial position information, geometric shape information, spatial range information.

The coordinate system information is used for indicating information of a reference coordinate system specifically selected by the tissue model, the spatial position information is used for indicating position information of a tissue corresponding to the tissue model, the geometric shape information is used for indicating information of a shape of a solid tissue corresponding to the tissue model, and the spatial range information is used for indicating information of an area or a volume occupied by the tissue corresponding to the tissue model.

In the method, the spatial attribute is added in the organization model, so that the organization information contained in the organization model is more comprehensive and complete. Meanwhile, the association relation among the organization models is associated based on the spatial attributes, so that the association among the organization models is tighter, and the quick searching and other management of the organization models is facilitated.

Optionally, based on the information included in the spatial attributes, the first association relationship between the tissue models further includes a geometric relationship between the tissue geometries at the past time and a spatial relationship between the spatial positions.

The geometric relation between the tissue geometric shapes is used for indicating the relation of intersection, separation, contact and the like existing between the entity tissues, and simultaneously can also indicate data of the distance and the like between the tissues.

The spatial relationship between tissue spatial locations is used to indicate that the corresponding tissues of the tissue models are spatially related to each other, for example: including, spaced apart, touching, etc., are also used to indicate that there is a certain spatial distance between the tissues corresponding to the tissue model.

By the method, the spatial attribute is added in the organization model, so that organization information contained in the organization model is more comprehensive and complete. Meanwhile, the incidence relation among the organization models also comprises a geometric relation and a spatial relation, so that the relation among the organization models is tighter, and the quick searching and other management of the organization models are facilitated.

Optionally, the value of the spatial attribute in each tissue model may be obtained in the following manner. Referring to fig. 3, a method for assigning a spatial attribute of a sub-organization model according to an embodiment of the present application is provided:

step S301: and establishing a space coordinate system in the target tissue model, wherein the origin of the space coordinate system and the position of the target tissue model are kept relatively fixed.

The relative fixation between the origin of the space coordinate system established in the target tissue model and the position of the target tissue model means that the position of a fixed point is selected in the space range covered by the target tissue corresponding to the target tissue model, so that the distance between the position of the fixed point and the origin of the space coordinate system and the relative position relation are kept fixed, thus, the position coordinate of the target tissue model is kept unchanged, and a subsequent user can determine the space position of the sub-tissue under the target tissue by taking the space position of the target tissue as a reference. For example, the simplest creation method is to use the position of a fixed point in the target tissue as the position of the origin of the spatial coordinate system, so that the spatial position of the target tissue can be simply represented, and the spatial position of at least one sub-tissue subordinate to the target tissue can be reflected more intuitively.

Step S302: and determining the position information of at least one sub-tissue by taking the space coordinate system as a reference coordinate system of the at least one sub-tissue.

In the step, at least one sub-tissue takes the space coordinate system of the target tissue as a reference coordinate system, and the self position information is determined, so that the space position relation between the sub-tissue and the target tissue can be effectively and intuitively displayed. For example, referring to fig. 4, a schematic diagram of a position relationship between tissue models is provided in an embodiment of the present application. And establishing a space coordinate system by taking a point in one corner of the space range covered by the tissue model 1 as an origin of the space coordinate system, and determining the space position information of the tissue models 2 and 3 in the coverage range of the tissue model 1 according to the space coordinate system.

Step S303: and assigning a value to the spatial attribute of at least one sub-organization model according to the position information of at least one sub-organization.

Taking the spatial relationship between the organization model 1 and the organization model 2 in fig. 4 as an example, according to the location information of the organization model 2, the spatial attribute assignment in the organization model corresponding to the organization model 2 can be performed. For example, the coordinate system information of the spatial attributes in the tissue model 2 may be: the spatial coordinate system of the tissue model 1, the spatial position information may be: the coordinates of the central point of the tissue model 2 in the spatial coordinate system, and the spatial range information may be: the edge lines of the tissue model 2 are represented in coordinates of a spatial coordinate system. In this way, the spatial attributes of the model corresponding to the spatial coordinate system can be assigned according to the position information organized in the spatial coordinate system.

By the method, the spatial attributes of the sub-organization model can be determined according to the sub-organization and the spatial coordinate system of the target organization associated with the sub-organization, so that the association relation between the target organization and at least one sub-organization associated with the target organization is strengthened, and the management efficiency of organization information is improved.

Optionally, each created tissue model further includes a model identifier, and the model identifier is used to uniquely identify the corresponding tissue model.

Illustratively, the model identification may be a sequence of numbers having a fixed length. For example, each organization model may be uniquely identified by a 6-digit digital Identity number (ID), the unique identification of the target organization model corresponding to company a may be denoted as 000010, the unique identification of the sub-organization model 1 corresponding to department 1 may be denoted as 000110, the unique identification of the sub-organization model 2 corresponding to department 2 may be denoted as 000210, and the unique identification of the sub-organization model 3 corresponding to department 3 may be denoted as 000310; thus, each tissue model may have its unique corresponding model identification.

Optionally, when a twin target tissue or at least one sub-tissue is in a historical state, a target tissue model or at least one sub-tissue model corresponding to the target tissue or at least one sub-tissue may be used to generate a record of an object corresponding to each tissue model at least one time or at least one duration before the current time.

Wherein the object record generated by the target organization model may be marked as a parent object record describing the state of the attributes of the target organization at least one time or at least one time duration prior to the current time. The object records generated by the at least one sub-organization model may be referred to as sub-object records describing the state of the properties of the at least one sub-organization at least one time instant or at least one time duration before the current time instant.

Illustratively, through the history state contained in the established target organization model, a parent object record for describing the history state is generated, and the record contains the values of the attributes in the history state corresponding to the target organization model. For example, according to the history state that the company a corresponding to the target organization model is established, a parent object record is generated, and the parent object record comprises the establishment time of the company a, the spatial position of the company a, the post personnel included when the company a is established, and the like.

In the method, the corresponding object record is generated through the model, so that the user can obtain the same and standard historical state information about the entity, the use experience of the user is improved, and the complexity of obtaining the information is reduced.

Optionally, for the generated parent object record and at least one child object record, the following processing modes may also be executed: and establishing a second association relationship between the parent object record and at least one child object record, wherein the second association relationship is used for indicating that the organization model corresponding to the parent object record and the at least one organization model corresponding to the at least one child object record have the first association relationship.

Each child object record in the at least one child object record has a unique parent object record, and the records each include an attribute of a time range, which is used for indicating the time range of the attribute state corresponding to each record. And, the time range of each of the at least one child object records is within the time range of the parent object record.

In this mode, the generated parent object record and child object record are linked, so that the association relationship between organizations can be implemented, the association relationship between organizations and between information can be strengthened, and the efficiency of organization information management can be improved.

Optionally, each of the created organization models further includes a member attribute, and the member attribute is used for describing user-defined data.

Specifically, the member attributes of the organization model may include several members. The member refers to a data structure, and all information of differentiated attributes of an organization can be stored in the data structure and stored in an organization model corresponding to the organization.

Exemplarily, referring to fig. 5, a schematic diagram of a member structure provided in the embodiments of the present application is shown. In fig. 5, the members include different member information, such as member ID, member name, member data type, and member value. Through the structured data information, the user can add corresponding member information to different organization models. For example, in the target organization model corresponding to the company A, member information describing the number of the company or member information describing the company partner can be added. According to the member structure shown in fig. 5, member information for describing the number of persons of a company and member information for describing partners of the company can be represented as data as shown in table 1.

TABLE 1

Member ID	0001	0002
			Name of Member	Number of companies	Corporate partners
Number of membersAccording to type	INT	Character string
			Membership value	200	Zhang San

In the method, the user can respectively store the differentiation information of each organization in the organization model corresponding to the organization through the member attributes, so that the condition that all the organization models are modified due to the differentiation information of the independent organization is avoided, and the adaptability and the practicability of the scheme are improved.

The above describes a scheme for achieving a twin tissue history state by building a tissue model, and several possible applications of the built tissue model are described below.

Application 1, historical state of subscription organization

Referring to fig. 6, a flowchart of a method for subscribing to an organization history state according to an embodiment of the present application is provided. The method is executed by a computer, a server and the like which are connected with the terminal device in a communication way. For convenience of explanation, the following describes specific implementation steps of the method by taking a terminal device and a server as examples.

Step S601: the server receives a first request from the terminal device, the first request requesting a subscription to the history state of the target organization.

The first request may carry information for determining a target tissue model, and the information may specifically be: model identification of the target tissue model; alternatively, the values of one or more attributes in the target tissue model; alternatively, the model identification of the target tissue model and the values of one or more attributes in the target tissue model.

For example, when the terminal device needs to subscribe to the target organization model, a first request may be sent to the server, where the first request carries a model identifier (000010) of the target organization model, and after receiving the first request, the server may complete a subscription operation for the target organization model according to the model identifier.

In this way, the server may determine the target tissue model from the plurality of tissue models by the information carried in the first request. And the plurality of organization models are stored in the database corresponding to the server, and after the plurality of organization models are established, the organization models are stored in the database corresponding to the server, so that the reliability of subsequent information query is ensured.

Step S602: the server performs a subscription operation on the target organizational model in response to the first request.

For example, the subscription operation may be to store the identification information of the subscribed organization models in a corresponding subscription data table, where the identification information of all the subscribed organization models is recorded in the subscription data table.

Still taking the target organization model as an example for explanation, after receiving a first request for subscribing the target organization model, the server responds to the first request, and stores the model identifier of the target organization model into the subscription data table, so as to implement subscription of the target organization model.

Step S603: the server determines at least one sub-organization model from a plurality of organization models, wherein the at least one sub-organization model has a first association relation with a target organization model; a subscription operation is performed on at least one sub-organizational model.

Illustratively, after determining the target organization model, the server obtains information about a first association relationship between the target organization model and at least one sub-organization model from the target organization model, and determines the at least one sub-organization model from the plurality of organization models according to the information about the first association relationship, that is, sub-organization model 1, sub-organization model 2, and sub-organization model 3, and then subscribes to the three organization models. Similarly, when the first request received by the server is for subscribing to the sub-organization model 1, the server may determine the target organization model according to the first association relation according to the information related to the first association relation in the sub-organization model 1, and then subscribe to the target organization model. In other words, the server may determine and subscribe to the child model from the parent model according to the association relationship, or may determine and subscribe to the parent model from the child model according to the association relationship.

Step S604: and when the target organization model and/or at least one sub-organization model changes, sending the change situation to the terminal equipment.

After the target organization model and the at least one sub-organization model are subscribed, the server detects the data condition of the models, and immediately sends the change condition to the terminal equipment when the data of the target organization model and/or the at least one sub-organization model is changed or the sub-model is changed. The sub-model change is used for indicating that the number of sub-organization models having a first association relation with the target organization model changes, taking the target organization model as a company A as an example, when the departments under the company A merge, split or cut, the number of the departments managed by the company A changes, at this time, the number of the sub-organization models having the first association relation with the target organization model also changes, and at this time, the sub-model change occurs.

In the scheme, based on the existence of the first association relationship between the models, after subscribing the target organization model, the same subscription operation may be performed on the associated at least one sub-organization model according to the association relationship in the target organization model. Therefore, the user only needs to send out an instruction of subscribing the target organization model, and can simultaneously subscribe the organization models associated with the target organization model and obtain the change information of the models in time. More comprehensive information can be obtained through simple operation, and the intelligent degree of subscription operation is improved.

Optionally, when the server sends the change condition to the terminal device, the following mode may be selected for sending:

when the target organization model and/or at least one sub-organization model changes, generating subscription information matched with the subscription item, wherein the subscription item is carried in the first request; and sending the subscription information to the terminal equipment.

The subscription item carried in the first request may be names of various attributes included in the organization model, such as a time attribute, a space attribute, a post attribute, or the like; the information may also be part of the information of the organization model that the user needs to pay more attention to, for example, the names of the members in the member attributes.

In this way, when data in the organization model changes, the server may generate the subscription information correspondingly according to the subscription item included in the first request, for example, the subscription item carried in the first request only includes a spatial attribute, and when the spatial attribute of the target organization model and/or at least one sub-organization model changes, the subscription information generated by the server may be subscription information only used for indicating the change of the spatial attribute of the target organization model and/or at least one sub-organization model.

In the method, the server sends the corresponding subscription information to the terminal device according to the subscription item carried in the first request, so that the subscription requirement of the user can be met, tracking of other model information is avoided, and fine management of organization information is realized.

Application 2, querying historical state of organization

Referring to fig. 7, a flowchart of a method for querying an organization history state according to an embodiment of the present application is provided. The method comprises the following specific steps:

s701: the server receives a second request from the terminal device, the second request for querying the target organizational model.

Similar to the application 1, the second request may carry information for determining the target tissue model, and the information may specifically be: model identification of the target tissue model; alternatively, the values of one or more attributes in the target tissue model; alternatively, the model identification of the target tissue model and the values of one or more attributes in the target tissue model.

Step S702: the server determines a target organizational model from the plurality of organizational models in response to the second request.

Step S703: the server determines at least one sub-organization model from the plurality of organization models according to the information related to the first association relation in the target organization model, and the organization corresponding to the at least one sub-organization model and the organization corresponding to the target organization model have the first association relation.

Step S704: the server outputs information of the target organization model and the at least one sub-organization model to the terminal device.

In this way, the server can determine the sub-model from the parent model according to the first association relationship between the target organization model and at least one sub-organization model, and simultaneously transmit the sub-model to the terminal device so as to complete the response to the second request.

In the method, the information of the plurality of organization models related to the organization model can be acquired only by inputting the query information of one organization model, so that the query operation of the user is simplified, and the use experience of the user is improved.

Optionally, the second request may further carry a query term to instruct the server to perform feedback according to the corresponding query term.

For example, the query term may be a spatial attribute and/or a member attribute in the organization model, and the server determines information of the spatial attribute and/or the member attribute from the determined target organization model and generates corresponding query information to send to the terminal device when receiving the second request containing the query term.

In the method, the information in the organization model can be pertinently sent by the limitation of the query item, so that the refinement degree of the organization model management is improved.

Application 3, deleting historical state of organization

Referring to fig. 8, a flowchart of a method for deleting an organization history state according to an embodiment of the present application is provided. The method comprises the following specific steps:

s801: the server receives a third request from the terminal device, the third request for deleting the target organizational model.

S802: in response to the third request, the server determines a target organization model from the plurality of organization models, and determines at least one sub-organization model having a first association relationship with the target organization model according to information about the first association relationship in the target organization model.

S803: the target organizational model and the at least one sub-organizational model are deleted.

In the method, through the first association relationship between the target organization model and the at least one sub-organization model, after the instruction for deleting the target organization model is received, the at least one sub-organization model having the first association relationship with the target organization model is deleted, so that the user operation is simplified, and the use experience for the user is improved.

In the above, the operations of subscribing, querying and deleting based on the first association relationship between the target organization model and at least one sub-organization model are introduced, but in actual use, the operations may be performed not only according to the first association relationship, but also according to the spatial relationship or the geometric relationship between the organization models or the designated position role.

Taking the spatial attributes as an example, as shown in fig. 4, there are tissue models 1, 2, and 3, wherein the spatial range of the tissue models 2 and 3 is included in the tissue model 1, and in this case, the tissue model 1 has an inclusion-included spatial relationship with the tissue models 2 and 3. Thus, when subscribing, querying and deleting operations are executed, the server can determine the organization models 2 and 3 according to the spatial relationship of the organization model 1, and execute corresponding operations on the organization models.

Based on the same inventive concept, the embodiment of the application also provides a device for the historical state of the twin tissue.

Referring to fig. 9, an apparatus for twin organizing historical states is provided for the embodiment of the present application, the apparatus may be the server or a chip or an integrated circuit in the device, and the apparatus includes modules/units/technical means for executing the method executed by the server in the method embodiment.

Illustratively, the apparatus 900 includes:

a creating module 901, configured to respectively build a target tissue model and at least one sub-tissue model for a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute.

A processing module 902, configured to set a value of a time attribute in the target tissue model and the at least one sub-tissue model as a historical time, where the historical time is used to indicate a time corresponding to data in the target tissue model and the at least one sub-tissue model; and establishing an association relationship between the target tissue model and the at least one sub-tissue model, wherein the association relationship is used for associating the at least one sub-tissue model to the target tissue model.

As an embodiment, the apparatus discussed in fig. 9 may be configured to execute the method described in the embodiment shown in fig. 2, and therefore, for functions and the like that can be implemented by each functional module of the apparatus, reference may be made to the description of the embodiment shown in fig. 2, which is not described herein again.

Based on the same inventive concept, the embodiment of the application also provides a device for subscribing the historical state of the organization.

Referring to fig. 10, an apparatus for subscribing to a historical state of an organization is provided for the embodiment of the present application, and the apparatus may be a server as described above or a chip or an integrated circuit in the device, and the apparatus includes modules/units/technical means for executing the method executed by the server in the embodiment of the method described above.

Illustratively, the apparatus 1000 includes:

a creating module 1001, configured to respectively establish a target tissue model and at least one sub-tissue model for a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute;

a processing module 1002, configured to set values of time attributes in the target tissue model and the at least one sub-tissue model as historical time, where the historical time is used to indicate time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing an association relationship between the target tissue model and the at least one sub-tissue model, the association relationship being used to associate the at least one sub-tissue model to the target tissue model;

a receiving module 1003, configured to receive a first request from a terminal device, where the first request is used to request to subscribe to a history state of the target organization;

a response module 1004 for performing a subscription operation on the target organizational model in response to the first request; and executing the subscription operation on the at least one sub-organization model according to the incidence relation between the at least one sub-organization model and the target organization model.

As an embodiment, the apparatus discussed in fig. 10 may be configured to execute the method described in the embodiment shown in fig. 6, and therefore, for functions and the like that can be realized by each functional module of the apparatus, reference may be made to the description of the embodiment shown in fig. 6, and details are not repeated here.

It should be noted that although in the above detailed description several modules or sub-modules of the apparatus are mentioned, such division is merely exemplary and not mandatory. Indeed, the features and functions of two or more of the units described above may be embodied in one module according to embodiments of the invention. Conversely, the features and functions of one module described above may be further divided into embodiments by a plurality of modules.

Referring to fig. 11, as a possible product form of the apparatus, an embodiment of the present application further provides an electronic device 1100, including:

at least one processor 1101; and a communication interface 1103 communicatively coupled to the at least one processor 1101; the at least one processor 1101, by executing instructions stored by the memory 1102, causes the electronic device 1100 to perform the method steps performed by any one of the above-described method embodiments via the communication interface 1103.

Optionally, the memory 1102 is located external to the electronic device 1100.

Optionally, the electronic device 1100 includes the memory 1102, the memory 1102 is connected to the at least one processor 1101, and the memory 1102 stores instructions executable by the at least one processor 1101. Fig. 11 shows in dashed lines that the memory 1102 is optional for the electronic device 1100.

The processor 1101 and the memory 1102 may be coupled by an interface circuit, or may be integrated together, which is not limited herein.

In the embodiment of the present application, a specific connection medium between the processor 1101, the memory 1102, and the communication interface 1103 is not limited. In the embodiment of the present application, the processor 1101, the memory 1102, and the communication interface 1103 are connected by a bus 1104 in fig. 11, the bus is represented by a thick line in fig. 11, and the connection manner between other components is merely illustrative and not limited thereto. The bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown in FIG. 11, but this is not intended to represent only one bus or type of bus. It should be understood that the processors mentioned in the embodiments of the present application may be implemented by hardware or may be implemented by software. When implemented in hardware, the processor may be a logic circuit, an integrated circuit, or the like. When implemented in software, the processor may be a general-purpose processor implemented by reading software code stored in a memory.

The Processor may be, for example, a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

It will be appreciated that the memory referred to in the embodiments of the application may be either volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory. The non-volatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (EEPROM), or a flash Memory. Volatile Memory can be Random Access Memory (RAM), which acts as external cache Memory. By way of example, but not limitation, many forms of RAM are available, such as Static random access memory (Static RAM, SRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic random access memory (Synchronous DRAM, SDRAM), Double Data rate Synchronous Dynamic random access memory (DDR SDRAM), Enhanced Synchronous SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), and Direct Rambus RAM (DR RAM).

It should be noted that when the processor is a general-purpose processor, a DSP, an ASIC, an FPGA or other programmable logic device, a discrete gate or transistor logic device, or a discrete hardware component, the memory (memory module) may be integrated into the processor.

It should be noted that the memory described herein is intended to comprise, without being limited to, these and any other suitable types of memory.

As another possible product form, the present application further provides a computer-readable storage medium for storing instructions that, when executed, cause a computer to perform the method steps performed by any one of the above-mentioned method examples.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (32)

1. A method of twinning a historical state of tissue, comprising:

respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute;

setting values of time attributes in the target tissue model and the at least one sub-tissue model as historical time, wherein the historical time is used for indicating time corresponding to data in the target tissue model and the at least one sub-tissue model;

establishing a first association of the target tissue model with the at least one sub-tissue model, the first association being used to associate the at least one sub-tissue model to the target tissue model.

2. The method of claim 1, wherein the historical time is at least one time prior to a current time or at least one time duration prior to the current time.

3. The method of claim 1, wherein the first associative relationship is used to indicate that the target tissue model and the at least one child tissue model are in a parent-child relationship.

4. The method of any one of claims 1-3, wherein said establishing a first association of said target tissue model with said at least one sub-tissue model comprises:

identifying the target organization model as a parent model, and identifying the at least one child organization model as a child model belonging to the parent organization model.

5. The method of claim 1, wherein the target tissue model and the at least one sub-tissue model further comprise spatial attributes describing one or more of the following information for the target tissue model and the at least one sub-tissue model:

coordinate system information, spatial position information, geometric shape information, spatial range information.

6. The method of claim 5, wherein the method further comprises:

establishing a space coordinate system in the target tissue model, wherein the origin of the space coordinate system and the position of the target tissue model are kept relatively fixed;

determining the position information of the at least one sub-tissue by using the spatial coordinate system as a reference coordinate system of the at least one sub-tissue;

and assigning a value to the spatial attribute of the at least one sub-organization model according to the position information of the at least one sub-organization.

7. The method of claim 1, wherein the target organizational model and the at least one sub-organizational model further comprise post attributes that describe post roles in an organization to which the target organizational model and the at least one sub-organizational model correspond.

8. The method of claim 1, wherein the target tissue model and the at least one sub-tissue model further comprise a model identification for uniquely identifying the target tissue model and the at least one sub-tissue model.

9. The method of claim 1, wherein the method further comprises:

generating, by the target tissue model and at least one child tissue model, a parent object record of the target tissue and at least one child object record of at least one child tissue at least one time before the current time or at least one duration before the current time;

the parent object record is used for describing the attribute state of the target organization at least one time before the current time or at least one duration time before the current time; the at least one sub-object record is used to describe the attribute status of the at least one sub-organization at least one time before the current time or at least one duration before the current time.

10. The method of claim 9, wherein the method further comprises:

establishing a second incidence relation between the parent object record and the at least one child object record; wherein each child object record of the at least one child object record has a unique parent object record, the parent object record and the at least one child object record each include a time range, and the time range of the child object record is within the time range of the parent object record.

11. The method of claim 1, wherein the target organizational model and the at least one sub-organizational model further comprise member attributes, the member attributes describing user-customized data.

12. A method of subscribing to a historical state of an organization, comprising:

respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of the at least one sub-tissue model; the target tissue model and the at least one sub-tissue model each include a temporal attribute;

setting values of time attributes in the target tissue model and the at least one sub-tissue model as historical time, wherein the historical time is used for indicating time corresponding to data in the target tissue model and the at least one sub-tissue model;

establishing a first association relationship between the target tissue model and the at least one sub-tissue model, the first association relationship being used to associate the at least one sub-tissue model to the target tissue model;

receiving a first request from a terminal device, wherein the first request is used for requesting to subscribe to the historical state of the target organization;

in response to the first request, performing a subscription operation on the target organizational model; and executing the subscription operation on the at least one sub-organization model according to the first incidence relation between the at least one sub-organization model and the target organization model.

13. The method of claim 12, wherein the first request carries a subscription item, the method further comprising:

generating subscription information matched with the subscription item when the target organization model and/or the at least one sub-organization model are/is changed;

and sending the subscription information to the terminal equipment.

14. The method of claim 13, wherein the subscription item comprises: spatial attributes, and/or, member attributes.

15. The method of claim 12, wherein the varying comprises: a sub-model change for indicating a change in a number of the at least one sub-tissue model corresponding to the target tissue model.

16. An apparatus for twinning a historical state of tissue, comprising:

the creating module is used for respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute;

a processing module, configured to set a value of a time attribute in the target tissue model and the at least one sub-tissue model as a historical time, where the historical time is used to indicate a time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association of the target tissue model with the at least one sub-tissue model, the first association being used to associate the at least one sub-tissue model to the target tissue model.

17. The apparatus of claim 16, wherein the historical time is at least one time prior to a current time or at least one time duration prior to the current time.

18. The apparatus of claim 16, wherein the first associative relationship is to indicate that the target tissue model and the at least one child tissue model are in a parent-child relationship.

19. The apparatus according to any one of claims 16 to 18, wherein the processing module, when configured to establish the first association relationship between the target tissue model and the at least one sub-tissue model, is specifically configured to:

identifying the target organization model as a parent model, and identifying the at least one child organization model as a child model belonging to the parent organization model.

20. The apparatus of claim 16, wherein the target tissue model and the at least one sub-tissue model further comprise spatial attributes for describing one or more of the following information for the target tissue model and the at least one sub-tissue model:

coordinate system information, spatial position information, geometric shape information, spatial range information.

21. The apparatus of claim 20, wherein the apparatus is further configured to:

the creating module is further used for establishing a space coordinate system in the target tissue model, and the origin of the space coordinate system and the position of the target tissue model are kept relatively fixed;

the processing module is further used for determining the position information of the at least one sub-tissue by taking the spatial coordinate system as a reference coordinate system of the at least one sub-tissue; and assigning a value to the spatial attribute of the at least one sub-organization model according to the position information of the at least one sub-organization.

22. The apparatus of claim 16, wherein the target organizational model and the at least one sub-organizational model further comprise post attributes for describing the organizational post role to which the target organizational model and the at least one sub-organizational model correspond.

23. The apparatus of claim 16, wherein the target tissue model and the at least one sub-tissue model further comprise a model identification for uniquely identifying the target tissue model and the at least one sub-tissue model.

24. The apparatus of claim 16, wherein the processing module is further to:

generating, by the target tissue model and at least one child tissue model, a parent object record of the target tissue and at least one child object record of at least one child tissue at least one time before the current time or at least one duration before the current time;

the parent object record is used for describing the attribute state of the target organization at least one time before the current time or at least one duration time before the current time; the at least one sub-object record is used to describe the attribute status of the at least one sub-organization at least one time before the current time or at least one duration before the current time.

25. The apparatus of claim 24, wherein the processing module is further to:

establishing a second incidence relation between the parent object record and the at least one child object record; wherein each child object record of the at least one child object record has a unique parent object record, the parent object record and the at least one child object record each include a time range, and the time range of the child object record is within the time range of the parent object record.

26. The apparatus of claim 16, wherein the target organizational model and the at least one sub-organizational model further comprise member attributes, the member attributes describing user-customized data.

27. An apparatus for subscribing to an organization's historical state, comprising:

the system comprises a creation module, a selection module and a selection module, wherein the creation module is used for respectively establishing a target tissue model and at least one sub-tissue model aiming at a target tissue and at least one sub-tissue belonging to the target tissue; wherein the target tissue model is used for describing the historical state of the target tissue, and the at least one sub-tissue model is used for describing the historical state of at least one sub-tissue; the target tissue model and the at least one sub-tissue model each include a temporal attribute;

a processing module, configured to set a value of a time attribute in the target tissue model and the at least one sub-tissue model as a historical time, where the historical time is used to indicate a time corresponding to data in the target tissue model and the at least one sub-tissue model; establishing a first association relationship between the target tissue model and the at least one sub-tissue model, the first association relationship being used to associate the at least one sub-tissue model to the target tissue model;

a receiving module, configured to receive a first request from a terminal device, where the first request is used to request subscription to a history state of the target organization;

a response module for performing a subscription operation on the target organizational model in response to the first request; and executing the subscription operation on the at least one sub-organization model according to the first incidence relation between the at least one sub-organization model and the target organization model.

28. The apparatus of claim 27, wherein the first request carries a subscription item, the apparatus further comprising:

a sending module, configured to generate subscription information matching the subscription item when the target organization model and/or the at least one sub-organization model changes; and sending the subscription information to the terminal equipment.

29. The apparatus of claim 28, wherein the subscription item comprises: spatial attributes, and/or, member attributes.

30. The apparatus of claim 27, wherein the varying comprises: a sub-model change for indicating a change in a number of the at least one sub-tissue model corresponding to the target tissue model.

31. An electronic device, comprising:

at least one processor; and a memory communicatively coupled to the at least one processor;

wherein the memory stores instructions executable by the at least one processor, the at least one processor causing the at least one processor to perform the method of any one of claims 1-15 by executing the instructions stored by the memory.

32. A computer-readable storage medium for storing instructions that, when executed, cause the method of any one of claims 1-15 to be implemented.

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