CN113869731A - Application service system - Google Patents

Abstract

The embodiment of the application provides an application service system, and relates to the technical field of computers. The system is a systematic organization thing for realizing the business function target of an enterprise in the enterprise application field, and comprises the following components: a management line organization system and a service line organization system; wherein: the management line organization system is used for being responsible for business management of specific business function targets of the enterprise and has the functions of system operation instruction processing and scheduling control, task requirement acquisition and processing, system planning and resource planning and task order of the business line organization; the business line organization system is used for being responsible for task operation of specific business function targets of enterprises, has the functions of creating business task line instances based on the task orders organized by the management line, finishing the task targets and task indexes issued by the task orders, and can realize the computerized management and operation of comprehensive business management and control targets.

Description

Application service system

Technical Field

The application relates to the technical field of computers, in particular to an application service system.

Background

The organization and object boundary designed by the current computer information technology business system determines that the system is only an information system and only assists a digital information access interactive system of a typical information system in a natural environment business system. The organization and construction of the system do not comprise natural environment business system organization things and most of resource things except the computer system environment, except the computer system organization, some natural environment business system organizations are only mapped through table building access, the current management relates to the resource things in partial states to enter the system organization, but the resource things are not integrated with the real business system organization into a whole and are independent system entities, so that the function development space of the system is limited, the resource things only exist as an auxiliary system for information interaction, the capacity does not fully participate in the composition, management and control of the business system organization, and the demand of the future development of the information society cannot be met.

Disclosure of Invention

The application provides an application business system, which can realize comprehensive computerized management and operation of business management and control targets and can meet the requirement of future development of an information society. The technical scheme is as follows:

an application service system comprising:

the application business system is a systematic organization thing for realizing the business function goal of enterprises in the enterprise application field, and comprises the following components: a management line organization system and a service line organization system; wherein:

the management line organization system is used for being responsible for business management of specific business function targets of the enterprise and has the functions of system operation instruction processing and scheduling control, task requirement acquisition and processing, system planning and resource planning and task order of the business line organization;

and the business line organization system is used for taking charge of task operation of specific business function targets of the enterprise, and has the functions of creating business task line instances and finishing task targets and task indexes issued by task scheduling based on the task scheduling instructions organized by the management line.

In one possible implementation, the management line organization system is composed of an organization structure type model and a first organization object standard module implemented by a program system, the first organization object standard module is used for implementing a standard organization type structure of the management line organization system, and the organization structure type model reflects an application type composition scheme of an instance corresponding to the management line organization system;

the first organizational object standard module comprises: a first core framework and a first organization object unit module which is configured by each member interface on the first core framework and manages a loop line organization; wherein:

the first core frame includes: the first main engine, the management line organization system and each organization member are responsible for scheduling and running management line organizations, and are used for bearing the management function structure and the running logic structure of the management line organization system and realizing the service management function.

In another possible implementation, the managing link organization includes: a program nodal line organization and an artificial nodal line organization; the basic operation of the management function responsible for the organization member of the configured interface is realized in a program processing mode or a manual operation mode;

the first organization unit module includes: the system comprises an organization object standard module which is corresponding to a program loop line organization and is realized by a program system, and an organization object standard module which is corresponding to an artificial loop line organization and is realized by the combination of the program system and an artificial system.

In yet another possible implementation, the managing members of the wire organization include: managing a scheduling function line, an instruction scheduling function line, a demand processing function line, an operation monitoring function line and a management task function line; wherein:

the management scheduling function line is responsible for judging and processing instructions of major affairs or abnormal events in the operation process of the application service system;

the instruction scheduling function line is used for analyzing and scheduling all operation and strain instruction factors generated in the operation process of the application service system and controlling the operation service flow of the application service system;

the demand processing function line is used for polling demand events and demand factors in the running process of the application service system, analyzing, processing and deciding the polled demand events and demand factors to form task demand objects;

the monitoring function line is operated and is responsible for analyzing, disposing and scheduling all abnormal states, events and event factors in the operation process of the application service system and controlling the operation flow of the application service system;

and the management task function line is responsible for routing inspection, analyzing and deciding the task demand objects generated by the demand processing function line, and creating corresponding management task line examples for the task demand objects meeting preset conditions.

In another possible implementation manner, the management task line instance is responsible for processing jobs of all management functions corresponding to the task demand object, generates order pair single task files, and stores the order pair single task files into an order pair single pool; the order pair single task file comprises a resource object configuration plan, a task object and a task index which are necessary when the business line is organized and loaded with the corresponding business task line instance.

In yet another possible implementation, the managing task line instance includes: a decision generation phase line, a task production phase line, an organization management phase line, a resource plan phase line and a call release phase line; wherein:

a decision generation phase line which is responsible for a decision plan of task indexes, task objects and resource objects to be configured by a task demand object and generates decision factors;

the task production phase line is responsible for configuring the total workload required by a business task line instance for processing a task demand object and the workload of each level of organization members, and generating a command pair single task file, wherein the object corresponding to the total workload comprises: task objects in the task factor pool and task objects for executing the decision plan;

the organization management stage line is responsible for configuring various management resource object examples required by task order according to the order pair single task file generated by the decision plan and the task production stage line, wherein the example configuration is reflected in the order pair single task file generated by the organization management stage line;

the resource planning stage line is responsible for configuring various operation resource object examples required for completing task order according to the order pair single task file generated by the decision plan, the task production stage line and the organization management stage line, and configuring a resource configuration plan in each level organization of the service line, wherein the example configuration is reflected in the order pair single task file generated by the resource planning stage line;

and the order issuing stage line is responsible for executing auditing operation on the order pair single task file generated when the processing flow reaches the resource planning stage line, issuing and storing the order pair single task file in the resource pool after the order pair single task file is qualified, and returning the order pair single task file to the related operation stage line for modification after the order pair single task file is unqualified.

In yet another possible implementation manner, the service line organization system is composed of an organization structure type model and a second organization object standard module implemented by a program system, the second organization object standard module is used for implementing a standard organization type structure of the service line organization system, and the organization structure type model reflects an application type composition scheme of an instance corresponding to the service line organization system;

the second organization standard module comprises: a second core framework and a second organization object unit module of a node organization configured by each hierarchical organization member interface on the second core framework, and a third organization object unit module of a service ring line organization configured by a service loading function line and task response function line hierarchical organization member interface on the second core framework, wherein:

the second core frame includes: the second main engine is responsible for scheduling and operating the service line organization, the service line organization system and each organization member, and is used for bearing a task function structure and an operation logic structure of the service line organization to realize the task operation function.

In yet another possible implementation, each member of the line of business organization includes three types of workstations: an interactive operation station, a manual operation station and a program processing station;

the second organization unit module includes: the system comprises an organization object standard module which is corresponding to a manual operation station and is realized by a manual system, an organization object standard module which is corresponding to a program processing station and is realized by a program system, and an organization object standard module which is corresponding to an interactive operation station and is realized by the combination of the program system and the manual system.

In yet another possible implementation, the three types of workstations are a standard job type node organization, wherein,

the interactive operation station is responsible for the interactive operation function of each hierarchy organization of the service line organization; the node organization meets the requirements of various hierarchical organizations on a business line organization operation core framework on the interface configuration of dispatching line function members; the functions of a manual acquisition sensor and a manual display operator are assumed; the system is responsible for processing the states of various objects of various resource things existing in the environments of both the manual operation system and the program processing system, performing interactive operation processing and performing interactive mapping with the state of the resource pool environment;

the manual operation station is responsible for manual operation functions of basic level organization of the service line; the node organization meets the requirement configuration of interfaces of functional line functional members, which are organized on a service line organization operation core framework at a station line level; the function role of a manual operation executor is assumed; the system is responsible for processing business logic operation of mapping object states aiming at various substance things in the natural world environment;

the program processing station is responsible for the program operation function of each hierarchy organization of the service line; the node organization meets the requirements of various hierarchical organizations on a business line organization operation core framework on the configuration of dispatching line function member interfaces and function line function member interfaces; the system is responsible for processing the state interactive mapping of business logic operation processing and resource pool environment aiming at various object states of virtual things in the computer virtual environment.

In yet another possible implementation, the instances of the business line organization include one or more business task line instances; each service task line instance is responsible for processing the task target and the task index of one task order; when the task is completed, the states of all the objects in the task target are consistent with the body object states of the objects in the resource pool environment and the mapping object states in all the associated environments, and the states also include the related object states in the natural world environment.

In yet another possible implementation manner, each service task line instance includes: a service loading function line, a service response function line and a service operation function line; wherein:

the business loading function line is used for loading the current states of all the task object configuration examples and the resource object configuration examples to the mapping object model examples of the business task line examples in the active pool according to the specific configuration of the order pair list issued by the management line organization and the current situation of the resource object examples in the resource pool of the current enterprise field;

the business response function line is responsible for the task of the business task line instance to manage the high-level management function; the functions comprise replying a call receipt, managing and controlling key activities of task operation, and processing abnormal events and running instructions;

and the business operation functional line is responsible for task implementation operation of the business task line instance.

In yet another possible implementation, the business job functional line includes: a job preparation phase line, a job task phase line and a job end phase line; wherein:

the operation preparation phase line is responsible for the preparation operation of all resource object examples required by the service task line examples to complete the tasks and the condition preparation operation of the task object operation;

the operation task stage line is responsible for implementing the operation of the order task received by the service task line instance;

and the operation ending stage line is responsible for ending the operation of all the resource object examples and restoring the operation of the environment after the operation of the task object after the operation of the business task line examples is carried out.

In yet another possible implementation, each of the job phase lines includes: one or more link lines, each link line including one or more work lines; wherein:

the link line is responsible for providing a subordinate organization member bearing decomposition function for the phase line and is used for solving the organization manufacturability problem of scientific task division and resource distribution;

and the worker line is responsible for providing a subordinate organization member bearing decomposition function for the worker line and is used for solving the organization manufacturability problem of scientific task division and resource distribution.

In yet another possible implementation manner, the type of the node organization configured by each hierarchical organization member interface of the business operation functional line is determined by the interface functional requirements of each hierarchical organization; the type of the node organization is any one of the following cases:

a program processing station;

an interactive operation station;

an interactive operation station and a manual operation station;

an interactive operation station and a program processing station;

an interactive operation station, a manual operation station and a program processing station.

In yet another possible implementation, the business link group organization includes: a program nodal line organization and an artificial nodal line organization; the basic operation of the management function responsible for the organization member of the configured interface is realized in a program processing mode or a manual operation mode;

the third organization unit module includes: the system comprises an organization object standard module which is corresponding to a program loop line organization and is realized by a program system, and an organization object standard module which is corresponding to an artificial loop line organization and is realized by the combination of the program system and an artificial system.

The beneficial effect that technical scheme that this application provided brought includes at least:

the embodiment of the application provides an application service system, which comprises a management line organization system and a service line organization system; wherein: the management line organization system is used for being responsible for business management of specific business function targets of the enterprise and has the functions of system operation instruction processing and scheduling control, task requirement acquisition and processing, system planning and resource planning and task order of the business line organization; the business line organization system is used for being responsible for task operation of specific business function targets of enterprises, has the functions of creating business task line instances based on task scheduling instructions organized by the management line, completing task targets and task indexes issued by the task scheduling instructions, and can realize comprehensive computerized management and operation of business management and control targets.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments of the present application will be briefly described below.

FIG. 1 is a diagram of a system operating environment framework included in a multidimensional service system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a system organization environment framework included in a multi-dimensional business system according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a texture type model provided in an embodiment of the present application;

fig. 4 is a schematic view of a flow node of an application service system according to an embodiment of the present application;

fig. 5 is a schematic view of an organization node of a central air-conditioning service system according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to the embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present invention.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" or "associated with" another element, it can be directly connected or coupled or associated with the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled, and "associated" may include association of relationships between objects in a virtual environment. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The material world: refers to the natural environment of human living activities;

virtual world: the first is the brain neural network environment of human thinking activity; the second is an information system environment formed by a computer system and the like;

and (3) business system organization: the method is characterized in that the method is a matter formed by a set of behavior activities with human set value targets and resource matters thereof, and is a systematic matter created by human; the resource objects of the business comprise behavior related object objects and object objects for assuming function construction;

things: everything else; refers to the concept that epitaxy and subclasses are objects that can be thought or discussed; therefore, the extension of things is all subjective and objective objects of human cognitive scope;

service: is a series of resource transactions and their activities that can achieve the planning goal;

the target is as follows: is a state of a resource object of a business, representing a solution to a real problem;

resource: broadly refers to a functional/functional event object with certain value attributes; narrowly defined, to objects that have an impact on the goals of the business system organization;

moving: the method refers to a series of state change processes of resource objects influenced by internal and external behavior factors;

the system comprises the following steps: is an organizational environment for the resource architecture of a class of things; the business system is an organization system for constructing resource things for realizing business objectives.

Since ancient times, human activities or business activities can only exist in the physical world environment for a long time; although human beings also create a classical information system environment consisting of language, characters and communication systems in the physical world environment, the information system environment does not have the capability of constructing, composing and organizing resource things of business system entities.

In recent times, humans have created modern information system environments composed of computer systems, solving the fundamental environmental problem of constructing resource objects that make up the entity organization of a business system. However, at present, the main problems solved by computer information systems are to expand the memory capacity of human brain and to efficiently access information interactively, so as to assist human activities or business activities and to obtain better activity targets.

In the application environment of human business activities, there is a need for a business system organization entity that can operate cooperatively in both the virtual and physical environments. The business system entity can be composed of various resources of physical world things and virtual world things.

In the physical world, how various resource things constitute business system entity organization, human business activities have existed for thousands of years, and a large number of application paradigms are possessed. But also lacks professional technology for scientifically constructing and accurately expressing business system organization. In the virtual world, how various resource things form business system entity organization, namely, professional technologies for describing business system organization need to be expressed, and methodology for modeling business system organization also needs to be established.

The organization entities of the business system need to operate cooperatively in the internal organizations in the virtual environment and the physical environment, which can not achieve the business capability and the target realization before, and also need a set of corresponding scientific methodology for comprehensively constructing the business system organization.

However, in most cases, when planning and designing or creating a service system organization, it is rare to systematically and completely build a service system. Moreover, a technical solution for a set of business system organization under multi-dimension and complete planning design or creation is lacking.

The basic forms of the current mainstream business systems include a traditional manual management operation business system, a computer information processing business system, a computer automatic processing system and an ERP system. These common business systems are usually simple manual business system organizations, or simple program processing business system organizations, or simple human-computer interaction business system organizations. Therefore, the system is not a system which comprehensively reflects business environment things and has inherent limitations.

Specifically, the manual management work business system is a business system mode formed by a conventional human activity organization, and human activities are the meanings of human lives so far. All the operation activities and management activities of the business system are driven by human behavior leading, and with the development and progress of scientific technology, a large amount of behavior auxiliary resources can be utilized in the human behavior activities to generate higher management and operation effects. For example, resources such as machine equipment tools and the like solve manual work, a classic information system solves basic communication and communication, and a computer system solves efficient communication and information processing.

However, the business is generally organized in a form of an object system with unclear concept and structure, which is represented in an enterprise function organization architecture and mainly composed of department functions, post responsibilities, human resource behavior rules and auxiliary inter-post flow constraints. The business system is required to operate well and mainly depends on abundant working experience and long-time cooperative running-in among human resources in an organization; otherwise, the loophole is lost, so that the management of the object system becomes a big problem.

Secondly, the computer automatic processing system is an automatic system which is composed of computer systems and completely replaces the business activities such as manual operation or management and the like, and comprises an automatic equipment control system, an automatic information processing system and a current hotspot technology-artificial intelligence computing system. For example, automated processing systems for information data, industrial production automation systems, artificial intelligence NLP natural language processing systems, and the like, that meet the need for increased efficiency.

Thirdly, the computer information processing service system is a man-machine interaction and information processing system formed by a computer system, solves the problem of replacing a human classical information system which is mainly formed by a paper carrier and has the defects of low efficiency, low speed, resource waste and the like, and is an information interaction transmission and storage system for assisting artificial services; more complex information processing systems can also process information, so that the work of people is reduced or replaced, and the work efficiency of a manual service system is doubled. For example, the information platform system is managed auxiliarily to meet the information interaction and storage requirements of business activities.

Finally, the ERP system is a short term for Enterprise Resource Planning (Enterprise Resource Planning), and is a management platform which is established on the basis of information technology, integrates information technology and management ideas, and provides decision means for Enterprise employees and decision layers through a systematic management idea.

The ERP system has great progress in recording data information in the manual business system, but the ERP system still meets the greater requirement of manual management on information interaction storage. Although a large number of business process examples are configured to restrict the operation process, the process restriction is only the process of the information interaction post, a large number of other operation posts and operation resource object objects, and the ERP system has no means to realize management or control. The enterprise management system has four major functions of planning, organizing, commanding and controlling, and is completely the leading responsibility of the enterprise manual management system organization, and the ERP system has no capability of independently bearing any partial decomposition function. Therefore, the ERP system also has the role of an auxiliary information system.

The system is a computer information system which is used for assisting a traditional manual management operation business system except that the automatic computer processing system is an automatic system for replacing manual work. The business systems are realized by a methodology for constructing a business system organization system, the method used so far is basically the same analysis and modeling mode which is described in detail in the national standard (GB _ T19487-2004 general specification of electronic government business process design method), and even more advanced ERP systems are system organizations established by the mode basically the same as the specification.

In addition, the organization architecture mode of the current mainstream information technology business system is as follows:

division of department and post functions into system layers;

an interactive post platform collaboration system layer;

form and base table mapping system layers;

wherein:

1. department and post function division system, has:

1.1. the organizational framework hierarchy is:

enterprise level, division level, department level, team level, post level;

1.2. the essence of the organizational architecture is:

1) enterprise level, division level; these hierarchical divisions mainly reflect authorized divisions of disposal rights for enterprise resources, rather than specific decomposed divisions of enterprise functions;

2) department level, team level and post level; these hierarchy partitions may reflect simple decomposition partitions of functions and authorized partitions of disposal rights for portions of resources;

2. the interactive post platform cooperation system comprises:

each post with drive association in the post hierarchy is taken as a process node, and a node organization of an event stream collaboration chain from the beginning to the end can be formed, wherein the node organization is called a business process; then, reflecting an integral service system by planning all service flows;

3. a form and base table mapping system having:

form data is generally content required by manual management and operation, and a mapping relation is required to be established with a corresponding storage table in a database; the data content of records reflected by the form and the database table is generally a statistical significance object model which is a data model used by human management; for example, official documents, financial statements, bill of materials, task work orders;

in addition, the business function organization logic mode is as follows:

1. form + business organization mode of the process:

1.1. the enterprise-level business organization is a tree structure formed by dividing according to the function division system and is a static structure organization; however, the business system organization is a system with a dynamic flow structure; therefore, the current organization logic mode is a system with the posts connected into an active flow, and is used as a business system organization;

1.2. the post is a virtual operation node organized by a service system, and is an interface of a user terminal in the system; using the form on the interface to record state data reflecting various operations of a bottom layer service unit module; the user operation content is the display and input operation data which is reflected by the interface form and is similar to the paper form; and uploading and storing the form data into a database, or downloading and displaying the form data in the database onto an interface form to meet the requirement of a mapping system.

2. Form data control processing mode in the database:

2.1. automation of calculations made for form data:

2.1.1. calculating aiming at data in a single form;

2.1.2. joint computation for multi-form data.

2.2. And (3) carrying out service supervision and management aiming at the form data:

2.2.1. target supervision: if the state of the target object exists in the form data, whether the set state is reached can be judged, and if yes, an alarm signal is sent out;

2.2.2. and (3) flow supervision: if the state of the post process exists in the form data, whether the state deviates from the set state can be judged, and if yes, an alarm signal is sent out; and the access authority of the post user can be limited, and the direction of the flow is restricted.

3. Form data interaction and operation control mode in the interface:

3.1. aiming at the form input behavior of the interface, the input content can be restricted according to the business rule;

3.2. aiming at the interaction between the interface form data and the database, the data can be processed according to business logic, and the contents conforming to the rules are generated in a constrained mode.

It can be seen from the above that, the current method for constructing a business system organization system is a rather rough and limited method, and is only suitable for describing information interaction post forms and post job flow constraints, and such a system organization of the grade of the auxiliary information system is also only a document editing type business system, and can also be applied to basically realize the job organization of business functions. As an enterprise-level main business system, the enterprise-level main business system has no participative component organization in the aspects of management, operation organization and the like, is only used for information recording and transmission and partial information processing and interaction post flow constraint, and also has no methodology support for constructing the main business system and providing more scientific management and operation realization.

Therefore, the organizational object boundary designed by the current computer information technology business system is determined, which is only an information system and only assists the digital information access interactive system of the typical information system in the natural environment business system. The organization and construction of the system do not comprise natural environment business system organization things and most of resource things except the computer system environment, except the computer system organization, some natural environment business system organizations are only mapped through table building access, the current management relates to the resource things in partial states to enter the system organization, but the resource things are not integrated with the real business system organization into a whole and are independent system entities, so that the function development space of the system is limited, the resource things only exist as an auxiliary system for information interaction, the capacity does not fully participate in the composition, management and control of the business system organization, and the demand of the future development of the information society cannot be met.

In particular, the data objects and structures in the form reflect a mixed feature set of a business unit and internal member objects, rather than a corresponding business unit modeling model of a structured organization. The form sets reflecting the business unit modules can not reflect a structured organization system of a business system, and can not reflect a modeling model of a business system organization.

The form of the mixed feature set type is derived from a paper form used by a manual business organization, is an evolved form, is only suitable for assisting manual operation and management, and cannot be a modeling model of a business functional organization. Therefore, the form and the set thereof have no corresponding service system organization instance in the system, namely, no organization instance running body capable of completely reflecting the static structure relationship and the dynamic structure relationship of one service system organization; the essence of the form is a container that carries the object state information model.

With the continuous development of application technologies such as the internet of things and artificial intelligence, breakthrough in the field of information technology is urgently needed, and advanced productivity is provided for the progress of human society. The internet of things cannot be just the only thing, but can connect the goods to form a network, and cannot generate larger organization value; artificial intelligence also cannot only play chess and recognize images in online game competition, but cannot participate in decision making and control in enterprise production management activities; current computer information technology business systems have been unable to meet this demand, and this goal must be achieved with more scientific and advanced technical solutions.

In view of the above, the inventor of the present application proposes an application business system organized and constructed based on a business system constructed by an omnidirectional multidimensional resource function system, and can achieve computerized management and operation of a comprehensive business management and control target.

An application service system in the embodiment of the present application is constructed based on a multidimensional service system, which is an intelligent service system, and may be referred to as an intelligent multidimensional service system (hereinafter, may be referred to as "the system"), and is not only a computer information processing system, but also an organization system related to the operating environment of all service resources, an organization system including all service elements, and an organization system constructed according to a specific service function target. The business system organization comprises a computer environment and an information system and can reflect the multidimensional integrated organization structure.

Multidimensional property: the method refers to a technical means and an organization element which are rich and diverse in a plurality of structural dimensions such as function form, organization form, resource form, task form, management form and environment form and reflect the organization structure of a business system.

Functional form: the method refers to various business functional operation types which can be possessed by an organization thing; such as manufacturing, engineering, property management, marketing, personnel finance, etc.;

tissue morphology: refers to the mode of various organizational structures that an organizational object can have; such as manual work organization, program work organization, human-computer interaction organization, comprehensive organization, and so on;

resource form: the resource types of various organization structures which can be possessed by the organization things are referred to; e.g., physical resources, equipment, tools, materials, computers, networks, etc.; human resources, field workers, office clerks, managers, and the like; virtual resources, capital, cost, post, qualification, standard, specification, program module, etc.;

task form: the method is characterized by comprising the following steps of (1) indicating various task objects and types of task indexes which can be implemented by organizing things; the task object aspect can be a matter, and can also be a virtual matter; for example, a device class field operation object, a personnel class management object, an organization class management object, a document class editing object, a report class processing object, etc.; task index, daily, periodic, on duty, scheduled, event, command, autonomous, delegated, etc.;

the management mode is as follows: means of various management sciences and technologies which can be possessed by organizing things; such as plan management, decision management, organization management, scheduling management, control management, strain management, and the like;

the environment form is as follows: the method refers to the operating environment of various instance objects to which an organization object can adapt; such as natural environments, various virtual environments;

therefore, the system is a service system organization comprehensively constructed and operated and managed in any requirement scene, any operation environment, any resource environment, any performance index, any complex structure and the like. Aiming at business system organization in enterprise-level application field, the digital intelligent comprehensive operation management is implemented, and the solution of planning and designing or transforming the business organization system is implemented.

The multidimensional service system in the embodiment of the application comprises: a system runtime environment framework and a system organization environment framework, such as the system runtime environment framework shown in fig. 1 (hereinafter may be simply referred to as "system framework") includes: a network resource environment layer and a runtime resource environment layer, the system organization environment framework shown in fig. 2 includes: a business organizational incident layer and an environmental resource incident layer. Wherein,

the first, network resource environment layer includes:

1. classical internet environment: the basic network operation software and hardware environment of the intelligent multidimensional service system comprises: a server environment, a computer terminal environment, a network system environment, a database storage environment;

2. mobile internet environment: the wireless network operation software and hardware environment of the intelligent multidimensional service system comprises: a handheld terminal environment, a wireless communication network environment.

The second, run resource environment layer includes:

1. the mobile pool environment frame: including the active pool environment in the virtual world (computer system environment), the natural world environment/(natural resource pool), and the transaction mapping mechanism layer, where:

1) and the environment of the movable pool: the method is characterized in that in a system under a virtual environment, the running environment of the active body instances and the state class feature body instances of all the behavior classes of mapping objects organized by a service system is established;

2) natural world environment/(natural resource pool): a natural living environment for constructing instances of natural physical things, organic environmental virtual things, and machine environmental virtual things of a business system organization. Wherein, the organic environment is a virtual thing environment formed inside the organism of a system participant (designer or user, etc.); a machine environment is a virtual object environment formed inside a system interface adapter (smart device or information system, etc.) machine system.

3) And the object mapping mechanism layer is used for forming a function organization which is responsible for machine system organization in a system virtual environment in the intelligent multi-dimensional business system, forms an information interaction function with various artificial system organizations and various machine system organizations in a natural world environment, and generates a state or instruction mapping relation.

2. Resource pool environment framework: the system is a living environment for constructing the ontology object examples of all resource objects organized by a business system and organizing the ontology object examples of the self ontology object examples in the system under the virtual environment.

An organizational or resource thing, has an ontological object instance in a resource pool, and has at least one mapping object instance in an activity pool.

The ontology object reflects object instances, has ontology concept object entities of all attribute feature states, and can only exist in a resource pool environment, so that the uniqueness of the object ontology is ensured.

The mapping object reflects an object entity which is an object instance (also an ontology object) in the resource pool environment, has partial or all attribute feature states and behavior activity rules in other existing environments or running environments, and has to interact with the ontology in real time to map the states.

It should be understood that any object instance in the system environment can only have one unique ontology object entity, but the mapping object can have any mapping object entity as required by the system operation or business function.

Specifically, the mobile pool environment includes: running management environment, modeling registration environment and business organization environment; wherein:

the operation management environment is used for bearing the responsibility of an operation management mechanism and establishing the basic functions of system construction and operation overall environment based on software and hardware technical resources;

the method comprises the steps of modeling a registration environment, assuming the responsibility of an object construction mechanism, and providing basic functions of existence, creation and operation in the multi-dimensional business system for type models and example models of various resource objects and various organizational objects based on an object modeling registration mapping mechanism and business organization and standard modules of various registration functions;

the business organization environment is used for bearing the responsibility of the object operation mechanism, and providing the basic functions of realizing and operating the object organization standard module framework for various organization objects based on the object state interaction mapping mechanism and the object organization standard module system framework.

The resource pool environment includes: constructing a pool environment frame, an example pool environment frame; wherein:

constructing a pool environment, and providing a basic environment for storing and interactively mapping the type models of the resource things and the organizational things;

an instance pool environment provides a base environment for storage and interaction mapping for instance models of resource things and organizational things.

Third, business organizational layer:

and a business organization system of the enterprise-level application field of the intelligent multi-dimensional business system is formed. The business organization layer is composed of four layers of architectures, namely a function cooperation layer, a task function layer, a cooperation control layer and a control function layer. Wherein:

1. the function cooperation layer is a function decomposition organization system which is used for decomposing and determining a total function target based on the enterprise application field and is used for configuring a basic function target for each function responsibility organization member of a basic layer under the function decomposition organization system;

2. a task role layer for organizing a collection of members for a plurality of role responsibilities that meet each role objective of the enterprise application domain; wherein, a function responsibility organization member is a basic organization thing which is responsible for completing a basic function target of the enterprise application field;

3. the system comprises a collaborative control layer, a control classification management system and a basic management and control target configuration layer, wherein the control classification management system is used for performing classification determination on an overall management and control target based on the enterprise application field and is used for organizing members for each basic management and control responsibility under the control classification management system and configuring the basic management and control target;

4. and the control function layer is used for organizing a set of a plurality of control responsibility organization members for meeting each control target of the enterprise application field, wherein one control responsibility organization member is a basic organization object which is responsible for completing one basic control target of the enterprise application field.

Specifically, in this embodiment, the function collaboration layer is a function decomposition organization system determined by the total target of functions in the enterprise application field; the constraint configuration of the organization members under the system is each member instance of the task function layer of the organization object constructed based on the environment resource object layer.

The task function layer is composed of a plurality of application business system organization examples meeting each task target of the enterprise; organizing standard type program modules of things by an application service system configured in a system framework to generate construction and operation constraints; every application service system in the system organizes the object registration type, and the structure and the functional logic of the type are expanded on the basis of inheriting a standard type program module.

The collaborative control layer is determined by the management control target of the enterprise application field and controls a classification management system; the management configuration of the type members under the system is based on the organization things constructed by the environment resource things layer, namely, each member instance of the control function layer.

The control function layer consists of a plurality of application control line organization examples meeting all control targets of the enterprise; organizing things' standard type program modules by application control lines configured in a system framework, creating construction and operational constraints; every application control line in the system organizes the object registration type, and the structure and the functional logic of the type are expanded on the basis of inheriting a standard type program module.

Fourth, the environmental resource affair layer includes:

1. the object mapping object layer forms a task object, a condition object, an environment object, an organization function object and an organization object of the intelligent multi-dimensional business system;

in particular, the following object ranges are involved:

the method comprises the steps that a natural environment material object resource object group exists in a real natural world environment and needs to be mapped in a system virtual environment;

the method comprises the steps that an organic environment virtual object resource object group exists in a real natural world environment and needs to be mapped in a system virtual environment;

the method comprises the steps that a machine environment virtual object resource object group in a system virtual environment needs to be mapped, wherein the machine environment virtual object resource object group exists in a real natural world environment;

newly defined and created virtual transaction resource object groups in the system virtual environment based on business needs;

the mapping object is an object instance which reflects the related mapping attribute characteristic relation of the ontology object instance in the mapping operation environment.

The object mapping object layer is an example living environment (running and storage environment of an object example model) of mapping objects of all objects, and the following two environment examples exist:

the first is that: a virtual environment instance constructed in a computer virtual world environment by a system framework is called an activity pool environment and is a living and active environment of a virtual environment object mapping object instance;

secondly, the following steps: the naturally occurring physical world, also considered as an environmental instance, is the living and active environment of instances of physical environmental thing objects (the ontology scheme is considered as mapping objects).

Instances of virtual environment mapping objects of things are determined by the application domain business requirements of enterprise users and are created in the activity pool based on mechanisms provided by the system framework.

2. The object body object layer forms an object body object instance group which organizes object objects, task objects, condition objects, function objects and environment objects in the intelligent multi-dimensional business system and is in the resource pool environment;

is the ontology object instance group of all environment resources and organizations; all the object objects which are included in the business system organization range, including natural physical entities, virtual object objects and constructed business system organization object objects, must construct the entity object instance thereof;

the ontology object is a holographic object instance of an ontology model type which comprehensively reflects all attribute feature relationships of an object instance.

The object ontology object layer is an instance living environment of an ontology object of all objects (a storage environment of an object instance model); the environment example is constructed by a system framework in a computer virtual world environment and is called a resource pool environment.

Instances of the ontological objects of the things are determined by the application domain business requirements of the enterprise users and are created in a resource pool based on mechanisms provided by the system framework.

The states of the body objects of any resource things and the states of all corresponding mapping objects are instantly unified into the same state based on an object state interaction mapping mechanism.

Specifically, in the embodiment of the application, the system solution has three application types of an organization transaction activity mapping mechanism, a human-computer interaction mapping mechanism and a human-computer interaction mapping mechanism. Wherein. The mapping mechanism of the organizational transaction activity is the object state mapping constraint generated by the business organizational activity.

The man-machine interaction mapping mechanism is responsible for: the method comprises the following steps that operators in natural environments in the system form a docking interface with resource objects or organization objects in different operating environments in the system, and interact business activities of virtual environment object information required by the operators; the method comprises the steps that a man-machine interaction service organization-interaction line organization standard type program module configured in a system framework generates construction and operation constraints; all behavioral activities related to state operation aiming at two ontology objects and mapping object types of things in the system, namely state mapping business activities, extend the structure and functional logic of the types on the basis of inheriting an interactive line organization standard type program module; thereby meeting the processing, running and constraint requirements of the mapping mechanism;

the machine-machine interaction mapping mechanism is responsible for: resource things or organization things in the system and any form of system external information technology system form a docking interface to interact business activities of virtual environment things information required by the docking interface; but in order to ensure the security of the system, the external system only allows the object ontology objects in the resource pool to carry out state mapping interaction.

The system solution may include two application types:

1. the system docking interaction mechanism of the object model technical standard system which is the same as the system;

2. and the system is a system docking interaction mechanism of a different object model technical standard system.

Generating construction and operation constraints by a standard type program module organized by a machine-machine interaction interface configured in a system framework; all interactive interface devices which are used for carrying out state mapping processing aiming at resource object body objects extend the structure and functional logic of types on the basis of inheriting standard type program modules organized by a machine-machine interactive interface; thereby satisfying the processing, operating and constraining requirements of the mapping mechanism.

The application of the scheme 1: the system butt-joint interaction method of the system with the same technical standard system as the system is that on the basis of inheriting a standard type program module, an input/output interface device which is responsible for interaction, is organized and realized by program processing is configured for each butt-joint system to realize information interaction; the interaction interface device can directly exchange the information of the object model without the information data format conversion of the object model;

applying the scheme 2: the system butt-joint interaction method of the system with different technical standard systems is that on the basis of inheriting a standard type program module, an input and output interaction interface device which is responsible for interaction, is organized and realized by program processing is configured for each butt-joint system to realize information interaction; aiming at the technical standards of object models of different external systems, the interactive interface device is provided with a program module which is responsible for the information exchange between the two parties and the information and data format conversion processing function in the environment of the other party, and a program module for other auxiliary functions.

The business system organization comprises:

1) and the mapping requirements of the natural world physical things are as follows: a manual work organization class, the manual work organization class comprising:

manually collecting human-computer interaction business organization of a sensor type;

manual operation business organization of manual operation executor type;

2) and the mapping requirements of the virtual things in the natural world are as follows: a manual work organization class and a machine handling organization class, wherein:

the manual work organization category includes:

manually collecting human-computer interaction business organization of a sensor type;

human-computer interaction business organization of the manual display operator type;

machine processing of tissue classes includes:

the machine-machine interaction service organization of the input-output interface type;

the transaction mapping interaction mechanism layer is responsible for mapping the modeling models of the various transaction objects to function organizations in the virtual environment; the modeling mapping module is responsible for mapping the material object modeling model and the virtual object modeling model; and the modeling mapping module is also necessary for organizing the modeling model mapping of the business system.

In order to make the objects, technical solutions and advantages of the present application clearer, the following will explain in detail the technical solutions of the present application and how the technical solutions of the present application solve the above technical problems with specific embodiments in conjunction with the accompanying drawings. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

An application service system provided in an embodiment of the present application is a system object for realizing an enterprise service function goal in an enterprise application field, and the application service system includes: a management line organization system and a service line organization system; wherein:

the management line organization system is used for being responsible for business management of specific business function targets of the enterprise and has the functions of system operation instruction processing and scheduling control, task requirement acquisition and processing, system planning and resource planning and task order of the business line organization;

and the business line organization system is used for taking charge of task operation of a specific business function target of an enterprise, and has the functions of creating a business task line instance and finishing a task target and a task index issued by a task order based on the task order organized by the management line.

That is, the application business system in the embodiment of the present application complies with the standard definition of organization matters, relies on the resource object instances associated in the resource environment of the environmental resource matter layer configured in the organization structure type model registered therein, and is implemented as the systematic organization matters of enterprise specific business objectives under the constraint and support of the organization matters standard module of the application business system of the system framework as the organization infrastructure entity.

Each application business system is an organization structure type model for realizing the business function and the target thereof and reflects the application type of the organization things to form a scheme; registering and storing in a resource pool construction pool through an object modeling registration mapping mechanism; each organization member on each organization level in the application business system is also provided with an organization structure type model which can realize the self business function and the target, and reflects the constitution scheme of the organization members.

As shown in fig. 3, a schematic diagram of an organization dimension construction scheme of an organization construction type model in an embodiment of the present application is shown, where the organization construction type model includes organization dimension construction items, and the organization dimension construction items at least include:

the organization state interface reflects the characteristic object interface items of the self behaviors and the running states of the organization;

the task configuration interface reflects task object interface items for organizing task configuration;

the resource line interface reflects resource object interface items for organizing resource object configuration;

the dispatching line interface reflects the function interface project of the organization operation dispatching and the flow;

and the function line interface reflects function interface items of the organization member structure.

The task object and the resource object configured in the organization construction scheme are mapping object instances of the ontology object in the resource pool; the functional activities of an organization are the manipulation and use of these object instances and the creation of the desired goal state for the enterprise. Under the interface item, function members, function components, configuration members and configuration components can be configured according to business requirements, wherein,

and (4) functional members: is an organization member bearing the function decomposition of the superior organization;

functional components: is a construction component for bearing the basic realization of the node organization function line interface; for example, an executable program module of a program processing station, a man-machine interaction interface module of an interactive operation station and task operation specifications of a manual operation station;

configuring members: is a structural member that plays a role in organization configuration; such as, an aspect object, a task configuration member, a resource configuration member;

a configuration member: is a construction component for realizing various configuration functions of the organization; for example, various functional factors, various functional pairs, various functional containers;

the configuration member and the configuration component can configure various corresponding configuration objects, namely mapping object instances, according to business requirements.

The organization object standard modules of various organization object standards are configured in the system framework, and the organization object standard modules correspond to standard organization structure type models; the organization object standard module needs to load configuration items in an organization structure type model registered by the organization object during operation and create an operation object instance of the organization object.

It should be noted that the organizational structure type model shown in fig. 3 may also include an external dispatch interface and/or a supervisory line interface, wherein,

the external scheduling interface reflects the engine organized by the system framework of the organization, implements loading, creating an instance and a driving process, and schedules the required parameter file interface configuration items during operation; e.g., the order of organization is singled;

and the supervisory line interface reflects each hierarchy organization, is used as an application control line which is a basic member of a cooperative control project system outside the application service system, implements control operation of state monitoring management, and controls the access port configuration project of the organization.

The organization structure of an application service system consists of a management line organization system and a service line organization system which are two-level organization systems; the method reflects the organization management relations such as constraint, support and cooperation and the like between two organization systems through the transmission operation and state processing of mapping object examples of various things (models) and various configuration members (models) to single and factor member examples configured in the two organization systems; the management line organization system is responsible for the overall business management function; the service line organization system is responsible for the overall task operation function.

In some embodiments, the management line organization system is composed of an organization structure type model and a first organization thing standard module implemented by a program system, the first organization thing standard module is used for implementing a standard organization type structure of the management line organization system, and the organization structure type model reflects an application type composition scheme of an instance corresponding to the management line organization system;

the first organizational object standard module comprises: a first core framework and a first organization transaction unit module configured by each hierarchical organization member interface on the first core framework to manage a nexus organization; wherein:

the first core frame includes: the first main engine, the management line organization system and each organization member are responsible for scheduling and running management line organizations, and are used for bearing the management function structure and the running logic structure of the management line organization system and realizing the service management function.

It should be noted that, in this embodiment, each hierarchical organization refers to an intermediate hierarchical organization other than the node organization, and each organization includes a hierarchical organization and a node organization.

In the above embodiment, managing the ring wire organization includes: a program nodal line organization and an artificial nodal line organization; the basic operation of the management function responsible for the organization member of the configured interface is realized in a program processing mode or a manual operation mode;

the first organization unit module includes: the system comprises an organization object standard module which is corresponding to a program loop line organization and is realized by a program system, and an organization object standard module which is corresponding to an artificial loop line organization and is realized by the combination of the program system and an artificial system.

In the above embodiment, the members of the management line organization comprise: managing a scheduling function line, an instruction scheduling function line, a demand processing function line, an operation monitoring function line and a management task function line; wherein:

the management scheduling function line is responsible for judging and processing instructions of major affairs or abnormal events in the operation process of the application service system;

the instruction scheduling function line is used for analyzing and scheduling all operation and strain instruction factors generated in the operation process of the application service system and controlling the operation service flow of the application service system;

the demand processing function line is used for polling demand events and demand factors in the running process of the application service system, analyzing, processing and deciding the polled demand events and demand factors to form task demand objects;

the monitoring function line is operated and is responsible for analyzing, disposing and scheduling all abnormal states, events and event factors in the operation process of the application service system and controlling the operation flow of the application service system;

and the management task function line is responsible for routing inspection, analyzing and deciding the task demand objects generated by the demand processing function line, and creating corresponding management task line examples for the task demand objects meeting preset conditions.

Specifically, in this embodiment, the management task line instance is responsible for processing jobs of all management functions corresponding to the task demand object, generates order-to-single-task files, and stores the order-to-single-task files in an order-to-single pool; the order pair single task file comprises a resource object configuration plan, a task object and a task index which are necessary when a corresponding business task line instance is loaded by a business line organization system.

In this embodiment, the managing task line instance includes: a decision generation phase line, a task production phase line, an organization management phase line, a resource plan phase line and a call release phase line; wherein:

a decision generation phase line which is responsible for a decision plan of task indexes, task objects and resource objects which are required to be configured by a task demand object and generates a decision factor;

the task production phase line is responsible for configuring the total workload necessary for processing a business task line instance of a task demand object and the workload of each level of organization members, and generating a command pair single task file, wherein the object corresponding to the total workload comprises: task objects in the task factor pool and task objects for executing the decision plan;

the organization management stage line is responsible for configuring various management resource object examples required by task order according to the order pair single task file generated by the decision plan and the task production stage line, wherein the example configuration is reflected in the order pair single task file generated by the organization management stage line;

the resource planning stage line is responsible for configuring various operation resource object examples required for completing task order according to the order pair single task file generated by the decision plan, the task production stage line and the organization management stage line, and configuring a resource configuration plan in each level organization of the service line, wherein the example configuration is reflected in the order pair single task file generated by the resource planning stage line;

and the order issuing stage line is responsible for executing auditing operation on the order pair single task file generated when the processing flow reaches the resource planning stage line, issuing and storing the order pair single task file in the resource pool after the order pair single task file is qualified, and returning the order pair single task file to the related operation stage line for modification after the order pair single task file is unqualified.

That is, the management line organization system in the embodiment of the present application, namely: each management line organization system in the system environment is provided with an organization object standard module which is uniformly configured by a system framework and realizes the management line; the organization object standard module consists of an organization operation core framework, each organization system member interface on the core framework, a configured program-link line and a configured manual-link line, and two types of basic operation organization objects; the link line type is a running entity of basic operation functions born by each hierarchy organization member of the management line organization system, so that the business logic processing of each organization member is realized.

Any application system can customize the freezing/activating selection state of the two link line type enabling configuration items according to the service requirements.

The organization operation core framework is an organization object standard module which is realized by an autonomous operation processing program system under the organization constraint and support of the system framework, bears a management function structure and an operation logic structure of a management line, and organizes a structure and an organization operation framework; the core framework has a main engine responsible for organizing the scheduled operation and a structural framework for organizing the various members.

The program link line operation organization is an operation organization module which is constructed in a mode of finishing the operation functions of organization members of the management line by an intelligent program processing system and can be configured in a standard mode; each organization member on the organization operation core framework is provided with an organization object standard module of a program loop line type.

The program loop line operation organization comprises the following structural schemes:

the organization object standard module of the program loop line type is a software program processing module which is constructed by constructing various member configuration models in a type registration model by relying on the application service system and constructing according to the responsible function logic of the organization members.

The organization standard module is configured with default automatic processing logic or AI processing logic; the organization object standard module is also provided with an expansion custom secondary development interface; any application system type can expand the processing logic special for user-defined configuration according to the service requirement; when the program processing module runs, automatically judging whether the secondary development interface has a special processing logic, and preferentially executing the special processing logic, otherwise executing a default processing logic; and the type extension description is expressed in an organization structure type model of the program link line operation organization.

The manual link line operation organization is an operation organization module which is constructed in a mode of finishing the operation functions of organization members of the management line by a manual operation processing system and can be configured in a standard mode; each organization member on the organization operation core framework is provided with an organization object standard module in a manual link line type;

wherein, the constitution scheme of the artificial loop line operation organization is as follows:

the organization object standard module of the artificial link line type is a software program processing module which is constructed by relying on the application service system to construct various member configuration models in the type registration model and according to the responsible function logic of the organization members.

The organization object standard module is provided with a manual operation organization-management operation service line which is scheduled, managed and controlled by a program and is universal in management line; the management operation type service line has the same structure and operation mode with a standard service line organization system of other task functions.

Therefore, any application system type can expand the structure and the service logic of the user-defined service line organization on the basis of inheriting the standard type of the management operation service line; and the type extension description is expressed in an organization structure type model of the manual link line operation organization.

In other embodiments, the service line organization system is composed of an organization structure type model and a second organization object standard module implemented by a program system, the second organization object standard module is used for implementing a standard organization type structure of the service line organization system, and the organization structure type model reflects an application type composition scheme of a corresponding instance of the service line organization system;

the second organization standard module comprises: a second core framework and a second organization object unit module of a node organization configured by each hierarchical organization member interface on the second core framework, and a third organization object unit module of a service ring line organization configured by a service loading function line and task response function line hierarchical organization member interface on the second core framework, wherein:

the second core frame includes: the second main engine is responsible for scheduling and operating the service line organization, the service line organization system and each organization member, and is used for bearing the task function structure and the operation logic structure of the service line organization system and realizing the task operation function.

In the above embodiment, the business link organization includes: a program nodal line organization and an artificial nodal line organization; the basic operation of the management function responsible for the organization member of the configured interface is realized in a program processing mode or a manual operation mode;

the third organization unit module includes: the system comprises an organization object standard module which is corresponding to a program loop line organization and is realized by a program system, and an organization object standard module which is corresponding to an artificial loop line organization and is realized by the combination of the program system and an artificial system.

In the above embodiment, the node organization configured by the member interface of each hierarchical organization of the service line organization includes three types of job sites: the system comprises an interactive operation station, a manual operation station and a program processing station, wherein the interactive operation station, the manual operation station and the program processing station are used for realizing the processing or operation basic operation of functions which are responsible for organization members;

the second organization unit module includes: the system comprises an organization object standard module which is corresponding to a manual operation station and is realized by a manual system, an organization object standard module which is corresponding to a program processing station and is realized by a program system, and an organization object standard module which is corresponding to an interactive operation station and is realized by the combination of the program system and the manual system.

Specifically, in this embodiment, the three types of workstations are node organizations of standard job types, wherein,

the interactive operation station is responsible for interactive operation functions organized in each hierarchy of the service line; the node organization meets the requirements of various hierarchical organizations on a business line organization operation core framework on the interface configuration of dispatching line function members; the functions of a manual acquisition sensor and a manual display operator are assumed; the system is responsible for processing the states of various resource object objects existing in the environments of both the manual operation system and the program processing system, performing interactive operation processing and performing interactive mapping with the state of a resource pool environment;

the manual operation station is responsible for manual operation functions of basic level organization of the service operation function line of the service line; the node organization meets the requirement configuration of interfaces of functional line functional members, which are organized on a service line organization operation core framework at a station line level; the function role of a manual operation executor is assumed; the system is responsible for processing business logic operation aiming at the states of various substance things (mapping) objects in the natural world environment, namely field mapping of the states;

it should be noted that the basic level organization is a final level organization of an organization framework responsible for functional decomposition, namely, a station layer level organization, and the function of the basic level organization is responsible for basic task operation, processing and the like; other hierarchical organizations, besides taking on the role of system decomposition, also need to schedule management-like jobs.

The organization frame is mainly used for dividing the function hierarchy and is not responsible for realizing the function operation in a specific form; the function operation is realized by the node organization in various operation forms, for example, the node organization in the manual operation form is a manual operation station; and the organization framework integrates and assembles various node organizations to realize the functional goal of the service.

However, the manual operation mode only has basic task operation functions; and other job forms are also responsible for scheduling management type jobs. Therefore, the work line-base level organization needs to be configured with manual work stations, and other levels do not need to be configured with manual work stations.

The program processing station is responsible for the program operation function of each hierarchy organization of the service line; the node organization meets the requirements of various hierarchical organizations on a business line organization operation core framework on the configuration of dispatching line function member interfaces and function line function member interfaces; the system is responsible for processing the mapping object states of various virtual things in the computer virtual environment, processing business logic operation and interactively mapping the states of the business logic operation and the resource pool environment.

In the above embodiments, the instances of the business line organization include one or more business task line instances; each service task line instance is responsible for processing the task target and the task index of one task order; when the task is completed, the states of all the objects in the task target are consistent with the body object states of the objects in the resource pool environment and the mapping object states in all the associated environments, and the states also include the related object states in the natural world environment.

Specifically, in this embodiment, each service task line instance includes: a service loading function line, a service response function line and a service operation function line; wherein:

the business loading function line is used for loading the current states of all the task object configuration examples and the resource object configuration examples to the mapping object model examples of the business task line examples in the active pool according to the specific configuration of the order pair list issued by the management line organization and the current situation of the resource object examples in the resource pool of the current enterprise field;

the business response function line is responsible for the task of the business task line instance to manage the high-level management function; the functions comprise replying a call receipt, managing and controlling key activities of task operation, and processing abnormal events and running instructions;

and the business operation functional line is responsible for task implementation operation of the business task line instance.

Wherein, the business operation functional line includes: a job preparation phase line, a job task phase line and a job end phase line; wherein:

the operation preparation phase line is responsible for the preparation operation of all resource object examples required by the service task line examples to complete the tasks and the condition preparation operation of the task object operation;

the operation task stage line is responsible for implementing the operation of the order task received by the service task line instance;

and the operation ending stage line is responsible for ending the operation of all the resource object examples and restoring the operation of the environment after the operation of the task object after the operation of the business task line examples is carried out.

Wherein each of the operation phase lines includes: one or more link lines, each link line including one or more work lines; wherein:

the link line is responsible for providing a subordinate organization member bearing decomposition function for the phase line and is used for solving the organization manufacturability problem of scientific task division and resource distribution;

and the worker line is responsible for providing a subordinate organization member bearing decomposition function for the worker line and is used for solving the organization manufacturability problem of scientific task division and resource distribution.

The type of the node organization configured by each hierarchy organization member interface of the business operation functional line is determined by the interface function requirements of each hierarchy organization; the type of the node organization is any one of the following cases:

a program processing station;

an interactive operation station;

an interactive operation station and a manual operation station;

an interactive operation station and a program processing station;

an interactive operation station, a manual operation station and a program processing station.

That is, the service line organization system in the embodiment of the present application is: each service line organization system in the system environment is provided with an organization object standard module which is uniformly configured by a system framework and realizes the service lines; the organization object standard module is composed of an organization operation core framework, member interfaces of each organization system on the core framework, and three types of basic operation node organization objects configured; three types of job node organizational things are: the system comprises an interactive operation station node organization, a manual operation station node organization and a program processing station node organization.

Wherein, organizing a running core framework: under the organization constraint and support of a system frame, an organization object standard module realized by an autonomous operation processing program system, a task function structure and an operation logic structure for bearing a service line, an organization structure and an organization operation frame; the core framework has a main engine responsible for organizing the scheduled operation and a structural framework for organizing the various members.

Moreover, any application system type can expand and customize the ring node line level, the power line level and the organizational structure and the business logic of the operation node and the expansion structure of the business line organizational system application instance according to the business requirements on the basis of inheriting the organizational object standard module; and the type extension description is expressed in an organization structure type model of the service line organizational system.

The interactive operation station node organization is a service module which is responsible for the interactive operation function of each hierarchy of the service line and can be configured in a standard way; and related function interfaces of each hierarchy organization member on the organization operation core framework are provided with an organization object standard module for the interactive operation station node organization type.

The interactive operation station is a node organization which meets the requirements of various hierarchical organizations on a service line organization operation core framework and the interface configuration of dispatching line function members; the functions of a manual acquisition sensor and a manual display operator are assumed; the system is responsible for processing the mapping object states of various things in the environments of both the manual operation system and the program processing system, performing interactive operation processing and performing bidirectional interactive mapping with the state of the resource pool environment;

the interactive operation station comprises the following structural schemes:

each interoperation station node organization type in the system environment is provided with an organization object standard module which is uniformly configured by a system framework; the module is a software program processing module inheriting the constraint of an interactive mapping mechanism; the module is a software program processing module which is constructed by relying on various member configuration models in the node organization structure type registration model and according to the responsible standard operation function logic of manual and program interaction behaviors in a computer virtual environment.

The software program processing module is configured with default automatic processing logic or AI processing logic; the software program processing module is also provided with an extended user-defined secondary development interface; any application system type can expand the processing logic special for user-defined configuration according to the service requirement; when the software program processing module runs, automatically judging whether the secondary development interface has a special processing logic or not, and preferentially executing the special processing logic, otherwise, executing a default processing logic; and the extended description of the type is expressed in an organization structure type model of the node organization.

The manual operation station node organization is a service module which is responsible for the basic level organization manual operation function of the service line and can be configured in a standard way; and the related function interface of each hierarchical organization member on the organization operation core framework is provided with an organization object standard module of a manual operation station node organization type.

The manual operation stations are node organizations which meet the requirement configuration of interfaces of the functional line functional members and are organized on the service line organization operation core framework in a station line level; the function role of a manual operation executor is assumed; the system is responsible for processing business logic operation aiming at the states of various material things (mapping) objects in the natural world environment.

The manual work station node organization comprises the following structural schemes:

each manual operation station node organization type in the system environment is provided with an organization object standard module which is uniformly configured by a system framework; the module is a software program processing module and a manual operation organization model which are constructed by relying on various member configuration models in the node organization structure type registration model and according to the standard operation function specification of manual organization in the natural world environment.

The manual operation organization model bears a task configuration project, a resource configuration project and a task work order; the manual operation organization model is used as an operation specification for organization construction and operation, and restricts the organization management activities of manual organization in the natural world environment;

the software program processing module is configured with default processing logic: the functional members determined by the business logic and the management responsibility in the application business system can configure resource objects on the manual work organization model of the node organization, and perform management and control activities on the body object examples in the resource pool; and the system can also send a task work order to the human resource management post of the node organization in the natural world environment through various conventional communication means, thereby realizing the driving of the business process of the node organization.

The program processing station node organization is a service module which is responsible for organizing program operation functions of each level of a service line and can be configured in a standard manner; and the related function interface of each hierarchical organization member on the organization operation core framework is provided with an organization object standard module for processing the organization object type of the station node organization.

The program processing station is a node organization which meets the requirements of various hierarchical organizations on a business line organization operation core framework and is configured by interfaces of dispatching lines and functional line functional members; the system is responsible for processing the mapping object states of various things in the computer virtual environment, processing business logic operation and bidirectional interactive mapping with the states of the resource pool environment.

The program processing station node organization comprises the following structural schemes:

each program processing station node organization type in the system environment is provided with an organization object standard module which is uniformly configured by a system framework; the module is a software program processing module which is constructed by relying on various member configuration models in the node organization structure type registration model and according to the responsible standard operation function logic of program processing in the computer virtual environment.

The software program processing module is configured with default automatic processing logic or AI processing logic; the software program processing module is also provided with an extended user-defined secondary development interface; any application system type can expand the processing logic special for user-defined configuration according to the service requirement; when the software program processing module runs, automatically judging whether the secondary development interface has a special processing logic or not, and preferentially executing the special processing logic, otherwise, executing a default processing logic; and the extended description of the type is expressed in an organization structure type model of the node organization.

In summary, the general method for creating an organizational object instance is as follows: enterprise planning applies any organization, and an application instance of the organization needs to be created in a system operation environment; the creation of any organizational object instance needs to be modeled and registered in a system environment in advance, and the organizational structure type model of the organizational object is constructed;

an organization object standard module for realizing various organization objects is configured in the system framework, and a standard organization structure type model corresponding to the standard module is provided;

when an instance of an organizational object needs to be created, the system framework runs the organizational object standard module and loads configuration items in the organizational structure type model registered for the organizational object instance, thereby creating a running instance of the organizational object;

in a system operation environment, two forms exist for an operation instance of an organization thing: static organization model instances and dynamic organization model instances;

static tissue model: the method comprises the following steps of carrying all organization architectures and members of organization things, task configuration, resource configuration, associated objects and other configuration items of relations and attributes; the system engine loads necessary configuration items for organization things and creates state instances in a system running environment; the state instance comprises a mapping object instance and an ontology object instance;

dynamic organization model: the loaded is the behavior activity rule of organizing things; the system engine calls an organization standard module, loads necessary static interface type configuration parameters and creates an activity instance for the organization in a system operation environment; the activity instance belongs to a mapping object instance of a behavior class;

the organization object standard module consists of two entity models of a static interface type and a dynamic interface type; the field of software technology is also referred to as profiles for static interfaces and classes and methods for dynamic interfaces, which are referred to as encapsulation;

the technical principle of the organization standard module construction of the scheme is common knowledge in the field of software development, and is not detailed here. The process from initial modeling to instance creation and operation of an application business system is a whole business process carried out under the support of a system framework and the cooperation of a business organization event layer-organization environment architecture; the running of the process is driven by each function engine configured in the support framework of the system framework;

an application service system is a structural organization with different levels, and the operation flow is a complex hierarchical structure; therefore, different levels of process driven engines are also configured; the flow engine organized in the upper level drives the flow driving engine organized in the lower level; each process engine at the same level is a process or thread process that runs independently in parallel.

Next, a hierarchical path, a process key node, and an operation logic for operating an overall service process of an application service system according to an embodiment of the present application are described with reference to fig. 4.

Hierarchy path a:

flow node a1 and logic:

under the environment of an object modeling registration mapping mechanism in a system frame, an application service system established by a user according to service requirement modeling is stored in a construction pool of a resource pool by a registration function service system of the system frame in the form of an organization construction type model;

flow node a2 and logic:

any newly registered application service system organization structure type model in the structure pool is discovered when automatically patrolled by a service organization main engine under a system framework, and a creating flow and an operating flow of a structure instance of the model are started according to the organization structure type model; in the process, firstly, an instance creating flow of the member-management line organization system is started, and secondly, an instance creating flow of the member-service line organization system is started;

the operation flow of the management line organization example is that a management line main engine under a system framework is responsible for scheduling control; the operation flow of the service line organization instance is that the service line main engine under the system framework is responsible for scheduling control.

Hierarchical path A2B1 and logic:

1. general logic section:

the first standard logic for an example method for creation of various organizational objects is:

a system engine: according to the responsible organization things, a mapping object model of the resource things, which is registered in a resource pool construction pool, is configured on an organization dimension structure project and is used for organizing a construction type model, and is positioned and adapted in a resource pool instance pool; selecting all resource object instances (ontology objects) needed by organization configuration, loading the instances on a framework structure of an organization structure type model, and realizing static organization model class instances of the organization object instances and/or dynamic organization model class instances of the organization object instances by depending on the operation and logic of an organization object standard module.

Aiming at a standard ring pitch line organization configured by each hierarchy on a management line organization system, a unified operation flow control scheme module of the ring pitch line organization is configured on an organization operation core architecture of a management line; the second standard logic of the operation flow control of each link line organization of the management line is:

when the two types of starting configuration registration items are activated and selected, the process engine preferentially executes the program loop line, and the manual loop line is started and executed only when the program loop line fails to operate; in the state that the activated artificial link line is not selected to be registered, the process engine can execute a standby means, namely, starting a strain artificial link line marked in a core frame in a standby state when the program link line fails to operate.

2. The main process part:

the operation flow of the management line is as follows: the management line main engine loads a first standard logic for executing an organization object creation instance method and creates a management line organization instance frame; then, sequentially starting a process driving engine for operating a first-level member management function line of each management line;

the process driving engines of all the management function lines operate independently, are responsible for business activities within the management function range of the management function lines, and realize overall mutual cooperation and restriction on the aspect of all the management function logics.

Flow node B11 and logic:

the business process and logic of managing and dispatching-function line are as follows: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is to receive message factors, event factors and instruction factors transmitted from the system; and processing the information carried by the factors according to the management scheduling function standard logic; the standard event state and standard instruction codes of a service system operation mechanism and processing logics of each standard event and instruction corresponding to various factors are defined in the management scheduling function specification;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization prepares a message factor, an event factor and an instruction factor transmitted from a receiving system at any time; and executing the operation behavior under the constraint of the operation specification according to the operation specification resources configured by the management operation station, and processing the information carried by the factors. The standard event state and standard instruction codes of a service system operation mechanism and processing rules of each standard event and instruction corresponding to various factors are defined in the management scheduling function operation specification;

flow node B12 and logic:

the business process and logic of the instruction scheduling-function line are as follows: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is to receive all the operation and strain instruction factors transmitted from the system; and the logic is standardized according to the instruction scheduling function, and the information carried by the factors is processed; the standard event state and standard instruction codes of a service system operation mechanism and processing logic corresponding to various standard events and instructions of operation and strain are defined in the instruction scheduling function specification;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization is prepared to receive all operation and strain instruction factors transmitted from the system; and executing the operation behavior under the constraint of the operation specification according to the operation specification resources configured by the management operation station, and processing the information carried by the factors. The standard event state and standard instruction codes of a service system operation mechanism and processing rules corresponding to various standard events and instructions of operation and strain are defined in the instruction scheduling function operation specification;

flow node B13 and logic:

the business process and logic of the requirement processing-function line are as follows: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of a program module of the link line is to patrol and collect demand event factors and demand factors in the responsibility range of the application service system; processing the information carried by the event and the factor according to the requirement processing function standard logic; forming a task demand object and storing the task demand object in a demand task pool; the standard event state and standard requirement codes of a service system operation mechanism and the processing logic of each standard event and requirement corresponding to various factors are defined in the requirement processing function specification;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization prepares a demand event factor and a demand factor in the responsibility range of the application business system collected by the receiving system inspection at all times; according to the operation standard resources configured by the management operation stations, executing operation behaviors under the constraint of the operation standards, and processing the information carried by the events and the factors; and forming a task demand object and storing the task demand object in a demand task pool. The standard event state and standard requirement codes of a service system operation mechanism and processing rules of each standard event and requirement corresponding to various factors are defined in the requirement processing function operation specification;

flow node B14 and logic:

the service flow and logic of the operation monitoring-function line are as follows: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is to collect message factors, event factors and instruction factors generated in the system and collect the running states of a management task line and a service task line; according to the operation monitoring function standard logic, the information carried by the processing factor and the operation state of the control system are scheduled through the instruction factor; the standard event state and standard instruction codes of the operation mechanism of the service system, and the processing logic of each standard event and instruction corresponding to various factors are defined in the operation monitoring function specification;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization is prepared to receive the message factor, the event factor and the instruction factor transmitted from the system and the running states of the management task line and the business task line; and according to the operation standard resources configured by the management operation stations, executing operation behaviors under the constraint of the operation standards, processing information borne by the factors and scheduling the running state of the control system through the instruction factors. The standard event state and standard instruction codes of a service system operation mechanism and processing rules of each standard event and instruction corresponding to various factors are defined in the operation monitoring function operation specification;

flow node B15 and logic:

the business activity flow of the management task-function line is as follows: the method comprises the following steps that when a function line engine is in a requirement task pool and a new task requirement object is found, a management task line example engine of a management line secondary member, namely a function task line, is correspondingly established;

each management task line instance is responsible for processing operation flows of all management functions of a task requirement; the system is responsible for generating a command-to-single task file of a resource object configuration plan necessary when a corresponding business task line instance is loaded; and sending the resource pool to the single call pair pool.

Hierarchical path B15C1 and logic: the management task line instance engine loads a first standard logic for executing an instance creating method of an organization object and creates a management task line organization instance frame; then, the system is responsible for scheduling and controlling the operation flow of the system;

the management task line example is an example of a sequential flow step consisting of five management line three-level members and task phase line members, and the flow sequence is as follows:

B15C11 first runs the decision generation-phase line:

the business process and logic are: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is to receive the task demand object transmitted from the system; processing information carried by the task demand object according to the management plan decision standard logic specified by the line function of the stage; generating a decision factor for bearing a management decision result; storing the mapping function into a dynamic body object pool which is responsible for reflecting the activity state mapping function of the application service system;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization prepares a task demand object transmitted from the receiving system at any moment; according to the management plan decision standard operation standard resources configured by the management operation stations, executing operation behaviors under the constraint of the operation specifications, and processing information carried by the task demand object; generating a decision factor for bearing a management decision result; and storing the mapping function into a dynamic body object pool which is responsible for reflecting the activity state mapping function of the application service system.

B15C12 next runs the task production-phase line:

the business process and logic are: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the ring segment line is that the decision result in the decision factor finished according to the preorder stage line and the task factor accumulated in the task factor pool of the resource pool at present; processing and processing to obtain a task total amount configuration plan which should be completed by the task according to the line function standard logic of the stage; obtaining a running instance type scheme of a member organization structure of a three-level member-operation task phase line of a business task line instance configured according to the total workload of the task, and a workload configuration plan of each level of organization member instance to form a call order pair model; and storing the data in a moving body object pool;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization is used for finishing a decision result in the decision factor according to the preorder stage line and the task factor accumulated in the resource pool task factor pool at present; according to the operation standard resources configured by the management operation stations, executing operation behaviors under the constraint of the operation standards, and processing to obtain a task total amount configuration plan to be completed by the task; obtaining a running instance type scheme of a member organization structure of a three-level member-operation task phase line of a business task line instance configured according to the total workload of the task, and a workload configuration plan of each level of organization member instance to form a call order pair model; and saved to the moving body object pool.

B15C13 next runs the organizational management-phase line:

the business process and logic are: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is to configure a plan and an operation organization instance type scheme according to the total amount of tasks completed by the preorder phase line; according to the line function standard logic of the stage, positioning adaptation processing is carried out in a resource pool, an instance (body object) configuration plan of a managed resource object organized by a service line instance is selected and obtained, and the scheme is expanded to a command-to-order single model; and storing the data in a moving body object pool;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization configures a plan and an operation organization example type scheme according to the total amount of tasks completed by the preorder phase line; according to the operation standard resources configured by the management operation stations, executing operation behaviors under the constraint of the operation standards, performing positioning adaptation processing in a resource pool, selecting an instance (body object) configuration plan of the managed resource things organized by the business line instance, and expanding the instance (body object) configuration plan to a single model of order pair; and saved to the moving body object pool.

B15C14 next runs the resource plan-phase line:

the business process and logic are: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is to configure a plan and an operation organization instance type scheme according to the total amount of tasks completed by the preorder phase line; according to the line function standard logic of the stage, positioning adaptation processing is carried out in a resource pool, an instance (body object) configuration plan of an operational resource object organized by a business line instance is selected and obtained, and the operation is expanded to a command-to-order single model; and storing the data in a moving body object pool;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization configures a plan and an operation organization example type scheme according to the total amount of tasks completed by the preorder phase line; according to the operation standard resources configured by the management operation stations, executing operation behaviors under the operation standard constraint, performing positioning adaptation processing in a resource pool, selecting an instance (body object) configuration plan of an operation resource object organized by a service line instance, and expanding the configuration plan to a single model of a command pair; and saved to the moving body object pool.

B15C15 next runs the call issue-phase line:

the business process and logic are: running a second standard logic of the inherited management line link flow control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the standard processing logic of the program module of the link line is a single model of order pair formed according to all configuration plans and operation organization example type schemes finished by the preorder phase line; according to the line function standard logic of the current stage, generating a task target and a task index of the management task line instance, namely a command-to-single-task file; sending the resource pool to a single order-adjusting pool;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work line in the manual operation business organization forms a command pair single model according to all configuration plans finished by the preorder phase lines and operation organization instance type schemes; executing operation behavior under the constraint of operation specification according to operation specification resources configured for the management operation stations, and generating a task target and a task index of the current management task line instance, namely a command-to-single task file; and sending the resource pool to the single call pair pool.

Hierarchical path B15C2 and logic: the logic is the same as above, and the examples are different;

hierarchical path B15C3 and logic: the logic is the same as above, and the examples are different;

……

level path B15Cn and logic: the logic is the same as above, and the examples are different;

hierarchical path A2B2 and logic:

1. general logic section:

for specific contents of the first standard logic of the example method for creating various organizational objects, refer to the above hierarchical path A2B1 and related contents described in the logic, and for brevity of description, no further description is given here.

Aiming at a standard link line organization configured under each service function line on a service line organization system, a unified operation flow control scheme module of the link line organization is configured on an organization operation core architecture of a service line; the third standard logic of the operation flow control of each link line organization of the service line is as follows:

when the two types of starting configuration item registration are activation selection, the process engine preferentially executes the program loop line, and the manual loop line is started and executed only when the program loop line fails to operate; in the state that the manual link line is not selected to be activated, the process engine executes a standby means, namely, an emergency manual link line which is marked and matched in the core framework in the starting standby state is executed when the program link line fails to operate.

2. The main process part:

the operation flow of the service line is as follows: a service line main engine periodically inspects a resource pool, and correspondingly creates a service task line instance engine of a service line first-level member-function task line in a single order-to-order file of a newly issued order-to-single task when the newly issued order-to-single task file is found in the single order-to-order file;

each service task line instance is responsible for completing the processing operation of all task targets and task indexes in a task order, completing the operation of the execution target state of the configured task object, and mapping the states to the resource pool body object instance of the task object and the mapping object instance in the service line organization. When the task is completed, the states of all the configuration object instances in the task order and the body object states of the configuration object instances in the resource pool environment and the mapping object states in all the associated environments are consistent and uniform, and the states also include related object states in the natural world environment;

hierarchical path A2B2C1 and logic: firstly, a business task line instance engine loads a first standard logic for executing an instance creating method of an organization object, and creates a business task line instance framework; then, the system is responsible for scheduling and controlling the operation flow of the system;

each business task line example consists of three second-level members of business lines, namely business function line members; the business task line instance engine sequentially starts and runs a process driving engine of three business function line members; the process driving engines of all the business function lines operate independently, are responsible for business activities within the business function range of the process driving engines, and realize overall mutual cooperation and restriction in the aspect of business function logic.

Flow node B2C11 service load-function line and logic: the business process and logic are: running the third standard logic of the inherited service wire loop pitch line process control;

after selecting an executive program-a loop line, firstly loading a first standard logic for executing an instance creating method for organizing things, and creating a loop line organization instance; the program module standard processing logic of the link line is:

executing a first standard logic of an inherited organization object establishing instance method according to a configuration item in a single task file by a call, loading all configuration object instances to a business task line organizing instance frame, and comprehensively realizing a business task line organizing instance;

after the manual-link line is selected to be executed, first standard logic for executing a method for creating an instance of an organization object is loaded, and a link line organization instance is created; then, each management operation work station in the manual operation business organization executes operation behaviors under the operation specification constraint according to the same processing logic as the program-link line and according to operation specification resources configured by the management operation work stations;

flow node B2C12 task response-role line and logic: the business process and logic are: running the third standard logic of the inherited service wire loop pitch line process control;

after selecting the program-loop line to execute, the standard processing logic of the program module of the loop line is:

1. receiving message factors, event factors and instruction factors transmitted from the service line organization system; and the logic in the registered job operation standard resource is defined according to the application service system, and the information carried by the factor is processed; the standard event state and standard instruction codes of the application service system operation mechanism, and processing logic of each standard event and instruction corresponding to various factors are defined in the operation specification;

2. judging whether the environment and the resource state of the current application service system meet the start-up standard of the operation specification; when the requirement is met, sending an authorization signal for starting the operation process and a management line ordered receipt aiming at the task order;

3. judging whether the running state of the current application service system meets the end standard of the operation specification; when the operation flow meets the specification, sending out an authorization releasing signal for closing the operation flow and a management line order receipt aiming at the task order;

after the manual-link line is selected to be executed, the management operation work station line in the manual operation business organization executes the operation behavior under the operation specification constraint according to the same processing logic as the program-link line and the operation specification resources configured on the management operation work station;

flow node B2C13 and logic:

the business activity flow of the business operation-function line is as follows:

after the business operation-function line instance is created, the operation flow is that the business operation-function line engine is responsible for scheduling control; the functional line engine firstly needs to judge the authorization signal state of the current task execution flow; when the state is the authorized signal state, starting the operation process, otherwise, waiting;

the business operation-function line example is a sequential flow step example consisting of three business line three-level members and an operation phase line member;

the business operation-function line flow operation logic executes the following steps: the business line configured in the organization object standard module of the core framework organizes a standard flow framework and inherits the standard flow framework to construct a flow configuration and extension model which is described in the type model by extension in the organization;

logic of a standard flow framework:

1. the operation stage line organization flow framework comprises:

1.1. organizing a starting sequence flow:

B2C1311 job preparation phase line start → B2C1312 job task phase line start → B2C1313 job end phase line start;

1.2. organizing a closing sequence flow:

B2C1313 job preparation phase line close → B2C1312 job task phase line close → B2C1311 job end phase line close;

2. flow frame sequence between the hierarchies organization:

2.1. the starting process standard conditions between the directly subordinate levels are as follows:

functional line → stage line → link line → position line;

2.2. finishing process standard conditions between the directly subordinate upper and lower levels:

work line → link line → stage line → functional line;

3. flow logic of node organization:

the starting operation logic of the node organization is based on the operation state of the superior organization, namely the hierarchical organization;

secondly, flow configuration and model expansion:

the method is a description file of a business process rule under a three-level member-operation stage line, each level of link line and station line member which inherits a business line registration organization type under a standard process framework; the business operation-function line engine is responsible for analyzing and processing and controlling the execution flow of the driving organization members.

Hierarchical path A2B2C2 and logic: the logic is the same as above, and the examples are different;

hierarchical path A2B2C3 and logic: the logic is the same as above, and the examples are different;

……

hierarchical path A2B2Cn and logic: the logic is the same as above, and the examples are different;

flow node a3 and logic:

under the environment of an object modeling registration mapping mechanism in a system frame, a user implements a change modeling operation aiming at a target application service system established by modeling according to a changed service requirement, and the change modeling operation is stored in a construction pool of a resource pool by a service system of a registration function of the system frame in a change form of an organizational structure type model so as to update an original organizational structure type model of the target application service system.

For example, the application service system in the embodiment of the present application may be applied to a central air conditioning service, and the central air conditioning service system is constructed to provide comfortable clean air with conditioned temperature and humidity to a use space inside a building in a centralized manner.

The following describes the design scheme of the central air-conditioning service system in detail with reference to fig. 5: the service system consists of members such as an air conditioning equipment system, an operation system and the like; the main members of the air conditioning system are: the system comprises a refrigerating unit, a water pump unit, a pipeline system, an air conditioning unit, a fan coil and a building automatic control system;

the organization architecture planning of the central air-conditioning service system is as follows:

the management line organization is planned as: the demand processing line, the operation monitoring line and the task production-stage line are only configured with a program loop pitch line organization, and other lines are configured with a program loop pitch line organization and an artificial loop pitch line organization;

the member part of the service line organization plan is a loop line, a work line and a work node organization; the other members are standard architecture organizations;

the operation task phase line (connecting with the flow node B2C13 business operation-function line in FIG. 4) is planned to be three manual operation ring line and one program processing ring line, wherein the three manual operation ring lines are a C1312-1 air-conditioning system starting operation ring line, a C1312-2 air-conditioning system stopping operation ring line and a C1312-3 air-conditioning system inspection operation ring line; one program processing ring joint line is a C1312-4 ring joint line of the automatic air conditioner monitoring system;

the C1312-1 air conditioning system starting operation ring node line plans two manual operation work bit lines which are respectively a C1312-11 refrigerating unit starting operation work bit line and a C1312-12 monitoring system starting operation work bit line;

the C1312-2 air conditioning system shutdown operation link line plans two manual operation work bit lines, namely a C1312-21 refrigerating unit shutdown operation work bit line and a C1312-22 monitoring system shutdown operation work bit line;

the inspection operation loop line of the C1312-3 air conditioning system can plan a corresponding manual operation work line according to actual requirements, for example: three manual operation work line can be planned, namely a control center work line, a machine room equipment work line and a floor equipment work line;

the C1312-4 air conditioner automatic control system link line can plan a corresponding program processing work line according to actual requirements, for example: two program processing work line can be planned, which are respectively a work line of an automatic monitoring system of a refrigerating unit and a work line of an automatic monitoring system of air conditioning equipment;

c1312-11 refrigerating unit automatic monitoring system station needs to configure interface organization of the control system of the butted refrigerating unit, and is machine-machine interaction service organization-program processing station node organization;

the C1312-12 air conditioner automatic monitoring system station needs to be configured with the interface organization of the butted air conditioner automatic monitoring system, and is an organic-mechanical interaction service organization-program processing station node organization.

A personal working link line is planned in the operation preparation phase line; corresponding manual operation work line can be planned according to actual demand inside the link line, for example: three manual operation work line can be planned, namely a work line for resource preparation, an equipment debugging and repairing work line and a work line for daily duty preparation;

a personal working link line is planned in the working end phase line; corresponding manual operation work line can be planned according to actual demand inside the link line, for example: three manual work stations can be planned, namely a resource-operated inventory station, an equipment-sealing maintenance station and a daily on-duty transfer station.

Partial example of organization and construction type model scheme of central air-conditioning service system:

A. starting operation of an air conditioning system-an organization structure type model scheme of an artificial loop line organization:

1. constructing corresponding object models by adopting a link line kinetoplast object model, a link line ontology object model and the like in a tissue dimension construction project of an organization state interface included in the organization structure type model;

2. adopting a task operation object model in an organization dimension construction project, namely a task configuration interface included in an organization construction type model, and constructing an air conditioning system host model, a water pump set model and the like in a central air conditioning service system;

3.1, constructing a project department air-conditioning group model in the central air-conditioning service system by adopting a department resource object model in a human resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model;

3.2.1, constructing an air conditioner host starting cabinet model, a water pump set starting cabinet model, a building automatic control system model and the like in the central air-conditioning service system by adopting an equipment resource object model in an equipment resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model;

3.2.2 adopting a resource line interface included in the organization structure type model as a tool resource object model in an equipment resource function interface construction project in an organization dimension construction project to construct a general operation tool kit model in the central air-conditioning service system;

3.3. constructing a central air-conditioning mainframe model in a central air-conditioning service system by adopting a capital resource object model in an environment resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model;

3.4. adopting a resource line interface included in the organization structure type model as a standard resource function interface in an organization dimension construction project to construct an operation standard resource object model in the project, and constructing a central air-conditioning system operation standard in a central air-conditioning service system, a central air-conditioning service system standard and the like;

4. constructing corresponding models by adopting a link line scheduling-program processing station node organization, a link line process configuration extension model and the like in a scheduling line interface which is included in an organization structure type model and an organization dimension construction project;

5. constructing a refrigeration unit starting operation-manual station line level organization, a monitoring system starting operation-manual station line level organization in a central air-conditioning service system by adopting an organization dimension construction project of a function line interface included in an organization construction type model;

6. and constructing a corresponding control line by adopting a structure dimension construction item, namely a supervisory line interface included in the structure type model.

B. The method comprises the following steps of (1) starting operation of a refrigerating unit-organization structure type model scheme of manual work line organization:

1. constructing corresponding object models by adopting a station line moving body object model, a station line body object model and the like in a tissue dimension construction project of a tissue state interface included in the tissue construction type model;

2. adopting a task operation object model in an organization dimension construction project, namely a task configuration interface included in an organization construction type model, and constructing an air conditioning system host model, a water pump set model and the like in a central air conditioning service system;

3.1.1, constructing a project department air-conditioning group model in the central air-conditioning service system by adopting a department resource object model in a human resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model;

3.1.2 constructing an air conditioning group master post model, an air conditioning host operating post model, a water pump unit operating post model, an electric operating post model and the like in the central air conditioning service system by adopting a human resource object model in a human resource function interface construction project of a resource line interface included in an organization dimension construction project;

3.2.1, constructing an air conditioner host starting cabinet model, a water pump unit starting cabinet model and the like in the central air conditioning service system by adopting an equipment resource object model in an equipment resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model;

3.2.2 construct a tool resource object model in the project using the equipment resource role interface in the organizational dimension construction project of the resource line interface included in the organizational structure type model, for example: a general operation tool kit model in the central air-conditioning service system;

3.3. constructing a central air-conditioning mainframe model in a central air-conditioning service system by adopting a capital resource object model in an environment resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model;

3.4. adopting an operation standard resource object model in a standard resource function interface construction project in an organization dimension construction project, namely a resource line interface included in an organization construction type model, and constructing a central air-conditioning system operation standard, a central air-conditioning service system standard, a refrigerating unit starting operation process instruction book, a water pump unit starting operation process instruction book and the like in a central air-conditioning service system;

4. constructing corresponding models by adopting a refrigeration unit starting operation-interactive operation station node organization, a station line flow configuration expansion model and the like in a scheduling line interface which is an organization dimension construction project and comprises an organization construction type model;

5. adopting an organization dimension construction project of a function line interface included by an organization construction type model to construct an air conditioner host operation procedure-manual operation station node organization, a water pump unit operation procedure-manual operation station node organization in a central air conditioner service system;

6. and constructing a corresponding control line by adopting a structure dimension construction item, namely a supervisory line interface included in the structure type model.

The supervision line interface in the embodiment of the application is used as a reserved interface and used for carrying an externally accessed application control line according to requirements.

In summary, the application service system provided by the embodiment of the present application can implement digitized and intelligent comprehensive operation management, planning and designing, etc. for enterprise-level application field service system organization, and can meet the need of future development of the information society.

The foregoing is only a partial embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (15)

1. An application business system, wherein the application business system is a systematic organization object for achieving enterprise business function objectives in an enterprise application domain, comprising: a management line organization system and a service line organization system; wherein:

the management line organization system is used for being responsible for business management of specific business function targets of the enterprise and has the functions of system operation instruction processing and scheduling control, task requirement acquisition and processing, system planning and resource planning and task order of the business line organization;

and the business line organization system is used for taking charge of task operation of a specific business function target of an enterprise, and has the functions of creating a business task line instance and finishing a task target and a task index issued by a task order based on the task order organized by the management line.

2. The application business system of claim 1, wherein the management line organization system is comprised of an organization structure type model and a first organization thing standard module implemented by a program system, the first organization thing standard module is used for implementing a standard organization type structure of the management line organization system, and the organization structure type model reflects an application type composition scheme of an instance corresponding to the management line organization system;

the first organizational object standard module comprises: a first core framework and a first organization transaction unit module configured by each hierarchical organization member interface on the first core framework to manage a nexus organization; wherein:

the first core frame includes: the first main engine, the management line organization system and each organization member are responsible for scheduling and running management line organizations, and are used for bearing the management function structure and the running logic structure of the management line organization system and realizing the service management function.

3. The application service system according to claim 2,

the managing link group organization includes: a program nodal line organization and an artificial nodal line organization; the basic operation of the management function responsible for the organization member of the configured interface is realized in a program processing mode or a manual operation mode;

the first organization unit module includes: the system comprises an organization object standard module which is corresponding to a program loop line organization and is realized by a program system, and an organization object standard module which is corresponding to an artificial loop line organization and is realized by the combination of the program system and an artificial system.

4. The application business system of claim 2 or 3, wherein the members of the management line organization comprise: managing a scheduling function line, an instruction scheduling function line, a demand processing function line, an operation monitoring function line and a management task function line; wherein:

the management scheduling function line is responsible for judging and processing instructions of major affairs or abnormal events in the operation process of the application service system;

the instruction scheduling function line is used for analyzing and scheduling all operation and strain instruction factors generated in the operation process of the application service system and controlling the operation service flow of the application service system;

the demand processing function line is used for polling demand events and demand factors in the running process of the application service system, analyzing, processing and deciding the polled demand events and demand factors to form task demand objects;

the monitoring function line is operated and is responsible for analyzing, disposing and scheduling all abnormal states, events and event factors in the operation process of the application service system and controlling the operation flow of the application service system;

and the management task function line is responsible for routing inspection, analyzing and deciding the task demand objects generated by the demand processing function line, and creating corresponding management task line examples for the task demand objects meeting preset conditions.

5. The application service system according to claim 4, wherein the management task line instance is responsible for processing jobs of all management functions corresponding to the task demand object, generating order-to-single task files and storing the order-to-single task files in an order-to-single pool; the order pair single task file comprises a resource object configuration plan, a task object and a task index which are necessary when a corresponding business task line instance is loaded by a business line organization system.

6. The application business system of claim 5, wherein the managing task line instances comprises: a decision generation phase line, a task production phase line, an organization management phase line, a resource plan phase line and a call release phase line; wherein:

a decision generation phase line which is responsible for a decision plan of task indexes, task objects and resource objects to be configured by a task demand object and generates decision factors;

the task production phase line is responsible for configuring the total workload required by a business task line instance for processing a task demand object and the workload of each level of organization members, and generating a command pair single task file, wherein the object corresponding to the total workload comprises: task objects in the task factor pool and task objects for executing the decision plan;

the organization management stage line is responsible for configuring various management resource object examples required for completing task order according to the order pair single task file generated by the decision plan and the task production stage line, wherein the example configuration is reflected in the order pair single task file generated by the organization management stage line;

the resource planning stage line is responsible for configuring various operation resource object examples required for completing task order according to the order pair single task file generated by the decision plan, the task production stage line and the organization management stage line, and configuring a resource configuration plan in each level organization of the service line, wherein the example configuration is reflected in the order pair single task file generated by the resource planning stage line;

and the order issuing stage line is responsible for executing auditing operation on the order pair single task file generated when the processing flow reaches the resource planning stage line, issuing and storing the order pair single task file in the resource pool after the order pair single task file is qualified, and returning the order pair single task file to the related operation stage line for modification after the order pair single task file is unqualified.

7. The application business system of claim 1, wherein the business line organization system is composed of an organization structure type model and a second organization object standard module implemented by a program system, the second organization object standard module is used for implementing a standard organization type structure of the business line organization system, and the organization structure type model reflects an application type composition scheme of a corresponding instance of the business line organization system;

the second organization standard module comprises: a second core framework and a second organization object unit module of a node organization configured by each hierarchical organization member interface on the second core framework, and a third organization object unit module of a service ring line organization configured by a service loading function line and task response function line hierarchical organization member interface on the second core framework, wherein:

the second core frame includes: the second main engine is responsible for scheduling and operating the service line organization, the service line organization system and each organization member, and is used for bearing the task function structure and the operation logic structure of the service line organization system and realizing the task operation function.

8. The application service system according to claim 7,

the node organization configured by each hierarchy organization member interface of the service line organization comprises three types of operation stations: the system comprises an interactive operation station, a manual operation station and a program processing station, wherein the interactive operation station, the manual operation station and the program processing station are used for realizing the processing or operation basic operation of functions which are responsible for organization members;

the second organization unit module includes: the system comprises an organization object standard module which is corresponding to a manual operation station and is realized by a manual system, an organization object standard module which is corresponding to a program processing station and is realized by a program system, and an organization object standard module which is corresponding to an interactive operation station and is realized by the combination of the program system and the manual system.

9. The application business system of claim 8, wherein the three types of workstations are node organizations of a standard job type, wherein,

the interactive operation station is responsible for interactive operation functions organized in each hierarchy of the service line; the node organization meets the requirements of various hierarchical organizations on a business line organization operation core framework on the interface configuration of dispatching line function members; the functions of a manual acquisition sensor and a manual display operator are assumed; the system is responsible for processing the states of various resource object objects existing in the environments of both the manual operation system and the program processing system, performing interactive operation processing and performing interactive mapping with the state of a resource pool environment;

the manual operation station is responsible for manual operation functions of basic level organization of the service operation function line of the service line; the node organization meets the requirement configuration of interfaces of functional line functional members, which are organized on a service line organization operation core framework at a station line level; the function role of a manual operation executor is assumed; the system is responsible for processing business logic operation of mapping object states aiming at various substance things in the natural world environment;

the program processing station is responsible for the program operation function of each hierarchy organization of the service line; the node organization meets the requirements of various hierarchical organizations on a business line organization operation core framework on the configuration of dispatching line function member interfaces and function line function member interfaces; the system is responsible for processing the mapping object states of various virtual things in the computer virtual environment, processing business logic operation and interactively mapping the states of the business logic operation and the resource pool environment.

10. The application business system of any of claims 7-9, wherein the instances of business line organization comprise, one or more business task line instances; each service task line instance is responsible for processing the task target and the task index of one task order; when the task is completed, the states of all the objects in the task target are consistent with the body object states of the objects in the resource pool environment and the mapping object states in all the associated environments, and the states also include the related object states in the natural world environment.

11. The application business system of claim 10, wherein each business task line instance comprises: a service loading function line, a service response function line and a service operation function line; wherein:

the business loading function line is used for loading the current states of all the task object configuration examples and the resource object configuration examples to the mapping object model examples of the business task line examples in the active pool according to the specific configuration of the order pair list issued by the management line organization and the current situation of the resource object examples in the resource pool of the current enterprise field;

the business response function line is responsible for the task of the business task line instance to manage the high-level management function; the functions comprise replying a call receipt, managing and controlling key activities of task operation, and processing abnormal events and running instructions;

and the business operation functional line is responsible for task implementation operation of the business task line instance.

12. The application service system of claim 11, wherein the service job functional line comprises: a job preparation phase line, a job task phase line and a job end phase line; wherein:

the operation preparation phase line is responsible for the preparation operation of all resource object examples required by the service task line examples to complete the tasks and the condition preparation operation of the task object operation;

the operation task stage line is responsible for implementing the operation of the order task received by the service task line instance;

and the operation ending stage line is responsible for ending the operation of all the resource object examples and restoring the operation of the environment after the operation of the task object after the operation of the business task line examples is carried out.

13. The application business system of claim 12, wherein each job phase line comprises: one or more link lines, each link line including one or more work lines; wherein:

the link line is responsible for providing a subordinate organization member bearing decomposition function for the phase line and is used for solving the organization manufacturability problem of scientific task division and resource distribution;

and the worker line is responsible for providing a subordinate organization member bearing decomposition function for the worker line and is used for solving the organization manufacturability problem of scientific task division and resource distribution.

14. The application service system of claim 13, wherein the type of node organization configured for each hierarchical organization member interface of the service job function line is determined by the interface function requirement of each hierarchical organization; the type of the node organization is any one of the following cases:

a program processing station;

an interactive operation station;

an interactive operation station and a manual operation station;

an interactive operation station and a program processing station;

an interactive operation station, a manual operation station and a program processing station.

15. The application service system according to claim 7,

the business link group organization comprises: a program nodal line organization and an artificial nodal line organization; the basic operation of the management function responsible for the organization member of the configured interface is realized in a program processing mode or a manual operation mode;

the third organization unit module includes: the system comprises an organization object standard module which is corresponding to a program loop line organization and is realized by a program system, and an organization object standard module which is corresponding to an artificial loop line organization and is realized by the combination of the program system and an artificial system.

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