CN115904531A - Business component adjusting method applied to business system - Google Patents

Abstract

The present application relates to the field of business management technologies, and in particular, to a business component adjustment method applied to a business system. The method specifically comprises the following steps: generating a primary service component library according to the working parameters of the service components; acquiring historical service data and user demand data of a user, and selecting a service component in a primary service component library according to the historical service data and the user demand data to generate a service system; presetting a time adjustment node, and adjusting a service component in the service system according to service operation data between the last time adjustment node and the current time adjustment node. The system provides a business application function based on a PC and various mobile terminals, and covers various user requirements required by daily office business, such as specific functions of official documents, meetings, schedule management, notification and bulletin, and the like. Different business functions can be constructed in a component mode, and flexible expansion can be achieved. Various service element services can be rapidly adjusted, and user requirements are met.

Description

Business component adjusting method applied to business system

Technical Field

The present application relates to the field of service management technologies, and in particular, to a service component adjustment method applied to a service system.

Background

The business component is a basic, unique and non-repetitive building block in an enterprise, represents a series of business activities, and is a functional module for constructing a specialized enterprise. The business components of the enterprise are managed, the existing business capability can be effectively evaluated, an informatization decision maker or a constructor is allowed to observe the business of the enterprise on a plurality of different levels, and reasonable planning and decision making are made, so that innovation and improvement opportunities are identified.

With the continuous development of network application technology and the higher demand of users for network applications, a series of operations such as rapid release, rapid deployment and zero service impact of new service components are required to be higher and higher. However, the service components at the present stage cannot be flexibly expanded, and the service system cannot be adjusted in time according to the change of the enterprise service, so that the working efficiency of the service system is reduced, and the problems that the service components cannot meet the service requirements and the like exist.

Disclosure of Invention

The purpose of this application is: in order to solve the above technical problem, the present application provides a service component adjustment method applied to a service system, so as to improve the overall working efficiency of the service system.

In some embodiments of the present application, a primary service component library is added to provide service application functions based on a PC and various mobile terminals, and to cover various user requirements required by daily office services, such as specific functions of documents, conferences, schedule management, notification and announcement. Different business functions can be constructed in a component mode, and flexible expansion can be realized. Various service element services can be rapidly adjusted, and user requirements are met.

In some embodiments of the present application, a method for adjusting a service component applied to a service system is provided, including:

the method comprises the following steps: generating a primary service component library according to the working parameters of the service components;

step two: acquiring historical service data and user demand data of a user, and selecting a service component in the primary service component library according to the historical service data and the user demand data to generate a service system;

step three: presetting a time adjustment node, and adjusting a service component in the service system according to service operation data between a last time adjustment node and a current time adjustment node;

wherein, the primary service component library comprises:

basic component library, official document service component library, general service component library and safety component library.

In some embodiments of the present application, the generating the service system includes:

selecting all business components in a basic component library;

selecting the business components in the official document business component library, the general business component library and the security component library according to the user demand data to generate a primary selection result;

and setting the service component grade in the primary selection result according to the historical service data of the user.

In some embodiments of the present application, when generating the service system, the method further includes:

and acquiring the calling times a of the service components between the last time adjustment node and the current time adjustment node, and adjusting the grade b of the real-time service component according to the calling times a of the service components.

In some embodiments of the present application, when generating the service system, the method further includes:

presetting a service component calling frequency matrix A, and setting A (A1, A2, A3, A4), wherein A1 is the preset first service component calling frequency, A2 is the preset second service component calling frequency, A3 is the preset third service component calling frequency, A4 is the preset fourth service component calling frequency, and A1< A2< A3< A4;

presetting a service component grade matrix B, and setting B (B1, B2, B3, B4), wherein B1 is a preset first service component grade, B2 is a preset second service component grade, B3 is a preset third service component grade, and B4 is a preset fourth service component grade;

when a < A1, removing the business component;

when A1< A2, setting the real-time service component level B as a preset first service component level B1, namely B = B1;

when A2< A3, setting the real-time service component level B as a preset second service component level B2, namely B = B2;

when A3< A4, setting the real-time service component level B as a preset third service component level B3, namely B = B3;

when a > A4, the real-time service component level B is set to a preset fourth service component level B4, i.e. B = B4.

In some embodiments of the present application, when adjusting the service component in the service system, the method further includes:

acquiring user forecast demand data and unresponsive service data according to a preset adjustment time node, and additionally arranging a service component according to the user forecast demand data and the unresponsive service data;

the added service component level is a preset first service component level B1.

In some embodiments of the present application, when adjusting a service component in the service system, the method further includes:

and acquiring the real-time service component b, and setting the network resource occupation ratio of the server according to the real-time service component b.

In some embodiments of the present application, the presetting of the time node includes:

and generating unit time interval service system historical response times according to the historical service data of the user, and setting an adjustment time interval according to the unit time interval service system historical response times.

In some embodiments of the present application, the setting the adjustment time interval includes:

presetting an adjustment time interval matrix T, and setting T (T1, T2, T3, T4), wherein T1 is a preset first adjustment time interval, T2 is a preset second adjustment time interval, T3 is a preset third adjustment time interval, T4 is a preset fourth adjustment time interval, and T1< T2< T3< T4;

presetting a business system response time matrix C, and setting C (C1, C2, C3, C4), wherein C1 is the preset first business system response time, C2 is the preset second business system response time, C3 is the preset third business system response time, C4 is the preset fourth business system response time, and C1< C2< C3< C4;

acquiring historical response times c of the unit time interval service system;

when C1< C2, setting the adjustment time interval T as a preset first adjustment time interval T1, namely T = T1;

when C2< C3, setting the adjustment time interval T as a preset second adjustment time interval T2, i.e. T = T2;

when C3< C4, setting the adjustment time interval T as a preset third adjustment time interval T3, i.e. T = T3;

when C > C4, the adjustment time interval T is set to the preset first adjustment time interval T1, i.e. T = T4.

In some embodiments of the present application, when the preset adjusting time node is determined, the method further includes:

acquiring the response times c1 of a service system between a last time adjustment node and a current time adjustment node;

generating a difference result of c1 and c;

when c1> c, correcting the time interval between the current time adjustment time node and the next adjustment time;

when c1 is less than or equal to c, the correction is not carried out.

The business component adjusting method applied to the business system is characterized in that when the time interval between the current time adjusting time node and the next adjusting time is corrected, the method comprises the following steps:

a preset time interval adjustment coefficient matrix N, N (N1, N2, N3, N4) is set, wherein N1 is a preset first time interval correction coefficient, N2 is a preset second time interval correction coefficient, N3 is a preset third time interval correction coefficient, N4 is a preset fourth time interval correction coefficient, and 0.7-N1-N2-N3-N4-N1;

presetting a difference matrix D, and setting D (D1, D2, D3, D4), wherein D1 is a preset first difference, D2 is a preset second difference, D3 is a preset third difference, D4 is a preset fourth difference, and D1< D2< D3< D4;

acquiring a time interval between the last adjusted time node and the current adjusted time node;

acquiring a real-time difference result d;

when D1< D < D2, setting a correction coefficient n as a preset first time interval correction coefficient n1, wherein the corrected time interval t = n1 × Ti;

when D2< D < D3, setting the correction coefficient n as a preset second time interval correction coefficient n2, wherein the corrected time interval t = n2 × Ti;

when D3< D < D4, setting a correction coefficient n as a preset third time interval correction coefficient n3, wherein the corrected time interval t = n3 × Ti;

and when D is larger than D4, setting the correction coefficient n as a preset fourth time interval correction coefficient n4, wherein the corrected time interval t = n4 × Ti.

Compared with the prior art, the business component adjusting method applied to the business system has the beneficial effects that:

the system provides a business application function based on a PC and various mobile terminals, and covers various user requirements required by daily office business, such as specific functions of official documents, meetings, schedule management, notification and bulletin, and the like. Different business functions can be constructed in a component mode, and flexible expansion can be realized. Various service element services can be quickly adjusted, and user requirements are met.

Drawings

Fig. 1 is a schematic flow chart of a business component adjustment method applied to a business system in a preferred embodiment of the present application;

fig. 2 is a schematic diagram of a primary service component library in a service component adjustment method applied to a service system in a preferred embodiment of the present application.

Detailed Description

The following detailed description of embodiments of the present application will be described in conjunction with the accompanying drawings and examples. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

As shown in fig. 1 and fig. 2, a method for adjusting a service component applied to a service system in a preferred embodiment of the present application includes:

the method comprises the following steps: generating a primary service component library according to the working parameters of the service components;

step two: acquiring historical service data and user demand data of a user, and selecting a service component in a primary service component library according to the historical service data and the user demand data to generate a service system;

step three: presetting a time adjustment node, and adjusting a service component in a service system according to service operation data between a last time adjustment node and a current time adjustment node;

wherein, the first-level service component library comprises:

basic component library, official document service component library, general service component library and safety component library.

Specifically, the base component library includes: the front-end frame assembly comprises a Bootstrap frame, an H5 mobile page frame, a CSS style library, a public JS library and other front-end interfaces;

and the business generation component relates to various designers and functional components necessary for business generation. Such as a module editor, a form designer, a view designer, a report designer, etc.;

the workflow engine relates to components related to an approval process in business generation, such as a graphical workflow designer, process modeling, process instance management and the like;

the template engine is responsible for server background text processing, web page data preprocessing (background rendering) and the like;

the message engine is responsible for the unified design and management of system internal messages (such as logic state generation and monitoring and logs) and user messages (such as IM, mails, notifications and reminders);

search engines are classified into full-text search engines and field search engines. The full-text search engine is formed by adding specific authority control to office services on the basis of Apache Lucene. The field search engine provides relevant logic for query, summarization and presentation based on the relational data table.

Specifically, the security component library includes:

and the permission engine meets the RBAC specification and provides a uniform permission model and permission management for all resources (such as menus, views, data items, operations and the like) in the system.

Specifically, the universal service component library includes:

menu navigation, form management, data management, view management, process management, report management, timed tasks, multi-language management, organization user management, application module management, log management and interface management.

In a preferred embodiment of the present application, generating a service system includes:

selecting all business components in a basic component library;

selecting the business components in the official document business component library, the general business component library and the security component library according to the user demand data, and generating a primary selection result;

and setting the service component level in the primary selection result according to the historical service data of the user.

When generating the service system, the method further comprises the following steps:

and acquiring the calling times a of the service components between the last time adjustment node and the current time adjustment node, and adjusting the grade b of the real-time service components according to the calling times a of the service components.

Specifically, a service component calling frequency matrix A is preset, and A (A1, A2, A3, A4) is set, wherein A1 is the preset first service component calling frequency, A2 is the preset second service component calling frequency, A3 is the preset third service component calling frequency, A4 is the preset fourth service component calling frequency, and A1< A2< A3< A4;

presetting a service component grade matrix B, and setting B (B1, B2, B3, B4), wherein B1 is a preset first service component grade, B2 is a preset second service component grade, B3 is a preset third service component grade, and B4 is a preset fourth service component grade;

when a < A1, removing the business component;

when A1< A2, setting the real-time service component level B as a preset first service component level B1, namely B = B1;

when A2< A3, setting the real-time service component level B as a preset second service component level B2, namely B = B2;

when A3< A4, setting the real-time service component level B as a preset third service component level B3, namely B = B3;

when a > A4, the real-time service component level B is set to a preset fourth service component level B4, i.e. B = B4.

Acquiring user forecast demand data and unresponsive service data according to a preset adjustment time node, and additionally arranging a service component according to the user forecast demand data and the unresponsive service data;

the added service component level is a preset first service component level B1.

Specifically, a real-time service component B is obtained, and a server network resource allocation ratio is set according to the real-time service component B, wherein B1< B2< B3< B4, and when the grade of the service component is higher, the resource allocation ratio is larger, and the response time in the service processing process is shorter.

Specifically, a service component calling frequency matrix is generated according to historical data, when a is less than A1, the service component usage rate is extremely low, the service component is removed in time, and the simplification and the working efficiency of a service system are guaranteed.

Specifically, when the level of the business component is adjusted, HTTP request parameters transmitted to a WEB server are analyzed and assembled, service component IDs and methods in URLs are analyzed, corresponding service components are taken out from a component library, parameters are transmitted to corresponding service methods, and method calling proxy is carried out.

Background services can be quickly called in the service components through the Groovy, and the relation between a foreground interface and the background service logic components is decoupled. Foreground interface changes, and the business logic interface can be kept unchanged through data conversion in the script language.

It can be understood that, in the above embodiment, the business components in the business system are dynamically adjusted by presetting the business component calling time matrix and the business component level matrix, so that various common component services can be quickly called to meet user requirements. And the working efficiency of the service system is ensured. Meanwhile, the service component grades are set according to the service volume and are matched with each other, so that resource waste is avoided, and the management cost is reduced.

In a preferred embodiment of the present application, when the time node is preset, the method includes:

and generating the historical response times of the service system in the unit time interval according to the historical service data of the user, and setting an adjustment time interval according to the historical response times of the service system in the unit time interval.

Specifically, a preset adjustment time interval matrix T is set to set T (T1, T2, T3, T4), where T1 is a preset first adjustment time interval, T2 is a preset second adjustment time interval, T3 is a preset third adjustment time interval, T4 is a preset fourth adjustment time interval, and T1< T2< T3< T4;

presetting a business system response time matrix C, and setting C (C1, C2, C3, C4), wherein C1 is the preset first business system response time, C2 is the preset second business system response time, C3 is the preset third business system response time, C4 is the preset fourth business system response time, and C1< C2< C3< C4;

acquiring historical response times c of a unit time interval service system;

when C1< C2, setting the adjustment time interval T as a preset first adjustment time interval T1, i.e. T = T1;

when C2< C3, setting the adjustment time interval T as a preset second adjustment time interval T2, i.e. T = T2;

when C3< C4, setting the adjustment time interval T as a preset third adjustment time interval T3, i.e. T = T3;

when C > C4, the adjustment time interval T is set to be the preset first adjustment time interval T1, i.e. T = T4.

Specifically, when the time node is preset to be adjusted, the method further includes:

acquiring the response times c1 of a service system between a last time adjustment node and a current time adjustment node;

generating a difference result of c1 and c;

when c1> c, correcting the time interval between the current time adjustment time node and the next adjustment time;

when c1 is less than or equal to c, the correction is not carried out.

Specifically, the modifying a time interval between the current time adjustment time node and the next adjustment time includes:

setting N (N1, N2, N3, N4) by a preset time interval adjustment coefficient matrix N, wherein N1 is a preset first time interval correction coefficient, N2 is a preset second time interval correction coefficient, N3 is a preset third time interval correction coefficient, N4 is a preset fourth time interval correction coefficient, and 0.7-N1-N2-N4-N1;

presetting a difference matrix D, and setting D (D1, D2, D3, D4), wherein D1 is a preset first difference, D2 is a preset second difference, D3 is a preset third difference, D4 is a preset fourth difference, and D1< D2< D3< D4;

acquiring a time interval between a last time adjustment node and a current time adjustment node;

acquiring a real-time difference result d;

when D1< D < D2, setting a correction coefficient n as a preset first time interval correction coefficient n1, wherein the corrected time interval t = n1 × Ti;

when D2< D < D3, setting the correction coefficient n as a preset second time interval correction coefficient n2, wherein the corrected time interval t = n2 × Ti;

when D3< D < D4, setting a correction coefficient n as a preset third time interval correction coefficient n3, wherein the corrected time interval t = n3 × Ti;

and when D is larger than D4, setting the correction coefficient n as a preset fourth time interval correction coefficient n4, wherein the corrected time interval t = n4 Ti.

It can be understood that, in the above embodiment, by adding the adjustment time interval matrix and dynamically adjusting the time interval according to the historical response times of the service system in the unit time interval, the change trend of the user traffic volume can be sensed in time, the service components can be adjusted in time, and it is ensured that the overall service system does not have a decrease in working efficiency due to the change of the service.

According to the first concept of the application, a primary service component library is additionally arranged, so that the service application functions based on a PC and various mobile terminals are provided, and various user requirements required by daily office services, such as specific functions of official documents, meetings, schedule management, notification and the like, are covered. Different business functions can be constructed in a component mode, and services are provided for the outside, so that flexible expansion can be realized. Various service element services can be quickly adjusted, and user requirements are met.

The foregoing is only a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, several modifications and substitutions can be made without departing from the technical principle of the present application, and these modifications and substitutions should also be regarded as the protection scope of the present application.

Claims (10)

1. A business component adjusting method applied to a business system is characterized by comprising the following steps:

the method comprises the following steps: generating a primary service component library according to the working parameters of the service components;

step two: acquiring historical service data and user demand data of a user, and selecting a service component in the primary service component library according to the historical service data and the user demand data to generate a service system;

step three: presetting a time adjustment node, and adjusting a service component in the service system according to service operation data between a last time adjustment node and a current time adjustment node;

wherein, the primary service component library comprises:

basic component library, official document service component library, general service component library and safety component library.

2. The business component adaptation method applied to the business system according to claim 1, wherein the generating the business system comprises:

selecting all business components in a basic component library;

selecting the business components in the official document business component library, the general business component library and the security component library according to the user demand data to generate a primary selection result;

and setting the service component grade in the primary selection result according to the historical service data of the user.

3. The business component adjustment method applied to the business system according to claim 2, wherein the generating the business system further comprises:

and acquiring the calling times a of the service components between the last time adjustment node and the current time adjustment node, and adjusting the grade b of the real-time service components according to the calling times a of the service components.

4. The business component adjustment method applied to the business system according to claim 3, wherein the generating the business system further comprises:

presetting a service component calling frequency matrix A, and setting A (A1, A2, A3, A4), wherein A1 is the preset first service component calling frequency, A2 is the preset second service component calling frequency, A3 is the preset third service component calling frequency, A4 is the preset fourth service component calling frequency, and A1< A2< A3< A4;

presetting a service component grade matrix B, and setting B (B1, B2, B3, B4), wherein B1 is a preset first service component grade, B2 is a preset second service component grade, B3 is a preset third service component grade, and B4 is a preset fourth service component grade;

when a < A1, removing the business component;

when A1< a < A2, setting a real-time service component grade B as a preset first service component grade B1, namely B = B1;

when A2< A3, setting the real-time service component level B as a preset second service component level B2, namely B = B2;

when A3< A4, setting the real-time service component level B as a preset third service component level B3, namely B = B3;

when a > A4, the real-time service component level B is set to a preset fourth service component level B4, i.e. B = B4.

5. The business component adjustment method applied to the business system according to claim 4, wherein when adjusting the business components in the business system, the method further comprises:

acquiring user forecast demand data and unresponsive service data according to a preset adjustment time node, and additionally arranging a service component according to the user forecast demand data and the unresponsive service data;

the added service component level is a preset first service component level B1.

6. The business component adjustment method applied to the business system according to claim 5, wherein when adjusting the business components in the business system, the method further comprises:

and acquiring the real-time service component b, and setting the network resource occupation ratio of the server according to the real-time service component b.

7. The service component adjustment method applied to the service system according to claim 3, wherein the presetting of the time node for adjustment comprises:

generating unit time interval service system historical response times according to the user historical service data, and setting an adjustment time interval according to the unit time interval service system historical response times.

8. The service component adjustment method applied to the service system according to claim 7, wherein the setting of the adjustment time interval includes:

presetting an adjustment time interval matrix T, and setting T (T1, T2, T3, T4), wherein T1 is a preset first adjustment time interval, T2 is a preset second adjustment time interval, T3 is a preset third adjustment time interval, T4 is a preset fourth adjustment time interval, and T1< T2< T3< T4;

presetting a business system response time matrix C, and setting C (C1, C2, C3, C4), wherein C1 is the preset first business system response time, C2 is the preset second business system response time, C3 is the preset third business system response time, C4 is the preset fourth business system response time, and C1< C2< C3< C4;

acquiring historical response times c of the unit time interval service system;

when C1< C2, setting the adjustment time interval T as a preset first adjustment time interval T1, i.e. T = T1;

when C2< C3, setting the adjustment time interval T as a preset second adjustment time interval T2, i.e. T = T2;

when C3< C4, setting the adjustment time interval T as a preset third adjustment time interval T3, i.e. T = T3;

when C > C4, the adjustment time interval T is set to be the preset first adjustment time interval T1, i.e. T = T4.

9. The method for adjusting service components applied to a service system according to claim 8, wherein the presetting of the time node for adjustment further comprises:

acquiring the response times c1 of a service system between a last time adjustment node and a current time adjustment node;

generating a difference result of c1 and c;

when c1> c, correcting the time interval between the current time adjustment time node and the next adjustment time;

when c1 is less than or equal to c, the correction is not carried out.

10. The service component adjustment method applied to the service system according to claim 9, wherein the modifying the time interval between the current time adjustment time node and the next adjustment time comprises:

setting N (N1, N2, N3, N4) by a preset time interval adjustment coefficient matrix N, wherein N1 is a preset first time interval correction coefficient, N2 is a preset second time interval correction coefficient, N3 is a preset third time interval correction coefficient, N4 is a preset fourth time interval correction coefficient, and 0.7-N1-N2-N4-N1;

presetting a difference matrix D, and setting D (D1, D2, D3, D4), wherein D1 is a preset first difference, D2 is a preset second difference, D3 is a preset third difference, D4 is a preset fourth difference, and D1< D2< D3< D4;

acquiring a time interval between a last time adjustment node and a current time adjustment node;

acquiring a real-time difference result d;

when D1< D < D2, setting a correction coefficient n as a preset first time interval correction coefficient n1, wherein the corrected time interval t = n1 × Ti;

when D2< D < D3, setting the correction coefficient n as a preset second time interval correction coefficient n2, wherein the corrected time interval t = n2 × Ti;

when D3 is less than D and less than D4, setting a correction coefficient n as a preset third time interval correction coefficient n3, wherein the corrected time interval t = n3 × Ti;

and when D is larger than D4, setting the correction coefficient n as a preset fourth time interval correction coefficient n4, wherein the corrected time interval t = n4 Ti.

Images