CN111008762A - Business center design method for power marketing service system - Google Patents

Abstract

The invention discloses a method for designing a service center of a power marketing service system, which comprises the following steps: step 1, planning by a service center: determining a service center plan and a service center architecture based on the input of the service field model; step 2, service identification: combing alternative services to form a service model of the electric power marketing service system; step 3, service design: designing a service interface and operation exposed to the outside, designing a data model, and designing a deployment model; and step 4, service realization: carrying out code service logic realization of a service interface, and carrying out service unit test, service integration test, service non-function test and service deployment online after development is finished; step 5, service management: and collecting and feeding back actual service operation information to promote continuous optimization iteration of the service system service center. The method can optimize and upgrade the service system of the power customer, innovate the service mode, promote the service quality, meet the increasingly diversified high-quality service requirements of the power customer.

Description

Business center design method for power marketing service system

Technical Field

The invention relates to the technical field of power marketing, in particular to a method for designing a service center of a power marketing service system.

Background

The existing electric power marketing information system is generally based on a traditional centralized IT architecture and a point-to-point integration mode, a chimney type system construction mode is adopted, the system is relatively independent, the integration and cooperation cost is high, the service logic reusability is poor, the reuse rate is extremely low, the response period to the change of the demand is long, a large amount of same or similar functions are repeatedly developed in different systems, the repeated construction investment is caused, and the system operation and maintenance cost is increased.

Due to the fact that the system is not enough in response capacity to change of demand, after long-term operation, the system generally faces the overall upgrading demand of the system caused by insufficient business supporting capacity, overall upgrading of the traditional information system is usually carried out in a system rebuilding mode, due to the fact that smooth transition is difficult to carry out, huge negative effects can be brought to existing business development, a large number of basic functions are repeatedly invested in construction, business sediments for many years are difficult to keep, and enterprise assets are lost.

Data resources precipitated after the power marketing information system operates for many years are widely dispersed in various heterogeneous systems, data models and standards of related services are not unified, data consistency and circulation are poor, effective sharing cannot be achieved, and data value cannot be mined to the maximum extent.

The enterprise central station core comprises a business central station and a data central station, supports the business of the digital enterprise data of the enterprise business, constructs the digital operation capacity of the enterprise, and supports the flexible iteration of the enterprise business. The enterprise central station is not supported by a central station information system, and also comprises a management system and a standard matched with the central station.

The business middle desk determines uncertain business rules and flows in the enterprise through industrialized, marketized and IT means by making enterprise-level standards and mechanisms, effectively reduces the communication cost of all organization bodies in the enterprise, and improves the cooperation efficiency of individuals and all organization bodies in the enterprise to the maximum extent through vertical autonomous development and horizontal service extension of centralized capacity. The core principle of the method is centralized control and distributed execution, strong foundation support is created, front-end antennae are flexible, market requirements and changes are accepted swiftly, enterprise business capacity is rooted in a social large environment, and enterprise core competitiveness is enhanced.

The core value of the business center station is that the traditional IT mode of converting the business capability IT into the business capability capitalization mode is changed, so that the business agility and the market response speed are improved, and the goals of quality improvement and transformation, cost reduction and efficiency improvement of enterprises are further achieved.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a power marketing service system business center design method which can optimize and upgrade a power customer service system, innovate a service mode, improve service quality and meet increasingly diversified high-quality service requirements of power customers.

In order to achieve the purpose, the invention is realized by adopting the following technical scheme.

A power marketing service system business center design method comprises the following steps:

step 1, planning a service center; determining service center planning of the power marketing service system according to a service center planning method, a decision flow and indexes based on the input of a service field model, and determining a service center architecture of the power marketing service system according to the service center planning;

step 2, service identification, wherein alternative services are combed out based on the input of the service identification; then, forming a service model of the electric power marketing service system according to the service center planning;

step 3, service design; according to the service model of the electric power marketing service system, designing a service interface and operation exposed to the outside, designing a data model of each service center, and designing a deployment model of the service center;

step 4, service realization; according to the output of service design, code service logic realization of a service interface is carried out according to code development specifications and micro-service development best practices, and service unit test, service integration test, service non-function test and service deployment after development are finished are carried out on line;

step 5, service management; and aiming at the continuous operation of the service, collecting and feeding back actual service operation information, and promoting the continuous optimization iteration of the service system service middle station.

The technical scheme of the invention has the characteristics and further improvements that:

step 1 comprises the following substeps:

substep 1.1, modeling of business field: collecting and classifying business requirements by using case modeling to generate a case model; based on the use case model and in combination with a domain modeling analysis method, mining and analyzing business entities, and establishing a relationship between the business entities to form a business domain model;

substep 1.2, the service center deduces the plan: taking the business field model as business input, and deducing a marketing service center plan according to the business field model;

substep 1.3, service center review: auditing the marketing service center plan, and determining the rationality of the marketing service center plan and the implementation plan and resource arrangement of the marketing service center plan according to a preassigned service center review standard;

substep 1.4, the service middle station architecture is formed: and forming a service center architecture of the power marketing service system according to the result of the evaluation of the service center.

Step 2 comprises the following substeps:

substep 2.1, using the business process, the business sequence diagram, the business rules and the business functions generated by the business requirement analysis as the input of service identification, inputting a process identification, sequence diagram identification or function identification method according to different requirements, preliminarily combing the alternative services and generating a preliminary marketing service model;

substep 2.2, abstracting and summarizing according to the preliminary marketing service model, merging the same service capabilities, collecting the similar service capabilities to form service operation, and abstracting the input and the output of the service operation;

and substep 2.3, finally, according to the service evaluation standard, carrying out analysis, combination and filtering processing to form a service model of the electric power marketing service system.

Compared with the prior art, the invention has the beneficial effects that:

the method for designing the service middlings of the electric power marketing service system adopts a structured scheme to optimize and upgrade the electric power marketing service system, and changes the IT mode of marketing service capability into the asset mode of service capability, so that the service agility and the market response speed are improved. The business capabilities provided in the stations in the marketing services system business can be gradually reused by more business applications, thereby gradually accumulating enterprise business capability assets.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of an embodiment of a method for designing a service center of a power marketing service system according to the present invention;

fig. 2 is a schematic flow chart of service center planning in the power marketing service system service center design method provided by the present invention;

FIG. 3 is a schematic flow chart illustrating service identification in a method for designing a service center of a power marketing service system according to the present invention;

FIG. 4 is a schematic flow chart of service design in the power marketing service system service center design method provided by the present invention;

FIG. 5 is a schematic flow chart of service implementation in a power marketing service system service center design method provided by the present invention;

fig. 6 is a schematic flow chart of service management in the power marketing service system service center design method provided by the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the invention provides a method for designing a service center of a power marketing service system, the design process includes 5 steps of service center planning, service identification, service design, service implementation and service management, and relates to input requirements of service-related submissions, output of service-center-related submissions, and a series of standards, templates and specifications of the design process, the steps of the design process are mutually verified before and after, and iterative evolution specifically includes the following steps:

step 1, planning by a service center: and determining the service center plan of the power marketing service system based on the input of the service field model according to the service center planning method, the decision flow and the indexes, and determining the service center architecture of the power marketing service system according to the service center plan.

The service center planning comprises a service field modeling stage, a service center derivation planning stage, a service center evaluation stage and a service center architecture forming stage.

Referring to fig. 2, step 1 specifically comprises the following sub-steps:

substep 1.1, modeling of business field: collecting and classifying business requirements by using case modeling to generate a case model; and mining and analyzing business entities based on the case model and in combination with a domain modeling analysis method, and establishing a relationship between the business entities to form a business domain model.

Specifically, the business field modeling is a business subdomain process of performing business decomposition and business boundary division on demand business related to a business middle station to form high cohesion and low coupling. Firstly, the business requirements are collected and analyzed by using case modeling, and the most main function of the case modeling is to express the common requirements or behaviors of the system. The output use case model in the stage comprises use cases and use case description. Then, a service expert and a service architect analyze the marketing current and future services based on the case model and simultaneously combine a domain modeling analysis method, and mine and analyze important service entities, analyze and abstract service objects and service entities according to the full-user case model covered by the marketing service, and establish the relationship between the service entities. And finally, deriving and planning a marketing service field model from the information, wherein the field model comprises service entities and the relation between the service entities.

Further, after the business domain model is generated, the business domain model is summarized and divided to form a business domain. The induction is to ensure that the similar responsibility models are gathered together so as to ensure the singleness and cohesion of responsibility, and the boundary of two domains is clear at the same time so as to ensure the low coupling between the service domains. After the business domain architecture is produced, the skeleton of the service center architecture is preliminarily formed, the business domain basically corresponds to the corresponding service center, and then the content is filled in the framework.

Substep 1.2, the service center deduces the plan: and taking the business field model as business input, and deducing the marketing service center plan according to the business field model.

Specifically, the deduced marketing service domain model is used as the service input for the marketing service center planning at the stage, and a middle stage architect and a service architect deduce a marketing service center planning blueprint according to the service domain model.

Substep 1.3, service center review: and auditing the marketing service center plan, and determining the rationality of the marketing service center plan and the implementation plan and resource arrangement of the marketing service center plan according to a preassigned service center review standard.

Specifically, at this stage, the middlebox administration group hosts the plan of the auditing service center.

Substep 1.4, the service middle station architecture is formed: and forming a power marketing service system business middle platform framework as a range and basis for subsequent marketing service combing according to the evaluation result of the service center.

Step 2, service identification, wherein alternative services are combed out based on the input of the service identification; and forming a service model of the electric power marketing service system according to the service center planning.

Specifically, referring to fig. 3, step 2 comprises the following substeps:

substep 2.1, using the business process, the business sequence diagram, the business rules and the business functions generated by the business requirement analysis as the input of service identification, and inputting different carding methods according to different requirements, such as process identification, sequence diagram identification or function identification methods, preliminarily carding out alternative services, and generating a preliminary marketing service model;

substep 2.2, abstracting and summarizing according to the preliminary marketing service model, merging the same service capabilities, collecting the similar service capabilities to form service operation, and abstracting the input and the output of the service operation;

in the abstract generalization process, as much as possible one service operation is shared, and a plurality of continuous operations with relatively fixed services belonging to the service middle station are considered to form a combined service.

And substep 2.3, finally, according to the service evaluation standard, carrying out analysis, combination and filtering processing to form a service model of the electric power marketing service system.

Furthermore, the technical capability support in the business is generated according to the non-functional requirements of the service.

Step 3, service design; according to the service model of the electric power marketing service system, service interfaces and operations exposed to the outside are designed, data models of all service centers are designed, and deployment models of the service centers are designed.

Referring to fig. 4, the service design is based on the service model identified by the service, and the service granularity and the dependency relationship are reasonably adjusted; and further designing a service interface, a service application grouping and a deployment mode with the aim of realizing contractual forehand and better support of scalable high availability, and simultaneously providing clear requirements for service implementation in the aspects of performance, management and control, safety and other non-functional requirements.

The service design method of the service center platform comprises a service loose coupling design method, a naming method, an interface design method, an operation design method and the like.

Specifically, taking a service loose coupling design method as an example, firstly, loose coupling is realized, core services are extracted into independent services to become a service provider, front-end applications are used as service consumers, the front-end applications and the service consumers communicate with each other through an RPC (remote procedure call protocol), the consumption ends are decoupled from the core service provider, internal changes of the service provider do not affect the consumers, and the consumers can switch providers as required; second, loose coupling of time, which is to essentially change synchronization into asynchronization, under the condition of high concurrency, because of differences in availability and processing capability of each service of downstream services and service chains, it is unrealistic for a service provider to process a large amount of data at the same time, and strong dependence between services needs to be reduced; thirdly, the positions are loosely coupled, when an application system is started, the position of a service provider does not need to be concerned, and required position information can be obtained according to a certain mode, the current mainstream mode is that a service registration center is adopted, the service provider registers all services to the service registration center, when a service consumer wants to call the services of other systems, the service consumer searches for corresponding services from the registration center and then calls the services, and middleware of the service registration center of some mainstream simultaneously provides a series of mechanisms to ensure that the services can be found, registered, refreshed and the like in real time; and fourthly, the versions are loosely coupled, and the upgrading of the versions can be brought along with the upgrading of the service, so that the situation that a consumer end needs to rely on a specific version to work cannot occur, and therefore the high version has to be downward compatible.

Step 4, service realization; and according to the output of the service design, code service logic realization of a service interface is carried out according to code development specifications and micro-service development best practices, and a service unit test, a service integration test, a service non-function test and a service deployment after the development are finished are carried out on line.

And the service is developed and realized by adopting a mature distributed service framework according to the output document of the service design and in combination with the requirements of meeting the stability and the capacity of the service. The method ensures the development quality of service implementation according to a uniform code development specification, and mainly comprises two parts, namely a service implementation decision and a service implementation technology. The service implementation decision determines the interface definition, the method definition and the implementation module, and the service implementation technology determines the release protocol, the access endpoint and the security mechanism.

Specifically, referring to fig. 5, the service implementation defines the grouping classification of the services, different service exposures, interaction scenarios, and the like in the gradual improvement of the overall architecture of the system according to the service catalog, service association, and service definition of the service model determined by the service design, and after the model selection of the implementation of the service framework adopted by the service is determined, the implementation of the services in the service model is started, including determining the technical architecture of the service middle platform, forming the technical architecture of the service middle platform according to the technical support of the service middle platform, determining the service framework, and determining the implementation of the product to encapsulate the service capability to form the service; determining technical products on which the realization of the business capability depends, such as what rules are used, search, message, cache engines, workflow and data persistence frameworks, and the like; writing, integrating, assembling and testing, and the realization guiding principle proposed in the service design stage before the requirement of application deployment delivery is formed can be practically implemented; and finally, the service is deployed, and the service application can be conveniently and even automatically adapted to switching among different deployment target environments (such as daily, test, pre-release and online).

Step 5, service management; and aiming at the continuous operation of the service, collecting and feeding back actual service operation information, and promoting the continuous optimization iteration of the service system service middle station.

Through service management, service real-time use data is fed back to a service system, continuous service combing and optimizing are promoted, continuous service optimizing iteration is guided, and marketing service is promoted to really evolve in a direction with a client as a center by means of data optimizing.

Service evolution is part of service governance and needs to address the periodic issues in the service lifecycle, namely how the service should be updated and how the management updates should be controlled to affect existing service consumers. The services may need to be updated after being consumed, and these updates may be due to adding new functions, or repairing problems and errors, or improving usability, or merging and splitting from service coupling and integrity, or simply due to changes in business capabilities represented by the services themselves, such as rules, flow changes, and the like. These changes, some do not affect the continued use of existing service consumers, and some require the existing service consumers to make modifications.

Specifically, referring to fig. 6, the service administration sets up guiding principles for smooth operation of a service system established by a center station of a marketing service, and technical means required for executing the principles, and relates to service release discovery, service authentication authorization, service monitoring statistics, service failure plans, service elastic expansion and contraction, service current limiting degradation, service link tracking, service link pressure measurement, service gray release, and the like.

The power marketing service system business middle platform design method mentioned in the above embodiment adopts a structured scheme to optimize and upgrade the power marketing service system, and changes the IT mode of marketing service capability into the asset mode of service capability, thereby improving the service agility and the speed of responding to the market. The business capabilities provided in the stations in the marketing services business can be gradually reused by more business applications, thereby gradually accumulating enterprise business capability assets. The service capability centers in the service center station are constructed according to the principles of high cohesion and low coupling, each capability center is provided with a corresponding data domain, and the operation of the data domains needs to be carried out through the corresponding capability centers, so that the real-time online and high unification of data are achieved.

The method for designing the power marketing service system service middle platform optimizes and upgrades the service system of the power customer, innovates the service mode, improves the service quality, meets the increasingly diversified high-quality service requirements of the power customer, and has certain engineering practical value for landing of the power marketing service system service middle platform system.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (6)

1. A method for designing a service center of a power marketing service system is characterized by comprising the following steps:

step 1, planning a service center; determining service center planning of the power marketing service system according to a service center planning method, a decision flow and indexes based on the input of a service field model, and determining a service center architecture of the power marketing service system according to the service center planning;

step 2, service identification, wherein alternative services are combed out based on the input of the service identification; then, forming a service model of the electric power marketing service system according to the service center planning;

step 3, service design; according to the service model of the electric power marketing service system, designing a service interface and operation exposed to the outside, designing a data model of each service center, and designing a deployment model of the service center;

step 4, service realization; according to the output of service design, code service logic realization of a service interface is carried out according to code development specifications and micro-service development best practices, and service unit test, service integration test, service non-function test and service deployment after development are finished are carried out on line;

step 5, service management; and aiming at the continuous operation of the service, collecting and feeding back actual service operation information, and promoting the continuous optimization iteration of the service system service middle station.

2. The method for designing the service middlings of the electricity marketing service system according to claim 1, wherein in the step 1, the service center planning comprises a service field modeling stage, a service center derivation planning stage, a service center review stage and a service middling architecture forming stage;

the method specifically comprises the following substeps:

substep 1.1, modeling of business field: collecting and classifying business requirements by using case modeling to generate a case model; based on the use case model and in combination with a domain modeling analysis method, mining and analyzing business entities, and establishing a relationship between the business entities to form a business domain model;

substep 1.2, the service center deduces the plan: taking the business field model as business input, and deducing a marketing service center plan according to the business field model;

substep 1.3, service center review: auditing the marketing service center plan, and determining the rationality of the marketing service center plan and the implementation plan and resource arrangement of the marketing service center plan according to a preassigned service center review standard;

substep 1.4, the service middle station architecture is formed: and forming a service center architecture of the power marketing service system according to the result of the evaluation of the service center.

3. The power marketing service system business center design method according to claim 1, wherein the step 2 comprises the following substeps:

substep 2.1, using the business process, the business sequence diagram, the business rules and the business functions generated by the business requirement analysis as the input of service identification, inputting a process identification, sequence diagram identification or function identification method according to different requirements, preliminarily combing the alternative services and generating a preliminary marketing service model;

substep 2.2, abstracting and summarizing according to the preliminary marketing service model, merging the same service capabilities, collecting the similar service capabilities to form service operation, and abstracting the input and the output of the service operation;

and substep 2.3, finally, according to the service evaluation standard, carrying out analysis, combination and filtering processing to form a service model of the electric power marketing service system.

4. The method for designing the service center of the electricity marketing service system according to claim 1, wherein in the step 2, the technical capacity support of the service center is produced according to the non-functional requirements of the service.

5. The method for designing the service middlebox of the electricity marketing service system according to claim 1, wherein in step 4, a distributed service framework is adopted to develop and implement services in combination with requirements for meeting stability and capacity of the services.

6. The power marketing service system business middesk design method of claim 5, wherein in step 4, the service implementation comprises service implementation decision and service implementation technology; the service implementation decision determines interface definition, method definition and implementation module, and the service implementation technology determines a release protocol, an access endpoint and a security mechanism.

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