CN112437130A - City underground pipe gallery business function system based on little service - Google Patents

Abstract

The invention relates to a micro-service-based urban underground pipe gallery business function system, and belongs to the technical field of urban underground pipe gallery engineering. The system comprises a micro service architecture of a management corridor monitoring management software platform, wherein the micro service architecture sequentially comprises a system user, a service register, an API gateway, micro service software and field facility equipment from top to bottom; the microservice software includes system microservices and field facility associated microservices. By adopting a micro-service system architecture, the problems that due to the fact that the content of a project system is large, professional subsystems belong to different technical fields, the data structure difference of different systems is large, the cost of unified data management and maintenance is high, the system development, debugging and deployment period is long, and updating iteration and error correction of a software system are not facilitated can be solved; and the problem of insufficient safety in the operation process.

Description

City underground pipe gallery business function system based on little service

Technical Field

The invention relates to a micro-service-based urban underground pipe gallery business function system, and belongs to the technical field of urban underground pipe gallery engineering.

Background

Underground utility tunnel engineering has integrated multiple city lifeline engineering pipelines such as electric power, communication, gas, plumbing and the like in an organic whole. The comprehensive disaster prevention and management system has important significance for researching the problems of comprehensive disaster prevention and management of the comprehensive pipe gallery aiming at the characteristics of centralized pipelines, large capacity, multiple disaster influence factors, wide range and large disaster influence. The existing comprehensive pipe gallery construction and operation management is implemented mainly based on the standard requirements of the national standard urban comprehensive pipe gallery engineering technical specification and the existing mature monitoring technology, and subsystems comprise an environmental parameter monitoring system, an auxiliary equipment monitoring system, a video monitoring system, an intrusion alarm system, a communication system, a broadcasting system, an automatic fire alarm system and the like. In the systems with different functions, because products are provided by different manufacturers, data exchange among the systems has no uniform standard, and because the interfaces are various and have poor accessibility, an information isolated island phenomenon of the systems is easily formed, and various requirements of information interconnection, complex system linkage, environment and personnel safety assistance, emergency, daily operation and maintenance management and the like cannot be met.

From the development trend of the established urban comprehensive management platform, a B/S (browser/Server) framework is mostly adopted, a single system structure style is adopted in software development, all business functions of all subsystems are stacked in a single application program, and the business functions are provided for monitoring and managing personnel of a pipe gallery. Because the management platform software as a whole, the components of the subsystem provide extensive business functions, adding or modifying components does not disrupt the integrity of the system, or is very expensive. Furthermore, in order to meet the overall business requirements, these components must communicate with each other. Communication between these components is typically established over proprietary protocols and standards, which are based on point-to-point communication means. Thus, it is also quite complicated to modify or replace a given component.

In recent years, Service Oriented Architectures (SOAs) have become popular to provide solutions to some of the limitations of monolithic application architectures, which deal with the problems encountered in developing large monolithic applications by separating the functionality of a monolithic application into reusable, loosely coupled entities (i.e., services). Using the SOA paradigm, each business function is built as a (coarse-grained) service deployed inside an application server, and the service will contain multiple sub-functions. When the use of these business functions is involved, it is often necessary to integrate multiple services, or to create a composite service with other systems. At this point, an Enterprise Service Bus (ESB) is typically used for integrating these services, data, and systems. The service consumer uses the composite service exposed from the ESB layer, which can be viewed as a centralized bus connecting all of these services and systems.

From the established urban comprehensive pipe gallery operation and maintenance management platform in China, the main contents of the software system comprise: (1) the comprehensive pipe gallery information management system integrates pipeline monitoring, environment monitoring, equipment monitoring and security monitoring; (2) according to data needing to be cooperatively shared among the systems, a data center for uniformly managing and maintaining the data is constructed, and data sharing service is provided for each application system in a service mode; (3) facing to utility tunnel operation unit, giving consideration to government and each authority unit, collect the operation management system of functions such as utility tunnel daily inspection, asset equipment, pipeline maintenance, and file management.

Because the content of the whole project system is various, each professional subsystem belongs to different technical fields, the data structure difference of different systems is large, the cost of unified data management and maintenance is high, the system development, debugging and deployment period is long, and the updating iteration and error correction of a software system are not facilitated.

In addition, safety is one of the most important considerations during operation of the pipe gallery. At present, the software system architecture is that all system information is gathered to a central platform, and information interaction between systems is realized through the central platform, including system linkage in emergency. And during normal operation, centralized monitoring and centralized disposal of operation monitoring personnel are facilitated. Once a communication fault of a main network occurs, the linkage function between systems is invalid, and the hidden danger of the whole operation safety of the pipe gallery is buried.

Disclosure of Invention

The invention aims to solve the problems that due to the fact that the content of a project system is large, professional subsystems belong to different technical fields, the data structure difference of different systems is large, the cost of unified data management and maintenance is high, the system development, debugging and deployment periods are long, and updating iteration and error correction of a software system are not facilitated; and the technical problem of insufficient safety in the operation process.

In order to solve the problems, the technical scheme adopted by the invention is to provide a micro-service-based urban underground pipe gallery business function system, which comprises a micro-service architecture of a pipe gallery monitoring management software platform, wherein the micro-service architecture sequentially comprises a system user, a service register, an API gateway, micro-service software and field facility equipment from top to bottom; the microservice software includes system microservices and field facility associated microservices.

Preferably, the system microservice is provided with platform-level integrated services; the system micro-service lower layer is provided with field facility associated micro-service which is connected with field facility equipment.

Preferably, the microservice software is provided with a self-used database and database schema for storing and implementing business functions.

Preferably, the field facility associated microservice is provided with a self-contained database and database schema for storing and implementing business functions.

Preferably, the microservice software performs inter-service communication over a network through message passing, the inter-service communication can be established on various interaction styles and message formats, and an API is disclosed through a service contract for cooperation between a consumer and the microservice software.

Preferably, the field facility device comprises a facility device for collecting information, a media facility device and a facility device needing to be controlled.

Preferably, the field facility devices form information interconnection through a wired network, a wireless network or an internet of things.

Preferably, an event bus is arranged between the field facility equipment and the comprehensive service of the platform level; and the field facility associated micro-service arranged on the field facility equipment is connected with the comprehensive service at the platform level through the event bus to form information interconnection.

Preferably, the field facility associated microservice of the field facility device is provided with a fault degradation handling function.

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

1. by adopting a micro-service system architecture, the problems that due to the fact that the content of a project system is large, professional subsystems belong to different technical fields, the data structure difference of different systems is large, the cost of unified data management and maintenance is high, the system development, debugging and deployment period is long, and updating iteration and error correction of a software system are not facilitated can be solved; and the problem of insufficient safety in the operation process. Microservices are a set of small, independent services developed from a single application that run, develop and deploy independently in separate processes. The micro-service architecture is mainly characterized in that: the service is designed based on the service function, and is used as an independent entity for development, deployment and expansion, and the intelligent end point and the message transmission system have the advantages of flexible and small capacity, minimal fault tolerance and fault influence, decentralized data management and the like.

2. The server function of the pipe gallery monitoring management software platform is developed by using the micro-service system, so that software developers can build different software development groups according to different technical characteristics adopted by each system, and develop micro-services by using a proper software tool. Meanwhile, different micro-services may employ different types of databases (e.g., relational or non-relational) based on the data composition characteristics of different systems. If the software needs to be updated and iterated, only the micro-services which have been tested can be updated without influencing the normal operation of other systems.

3. In addition, the micro-service is single in function and suitable for being deployed on a single equipment controller. Because the pipe gallery is divided according to the fireproof partition units, equipment of each subsystem in each unit has more system linkage functions, and after the micro-service system is adopted, even if the system backbone network communication fails, the local autonomous linkage function in the unit can be realized through the regional network in the unit and the automatic degradation treatment of the micro-service, so that the effective implementation of emergency linkage is ensured to the maximum extent.

Drawings

FIG. 1 is a diagram of a microservice architecture for a pipe rack monitoring management software platform according to the present invention;

FIG. 2 is a diagram of the field facility device microservice contact configuration of the present invention;

FIG. 3 is a diagram of the microservice contact configuration of the combined system of the present invention;

FIG. 4 is a diagram of a micro-service contact configuration for a degraded area of failure in accordance with the present invention;

Detailed Description

In order to make the invention more comprehensible, preferred embodiments are described in detail below with reference to the accompanying drawings:

as shown in fig. 1-4, the present invention provides a micro-service-based urban underground pipe gallery business function system, which includes a micro-service architecture of a pipe gallery monitoring management software platform, wherein the micro-service architecture sequentially includes a system user, a service registration, an API gateway, micro-service software, and field facility equipment from top to bottom; the microservice software includes system microservices and field facility associated microservices. The system micro-service is provided with platform-level comprehensive service; the system micro-service lower layer is provided with field facility associated micro-service which is connected with field facility equipment. The micro service software is provided with a self-used database and a database mode for storing and realizing service functions. The field facility equipment comprises information collecting facility equipment, media facility equipment and facility equipment needing to be controlled. The field facility equipment forms information interconnection through a wired network, a wireless network or an Internet of things. And the field facility associated micro-service arranged on the field facility equipment is connected with the comprehensive service at the platform level through the event bus to form information interconnection. The field facility equipment is provided with a fault degradation processing function through the field facility related micro-service.

As shown in fig. 1 to 4, in the platform software system, compared with the SOA service, which implements coarse-grained services, the micro-service system is designed based on specific business functions, and is a group of services with finer granularity and oriented to business capabilities.

Micro services in the software are divided into two categories, namely system micro services and field facility associated micro services, the field facility associated micro services are divided according to the system, subsystems and different business functions of the system and the subsystems, are associated with related equipment at the front end of the system, integrate and condition data produced by the equipment, control the state of the related field equipment and provide REST services for other micro services or consumers; the system micro-service mainly provides platform-level comprehensive services, such as user management, inspection management, emergency command and the like. Each micro service has strong independence and can be developed, deployed and expanded as an independent entity.

These services communicate between services on the network through messaging, which is a loose coupling, and the communication between services can be built on various interactive styles and message formats, and consumers can use these conventions to collaborate with microservices through the service convention disclosure API.

The data produced by the system is not stored in a single centralized logical database, and each microservice has its own database and database schema for storing data that implements its business-providing functionality. A given microservice can only access a dedicated database and cannot access other microservices' databases. In some business scenarios, if multiple databases need to be updated for a single transaction, in this case, the databases of other microservices can only be updated through the corresponding service APIs. Decentralized data management provides completely decoupled microservices and allows freedom in selecting different data management technologies, such as SQL or NoSQL, etc., each of which may have a different database management system.

The service layer of the software platform can discover all registered micro-services, access the functions of the micro-services through the API gateway, and combine into various display interfaces for users (such as monitoring management personnel, inspection personnel, pipeline management personnel and the like) to check on a computer workstation, a browser client of a mobile terminal and a mobile phone APP.

In order to ensure the daily safe operation of the pipe gallery, various auxiliary systems and equipment thereof are equipped, and the system is classified according to the information flow property composition generated for realizing the functions, and mainly has three forms:

1. collecting only various kinds of information

-information type: temperature and humidity, toxic and harmful gas measurement, electric power monitoring information, fire alarm information, network state information, intrusion alarm information and the like.

Micro-service main functions: receiving system configuration information, collecting data produced by equipment, storing the data to a special small database, generating alarm information according to a set threshold value, and producing data update events.

2. Media type information

-information type: camera video streaming media, telephone audio streaming media.

Micro-service main functions: receiving system configuration information, locally storing streaming media data, forwarding and retrieving streaming media, and generating a video detection alarm event.

3. Device requiring control

-information type: control and information of fans, water pumps, lighting lamps, fire extinguishing systems, fire doors, access controls, well covers and the like.

Micro-service main functions: receiving system configuration information and control mode, basic control logic of the equipment, collecting the production state and alarm data of the equipment, storing the data in a special small database, and updating production data.

The micro-services deployed to the equipment provide core data services for the whole system, have basic functions of data acquisition, equipment control and the like of a conventional monitoring system, and are the basis for ensuring the operation of the system. According to the division of each service subsystem of the pipe gallery, the combined micro-service of the subsystems is also provided. For example, the air management microservice shown in fig. one collects information and status data of all the fan devices on the bottom layer, provides API service for the client, and issues control command events to the fan devices on the bottom layer according to the operation needs of the pipe rack. Meanwhile, according to the alarm events issued by subscribing other subsystems, the micro-service provides related linkage logic control and correspondingly issues control commands.

For platform system-level micro services, such as user management, routing inspection management, emergency command, alarm management, corridor pipeline management and other micro services, the comprehensive functions of the whole management corridor operation organization, authorization, emergency coordination, daily management and the like are mainly provided, and interaction is carried out on data of all subsystems. The historical data and report management micro-service provides database maintenance of the whole system and provides functions of retrieval, organization, analysis and the like for various operation reports.

According to the requirements of the management of pipe gallery operations, the micro service is connected with external services, systems and data by using the API, events and streams, the function of which is disclosed to the consumer in the form of API, and uses the external micro service or application program by calling the API. Microservices may also be built on event-driven architectures, communicating through asynchronous events or messages. An event may be issued by a given service or system, while some other service may operate on it. The microservice may also continuously process streams of infinite events and issue result events based on stream processing logic.

The related architecture between the micro-services of the software platform mainly has the following forms:

1. each equipment system microservice:

the configuration of various different functional devices is a system, and generally, the operation and maintenance personnel also manage the different functional devices respectively by a professional system. Front-end equipment in the system is distributed and installed in a pipe gallery service cabin and forms information interconnection through a limited network or a wireless network or the Internet of things. Referring to fig. 2, the device local microservice is a classified microservice instance deployed in a field device, and the microservice contains a small local database for storing short-term device state data, while publishing event streams to the subsystem microservice for device state. The subsystem micro-service receives the stream events of all local micro-service instances of the system, organizes and stores equipment system data according to the configuration requirements of the platform system, and externally releases information through a subsystem API. In addition, the configuration of the system to the equipment is released to the local micro-service instance in an event release mode. If the system is a device needing to be controlled, the subsystem micro-service issues a control command to the local micro-service instance through an event issuing mode through a system control strategy.

2. Combined system microservice:

the combined system micro-service comprises the subsystem micro-service and the platform-level system micro-service. The combined system micro-service does not produce original data, but receives events from an external event source or subscribes the events from the local device micro-service, and generates various data sets and combined events required by the operation service of the pipe gallery after the operation processing of the micro-service. The subsystem micro-service has the main functions of integrating the service requirements of the system, providing the system service function and issuing various types of relevant event information of the system to an event bus. And each subsystem micro-service subscribes the required event information from the event bus and issues control command events to related equipment in the system according to the system linkage configuration requirement of the platform software. The platform system micro-service mainly provides the service of the whole pipe gallery operation organization function, issues the demand event to the event bus by receiving the external source event (mainly the configuration information and the combined data retrieval information sent by the platform client), and reads various data or data streams required by the platform by subscribing the event through various service logic algorithms, and discloses the demand event to the consumer through the API.

3. Failed system degraded microservice:

because various devices in the pipe gallery are distributed far away, information exchange between the devices is realized through a network. The realization of the software platform management function is a centralized monitoring platform in essence, and the equipment linkage function among systems is realized through the subsystem micro-service data interaction deployed in the center. When the system backbone network breaks down, it is possible that subsystem microservices cannot timely receive alarm information of a pipe gallery site or cannot timely issue a control command, and if the alarm such as a fire happens, linkage disposal of each system cannot be achieved.

Because the linkage of the devices among the systems is mainly linkage with the devices in the same area, when a communication fault of a backbone network occurs, if an area network works normally, the local microservice of the device can receive various alarm information of the local area by subscribing the local area event information of an event bus through the fault degradation function of the microservice, and send a corresponding device control command through the linkage algorithm of the local microservice.

While the invention has been described with respect to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Those skilled in the art can make various changes, modifications and equivalent arrangements, which are equivalent to the embodiments of the present invention, without departing from the spirit and scope of the present invention, and which may be made by utilizing the techniques disclosed above; meanwhile, any changes, modifications and variations of the above-described embodiments, which are equivalent to those of the technical spirit of the present invention, are within the scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides a city underground pipe gallery business function system based on little service, includes pipe gallery control management software platform's little service architecture, its characterized in that: the micro-service architecture sequentially comprises a system user, a service register, an API gateway, micro-service software and field facility equipment from top to bottom; the microservice software includes system microservices and field facility associated microservices.

2. The urban underground pipe gallery service function system based on microservice of claim 1, wherein: the system micro-service is provided with platform-level comprehensive service; the system micro-service lower layer is provided with field facility associated micro-service which is connected with field facility equipment.

3. The urban underground pipe gallery service function system based on microservice as claimed in claim 2, wherein: the micro service software is provided with a self-used database and a database mode for storing and realizing service functions.

4. The urban underground pipe gallery service function system based on microservice as claimed in claim 3, wherein: the field facility associated micro-service is provided with a self-used database and a database mode for storing and realizing service functions.

5. The urban underground pipe gallery service function system based on microservice of claim 4, wherein: the micro service software performs inter-service communication on the network through message delivery, the inter-service communication can be established on various interaction styles and message formats, and an API is disclosed through service engagement for cooperation between a consumer and the micro service software.

6. The urban underground pipe gallery service function system based on microservice of claim 5, wherein: the field facility equipment comprises information collecting facility equipment, media facility equipment and facility equipment needing to be controlled.

7. The urban underground pipe gallery service function system based on microservice of claim 6, wherein: the field facility equipment forms information interconnection through a wired network, a wireless network or an Internet of things.

8. The urban underground pipe gallery service function system based on microservice of claim 7, wherein: an event bus is arranged between the field facility equipment and the platform-level comprehensive service; and the field facility associated micro-service arranged on the field facility equipment is connected with the comprehensive service at the platform level through the event bus to form information interconnection.

9. The urban underground pipe gallery service function system based on microservice of claim 8, wherein: the field facility equipment is provided with a fault degradation processing function through field facility related micro-service.

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