CN114520763A - Design method for overall architecture of intelligent comprehensive operation and maintenance system - Google Patents

Abstract

An integrated hardware architecture design is adopted, a machine-mounted computer is used as a core, all subsystems of a detector are used as a whole, resources are distributed in a comprehensive mode, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform. The invention can fast troubleshoot network faults, process monitored accidents and dangerous cases, effectively shorten fault repair time, and simultaneously, the operation and maintenance personnel can find faults occurring in the campus network in time and quickly position the faults at the terminal management position, so that the operation and maintenance personnel can timely process the faults and ensure the normal operation of the operation and maintenance system by comprehensively managing and allocating the operation and maintenance personnel, network equipment, fault report and repair elements and the like in the network operation and maintenance process and combining the corresponding monitoring function.

Description

Design method for overall architecture of intelligent comprehensive operation and maintenance system

Technical Field

The invention relates to the technical field of intelligent synthesis, in particular to a design method of an overall architecture of an intelligent comprehensive operation and maintenance system.

Background

With the rapid development of information technology, the advanced integration of cloud computing, big data and new generation information technology of Internet of things with steel manufacturing industry, productive service industry and the like further promotes the transformation and upgrading of the steel industry, more and more enterprises introduce a cloud platform management mode at present to emphatically solve the problems of server virtualization and resource management, application systems of various levels are developed to establish respective management platforms which are still in chimney type construction and management states, a data island is formed among data, a resource pool based on a virtual machine does not change a shaft type construction mode, a campus network of colleges and universities plays an important role as one of important components of an Internet network, and in recent years, with the great popularization and development of education informatization, the scale of the network of colleges and universities is continuously enlarged, new technologies and new equipment are continuously put into use, the campus network function and performance are greatly enriched and improved, a user can access network resources more conveniently and quickly, the campus comprehensive operation and maintenance system cannot be monitored in all directions while being constructed, the campus comprehensive operation and maintenance system cannot be found in time when a fault occurs, the campus comprehensive operation and maintenance system cannot be solved effectively, a system leak is caused, inconvenience is caused when the operation and maintenance system is used, and based on the problem, a design method for the overall architecture of the intelligent comprehensive operation and maintenance system is designed to solve the problem.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a design method of an overall architecture of an intelligent comprehensive operation and maintenance system. The comprehensive management and allocation of the operation and maintenance system are realized, network faults are rapidly checked and positioned, the operation and maintenance working efficiency is improved, and the normal operation of the operation and maintenance system is ensured.

The invention provides a design method of an integral framework of an intelligent comprehensive operation and maintenance system, which comprises the following steps:

(1) an integrated hardware architecture design is adopted, an onboard computer is taken as a core, all subsystems of the detector are taken as a whole, resources are allocated comprehensively, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, and a management module is connected with a server, so that the server carries out real-time information management;

(3) the method comprises the steps that physical resources are virtualized through a basic framework to obtain virtualized resources, a monitoring module and an operation and maintenance module are connected in a framework system, the method can be used for monitoring the operation condition of a campus network, storing and updating campus network operation and maintenance knowledge in real time, and providing a corresponding fault processing scheme;

(4) the management platform layer configures required virtualized resources according to requirements of students, the business application layer constructs a virtual resource environment, the framework fault information processing system processes the resources, the processing process and the result generate corresponding reports and feed the reports back to the operation and maintenance knowledge base module, and the terminal system is used for operation and maintenance personnel to log in, receive fault processing notifications and inquire fault processing history and related operation and maintenance knowledge.

Preferably, the management module is used for managing service time, service areas, identity authentication and authority management of operation and maintenance personnel, analyzing and early warning the operation condition of the campus network, and generating corresponding fault information.

Preferably, the campus network cloud management comprises a plurality of functional modules of self-service, visual management and one-key fault location, and is used for improving the management capability of students and teachers on the cloud management platform; the visual management is used for realizing the close application fusion of the cloud infrastructure and the operation and maintenance module and changing the application of the operation and maintenance system into a super-fusion multi-application parallel processing system.

Preferably, the server device in step 1 comprises the following arrangement: the method comprises the steps of constructing a high-speed local area network in a data center, adopting a dual redundant power supply and a redundant fan design, configuring dual main control board cards and pluggable functional board cards, and configuring pluggable interface modules on the board cards.

Preferably, the operation and maintenance knowledge base is connected with the storage unit, and is used for operation and maintenance personnel to quickly inquire the fault information and find out the fault occurrence part, so that the fault can be conveniently and quickly processed, and the normal operation of the operation and maintenance system is ensured.

Preferably, the inside storage of monitor module has student identity information, can carry out real time monitoring to the inside corner in campus and open department through a plurality of cameras, and when taking place dangerous situation or accident, the information is fast uploaded at the inside processing of server to remind fortune dimension personnel through the terminal alarm, can be timely handle trouble and dangerous situation and solve.

The invention has the beneficial effects that: the invention can fast and rapidly troubleshoot network faults, process monitored accidents and dangerous cases, effectively shorten fault repair time, ensure the availability of the campus network to the maximum extent, and simultaneously, the operation and maintenance personnel can timely find the faults of the campus network and rapidly position the faults at a terminal management position, so that the operation and maintenance personnel can timely process the faults, improve the working efficiency and ensure the normal operation of the operation and maintenance system by comprehensively managing and allocating the operation and maintenance personnel, network equipment, fault report and repair elements and the like in the network operation and maintenance process and combining with corresponding monitoring functions.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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.

In order to achieve the purpose, the invention provides the following technical scheme: an overall architecture design method of an intelligent integrated operation and maintenance system comprises the following steps:

(1) an integrated hardware architecture design is adopted, an onboard computer is taken as a core, all subsystems of the detector are taken as a whole, resources are allocated comprehensively, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, and a management module is connected with a server, so that the server carries out real-time information management;

(3) the method comprises the steps that physical resources are virtualized through a basic framework to obtain virtualized resources, a monitoring module and an operation and maintenance module are connected in a framework system, the method can be used for monitoring the operation condition of a campus network, storing and updating operation and maintenance knowledge of the campus network in real time, and providing a corresponding fault handling scheme;

(4) the management platform layer configures required virtualized resources according to requirements of students, the business application layer constructs a virtual resource environment, the framework fault information processing system processes the resources, the processing process and the result generate corresponding reports and feed the reports back to the operation and maintenance knowledge base module, and the terminal system is used for operation and maintenance personnel to log in, receive fault processing notifications and inquire fault processing history and related operation and maintenance knowledge.

Embodiment 1, a method for designing an overall architecture of an intelligent integrated operation and maintenance system, the method comprising the following steps:

(1) an integrated hardware architecture design is adopted, an onboard computer is taken as a core, all subsystems of the detector are taken as a whole, resources are allocated comprehensively, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, a management module is connected with a server, so that the server carries out real-time information management, the management module is used for managing service time, service areas, identity verification and authority management of operation and maintenance personnel, analyzing and early warning the operation condition of a campus network and generating corresponding fault information;

(3) the method comprises the steps that physical resources are virtualized through a basic framework to obtain virtualized resources, a monitoring module and an operation and maintenance module are connected in a framework system, the method can be used for monitoring the operation condition of a campus network, storing and updating campus network operation and maintenance knowledge in real time, and providing a corresponding fault processing scheme;

(4) the management platform layer configures required virtualized resources according to requirements of students, the business application layer constructs a virtual resource environment, the framework fault information processing system processes the resources, the processing process and the result generate corresponding reports and feed the reports back to the operation and maintenance knowledge base module, and the terminal system is used for operation and maintenance personnel to log in, receive fault processing notifications and inquire fault processing history and related operation and maintenance knowledge.

Embodiment 2, a method for designing an overall architecture of an intelligent integrated operation and maintenance system, the method comprising the following steps:

(1) an integrated hardware architecture design is adopted, an onboard computer is taken as a core, all subsystems of the detector are taken as a whole, resources are allocated comprehensively, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, and a management module is connected with a server, so that the server carries out real-time information management;

(3) the method comprises the steps that physical resources are virtualized through a basic framework to obtain virtualized resources, a monitoring module and an operation and maintenance module are connected in a framework system and can be used for monitoring the operation condition of a campus network, and campus network cloud management comprises a plurality of functional modules such as self-service, visual management and one-key fault location and is used for improving the management capacity of students and teachers on a cloud management platform; the visual management is used for realizing the close application fusion of the cloud infrastructure and the operation and maintenance module, changing the application of the operation and maintenance system into a super-fusion multi-application parallel processing system, storing and updating the operation and maintenance knowledge of the campus network in real time and providing a corresponding fault processing scheme;

(4) the management platform layer configures required virtualized resources according to requirements of students, the business application layer constructs a virtual resource environment, the framework fault information processing system processes the resources, the processing process and the result generate corresponding reports and feed the reports back to the operation and maintenance knowledge base module, and the terminal system is used for operation and maintenance personnel to log in, receive fault processing notifications and inquire fault processing history and related operation and maintenance knowledge.

Embodiment 3, a method for designing an overall architecture of an intelligent integrated operation and maintenance system, the method comprising the following steps:

(1) adopt integrated hardware architecture design to the ware carries the computer as the core, with each subsystem as a whole of detector, overall distribution resource, merges the function module of unit with the next computer in the detector design, utilizes super integration technology architecture private cloud platform, in will calculating, storage, network and security resource and management component all fuse the server, server equipment includes following arrangement: constructing a high-speed local area network in a data center, adopting a dual redundant power supply and a redundant fan design, configuring dual main control board cards and pluggable function board cards, and configuring pluggable interface modules on the board cards;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, and a management module is connected with a server, so that the server carries out real-time information management;

(3) the method comprises the steps that physical resources are virtualized through a basic framework to obtain virtualized resources, a monitoring module and an operation and maintenance module are connected in a framework system, the method can be used for monitoring the operation condition of a campus network, storing and updating campus network operation and maintenance knowledge in real time, and providing a corresponding fault processing scheme;

(4) configuring required virtualized resources according to the requirements of students through a management platform layer, constructing a virtual resource environment through a business application layer, processing through a framework fault information processing system, generating corresponding reports in the processing process and results and feeding the reports back to an operation and maintenance knowledge base module: the operation and maintenance knowledge base is connected with the storage unit and used for operation and maintenance personnel to quickly inquire the fault information and find out the fault occurrence position, conveniently and quickly process the fault and ensure the normal operation of the operation and maintenance system, and the terminal system is used for the operation and maintenance personnel to log in, receive the fault processing notice and inquire the fault processing history and the related operation and maintenance knowledge.

Embodiment 4, a method for designing an overall architecture of an intelligent integrated operation and maintenance system, the method comprising the following steps:

(1) an integrated hardware architecture design is adopted, an onboard computer is taken as a core, all subsystems of the detector are taken as a whole, resources are allocated comprehensively, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, and a management module is connected with a server, so that the server carries out real-time information management;

(3) the physical resources are virtualized through a basic framework to obtain virtualized resources, the monitoring module and the operation and maintenance module are connected in a framework system, the monitoring system can be used for monitoring the operation condition of a campus network, storing and updating operation and maintenance knowledge of the campus network in real time, and providing a corresponding fault handling scheme, student identity information is stored in the monitoring module, corners and open places in the campus can be monitored in real time through a plurality of cameras, when a dangerous case or an accident occurs, information is quickly processed in a server and uploaded to a terminal, operation and maintenance personnel are reminded through a terminal alarm, and the fault and the dangerous case can be timely handled and solved;

(4) the management platform layer configures required virtualized resources according to requirements of students, the business application layer constructs a virtual resource environment, the framework fault information processing system processes the resources, the processing process and the result generate corresponding reports and feed the reports back to the operation and maintenance knowledge base module, and the terminal system is used for operation and maintenance personnel to log in, receive fault processing notifications and inquire fault processing history and related operation and maintenance knowledge.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A design method for an overall architecture of an intelligent comprehensive operation and maintenance system is characterized by comprising the following steps: the architecture design method comprises the following steps:

(1) an integrated hardware architecture design is adopted, an onboard computer is taken as a core, all subsystems of the detector are taken as a whole, resources are allocated comprehensively, lower computers in the detector design are combined into a single-machine functional module, and computing, storage, network, safety resources and management components are all integrated into a server by utilizing a super-integration technology architecture private cloud platform;

(2) resource allocation is carried out on a server resource pool added into a private cloud platform through server virtualization, storage virtualization and network virtualization software, and a management module is connected with a server, so that the server carries out real-time information management;

(3) the method comprises the steps that physical resources are virtualized through a basic framework to obtain virtualized resources, a monitoring module and an operation and maintenance module are connected in a framework system, the method can be used for monitoring the operation condition of a campus network, storing and updating campus network operation and maintenance knowledge in real time, and providing a corresponding fault processing scheme;

(4) the management platform layer configures required virtualized resources according to requirements of students, the business application layer constructs a virtual resource environment, the framework fault information processing system processes the resources, the processing process and the result generate corresponding reports and feed the reports back to the operation and maintenance knowledge base module, and the terminal system is used for operation and maintenance personnel to log in, receive fault processing notifications and inquire fault processing history and related operation and maintenance knowledge.

2. The method as claimed in claim 1, wherein the method further comprises: the management module is used for managing service time, service areas, identity authentication and authority management of operation and maintenance personnel, analyzing and early warning the operation condition of the campus network and generating corresponding fault information.

3. The method as claimed in claim 2, wherein the method further comprises: the campus network cloud management comprises a plurality of functional modules of self-service, visual management and one-key fault location, and is used for improving the management capability of students and teachers on the cloud management platform; the visual management is used for realizing the close application fusion of the cloud infrastructure and the operation and maintenance module and changing the application of the operation and maintenance system into a super-fusion multi-application parallel processing system.

4. The method as claimed in claim 3, wherein the method further comprises: the server device in step 1 comprises the following arrangement: the method comprises the steps of constructing a high-speed local area network in a data center, adopting a dual redundant power supply and a redundant fan design, configuring dual main control board cards and pluggable functional board cards, and configuring pluggable interface modules on the board cards.

5. The method as claimed in claim 4, wherein the method further comprises: the operation and maintenance knowledge base is connected with the storage unit and used for operation and maintenance personnel to quickly inquire the fault information and find out the fault occurrence part, so that the fault can be conveniently and quickly processed, and the normal operation of the operation and maintenance system is ensured.

6. The method as claimed in claim 5, wherein the method further comprises: the inside storage of monitor module has student's identity information, can carry out real time monitoring to the inside corner in campus and open department through a plurality of cameras, and when taking place dangerous situation or accident, the information is quick in the uploading of server internal processing to the terminal to remind fortune dimension personnel through the terminal alarm, can be timely handle trouble and dangerous situation and solve.