CN110991977A - Collaborative scene intelligent monitoring system based on power grid business process - Google Patents

Abstract

The invention relates to the technical field of electric power, and discloses a collaborative scene intelligent monitoring system based on a power grid business process, which comprises a functional system, a monitoring system and a monitoring system, wherein the functional system comprises a monitoring module; the data integration system comprises service data of a data center and SOA message data of a collaborative interaction interface; the monitoring rule matching system has the functions of providing flexible configuration and unified management of the monitoring rules; the collaborative scene flow drawing system supports the creation of a cross-system collaborative service scene; and the monitoring center is used for providing a visual process monitoring result. The invention realizes unified exchange and integrated management of a plurality of data sources, reduces the pressure of repeated extraction on a source system, a network, operation and maintenance and storage when data are analyzed manually, effectively improves the problem processing efficiency, releases manpower, reduces the cost, can configure scenes and bring in monitoring under the condition that the data source access is satisfied, and has strong expandability.

Description

Collaborative scene intelligent monitoring system based on power grid business process

Technical Field

The invention relates to the technical field of electric power, in particular to electronic handover data intelligent monitoring based on cross-system cooperative service scenes such as power grid business expansion, infrastructure construction, technical improvement and repair, district and the like.

Background

In the power grid enterprise-level integrated system collaborative application practical process, various problems often occur in the circulation process of key collaborative business scenes, such as inconsistent collaborative data, incapability of monitoring business collaborative processes and the like, great inconvenience is brought to business department rectification work, deep development of related businesses is hindered, and meanwhile, safe production is influenced;

at present, the collaborative problems are mainly discovered and analyzed by manpower, the efficiency is low, and the problem processing period is long, so that a collaborative scene intelligent monitoring method based on the power grid business process needs to be established, the problems are automatically and quickly discovered, the causes of the problems are positioned, and the process efficiency is improved;

the prior art platform fails to provide an effective automatic monitoring means for monitoring the power grid collaborative business process, and can only passively discover and analyze collaborative problems through operation and maintenance personnel, and meanwhile, the processing efficiency of collaborative data is related to personal experience and work efficiency, so that the overall efficiency is low, the cost is high, the efficient operation of the business process is influenced, and great inconvenience is brought to the data rectification work of a business department.

Disclosure of Invention

The invention aims to provide a collaborative scene intelligent monitoring system based on a power grid business process, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a collaborative scene intelligent monitoring system based on a power grid business process comprises a functional system, a monitoring system and a monitoring system, wherein the functional system comprises;

the data integration system comprises service data of a data center and SOA message data of a collaborative interaction interface;

the monitoring rule matching system has the functions of providing flexible configuration and unified management of monitoring rules, selects rules with equal or unequal configuration attributes of monitoring sources based on the data model, realizes the configuration of various monitoring logics, and automatically generates a monitoring script according to the configured rules;

the collaborative scene flow drawing system supports the creation of a cross-system collaborative business scene and is used for drawing a cross-system business scene flow chart by a business flow related to a power grid, and links and connecting lines of the flow support the configuration of a plurality of monitoring logics;

the monitoring center is used for providing a visual process monitoring result, the overall monitoring logic is that the system takes electronic handover data in a collaborative business scene process as a monitoring main line, obtains a business data source automatically matched with a monitoring rule script, calculates error data in a business process, and finally outputs the monitoring result to be clearly presented in a business process diagram;

and displaying the total amount of error data in a business flow chart link and an interface interaction connection line, checking detailed analysis of a monitoring result through total amount guidance, and presenting a problem corresponding to a plurality of analysis reasons and solutions in the detailed analysis, so that business personnel can conveniently and quickly locate a problem source.

Preferably, the service data of the data center and the SOA message data of the cooperative interaction interface are used for completing two parts of basic data processing, completing data analysis and storage in a warehouse, realizing uniform exchange and integrated management of the service data, and establishing a uniform data model.

Preferably, the monitoring rule matching system supports a custom monitoring script, and a plurality of corresponding problem reason analysis and solution schemes can be configured for each monitoring rule.

Preferably, the monitoring mechanism of the monitoring center periodically updates the problem processing state, and closes the processed data in time, so as to avoid repeated analysis and reduce the workload of service personnel.

The invention provides a collaborative scene intelligent monitoring system based on a power grid business process, which has the beneficial effects that:

1. the system realizes unified exchange and integrated management of a plurality of data sources, and reduces the pressure on a source system, a network, operation and maintenance and storage caused by repeated extraction when data is analyzed manually;

2. the system analyzes and stores SOA messages which are difficult to check, so that data can be conveniently and directly extracted from a database to check and analyze the business scene flow problem;

3. the method provides an effective intelligent monitoring method for the business scene, particularly the display of the monitoring result of the flow chart of the business scene, is convenient for business personnel to clearly master the key problem of the flow link at a glance, and effectively supports the data rectification work of the business personnel;

4. the system automatically analyzes, positions and closes problems, one problem is associated with a plurality of analysis reasons and solutions, the problem source can be quickly positioned, the problems are analyzed and positioned manually, the problem processing efficiency is effectively improved, manpower is released, and the cost is reduced;

5. the system supports flexible configuration of collaborative scenes and business monitoring rules, collaborative business scenes related to the power grid such as business processes of business expansion, capital construction, regional bureaus and the like, and can be configured and monitored as long as data source access is satisfied, so that the expandability is strong.

Drawings

FIG. 1 is a schematic structural diagram of a collaborative scene intelligent monitoring system based on a power grid business process according to the present invention;

FIG. 2 is a schematic diagram of centralized management operation of multiple system service data involved in a collaborative service process of the data integration system according to the present invention;

FIG. 3 is a schematic diagram illustrating operation of a collaborative business scenario monitoring result according to the present invention;

fig. 4 is a schematic diagram illustrating operation of the collaborative scene monitoring detail presentation according to 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. 1-4, the present invention provides a technical solution: a collaborative scene intelligent monitoring system based on a power grid business process comprises a functional system, a monitoring system and a monitoring system, wherein the functional system comprises;

the data integration system comprises service data of a data center and SOA message data of a collaborative interaction interface;

the service data of the data center and SOA message data of the collaborative interaction interface are used for completing two parts of basic data processing, completing data analysis and storage in a warehouse, realizing unified exchange and integrated management of the service data and establishing a unified data model;

the monitoring rule matching system has the functions of providing flexible configuration and unified management of monitoring rules, selects rules with equal or unequal configuration attributes of monitoring sources based on the data model, realizes the configuration of various monitoring logics, and automatically generates a monitoring script according to the configured rules;

the monitoring rule matching system supports a user-defined monitoring script, and can configure a plurality of corresponding problem reason analysis and solution schemes for each monitoring rule;

the collaborative scene flow drawing system supports the creation of a cross-system collaborative business scene and is used for drawing a cross-system business scene flow chart by a business flow related to a power grid, and links and connecting lines of the flow support the configuration of a plurality of monitoring logics;

the monitoring center is used for providing a visual process monitoring result, the overall monitoring logic is that the system takes electronic handover data in a collaborative business scene process as a monitoring main line, obtains a business data source automatically matched with a monitoring rule script, calculates error data in a business process, and finally outputs the monitoring result to be clearly presented in a business process diagram;

displaying the total amount of error data in a business flow chart link and an interface interaction connection line, checking detailed analysis of a monitoring result through total amount guidance, presenting a plurality of analysis reasons and solutions corresponding to a problem in the detail, and facilitating business personnel to quickly position a problem source;

a monitoring mechanism of the monitoring center regularly updates the problem processing state, closes the processed data in time, avoids repeated analysis and reduces the workload of business personnel.

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 (4)

1. A collaborative scene intelligent monitoring system based on a power grid business process is characterized in that: comprises a functional system, the functional system comprises;

the data integration system comprises service data of a data center and SOA message data of a collaborative interaction interface;

the monitoring rule matching system has the functions of providing flexible configuration and unified management of monitoring rules, selects rules with equal or unequal configuration attributes of monitoring sources based on the data model, realizes the configuration of various monitoring logics, and automatically generates a monitoring script according to the configured rules;

the collaborative scene flow drawing system supports the creation of a cross-system collaborative business scene and is used for drawing a cross-system business scene flow chart by a business flow related to a power grid, and links and connecting lines of the flow support the configuration of a plurality of monitoring logics;

the monitoring center is used for providing a visual process monitoring result, the overall monitoring logic is that the system takes electronic handover data in a collaborative business scene process as a monitoring main line, obtains a business data source automatically matched with a monitoring rule script, calculates error data in a business process, and finally outputs the monitoring result to be clearly presented in a business process diagram;

and displaying the total amount of error data in a business flow chart link and an interface interaction connection line, checking detailed analysis of a monitoring result through total amount guidance, and presenting a problem corresponding to a plurality of analysis reasons and solutions in the detailed analysis, so that business personnel can conveniently and quickly locate a problem source.

2. The power grid business process-based collaborative scene intelligent monitoring system according to claim 1, characterized in that: the service data of the data center and SOA message data of the collaborative interaction interface are used for completing two parts of basic data processing, completing data analysis and storage in a warehouse, realizing unified exchange and integrated management of the service data and establishing a unified data model.

3. The power grid business process-based collaborative scene intelligent monitoring system according to claim 1, characterized in that: the monitoring rule matching system supports self-defined monitoring scripts, and can configure corresponding problem reason analysis and solution schemes for each monitoring rule.

4. The power grid business process-based collaborative scene intelligent monitoring system according to claim 1, characterized in that: the monitoring mechanism of the monitoring center regularly updates the problem processing state, closes the processed data in time, avoids repeated analysis and reduces the workload of business personnel.

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