CN117371941A - System, method and computer readable storage medium for managing operation of power supply station - Google Patents

Abstract

The application provides a system, a method and a computer readable storage medium for managing operation of a power supply station, which are applied to the technical field of data processing, wherein the system comprises: the data acquisition module is used for acquiring service design requirements; the service design requirement is a requirement of service design; the index construction module is used for constructing operation monitoring indexes according to the service design requirements; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes; the index monitoring module is used for monitoring the operation data according to the operation monitoring index to obtain a monitoring result; the analysis module is used for generating an analysis report according to the monitoring result; and the decision module is used for generating an operation decision according to the analysis report. Therefore, by constructing operation monitoring indexes corresponding to the service design requirements and generating corresponding analysis reports and operation decisions according to the monitoring results, effective management for operation conditions is realized, and management efficiency is improved.

Description

System, method and computer readable storage medium for managing operation of power supply station

Technical Field

The present application relates to the field of data processing technology, and in particular, to a system, a method, and a computer readable storage medium for managing power supply operations.

Background

The power supply stations are distributed in villages and towns and mainly perform the work of line maintenance service, power outage and transmission service, meter reading, electric charge collection and the like. However, in the prior art, the power supply station is difficult to effectively manage the operation of the power supply station according to the operation condition, and the management efficiency is low. Therefore, how to improve the management efficiency of the power supply station is a technical problem to be solved at present.

Disclosure of Invention

In view of the foregoing, an object of the present invention is to provide a system, a method, and a computer readable storage medium for managing operation of a power supply station, so as to implement effective management of the power supply station, and improve management efficiency, where the specific scheme is as follows:

in a first aspect, embodiments of the present application disclose a system for managing power substation operations, the system comprising:

the data acquisition module is used for acquiring service design requirements; the service design requirement is a requirement of service design;

the index construction module is used for constructing operation monitoring indexes according to the service design requirements; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes;

the index monitoring module is used for monitoring the operation data according to the operation monitoring index to obtain a monitoring result;

the analysis module is used for generating an analysis report according to the monitoring result;

and the decision module is used for generating an operation decision according to the analysis report.

Optionally, the system further comprises: a feedback module;

the feedback module is used for executing the operation decision and acquiring a feedback result corresponding to the operation decision;

and the decision module is also used for optimizing the operation decision according to the feedback result.

Optionally, the system further comprises:

and the display module is used for displaying the feedback result.

Optionally, the monitoring result includes an index that does not reach the standard, and the analysis module is specifically configured to:

determining the occurrence reason, influence factors, risks and future trends of the problems according to the indexes which are not up to standard;

and generating an analysis report according to the problem occurrence reason, the influence factors, the risk and the future trend.

Optionally, the decision module is specifically configured to:

determining business responsibility and coordination responsibility of the indexes which do not reach the standard according to the monitoring result and the analysis report;

and generating the operation decision according to the business responsibility and the coordination responsibility.

In a second aspect, embodiments of the present application disclose a method of managing power substation operations, the method comprising:

acquiring service design requirements; the service design requirement is a requirement of service design;

constructing operation monitoring indexes according to the service design requirements; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes;

monitoring operation data according to the operation monitoring index to obtain a monitoring result;

generating an analysis report according to the monitoring result;

and generating an operation decision according to the analysis report.

Optionally, the method further comprises:

executing the operation decision and acquiring a feedback result corresponding to the operation decision;

and optimizing the operation decision according to the feedback result.

Optionally, the monitoring result includes an index that does not reach the standard, and the generating an analysis report according to the monitoring result includes:

determining the occurrence reason, influence factors, risks and future trends of the problems according to the indexes which are not up to standard;

and generating an analysis report according to the problem occurrence reason, the influence factors, the risk and the future trend.

Optionally, the generating an operation decision according to the analysis report includes:

determining business responsibility and coordination responsibility of the indexes which do not reach the standard according to the monitoring result and the analysis report;

and generating the operation decision according to the business responsibility and the coordination responsibility.

In a third aspect, embodiments of the present application disclose a computer readable storage medium having a computer program stored thereon, wherein the computer program when executed by a processor implements any of the methods of managing power supply operations described above.

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

the method comprises the steps of obtaining service design requirements by adopting a data obtaining module, constructing operation monitoring indexes according to the service design requirements by utilizing an index constructing module, obtaining operation monitoring indexes comprising comprehensive plan indexes, thematic service indexes and service operation indexes, and then monitoring operation data according to the operation monitoring indexes based on the index monitoring module to obtain monitoring results. And generating an analysis report according to the monitoring result by an analysis module, and generating an operation decision according to the analysis report by a decision module. The operation monitoring index is constructed according to the service design requirement, so that the operation monitoring index is more in line with the actual service requirement, the actual state of the service can be accurately reflected through the monitoring result, and effective data support is provided for analysis reports and operation decisions, so that the accuracy of the analysis reports and the operation decisions is improved, the construction of an on-line management system of a power supply station is completed, the effective management of the operation condition of the power supply station is realized, and the management efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present application, and that other drawings may be obtained according to the provided drawings without inventive effort to a person skilled in the art.

Fig. 1 is a schematic structural diagram of a system for managing operation of a power supply station according to an embodiment of the present application;

fig. 2 is a flow chart of a method for managing operation of a power supply station according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The terms "comprises" and "comprising," along with any variations thereof, in the description and claims of the present application and in the foregoing figures, are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus, but may include other steps or elements not expressly listed.

Analysis of the prior art shows that since the power supply station in the prior art operates according to the traditional mode, the daily office management is mainly performed in an off-line manual mode, so that an effective management decision cannot be generated according to the operation condition, and the management efficiency of the power supply station is low. In view of the foregoing, embodiments of the present application provide a system, a method, and a computer-readable storage medium for managing power supply operations, including the following.

As shown in fig. 1, an embodiment of the present application provides a system for managing operation of a power supply station, the system including:

a data acquisition module 101, configured to acquire a service design requirement; the business design requirements are those of business design.

Before the operation monitoring index is constructed, the full service chain of the power supply station is embodied in a digital form, so that the digitization of service data, management data and resource data is realized. Carrying out service design aiming at service functions required to be contained in power supply, wherein the service design specifically comprises the following steps: digital signage, worksheet management, active services, business management, operational management, and business support. The requirements to be met by each business design are realized, and the requirements of a digital billboard, a work management requirement, an active service requirement, a business management requirement, an operation management requirement and a business support requirement are obtained as business design requirements.

The active service is a business service which is required to be actively executed by the statistical power supply and comprises two major types of on-drawing operation and field service. The field service is a business service requiring to arrive at the field operation, such as one-key repair, field collection, registration and compensation, arrearage and payment, file maintenance, householder authentication, proxy electricity purchase service, service demand acceptance, multi-population information maintenance and other business functions. The map operation is business service which needs to be completed in combination with the map assistance, and the map displays information such as grid boundaries, grid members, geographic position basic information and the like in the business area range of the power supply station. The geographical location basic information includes geographical location information such as administrative areas, building locations, building names, etc. By combining business services with the map, the method supports quick positioning of work order loading personnel and navigation of work order processing paths. The daily field operation of the power supply station is developed by taking the responsibility area of the basic service grid as a range through a distribution diagram and other modes, and the field operation visualization is realized. The active service requirement corresponding to the active service is the requirement related to the active service, such as the processing condition of the active service, for acquiring the active service data, so as to reflect the actual execution condition of the active service.

And the business management is used for managing internal matters of the power supply station, such as attendance management, integral incentive, public announcement, power supply station evaluation, grid evaluation, manager evaluation, employee evaluation and the like. The grid evaluation is specifically to count the equipment operation and staff work conditions in the area covered by the grid, and evaluate the dimensions of the grid such as marketing service quality, execution response speed, index management capability and the like. To enhance the overall working capacity of the grid and optimize the personnel structure by ranking the targets. The corresponding business management requirement is to acquire personnel assessment data in the power supply station, public information and other requirements related to the business management, so as to optimize and redistribute personnel and publish the public information, and improve the internal management efficiency.

The operation management comprises functions of system management, resource association and the like so as to realize application support on an operation platform of the power supply station. The operation management requirement corresponding to the operation management is a requirement related to the operation management, such as acquiring system data, resource data, and the like, so as to maintain the system and the resource.

The service support comprises an index monitoring function, a vehicle monitoring function, a data analysis function and a knowledge sharing function, so that after the index is determined subsequently, the index can be monitored through the service support. For example, all indexes are monitored, and the overall profile is displayed, including index information such as grid number, electricity consumption, line length, user number, electricity fee, fee control, inspection, customer service and the like. The service support requirements corresponding to the service support are requirements related to the service support, such as knowing the index monitoring condition.

The digital signage is used for displaying the generated data in the operation process of the power supply station, so that the data, management and assessment are transparent. The data displayed by the digital signage comprise panoramic view data, multidimensional portrait data, anomaly early warning data and village characteristic analysis data. The panoramic view data is multi-dimensional and multi-level display of professional service data in a power distribution network platform, a power grid center and an electric quantity system, and the display form can be a column diagram, a sector diagram, a line diagram and the like. The digital signage requirements corresponding to the digital signage are requirements related to the digital signage, such as acquisition of display data and display forms.

The multidimensional image data are multidimensional image data of actual work in different jurisdictions, so that the development condition of business such as marketing, operation and inspection in the jurisdiction is known through the multidimensional image data. The multidimensional image data may include, for example, employee image data, site image data, and customer image data. The staff portrait data comprises staff basic information, electric charge recovery, 95598 worksheets, business expansion and installation and metering collection. The platform region portrait data comprises platform region line loss conditions, platform region operation conditions, distributed photovoltaic information, fault rush repair and the like. The business condition intelligent analysis in the managed area is assisted by the multi-dimensional portrait, so that the business is fully controlled and the state is fully perceived.

The abnormal early warning data comprise low-voltage abnormal early warning information, distribution transformer overload abnormal early warning, distribution transformer unbalance early warning, distribution frequency conversion stopping early warning, district negative loss abnormal early warning, district high loss abnormal early warning, acquisition abnormal early warning, electricity utilization abnormal early warning, distributed power supply abnormal early warning, anti-electricity-stealing abnormal early warning, clock abnormal early warning, parameter abnormal early warning, district topology abnormal early warning, metering appliance operation error early warning and the like. Therefore, by designing an abnormality early warning function, the management platform is convenient to perform abnormality processing and work order dispatch.

The rural characteristic analysis comprises analysis of the power index, photovoltaic power generation and power supply capacity of the rural, and the characteristics of rural power utilization are displayed from multiple angles.

The work order management is used for summarizing various business work orders, such as business charge, business expansion and reporting, line loss management, metering operation and maintenance, anti-theft check, marketing inspection, customer service, equipment inspection, fault repair and the like, so that the centralized display of the work order state is realized. The job management requirements corresponding to the job management are requirements related to the job management such as the processing conditions and feedback conditions of various kinds of service job lists, so as to embody the actual processing conditions and distribution conditions of the job lists.

The work order management specifically comprises a work order center, an intelligent work order, task management and auxiliary processing.

And the task management is used for distributing work orders for business personnel in the forms of automatic order dispatching, automatic order robbing and the like. The work order center is used for uniformly calling or distributing the work orders and providing the functions of work order overview, graphical display, work order evaluation and the like for operators. And the auxiliary processing is used for displaying the work order overview, carrying out work order reminding and work order confirmation to the management platform and operators.

The intelligent work order is used for mining the data value of the work order and comprises fusion sorting, intelligent filling and intelligent transfer. The fusion sub-management comprises the steps of fusing the backfill requirements of the multi-system worksheets, establishing worksheet fusion judging rules, filtering, and integrating the same-platform area, same-type and same-property service worksheets. For a typical business scenario, a standardized job ticket is generated. The intelligent filling comprises the steps of flexibly filling standardized operation worksheets according to the service needs aiming at typical service scenes, and realizing automatic carrying-in of the same type of service information, so that the same-platform area, the same type and the same-property service worksheets can be input once, and data multiplexing can be realized. The intelligent circulation comprises the step of automatically pushing the work order circulation of the original business system after the work order processing is completed, so that repeated operation is reduced.

The index construction module 102 is configured to construct an operation monitoring index according to a service design requirement; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes.

And determining the monitoring requirement which needs to be met by each service in the execution process according to the service design requirement. For example, when the service is a personnel assessment, the monitoring requirement to be met when the personnel assessment is performed is personnel information related to the working content, such as monitoring personnel working time, customer satisfaction degree of personnel, personnel working efficiency and the like. Screening, mixing and reclustering the monitoring requirements which are required to be met by each service in the execution process, and constructing an operation monitoring index comprising a comprehensive plan index, a thematic service index and a service operation index. Therefore, indexes to be monitored are screened from service design requirements, and monitoring of key service operation and comprehensive monitoring of power supply station data are achieved.

The comprehensive planning indexes comprise panoramic indexes, equipment operation indexes and online operation indexes.

The panoramic index is an index for monitoring panoramic data of the power supply station and mainly comprises an overall condition index of the power supply station, a target information index, a personnel information index and the like. The equipment operation index is an index required to be used when the operation condition of the equipment is monitored, such as an electricity consumption information acquisition index, a low voltage index, an overload rate index, three unbalanced indexes and the like. The online operation index is a real-time monitoring index for the field operation condition, the personnel position and the activity track, so as to provide data support for the targets of optimizing the field operation, daily transportation, improving the working efficiency and the like.

The special service index is an index for monitoring the execution condition of the service work orders such as business charge, business expansion report, line loss management and the like and the dispatch condition of the work orders, so that a manager is reminded of timely dispatching the service work orders and technicians timely executing the service work orders through monitoring the service work orders, and the service work orders are prevented from exceeding the period.

The service operation index is an index related to the service operation condition, and comprises a service expansion index, an electric charge index, a service index and a station line loss index. Wherein, the business expansion index, the electric charge index, the district line loss index belong to the system push business, and the service index belongs to the personalized thematic business.

And the index monitoring module 103 is configured to monitor the operation data according to the operation monitoring index, so as to obtain a monitoring result.

And acquiring operation data of the power supply station, wherein the operation data comprises structured data and unstructured data. The structured data is data having a fixed structure, and the unstructured data is data not having a fixed structure. The structured data includes data interaction data, work order data, employee data, performance data, message data, and operational support data. Unstructured data includes worksheet attachments, public announcement attachments, message attachments, and data interaction attachments, among others.

And monitoring the operation data according to the operation monitoring indexes to obtain monitoring results corresponding to the operation data, wherein the monitoring results comprise indexes which are not up to standard and indexes which are up to standard. It should be noted that, the monitoring result may be generated in real time according to the current operation data, or may be set to a preset duration, and after the preset duration is reached, the monitoring result is generated according to the operation data in the preset duration.

And the analysis module 104 is used for generating an analysis report according to the monitoring result.

And carrying out comprehensive analysis and thematic analysis on the monitoring result to obtain a comprehensive analysis result and a thematic analysis result. And combining the comprehensive analysis result and the thematic analysis result to generate an analysis report, thereby providing decision basis for improving the operation level and the management level.

In an alternative embodiment, the analysis module 104 is specifically configured to:

determining the occurrence reason, influence factors, risks and future trends of the problems according to the indexes which are not up to standard;

and generating an analysis report according to the problem occurrence reasons, influence factors, risks and future trends.

And comprehensively analyzing and thematically analyzing the monitoring result, determining the occurrence reasons, influence factors, risks and future trends of the problems which do not reach the standard, and combining the determined occurrence reasons, influence factors, risks and future trends of the problems to obtain an analysis report.

A decision module 105 for generating an operational decision from the analysis report.

Operational decisions for the analysis report are generated from the analysis report to account for discrepancies in operational management through the operational decisions.

In an alternative embodiment, the decision module 105 is specifically configured to:

determining business responsibility and coordination responsibility of indexes which do not reach standards according to the monitoring result and the analysis report;

and generating an operation decision according to the business responsibility and the coordination responsibility.

And combining the current monitoring result with the analysis report, carding operation detection service, and determining service responsibility and coordination responsibility of the current service problem. And constructing a cooperative control mechanism according to the business responsibility and the coordination responsibility, thereby realizing the transverse cooperation of the business. If the power supply line is damaged, and the materials are not prepared uniformly and cannot be repaired in time, the business responsibility is a department A responsible for providing the materials, the coordination responsibility is a department B responsible for maintaining, and a coordination control mechanism is constructed for the department A and the department B, so that a coordination work order can be generated in time when the power supply line is damaged again later, and the department A and the department B can be coordinated to work normally through evaluating and checking forms.

In an alternative embodiment, the system further comprises: a feedback module;

the feedback module is used for executing the operation decision and acquiring a feedback result corresponding to the operation decision;

and the decision module is also used for optimizing the operation decision according to the feedback result.

Executing the generated operation decision, receiving a feedback result of the operation decision after executing the operation decision, and if the feedback result is different from the expected result, further optimizing the operation decision until the feedback result of the operation decision after optimizing is the same as the expected result or better than the expected result.

In an alternative embodiment, the system further comprises:

and the display module is used for displaying the feedback result.

After receiving the feedback result, the feedback result is displayed in a display screen, so that the feedback result is more visual.

The method comprises the steps of obtaining service design requirements by adopting a data obtaining module, constructing operation monitoring indexes according to the service design requirements by utilizing an index constructing module, obtaining operation monitoring indexes comprising comprehensive plan indexes, thematic service indexes and service operation indexes, and then monitoring operation data according to the operation monitoring indexes based on the index monitoring module to obtain monitoring results. And generating an analysis report according to the monitoring result by an analysis module, and generating an operation decision according to the analysis report by a decision module. Therefore, an on-line management system of the power supply station is built, and the operation monitoring index is an index built according to the service design requirement, so that the operation monitoring index is more in line with the actual service requirement, the actual state of the service can be accurately reflected through the monitoring result, effective data support is provided for analysis reports and operation decisions, the accuracy of the analysis reports and the operation decisions is improved, and effective management of the operation condition of the power supply station is realized.

As shown in fig. 2, an embodiment of the present application provides a method for managing operation of a power supply station, where the method includes:

s201: acquiring service design requirements; the business design requirements are those of business design.

S202: constructing operation monitoring indexes according to service design requirements; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes.

S203: and monitoring the operation data according to the operation monitoring index to obtain a monitoring result.

S204: and generating an analysis report according to the monitoring result.

In an alternative embodiment, the monitoring result includes a non-compliance indicator, and generating an analysis report based on the monitoring result includes:

determining the occurrence reason, influence factors, risks and future trends of the problems according to the indexes which are not up to standard;

and generating an analysis report according to the problem occurrence reasons, influence factors, risks and future trends.

S205: and generating an operation decision according to the analysis report.

In an alternative embodiment, generating an operational decision from an analysis report includes:

determining business responsibility and coordination responsibility of indexes which do not reach standards according to the monitoring result and the analysis report;

and generating an operation decision according to the business responsibility and the coordination responsibility.

In an alternative embodiment, the method further comprises:

executing the operation decision, and acquiring a feedback result corresponding to the operation decision;

and optimizing the operation decision according to the feedback result.

In an alternative embodiment, the method further comprises: and displaying a feedback result.

The method comprises the steps of obtaining service design requirements by adopting a data obtaining module, constructing operation monitoring indexes according to the service design requirements by utilizing an index constructing module, obtaining operation monitoring indexes comprising comprehensive plan indexes, thematic service indexes and service operation indexes, and then monitoring operation data according to the operation monitoring indexes based on the index monitoring module to obtain monitoring results. And generating an analysis report according to the monitoring result by an analysis module, and generating an operation decision according to the analysis report by a decision module. Therefore, an on-line management system of the power supply station is built, and the operation monitoring index is an index built according to the service design requirement, so that the operation monitoring index is more in line with the actual service requirement, the actual state of the service can be accurately reflected through the monitoring result, effective data support is provided for analysis reports and operation decisions, the accuracy of the analysis reports and the operation decisions is improved, and effective management of the operation condition of the power supply station is realized.

The embodiment of the application also provides a computer readable storage medium, on which a computer program is stored, wherein the computer program is executed by a processor to implement any one of the methods for managing power supply operation.

It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises an element.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (10)

1. A system for managing power plant operations, the system comprising:

the data acquisition module is used for acquiring service design requirements; the service design requirement is a requirement of service design;

the index construction module is used for constructing operation monitoring indexes according to the service design requirements; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes;

the index monitoring module is used for monitoring the operation data according to the operation monitoring index to obtain a monitoring result;

the analysis module is used for generating an analysis report according to the monitoring result;

and the decision module is used for generating an operation decision according to the analysis report.

2. The system of claim 1, wherein the system further comprises: a feedback module;

the feedback module is used for executing the operation decision and acquiring a feedback result corresponding to the operation decision;

and the decision module is also used for optimizing the operation decision according to the feedback result.

3. The system of claim 2, wherein the system further comprises:

and the display module is used for displaying the feedback result.

4. The system of claim 1, wherein the monitoring result includes a non-compliance indicator, and wherein the analysis module is specifically configured to:

determining the occurrence reason, influence factors, risks and future trends of the problems according to the indexes which are not up to standard;

and generating an analysis report according to the problem occurrence reason, the influence factors, the risk and the future trend.

5. The system of claim 4, wherein the decision module is specifically configured to:

determining business responsibility and coordination responsibility of the indexes which do not reach the standard according to the monitoring result and the analysis report;

and generating the operation decision according to the business responsibility and the coordination responsibility.

6. A method of managing power plant operations, the method comprising:

acquiring service design requirements; the service design requirement is a requirement of service design;

constructing operation monitoring indexes according to the service design requirements; the operation monitoring indexes comprise comprehensive plan indexes, thematic service indexes and service operation indexes;

monitoring operation data according to the operation monitoring index to obtain a monitoring result;

generating an analysis report according to the monitoring result;

and generating an operation decision according to the analysis report.

7. The method of claim 6, wherein the method further comprises:

executing the operation decision and acquiring a feedback result corresponding to the operation decision;

and optimizing the operation decision according to the feedback result.

8. The method of claim 6, wherein the monitoring result includes a non-compliance indicator, and wherein generating an analysis report based on the monitoring result comprises:

determining the occurrence reason, influence factors, risks and future trends of the problems according to the indexes which are not up to standard;

and generating an analysis report according to the problem occurrence reason, the influence factors, the risk and the future trend.

9. The method of claim 8, wherein the generating an operational decision from the analysis report comprises:

determining business responsibility and coordination responsibility of the indexes which do not reach the standard according to the monitoring result and the analysis report;

and generating the operation decision according to the business responsibility and the coordination responsibility.

10. A computer-readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements a method of managing power operations according to any one of claims 6 to 9.