CN118040886A - Intelligent management method and system for energy efficiency, electronic equipment and storage medium - Google Patents

Abstract

The application relates to the field of energy efficiency management, in particular to an intelligent energy efficiency management method, an intelligent energy efficiency management system, electronic equipment and a storage medium, wherein the method comprises the following steps: monitoring the energy efficiency consumption of each device in the plurality of devices at the current moment; if the difference value between the energy efficiency consumption amount and the standard energy efficiency consumption amount of the first equipment is larger than a preset difference value threshold, acquiring the working process of the first equipment, wherein the first equipment is any one of the plurality of equipment; acquiring a first energy efficiency consumption corresponding to a working process based on the working process of the first equipment; and adjusting the working process of the first device based on the first energy efficiency consumption amount to enable the difference value between the energy efficiency consumption amount of the first device and the standard energy efficiency consumption amount to be smaller than the preset difference value threshold. The application has the effect of optimizing energy efficiency distribution.

Description

Intelligent management method and system for energy efficiency, electronic equipment and storage medium

Technical Field

The present application relates to the field of energy efficiency management, and in particular, to an energy efficiency intelligent management method, system, electronic device, and storage medium.

Background

Along with the popularization and use of electric equipment, the demand for electric power is increased, the waste of energy efficiency resources is increased, and the energy efficiency cannot be managed more carefully by the current energy efficiency management system.

Accordingly, based on the above-mentioned problems, the prior art has yet to be improved.

Disclosure of Invention

The application provides an intelligent management method, an intelligent management system, electronic equipment and a storage medium for energy efficiency, which can optimize energy efficiency distribution.

The application discloses an intelligent management method of energy efficiency, which comprises the following steps:

monitoring the energy efficiency consumption of each device in the plurality of devices at the current moment;

If the difference value between the energy efficiency consumption amount and the standard energy efficiency consumption amount of the first equipment is larger than a preset difference value threshold, acquiring the working process of the first equipment, wherein the first equipment is any one of the plurality of equipment;

acquiring a first energy efficiency consumption corresponding to a working process based on the working process of the first equipment;

And adjusting the working process of the first device based on the first energy efficiency consumption amount to enable the difference value between the energy efficiency consumption amount of the first device and the standard energy efficiency consumption amount to be smaller than the preset difference value threshold.

By adopting the technical scheme, the energy efficiency consumption of each device in the plurality of devices at the current moment is monitored, if one device in the plurality of devices, namely the energy efficiency consumption of the first device is compared with the standard energy efficiency consumption corresponding to the first device, if the difference value between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than the preset difference value threshold, the current energy efficiency consumption of the first device is indicated to be in an abnormal condition, and the energy efficiency consumption of the first device needs to be further controlled according to the first energy efficiency consumption of the working process of the first device, so that the difference value between the energy efficiency consumption of the first device and the standard energy efficiency consumption is smaller than the preset difference value threshold, the energy efficiency of the device is conveniently monitored, the effective distribution of the energy efficiency is realized, and the waste of the energy efficiency is avoided.

Optionally, the method includes:

acquiring a first equipment combination with an association relationship in the plurality of equipment;

if the second equipment which is not started exists in the first equipment combination, self-checking information is sent to the second equipment, so that the second equipment performs self-checking and feeds back the self-checking information;

Determining the non-starting reason of the second equipment according to the self-checking information;

outputting the non-starting reason to prompt a user to overhaul the second equipment.

By adopting the scheme, for the equipment with linkage relation, a first equipment combination is acquired, if the first equipment is started but the second equipment associated with the first equipment is not started in the first equipment combination, self-checking information is sent to the second equipment which is not started, the second equipment is reminded of abnormal conditions, after the second equipment is self-checked, the self-checking information is fed back, then the reason that the second equipment is not started is further determined according to the self-checking information fed back by the second equipment, the reason that the second equipment is not started is output, and a user is prompted to overhaul the second equipment, so that the faults of the equipment can be found in time, and energy efficiency waste is avoided.

Optionally, the method includes:

Acquiring the priority of each device in the plurality of devices;

And sequentially reducing energy efficiency supply of the lowest-priority device in the plurality of devices under the condition that the lowest power consumption requirement is met according to the priority from low to high.

Through adopting above-mentioned scheme, to a plurality of equipment of monitoring, divide the priority according to the importance degree of equipment, if the difference of the energy efficiency consumption of equipment and standard energy efficiency consumption is greater than and presets the difference threshold value, then demonstrate that the energy efficiency consumption of equipment appears unusual, then according to the priority of equipment, according to minimum to the highest order, under the circumstances of satisfying the minimum power consumption demand of equipment, reduce the energy efficiency supply of the lower equipment of priority in proper order to intelligent distribution energy efficiency is convenient, the effective rate of utilization of energy efficiency is improved.

Optionally, the step of adjusting the working process of the first device based on the first energy consumption amount to make a difference between the energy consumption amount of the first device and the standard energy consumption amount smaller than the preset difference threshold value includes:

If a second equipment combination with the similarity degree of the working processes reaching a preset similarity threshold exists in the plurality of equipment, acquiring the total energy consumption corresponding to the second equipment combination;

comparing the total energy consumption with a total energy consumption standard;

if the total energy consumption is larger than the total energy consumption standard consumption, sorting the energy consumption of each device in the second device combination to obtain a sorting result;

And adjusting the energy efficiency consumption of each device in the second device combination based on the sequencing result.

By adopting the scheme, for the monitored equipment, the working processes of the equipment are firstly obtained, whether the working processes are similar or not is analyzed, for the equipment with similar working processes, namely the second equipment combination, the energy efficiency consumption difference is not excessively large, so that the second equipment combination is monitored in a centralized manner, the condition only needs to monitor the total energy efficiency consumption of the second equipment combination, if the total energy efficiency consumption of the second equipment combination is larger than the total energy efficiency standard consumption corresponding to the second equipment combination, the energy efficiency consumption of each equipment in the second equipment combination is ranked, a ranking result is obtained, then the energy efficiency consumption of each equipment in the second equipment combination is adjusted based on the ranking result, so that the total energy efficiency consumption of the second equipment combination is smaller than the total energy efficiency standard consumption corresponding to the second equipment combination, resources are saved, and when the energy efficiency consumption of the equipment is excessively high, the energy efficiency supply is properly adjusted, so that the energy efficiency utilization rate is increased.

Optionally, the step of adjusting the working process of the first device based on the first energy consumption amount to make a difference between the energy consumption amount of the first device and the standard energy consumption amount smaller than the preset difference threshold value includes:

Judging whether a target working process with energy efficiency consumption larger than a first preset threshold exists in the plurality of devices or not;

the emergency degree of each sub-process in the target working process is obtained;

Judging whether each sub-process has a target sub-process with the emergency degree lower than a preset emergency degree threshold according to the emergency degree of each sub-process;

and if the target subprocess with the emergency degree lower than a preset emergency degree threshold exists in the subprocesses, deferring the running time of the target subprocess.

By adopting the scheme, when the total energy efficiency consumption of the plurality of devices is larger than the total energy efficiency standard consumption, judging whether a target working process with the energy efficiency consumption larger than a first preset threshold exists in the plurality of devices, if the target working process with the energy efficiency consumption larger than the first preset threshold exists, acquiring the emergency degree of each sub-process of the target working process with the energy efficiency consumption larger than the first preset threshold, judging whether the target sub-process with the emergency degree lower than the preset emergency degree threshold exists in each sub-process according to the emergency degree of each sub-process, and if the target sub-process with the emergency degree lower than the preset emergency degree threshold exists in each sub-process, delaying the time period with the running time of the target sub-process lower than the total energy efficiency consumption of the plurality of devices so as to ensure the energy efficiency requirement of an emergency task.

Optionally, the method further comprises:

Acquiring the use habit of a user based on all working processes of the first equipment;

And correspondingly adjusting the energy efficiency supply of the first equipment based on the using habit of the user.

By adopting the scheme, for the first equipment, all working processes of the first equipment are prioritized according to the importance degree or the use habit of a user is obtained, and when the energy efficiency consumption of the first equipment is abnormal, the energy efficiency supply of the first equipment is adjusted according to the importance degree priority of the working processes or the use habit of the user so as to improve the effective utilization rate of the energy efficiency.

Optionally, if the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than a preset difference threshold, the working process of the first device is obtained, and before the step of the first device being any one of the devices, the method further includes:

and if the first equipment does not have a working process currently, adjusting energy efficiency supply according to the lowest power consumption of the first equipment.

By adopting the scheme, when the first equipment does not have a working process currently, energy efficiency is supplied to the first equipment according to the lowest power consumption of the first equipment capable of maintaining operation, so that energy efficiency is saved.

In another aspect of the present application, an energy efficiency intelligent management system is disclosed, wherein the system comprises:

The monitoring module is used for monitoring the energy efficiency consumption of each device in the plurality of devices at the current moment;

The working process acquisition module is used for acquiring the working process of the first equipment if the difference value between the energy efficiency consumption amount of the first equipment and the standard energy efficiency consumption amount is larger than a preset difference value threshold value, wherein the first equipment is any one of the plurality of equipment;

The energy efficiency consumption acquisition module is used for acquiring a first energy efficiency consumption corresponding to a working process based on the working process of the first equipment;

And the adjusting module is used for adjusting the working process of the first equipment based on the first energy efficiency consumption amount, so that the difference value between the energy efficiency consumption amount of the first equipment and the standard energy efficiency consumption amount is smaller than the preset difference value threshold.

By adopting the technical scheme, the energy efficiency consumption of each device in the plurality of devices at the current moment is monitored, if one device in the plurality of devices, namely the energy efficiency consumption of the first device is compared with the standard energy efficiency consumption corresponding to the first device, if the difference value between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than the preset difference value threshold, the current energy efficiency consumption of the first device is indicated to be in an abnormal condition, and the energy efficiency consumption of the first device needs to be further controlled according to the first energy efficiency consumption of the working process of the first device, so that the difference value between the energy efficiency consumption of the first device and the standard energy efficiency consumption is smaller than the preset difference value threshold, the energy efficiency of the device is conveniently monitored, the effective distribution of the energy efficiency is realized, and the waste of the energy efficiency is avoided.

In another aspect of the application, an electronic device is disclosed that includes a memory and a processor, the memory storing a computer program capable of being loaded by the processor and executing the intelligent management method of energy efficiency as described above.

In another aspect of the present application, a storage medium is disclosed in which a computer program capable of being loaded by a processor and executing the intelligent management method of energy efficiency as described above is stored.

In summary, the present application includes at least one of the following beneficial technical effects:

1. Monitoring the energy efficiency consumption of each device in the plurality of devices at the current moment, if one device in the plurality of devices, namely comparing the energy efficiency consumption of the first device with the standard energy efficiency consumption corresponding to the first device, if the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than a preset difference threshold, indicating that the current energy efficiency consumption of the first device is in an abnormal condition, and further controlling the energy efficiency consumption of the first device according to the first energy efficiency consumption of the working process of the first device, so that the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is smaller than the preset difference threshold, thereby facilitating the monitoring of the energy efficiency of the device, realizing the effective distribution of the energy efficiency and avoiding the waste of the energy efficiency;

2. For equipment with linkage relation, acquiring a first equipment combination, wherein in the first equipment combination, if the first equipment is started but a second equipment related to the first equipment is not started, self-checking information is sent to the second equipment which is not started, the second equipment is reminded of being in an abnormal condition, after the second equipment is self-checked, the self-checking information is fed back, the reason for the non-starting of the second equipment is further determined according to the self-checking information fed back by the second equipment, the non-starting reason is output, and a user is prompted to overhaul the second equipment, so that the faults of the equipment can be found in time, and energy efficiency waste is avoided;

3. For the monitored equipment, firstly, acquiring the working processes of the equipment, analyzing whether the working processes are similar, for the equipment with similar working processes, namely, the second equipment combination, the energy efficiency consumption difference should not be too large, so that the second equipment combination is monitored in a centralized way, the condition only needs to monitor the total energy efficiency consumption of the second equipment combination, if the total energy efficiency consumption of the second equipment combination is larger than the total energy efficiency standard consumption corresponding to the second equipment combination, the energy efficiency consumption of each equipment in the second equipment combination is ordered, an ordering result is obtained, then, the energy efficiency consumption of each equipment in the second equipment combination is adjusted based on the ordering result, the total energy efficiency consumption of the second equipment combination is smaller than the total energy efficiency standard consumption corresponding to the second equipment combination, so that resources are saved, and when the energy efficiency consumption of the equipment is too high, the energy efficiency supply is properly adjusted, so that the energy efficiency utilization rate is increased.

Drawings

FIG. 1 is a flow chart of steps of an intelligent management method of energy efficiency of the present application;

FIG. 2 is a system block diagram of an energy efficient intelligent management system of the present application.

Detailed Description

The following embodiments will assist those skilled in the art in further understanding the function of the present application, but do not limit the application in any way. It should be noted that variations and modifications could be made by those skilled in the art without departing from the inventive concept. These are all within the scope of the present application.

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, techniques, etc., in order to provide a thorough understanding of the embodiments of the present application. It will be apparent, however, to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, techniques, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

The present application will be described in further detail with reference to the accompanying drawings.

The embodiment of the application discloses an intelligent management method of energy efficiency, and referring to fig. 1, fig. 1 is a step flow chart of the intelligent management method of energy efficiency, specifically comprising the following steps:

Step S1, monitoring energy efficiency consumption devices at the current moment of each device in a plurality of devices.

In the embodiment of the application, to detect the energy consumption of each device in the plurality of devices, the energy consumption of the device and the consumption of network flow can be referred to, in order to reduce the energy consumption, realize efficient and energy-saving energy consumption management, the energy consumption of the device needs to be monitored in real time, and when the energy consumption of the device suddenly increases greatly, the reason that the energy consumption increases greatly needs to be known, so that corresponding measures are taken to adjust the energy consumption of the device.

In some possible embodiments of the present application, to obtain the energy consumption of the device, a metering device needs to be installed on the device, and for the consumption of electric quantity, an ammeter or other electric power metering device needs to be installed to measure the electric power consumption of the device; for network traffic consumption, a network monitoring device or software is required to be installed to measure the network traffic usage of the device; periodically collecting data of the metering equipment for analyzing the energy consumption and the network flow consumption of the equipment; a data collection and analysis system may also be constructed for collecting data from each energy consumption detection device, analyzing the data, and generating an energy efficiency report.

Step S2, if the difference value between the energy efficiency consumption amount of the first device and the standard energy efficiency consumption amount is larger than a preset difference value threshold, the working process of the first device is obtained, and the first device is any one device of the plurality of devices.

In the embodiment of the application, for each device in a plurality of devices, firstly, setting standard energy efficiency consumption based on the device based on the parameters of the device, and setting a difference threshold between the energy efficiency consumption and the standard energy efficiency consumption of each single device, namely the first device, according to low power consumption or fluctuation of the historical energy efficiency consumption of the device.

In some possible embodiments of the present application, to obtain a working process of a device, it is generally necessary to use specific tools or commands, depending on the operating system and type of the device, in most operating systems, command line tools, such as a task manager of Windows, top or ps commands of Linux, etc., may be used to view the running process, and these tools may provide detailed information about the process, such as process ID, CPU usage, memory occupancy, etc.; the system monitoring tool can also be used to monitor the running state of the system in real time, including running processes, resource usage, etc.

And step S3, based on the working process of the first equipment, acquiring a first energy efficiency consumption corresponding to the working process.

In the embodiment of the application, when the difference between the current energy efficiency consumption and the standard energy efficiency consumption of the first device reaches the preset energy efficiency consumption difference threshold, the energy efficiency consumption of the working process of the first device is obtained, and whether the working process of the device has abnormal conditions or not is judged, for example, some unnecessary processes with serious energy efficiency consumption are started, and at the moment, the processes can be selected to be closed.

And step S4, based on the first energy efficiency consumption, adjusting the working process of the first equipment to enable the difference value between the energy efficiency consumption of the first equipment and the standard energy efficiency consumption to be smaller than the preset difference value threshold.

In the embodiment of the application, if the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than the preset difference threshold, the working process of the first device is acquired, the first energy efficiency consumption corresponding to the working process of the first device is also acquired, and then the working process is adjusted based on the working process and the energy efficiency consumption of each working process, so that the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is smaller than the preset difference threshold.

In some possible embodiments of the present application, the linkage relationship between different devices may also cause the energy consumption of the devices to be too high, and thus, the method includes:

acquiring a first equipment combination with an association relationship in the plurality of equipment;

if the second equipment which is not started exists in the first equipment combination, self-checking information is sent to the second equipment, so that the second equipment performs self-checking and feeds back the self-checking information;

Determining the non-starting reason of the second equipment according to the self-checking information;

outputting the non-starting reason to prompt a user to overhaul the second equipment.

In the embodiment of the application, the first equipment combination refers to equipment with linkage relation in a plurality of equipment, if abnormal linkage relation among the equipment is monitored, namely one or more pieces of equipment in the first equipment combination are started, and the second equipment with linkage relation is not started, self-checking information is sent to the second equipment which is not started through a system, so that the second equipment automatically checks the reason of the non-starting, after the second equipment checks the reason, a report generated by the reason which is not started is output, and a user overhauls the second equipment according to the output report.

In some possible embodiments of the application, the linkage relation between the devices refers to the relation between different devices which are mutually controlled and cooperatively operated through a certain communication mode, protocol and data interaction, and the relation can enable the whole system to operate more efficiently and intelligently, so that the working efficiency of the devices is improved. The equipment linkage generally includes: the hardware interface is the basis for realizing linkage, and common hardware interfaces comprise Ethernet, serial interfaces, universal serial buses, wireless networks and the like; a communication protocol ensuring that information and instructions can be properly exchanged between devices, which requires the definition of an appropriate communication protocol; the data format, the information and data transferred between the devices need to follow a certain format; the control system is usually needed to coordinate the work of each device in the linkage system, and can be centralized or distributed and is responsible for receiving input, processing data, sending instructions and other tasks; triggering conditions: the linkage relation needs to be realized based on a certain triggering condition, for example, when a certain parameter is detected by a sensor to exceed a threshold value, a control system sends an instruction to an actuator to adjust; the actuator is a device in the linkage system for executing control instructions, and is used for generally receiving the instructions from the control system and then performing corresponding operations according to the requirements of the instructions; the linkage relation among the plurality of devices is simultaneously opened or simultaneously closed, but when one device is started, the other devices are not started after the other devices are started, and the abnormal linkage relation among the plurality of devices is indicated.

In some possible embodiments of the present application, when the linkage relationship between the devices is abnormal, the cause of the abnormality may be analyzed, for example, the communication state between the devices is checked, so as to ensure that the communication is smooth, and if the network connection fault, signal attenuation, etc. occur, the abnormal linkage of the devices may be caused; monitoring data flow transmitted between devices, ensuring the correctness and the integrity of data transmission, and if the conditions of data loss, data format errors and the like occur, possibly causing abnormal linkage; checking whether the linkage triggering condition is set and executed correctly, and if the triggering condition is set incorrectly or executed incorrectly, abnormal linkage can be caused; checking feedback information of the actuator to ensure that the actuator can correctly receive and control instructions, and if feedback of the actuator is abnormal, equipment faults or control logic may need to be checked; checking the time sequence and the synchronization condition of equipment linkage, and if the equipment linkage time is improper, possibly causing abnormal linkage; the log records of the control system and the equipment are checked to find out possible errors and abnormal information, and the reasons of linkage abnormality can be better positioned by analyzing the log; monitoring performance indexes of equipment linkage, such as response time, delay, success rate and the like, if the performance indexes are abnormal, linkage parameters may need to be adjusted or equipment faults may need to be checked; in some cases, the operation of the entire linkage system can be tested by manually triggering the linkage operation, which helps locate anomalies and troubleshoot.

In some possible embodiments of the present application, the existence of an abnormality in the linkage relationship between the devices may be that a certain device fails, but no matter what cause the abnormality in the linkage relationship of the devices, an abnormality notification may be sent.

In some possible embodiments of the present application, for a plurality of devices, when the total energy consumption of the plurality of devices is too high or even abnormal, the energy efficiency supply of the devices may be adjusted according to the priority of the devices, and thus, the method includes:

Acquiring the priority of each device in the plurality of devices;

And sequentially reducing energy efficiency supply of the lowest-priority device in the plurality of devices under the condition that the lowest power consumption requirement is met according to the priority from low to high.

In some possible embodiments of the present application, the priority of the device may be set according to the criticality of the device, the performance requirement, the time sensitivity of the service request, etc., or may be set by the user according to the user's usage requirement, or of course, may also be set by the user according to the historical usage situation or usage habit of the device, through system customization, for example, in the historical usage situation of the device, the usage requirement of the device is obvious in a certain period of time, and then a higher priority is set for the device.

In some possible embodiments of the present application, for a device with a large energy consumption, if the operation of the device is not necessary, the energy efficiency supply of the device is reduced, so as to maintain the minimum power consumption of the device to provide energy efficiency for the device, so as to reduce the waste of energy efficiency to the greatest extent; but for devices of high importance, it is necessary to supply them with energy efficiency that is able to maintain their maximum power consumption requirements.

In some possible embodiments of the present application, for devices with similar actions, when the total power consumption of the devices is too high, the working of the devices may be concentrated in some devices, so the step of adjusting the working process of the first device based on the first energy efficiency consumption, so that the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is smaller than the preset difference threshold value includes:

If a second equipment combination with the similarity degree of the working processes reaching a preset similarity threshold exists in the plurality of equipment, acquiring the total energy consumption corresponding to the second equipment combination;

comparing the total energy consumption with a total energy consumption standard;

if the total energy consumption is larger than the total energy consumption standard consumption, sorting the energy consumption of each device in the second device combination to obtain a sorting result;

And adjusting the energy efficiency consumption of each device in the second device combination based on the sequencing result.

In the embodiment of the application, the equipment can be divided into areas, and targets and the equipment can be divided according to the working content of the equipment, the action of the equipment, the equipment with similar power consumption, the similar working environment and the like, so that the equipment can be conveniently managed by the division.

In some possible embodiments of the present application, the second device combination refers to a device whose working content similarity reaches a preset similarity threshold, that is, a device whose working content is similar or whose working effect is similar, first, the working processes of the device are acquired, whether the working processes are similar is analyzed, for the second device combination having similar working processes, the total energy consumption of the second device combination is acquired, the total energy consumption of the second device combination is compared with the total energy consumption of the second device combination, if the total energy consumption of the second device is greater than the total energy consumption of the second device combination, the energy consumption of each device in the second device combination is ranked, and the energy efficiency of each device is adjusted based on the ranked result. For the energy efficiency adjustment of each device in the second device combination, the energy efficiency consumption of the device with the highest energy efficiency consumption can be reduced according to the sorting result, and the power consumption of the device with the lowest energy efficiency consumption can be reduced to the basic power consumption for maintaining the basic operation.

In some possible embodiments of the present application, the similarity of the working processes of the device may be achieved by machine learning, in particular, a model may be trained to identify similar working processes by machine learning methods, such as classification, clustering, or neural networks. Features of both work processes are input into the model to see if the model classifies them as similar work processes.

In some possible embodiments of the present application, not only the overall device may be monitored, but also a working process of the device may be monitored, and the step of adjusting, based on the first energy consumption, the working process of the first device so that a difference between the energy consumption of the first device and the standard energy consumption is smaller than the preset difference threshold includes:

Judging whether a target working process with energy efficiency consumption larger than a first preset threshold exists in the plurality of devices or not;

the emergency degree of each sub-process in the target working process is obtained;

Judging whether each sub-process has a target sub-process with the emergency degree lower than a preset emergency degree threshold according to the emergency degree of each sub-process;

and if the target subprocess with the emergency degree lower than a preset emergency degree threshold exists in the subprocesses, deferring the running time of the target subprocess.

In the embodiment of the application, when the total energy consumption of the equipment is larger than the standard energy consumption, for the target working process of which the energy consumption is larger than the first preset threshold value, the emergency degree of each sub-process in the target working process is preferentially obtained, the working time of the sub-process is adjusted according to the emergency degree of the sub-process, specifically, the working time of the sub-process of which the emergency degree is lower than the preset emergency degree threshold value is deferred until the energy consumption of the equipment is lower or the equipment is idle, and the working requirements of the sub-process of which the emergency degree is high are preferentially met.

In some possible embodiments of the present application, for each device, the device priority may be set, the urgency or priority of each working process in the device, and the urgency or priority of each sub-process in the device may be set according to the following rule: critical tasks are prioritized, and critical tasks or performance-sensitive applications are set to be urgent or high-priority, so that enough system resources can be obtained when needed; the background process has lower emergency degree or low priority, and a non-critical task or an application program insensitive to performance is set to have lower emergency degree or lower priority, so that when the system resources are tense, the resources can be yielded to the high-priority task; the resource allocation is balanced, the system resources are reasonably allocated, each process and each task can be ensured to normally run, and the system performance degradation caused by monopoly resources of a single process is avoided; according to the requirements, the emergency degree or priority of the process is flexibly adjusted according to the system requirements and the performance changes so as to keep the stable operation of the system; the highest priority of the real-time process, for example, audio playing, video rendering and the like, is set to the highest priority so as to ensure that the user input can be responded in real time and the service quality can be ensured; user intervention, in some cases, a user may need to manually adjust process priorities to ensure performance of a particular task or application, e.g., when running large software or games, the user may set the relevant process to a high priority to ensure a fluent experience.

Further, when the energy efficiency consumption of a certain working process is too high, the corresponding energy efficiency is allocated according to the preset emergency degree or priority based on the sub-process, so that the energy efficiency supply of the sub-process with high emergency degree or priority is maintained, and the working time of the process with low emergency can be delayed until the equipment is idle.

In some possible embodiments of the application, the method further comprises:

Acquiring the use habit of a user based on all working processes of the first equipment;

And correspondingly adjusting the energy efficiency supply of the first equipment based on the using habit of the user.

In the embodiment of the application, for a first device, namely an independent device in a plurality of devices, aiming at all working processes in the device, the use habit of a user for each working process is obtained, and then the energy efficiency consumption of the working process and the use habit of the user are integrated, so that the energy efficiency supply of the first device is adjusted; the usage habit of the user on the working process of the first device can be analyzed through a system log, and the device operating system can record the usage behavior of the user, including an opened application program, the usage time, the accessed file and the like; the behavior of the user in the work of using the equipment, such as a mouse moving track, a keyboard knocking record and the like, can be tracked by installing specific software or tools on the equipment, and then the behavior data are analyzed to obtain the related information of the use habit of the user; for example, in general, the device is in a sleep state in a certain period, the energy consumption of the device is the lowest value, but in this period of a certain day, the energy consumption of the device is too high, and the device may be in an abnormal state, for this case, a prompt message may be sent to the user, if the user feeds back an instruction of using the device, the power consumption requirement of the device is met, and if the user feeds back that the device is not used, the energy consumption of the device is reduced, so that the device can resume the sleep state.

In some possible embodiments of the present application, if the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than a preset difference threshold, the method further includes:

and if the first equipment does not have a working process currently, adjusting energy efficiency supply of the first equipment under the condition that the minimum power consumption requirement of the first equipment is met.

In the embodiment of the application, if the current non-working process of the equipment is monitored, the equipment can be set to be in the sleep mode, and meanwhile, the energy efficiency of the equipment which can be maintained to be basically operated is distributed, so that energy efficiency resources are saved to the greatest extent.

The embodiment of the application discloses an energy efficiency intelligent management system, and referring to fig. 2, fig. 2 is a system block diagram of the energy efficiency intelligent management system, specifically comprising:

a monitoring module 100 for monitoring an energy consumption amount of each of the plurality of devices at a current time;

the working process obtaining module 200 is configured to obtain a working process of a first device if a difference between an energy efficiency consumption amount and a standard energy efficiency consumption amount of the first device is greater than a preset difference threshold, where the first device is any one of the plurality of devices;

the energy efficiency consumption obtaining module 300 obtains a first energy efficiency consumption corresponding to a working process based on the working process of the first device;

And the adjusting module 400 adjusts the working process of the first device based on the first energy efficiency consumption, so that the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is smaller than the preset difference threshold.

In another embodiment of the application, an electronic device is disclosed that includes a memory and a processor, the memory storing a computer program that can be loaded by the processor and that performs the intelligent management method of energy efficiency as described above.

In another embodiment of the present application, a storage medium is disclosed in which a computer program capable of being loaded by a processor and executing the intelligent management method of energy efficiency as described above is stored.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and additional implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order from that shown or discussed, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the embodiments of the present invention.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, wherein like reference numerals are used to refer to like elements throughout. Therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. An intelligent management method of energy efficiency, the method comprising:

monitoring the energy efficiency consumption of each device in the plurality of devices at the current moment;

If the difference value between the energy efficiency consumption amount and the standard energy efficiency consumption amount of the first equipment is larger than a preset difference value threshold, acquiring the working process of the first equipment, wherein the first equipment is any one of the plurality of equipment;

acquiring a first energy efficiency consumption corresponding to a working process based on the working process of the first equipment;

And adjusting the working process of the first device based on the first energy efficiency consumption amount to enable the difference value between the energy efficiency consumption amount of the first device and the standard energy efficiency consumption amount to be smaller than the preset difference value threshold.

2. The energy efficient intelligent management method according to claim 1, characterized in that the method comprises:

acquiring a first equipment combination with an association relationship in the plurality of equipment;

if the second equipment which is not started exists in the first equipment combination, self-checking information is sent to the second equipment, so that the second equipment performs self-checking and feeds back the self-checking information;

Determining the non-starting reason of the second equipment according to the self-checking information;

outputting the non-starting reason to prompt a user to overhaul the second equipment.

3. The energy efficient intelligent management method according to claim 1, characterized in that the method comprises:

Acquiring the priority of each device in the plurality of devices;

And sequentially reducing energy efficiency supply of the lowest-priority device in the plurality of devices under the condition that the lowest power consumption requirement is met according to the priority from low to high.

4. The method of claim 1, wherein the step of adjusting the working process of the first device based on the first energy consumption amount such that a difference between the energy consumption amount of the first device and the standard energy consumption amount is smaller than the preset difference threshold value comprises:

If a second equipment combination with the similarity degree of the working processes reaching a preset similarity threshold exists in the plurality of equipment, acquiring the total energy consumption corresponding to the second equipment combination;

comparing the total energy consumption with a total energy consumption standard;

if the total energy consumption is larger than the total energy consumption standard consumption, sorting the energy consumption of each device in the second device combination to obtain a sorting result;

And adjusting the energy efficiency consumption of each device in the second device combination based on the sequencing result.

5. The method of claim 1, wherein the step of adjusting the working process of the first device based on the first energy consumption amount such that a difference between the energy consumption amount of the first device and the standard energy consumption amount is smaller than the preset difference threshold value comprises:

Judging whether a target working process with energy efficiency consumption larger than a first preset threshold exists in the plurality of devices or not;

the emergency degree of each sub-process in the target working process is obtained;

Judging whether each sub-process has a target sub-process with the emergency degree lower than a preset emergency degree threshold according to the emergency degree of each sub-process;

and if the target subprocess with the emergency degree lower than a preset emergency degree threshold exists in the subprocesses, deferring the running time of the target subprocess.

6. The energy efficient intelligent management method of claim 1, further comprising:

Acquiring the use habit of a user based on all working processes of the first equipment;

And correspondingly adjusting the energy efficiency supply of the first equipment based on the using habit of the user.

7. The method for intelligently managing energy efficiency according to claim 1, wherein if the difference between the energy efficiency consumption of the first device and the standard energy efficiency consumption is greater than a preset difference threshold, the working process of the first device is acquired, and before the first device is any one of the plurality of devices, the method further comprises:

and if the first equipment does not have a working process currently, adjusting energy efficiency supply of the first equipment under the condition that the minimum power consumption requirement of the first equipment is met.

8. An intelligent management system for energy efficiency, comprising:

The monitoring module is used for monitoring the energy efficiency consumption of each device in the plurality of devices at the current moment;

The working process acquisition module is used for acquiring the working process of the first equipment if the difference value between the energy efficiency consumption amount of the first equipment and the standard energy efficiency consumption amount is larger than a preset difference value threshold value, wherein the first equipment is any one of the plurality of equipment;

The energy efficiency consumption acquisition module is used for acquiring a first energy efficiency consumption corresponding to a working process based on the working process of the first equipment;

And the adjusting module is used for adjusting the working process of the first equipment based on the first energy efficiency consumption amount, so that the difference value between the energy efficiency consumption amount of the first equipment and the standard energy efficiency consumption amount is smaller than the preset difference value threshold.

9. An electronic device comprising a memory and a processor, the memory storing a computer program that can be loaded by the processor and that performs the intelligent management method of energy efficiency according to any of claims 1-7.

10. A storage medium storing a computer program capable of being loaded by a processor and executing the energy efficient intelligent management method according to any one of claims 1-7.