CN113625575A - Operation method and system of energy management system - Google Patents

Abstract

The application provides an operation method and system of an energy management system, and relates to the technical field of energy management. In the application, the equipment operation data respectively sent by each energy monitoring equipment is screened to obtain target operation data corresponding to each energy monitoring equipment, wherein the equipment operation data is used for representing the use state information of the corresponding energy consumption equipment using the target energy; after target operation data corresponding to each energy monitoring device is obtained, determining device operation association relation information between energy consumption devices corresponding to each energy monitoring device based on the target operation data; and controlling the energy consumption equipment to operate based on the equipment operation association relation information so as to ensure the reliable association operation of each energy consumption equipment and ensure better operation control effect.

Description

Operation method and system of energy management system

Technical Field

The application relates to the technical field of energy management, in particular to an operation method and system of an energy management system.

Background

In the use process of energy, it is necessary to manage and control the corresponding devices, for example, a corresponding energy monitoring device may be configured for each energy consumption device to collect device operation data of the corresponding energy consumption device, so as to send the device operation data to the background management device for corresponding processing.

However, the inventor has found that, in the prior art, after acquiring the device operation data sent by the energy monitoring device, the background management device generally controls the energy consumption devices individually and directly based on the acquired device operation data, so that the operation association degree between the energy consumption devices is not high, and it is difficult to ensure a better operation control effect.

Disclosure of Invention

In view of the above, an object of the present application is to provide an operation method and system for an energy management system, so as to solve the problem in the prior art that it is difficult to ensure a better operation control effect due to a low operation correlation between energy consumption devices.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:

an operation method of an energy management system is applied to energy operation data processing equipment, the energy operation data processing equipment is in communication connection with a plurality of energy monitoring equipment, each energy monitoring equipment is respectively arranged on different energy consumption equipment and is used for acquiring equipment operation data of the corresponding energy consumption equipment, and the operation method of the energy management system comprises the following steps:

screening the equipment operation data respectively sent by each energy monitoring equipment to obtain target operation data corresponding to each energy monitoring equipment, wherein the equipment operation data are used for representing the use state information of the corresponding energy consumption equipment using the target energy;

after target operation data corresponding to each energy monitoring device is obtained, determining device operation association relation information between the energy consumption devices corresponding to each energy monitoring device based on the target operation data;

and controlling the energy consumption equipment to operate based on the equipment operation association relation information.

In some preferred embodiments, in the operation method of the energy management system, after obtaining target operation data corresponding to each energy monitoring device, the step of determining device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device based on the target operation data includes:

after target operation data corresponding to each energy monitoring device is obtained, determining data correlation relation information between the target operation data corresponding to each energy monitoring device;

and determining equipment operation association relation information between each corresponding energy consumption equipment based on the data association relation information between the target operation data.

In some preferred embodiments, in the operation method of the energy management system, the step of determining data correlation relationship information between the target operation data corresponding to each energy monitoring device after obtaining the target operation data corresponding to each energy monitoring device includes:

after target operation data corresponding to each energy monitoring device is obtained, calculating data similarity between at least one target operation data corresponding to the energy monitoring device and at least one target operation data corresponding to each other energy monitoring device for each energy monitoring device, and respectively obtaining data similarity information corresponding to the energy monitoring device and each other energy monitoring device, wherein each energy monitoring device corresponds to at least one target operation data;

and aiming at each energy monitoring device, taking the corresponding data similarity information between the energy monitoring device and each other energy monitoring device as the data correlation relation information between the target operation data corresponding to the energy monitoring device and the target operation data corresponding to each other energy monitoring device.

In some preferred embodiments, in the above method for operating an energy management system, the step of determining device operation association relationship information between each corresponding energy consumption device based on the data association relationship information between the target operation data includes:

for each energy consumption device, sorting each other energy consumption device based on the relative size of the data correlation information between the target operation data corresponding to the energy consumption device and the target operation data corresponding to each other energy consumption device to obtain a device sorting result corresponding to the energy consumption device;

and for each energy consumption device, obtaining device operation association relation information between the energy consumption device and each other energy consumption device based on a device sorting result corresponding to the energy consumption device, wherein each energy consumption device corresponds to one piece of device operation association relation information, and a plurality of energy consumption devices correspond to a plurality of pieces of device operation association relation information.

In some preferred embodiments, in the above method for operating an energy management system, the step of controlling the operation of the energy consumption device based on the device operation association relation information includes:

respectively generating equipment operation control information for controlling the operation of each energy consumption equipment based on the received equipment operation control instruction and the equipment operation association relation information, wherein each energy consumption equipment corresponds to one piece of equipment operation control information;

and respectively sending each piece of equipment operation control information to corresponding energy monitoring equipment, wherein the energy monitoring equipment is used for controlling the operation of the corresponding energy consumption equipment based on the received equipment operation control information.

In some preferred embodiments, in the operation method of the energy management system, the step of generating, based on the received device operation control instruction and the device operation association relation information, device operation control information for controlling operation of each energy consumption device separately includes:

judging whether an equipment operation control instruction is received or not, and determining corresponding target energy consumption equipment based on the equipment operation control instruction after the equipment operation control instruction is received;

determining a first target control parameter for controlling the operation of the target energy consumption device based on the device operation control instruction, and generating device operation control information for controlling the operation of the target energy consumption device based on the first target control parameter;

and respectively determining a second target control parameter corresponding to each other energy consumption device except the target energy consumption device based on the first target control parameter and the device operation association relation information, and respectively generating device operation control information for controlling the operation of each other energy consumption device based on the second target control parameter.

In some preferred embodiments, in the operation method of the energy management system, the step of determining, based on the first target control parameter and the device operation association relationship information, a second target control parameter corresponding to each other energy consumption device except the target energy consumption device, and generating, based on the second target control parameter, device operation control information for controlling operation of each other energy consumption device includes:

determining target equipment operation association relation information corresponding to the target energy consumption equipment in a plurality of pieces of equipment operation association relation information, wherein each piece of energy consumption equipment corresponds to one piece of equipment operation association relation information, and each piece of equipment operation association relation information comprises equipment operation association relations between the corresponding energy consumption equipment and each other piece of energy consumption equipment;

and respectively determining a second target control parameter corresponding to each other energy consumption device except the target energy consumption device based on the first target control parameter and the target device operation association relation information, and respectively generating device operation control information for controlling the operation of each other energy consumption device based on the second target control parameter.

The application still provides an energy management system's operating system, is applied to energy operation data processing equipment, energy operation data processing equipment communication connection has a plurality of energy monitoring equipment, each energy monitoring equipment sets up respectively in the energy consumption equipment of difference for gather the equipment operation data of the energy consumption equipment that corresponds, energy management system's operating system includes:

the target operation data acquisition module is used for screening the equipment operation data respectively sent by each energy monitoring equipment to obtain target operation data corresponding to each energy monitoring equipment, wherein the equipment operation data are used for representing the use state information of the corresponding energy consumption equipment using the target energy;

the incidence relation information determining module is used for determining equipment operation incidence relation information between the energy consumption equipment corresponding to each energy monitoring equipment based on the target operation data after the target operation data corresponding to each energy monitoring equipment is obtained;

and the energy consumption equipment control module is used for controlling the energy consumption equipment to operate based on the equipment operation association relation information.

In some preferred embodiments, in the operating system of the energy management system, the association relation information determining module includes:

the data correlation relation information determining submodule is used for determining data correlation relation information between target operation data corresponding to each energy monitoring device after the target operation data corresponding to each energy monitoring device are obtained;

and the operation incidence relation information determining submodule is used for determining equipment operation incidence relation information between each corresponding energy consumption equipment based on the data correlation relation information between the target operation data.

In some preferred embodiments, in the operation system of the energy management system, the energy consumption device control module includes:

the equipment operation control information generation sub-module is used for respectively generating equipment operation control information for controlling the operation of each energy consumption equipment based on a received equipment operation control instruction and the equipment operation incidence relation information, wherein each energy consumption equipment corresponds to one piece of equipment operation control information;

and the energy consumption equipment operation control submodule is used for respectively sending each piece of equipment operation control information to corresponding energy monitoring equipment, wherein the energy monitoring equipment is used for controlling the operation of the corresponding energy consumption equipment based on the received equipment operation control information.

The application provides an operation method and system of an energy management system, after screening processing is carried out on equipment operation data respectively sent by energy monitoring equipment to obtain target operation data corresponding to each energy monitoring equipment, equipment operation association relation information between energy consumption equipment corresponding to each energy monitoring equipment can be determined based on the target operation data, so that operation of the energy consumption equipment can be controlled based on the equipment operation association relation information, and each energy effect equipment can operate in an associated mode, so that the problems that operation association degree between the energy consumption equipment is not high in the prior art, better operation control effect is difficult to guarantee, and convenience of operation control can be guaranteed.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a block diagram of an application of an energy operation data processing device according to an embodiment of the present application.

Fig. 2 is a schematic flowchart illustrating steps included in an operation method of an energy management system according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1, an embodiment of the present application provides an energy operation data processing apparatus. Wherein the energy source operation data processing device may include a memory and a processor. The memory and the processor are electrically connected directly or indirectly to enable data transfer or interaction. For example, they may be electrically connected to each other via one or more communication buses or signal lines. The memory can have stored therein at least one software function (computer program) which can be present in the form of software or firmware. The processor may be configured to execute the executable computer program stored in the memory to perform the steps of:

screening the equipment operation data respectively sent by each energy monitoring equipment to obtain target operation data corresponding to each energy monitoring equipment, wherein the equipment operation data are used for representing the use state information of the corresponding energy consumption equipment using the target energy; after target operation data corresponding to each energy monitoring device is obtained, determining device operation association relation information between energy consumption devices corresponding to each energy monitoring device based on the target operation data; and controlling the energy consumption equipment to operate based on the equipment operation association relation information.

It will be appreciated that in an alternative example, the energy operation data processing device may be a server with data processing capabilities and the energy monitoring device may be a sensor with information collection and transmission.

With reference to fig. 2, an embodiment of the present application further provides an operation method of an energy management system, which is applicable to the energy operation data processing device. The method steps defined by the flow related to the operation method of the energy management system can be realized by the energy operation data processing equipment. The specific process shown in FIG. 2 will be described in detail below.

Step S110, performing screening processing on the device operation data respectively sent by each energy monitoring device to obtain target operation data corresponding to each energy monitoring device.

In this embodiment, the energy operation data processing device is communicatively connected with a plurality of energy monitoring devices, and each energy monitoring device is respectively arranged in different energy consumption devices and is used for acquiring device operation data of the corresponding energy consumption device. Based on this, the energy operation data processing device may perform screening processing on the device operation data respectively sent by each energy monitoring device, so as to obtain target operation data corresponding to each energy monitoring device. Wherein the device operation data is used for representing the use state information of the target energy source used by the corresponding energy consumption device.

Step S120, after obtaining target operation data corresponding to each energy monitoring device, determining device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device based on the target operation data.

In this embodiment, after obtaining the target operation data corresponding to each energy monitoring device, the energy operation data processing device may determine, based on the target operation data, device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device.

And step S130, controlling the energy consumption equipment to operate based on the equipment operation association relation information.

In this embodiment, after the device operation association relationship information is based, the energy operation data processing device may control operation of each energy consumption device based on the device operation association relationship information.

Based on the method, after the target operation data corresponding to each energy monitoring device is obtained by screening the device operation data respectively sent by the energy monitoring devices, the device operation association relation information between the energy consumption devices corresponding to each energy monitoring device can be determined based on the target operation data, so that the operation of the energy consumption devices can be controlled based on the device operation association relation information, and the energy effect devices can operate in association, thereby solving the problems that the operation association degree between the energy consumption devices is not high, the better operation control effect is difficult to ensure in the prior art, and the convenience of operation control can also be ensured.

For example, in an alternative example, the corresponding target operation data may be obtained based on the following steps, i.e., step S110 may include step S111, step S112, and step S113.

Step S111, respectively obtaining device operation data sent by each energy monitoring device, and obtaining multiple pieces of device operation data corresponding to the multiple energy monitoring devices.

In this embodiment, the energy operation data processing device is communicatively connected with a plurality of energy monitoring devices, each of which is respectively disposed in different energy consumption devices (it can be understood that, in this embodiment, consumption objects of the energy consumption devices disposed in each of the energy monitoring devices are the same, such as gasoline or engine oil, and the like), and is configured to collect device operation data of the corresponding energy consumption device. Based on this, the energy operation data processing device may obtain the device operation data sent by each energy monitoring device, respectively, to obtain multiple pieces of device operation data corresponding to the multiple energy monitoring devices, that is, each energy monitoring device sends the device operation data of a corresponding energy consumption device. Wherein the device operation data is used for representing the use state information of the target energy source used by the corresponding energy consumption device.

Step S112, determining the size relation between the data volume of the acquired equipment operation data and a preset data volume threshold value.

In this embodiment, after obtaining the device operation data, the energy operation data processing device may determine a size relationship between a data amount of the obtained device operation data and a pre-configured data amount threshold, where the data amount threshold is obtained based on a configuration operation performed by the energy operation data processing device in response to a corresponding energy management user.

And, if the data amount of the acquired device operation data is greater than or equal to the data amount threshold, the subsequent steps may be executed, as in step S113.

And step S113, screening the acquired equipment operation data to obtain corresponding target operation data.

In this embodiment, when the data amount of the acquired device operation data is greater than or equal to the data amount threshold, the energy operation data processing device may perform screening processing on the acquired device operation data to obtain corresponding target operation data.

Based on the method, after enough equipment operation data (namely, the data volume is greater than or equal to the data volume threshold) is acquired, the acquired equipment operation data is screened to obtain corresponding target operation data, so that the reliability of the target operation data is improved, and the problem of low reliability of the data obtained in the prior art is solved.

For example, in an alternative example, the device operation data sent by each energy monitoring device may be obtained based on the following steps, so as to obtain a plurality of pieces of device operation data corresponding to the plurality of energy monitoring devices:

firstly, acquiring equipment operation data sent by at least one current energy monitoring equipment, acquiring corresponding at least one piece of equipment operation data, and determining the number of the energy monitoring equipment which sends the equipment operation data currently, so as to acquire the corresponding first equipment number;

secondly, determining the size relationship between the first equipment quantity and a preset second equipment quantity, wherein the second equipment quantity is the quantity of all the energy monitoring equipment in communication connection with the energy operation data processing equipment;

and then, if the number of the first devices is equal to the number of the second devices, using the at least one piece of device operation data as a plurality of pieces of device operation data corresponding to the plurality of energy monitoring devices.

Moreover, on the basis of the above example, in an alternative example, the method may further include obtaining device operation data sent by each energy monitoring device based on the following steps, so as to obtain a plurality of pieces of device operation data corresponding to the plurality of energy monitoring devices:

and if the number of the first devices is smaller than the number of the second devices, determining that the running data of the multiple pieces of equipment corresponding to the multiple pieces of energy monitoring equipment are not obtained, and executing data waiting operation.

Wherein, it can be understood that the data waiting operation may include:

after the at least one piece of equipment operation data is acquired, acquiring equipment operation data sent by each other energy monitoring equipment except the energy monitoring equipment corresponding to the at least one piece of equipment operation data again until one piece of equipment operation data sent by all the energy monitoring equipment in communication connection with the energy operation data processing equipment is acquired.

It will be appreciated that in an alternative example, the data wait operation may specifically include the following steps:

after the at least one piece of equipment operation data is acquired, acquiring equipment operation data sent by each other energy monitoring equipment except the energy monitoring equipment corresponding to the at least one piece of equipment operation data again until one piece of equipment operation data sent by all the energy monitoring equipment in communication connection with the energy operation data processing equipment is acquired;

or until the difference between the current time and the time for acquiring the at least one piece of equipment operation data is greater than or equal to a preset time difference threshold (configured in this way, the problem that individual energy consumption equipment is not put into use for a long time due to a fault and the like, so that the process of determining target operation data is excessively long) is avoided, and for each piece of energy monitoring equipment which does not send the equipment operation data, a piece of corresponding equipment operation data is generated for the energy monitoring equipment (configured in this way, the reliability of subsequent processing of data can be guaranteed), so that the number of all the obtained equipment operation data is equal to the number of the second equipment;

the generated use state information represented by the device operation data is that the corresponding energy consumption device starts to use the target energy at a first time and receives and uses the target energy at the first time (configured such that the start time is the same as the end time, that is, the target energy is not consumed, and is more matched with an actual situation, so as to further ensure reliability of subsequent data screening), and the first time is the time when the at least one piece of device operation data is acquired.

Based on this, it can be understood that each piece of the device operation data characterizes a start time and an end time of a single use of the target energy by the corresponding energy consuming device.

For example, in an alternative example, the magnitude relationship between the data volume of the acquired device operational data and the preconfigured data volume threshold may be determined based on the following steps:

firstly, determining the data volume of a plurality of pieces of currently obtained device operation data (i.e. based on the data volume obtained in step S111), and obtaining a first data volume, such as 100 pieces, 1000 pieces;

secondly, determining the data volume of the operation data of the plurality of pieces of equipment which are obtained historically and are not screened and processed to obtain a second data volume, and calculating the sum of the first data volume and the second data volume to obtain the corresponding data volume and value;

then, a magnitude relationship between the data volume and value and a preconfigured data volume threshold is determined.

For example, the number of the energy consumption devices is 100, one device operation data is sent each time, and the threshold of the data amount is 1000, so that 10 device operation data corresponding to each energy consumption device need to be acquired, and then a screening process is performed.

For example, in an alternative example, the obtained device operation data may be screened to obtain corresponding target operation data when the data amount of the obtained device operation data is greater than or equal to the data amount threshold based on the following steps:

firstly, if the data volume of the obtained equipment operation data is greater than or equal to the data volume threshold, processing the obtained equipment operation data based on a pre-configured abnormal data determination rule to determine whether each piece of equipment operation data belongs to a target result of the abnormal operation data;

and secondly, determining target operation data in the acquired equipment operation data based on the target result.

It is understood that, in an alternative example, the acquired device operation data may be processed based on a preconfigured exception data determination rule when the data amount of the acquired device operation data is greater than or equal to the data amount threshold based on the following steps:

firstly, if the data volume of the obtained equipment operation data is greater than or equal to the data volume threshold value, determining the equipment relationship among the energy consumption equipment corresponding to the obtained equipment operation data;

secondly, classifying the energy consumption equipment based on the equipment relationship to obtain at least one corresponding equipment set, wherein each equipment set can comprise at least one energy consumption equipment;

on one hand, for each piece of acquired device operation data, based on device operation data corresponding to each other energy consumption device in a device set in which the energy consumption device corresponding to the device operation data is located, screening the device operation data to obtain probability information that the device operation data belongs to abnormal operation data (for example, as described above, the device operation data may represent period information that the corresponding energy consumption device uses the target energy at one time, so that a mean value of similarity between one period information and each other period information may be calculated, the similarity may be determined based on a difference between periods, such as having a positive correlation, and then probability information is obtained based on the mean value, such as the mean value may have a negative correlation with the probability information, that is, the larger the mean value is, the smaller the probability information is), to obtain corresponding first probability information;

on the other hand, for each piece of acquired equipment operation data, screening the equipment operation data based on other equipment operation data corresponding to the energy consumption equipment corresponding to the equipment operation data to obtain probability information (as described above) that the equipment operation data belongs to abnormal operation data, so as to obtain corresponding second probability information;

and finally, obtaining a target result of whether each piece of acquired equipment operation data belongs to abnormal operation data or not based on the corresponding first probability information and the second probability information.

For example, in an alternative example, the device relationship between the energy consumption devices corresponding to the acquired device operation data may be determined based on the following steps:

firstly, if the data volume of the obtained device operation data is greater than or equal to the data volume threshold, obtaining a device correlation relationship corresponding to each energy consumption device corresponding to the obtained device operation data, where the device correlation relationship includes distribution position relationship information between the energy consumption device and each of the other energy consumption devices, such as a distance between the energy consumption devices;

secondly, for each energy consumption device corresponding to the obtained device operation data, based on the distribution position relationship information of the energy consumption device and other energy consumption devices except the energy consumption device, forming a distribution position relationship information sequence corresponding to the energy consumption device, for example, randomly sequencing each distribution position relationship information to obtain the distribution position relationship information sequence, or sequencing according to the distance to obtain the distribution position relationship information sequence; dividing each distribution position relation information sequence according to a preset subsequence length to obtain a plurality of information subsequences;

then, for each distribution position relationship information sequence, determining an information subsequence (for example, using the information subsequence with the minimum distance discrete value corresponding to the included distribution position relationship information as a target information subsequence) from a plurality of information subsequences corresponding to the distribution position relationship information sequence, and acquiring all distribution position relationship information included in the information subsequences;

then, for each distribution position relationship information sequence, based on all the obtained distribution position relationship information, determining distribution position relationship representative information of the distribution position relationship information sequence (for example, taking the maximum distance, the distance mean value or the median value as the distribution position relationship representative information); and aiming at each distribution position relationship information sequence, matching the distribution position relationship representative information of the distribution position relationship information sequence with pre-configured target distribution position relationship information to obtain a corresponding matching relationship (such as a size relationship between corresponding distances);

finally, for each distribution position relationship information sequence, when the distribution position relationship representative information of the distribution position relationship information sequence is matched with the target distribution position relationship information (for example, the distance corresponding to the distribution position relationship representative information is smaller than the distance corresponding to the target distribution position relationship information), the distribution position relationship information included in the information subsequence (for example, the target information subsequence) determined corresponding to the distribution position relationship information sequence is determined to be related equipment corresponding to each energy consumption equipment, so that the information sequences are distributed to the same equipment set during the classification processing.

Further, in addition to the above example, the above steps are performed again to form a new distribution positional relationship information sequence for each remaining energy consuming apparatus, that is, for energy consuming apparatuses other than the energy consuming apparatus corresponding to the target information sub-sequence, so that the corresponding energy consuming apparatuses are determined again as related apparatuses to be allocated to the same apparatus set at the time of the classification processing.

It is understood that, in an alternative example, a target result of whether each piece of acquired device operation data belongs to abnormal operation data may be obtained based on the following steps and respectively based on the corresponding first probability information and the second probability information:

for each piece of equipment operation data, the first probability information and the second probability information corresponding to the equipment operation data can be fused to obtain corresponding fusion probability information, then the fusion probability information is compared with pre-configured probability threshold information, if the fusion probability information is larger than the probability threshold information, the equipment operation data can be determined to belong to abnormal operation data, and if the fusion probability information is smaller than or equal to the probability threshold information, the equipment operation data can be determined not to belong to the abnormal operation data. Wherein, considering that the first probability information and the second probability information are based on two dimensions, one being probability information determined by vertical contrast and one being probability information determined by horizontal contrast, respectively, at the time of fusion, the first probability information and the second probability information may be multiplied to take the resultant product as the fusion probability information.

It is understood that, in an alternative example, the target operation data may be determined from the acquired device operation data based on the target result based on the following steps:

and regarding each piece of equipment operation data belonging to the abnormal operation data, taking the equipment operation data as target operation data in the obtained equipment operation data.

It is understood that, in another alternative example, the target operation data may also be determined from the acquired device operation data based on the following steps:

and for each piece of equipment operation data which does not belong to the abnormal operation data, taking the equipment operation data as target operation data in the obtained equipment operation data.

It can be understood that, in the subsequent steps, it is necessary to determine, based on the target operation data, device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device, so that, in order to ensure reliability of the device operation association relationship information, each piece of device operation data that does not belong to the abnormal operation data may be used as the target operation data in the obtained device operation data.

It is to be understood that, on the basis of the above example, in an alternative example, after the step of determining the size relationship between the data amount of the acquired device operation data and the pre-configured data amount threshold is performed, that is, after the step S112 is performed, the target operation data may be obtained based on the following steps:

if the data volume of the acquired device operation data is smaller than the data volume threshold, the acquired device operation data is stored as a plurality of pieces of device operation data which are obtained historically and are not subjected to screening processing, so that after the device operation data is acquired later, the screening processing is performed together to obtain target operation data (as in the foregoing example, 900 pieces of device operation data acquired in the previous 9 times may be together with 100 pieces of device operation data acquired in the next time, that is, the number is equal to the number threshold, and the screening processing is performed together to obtain the target operation data).

For example, in an alternative example, the device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device may be determined based on the target operation data based on the following steps:

firstly, after target operation data corresponding to each energy monitoring device is obtained, determining data correlation relation information between the target operation data corresponding to each energy monitoring device;

and secondly, determining equipment operation association relation information between each corresponding energy consumption equipment based on the data association relation information between the target operation data.

It is understood that, in an alternative example, the data correlation relationship information between the target operation data corresponding to each energy monitoring device may be determined based on the following steps after the target operation data corresponding to each energy monitoring device is obtained:

firstly, after target operation data corresponding to each energy monitoring device is obtained, calculating data similarity between at least one target operation data corresponding to the energy monitoring device and at least one target operation data corresponding to each other energy monitoring device for each energy monitoring device (for example, calculating similarity between corresponding time periods for every two pieces of target operation data, and then taking an average value of the similarities as the data similarity), and respectively obtaining corresponding data similarity information between the energy monitoring device and each other energy monitoring device, wherein each energy monitoring device corresponds to at least one piece of target operation data;

and secondly, aiming at each energy monitoring device, taking the corresponding data similarity information between the energy monitoring device and each other energy monitoring device as the data correlation relation information between the target operation data corresponding to the energy monitoring device and the target operation data corresponding to each other energy monitoring device.

It is to be understood that, in an alternative example, the device operation association relationship information between each corresponding energy consumption device may be determined based on the data association relationship information between the target operation data based on the following steps:

firstly, for each energy consumption device, sorting each other energy consumption device based on the relative size of data correlation information between target operation data corresponding to the energy consumption device and target operation data corresponding to each other energy consumption device to obtain a device sorting result corresponding to the energy consumption device;

then, for each energy consumption device, obtaining device operation association relationship information between the energy consumption device and each other energy consumption device based on a device sorting result corresponding to the energy consumption device (for example, the larger the data association relationship information is, the larger the corresponding device operation association relationship information is, the more compact the association relationship between the energy consumption devices is), where one piece of device operation association relationship information corresponds to each energy consumption device, and multiple pieces of device operation association relationship information correspond to a plurality of energy consumption devices.

For example, in an alternative example, the energy consuming device may be controlled to operate based on the device operation association information based on the following steps:

firstly, respectively generating equipment operation control information for controlling the operation of each energy consumption equipment based on a received equipment operation control instruction and the equipment operation association relation information, wherein each energy consumption equipment corresponds to one piece of equipment operation control information;

secondly, each piece of equipment operation control information is sent to corresponding energy monitoring equipment respectively, wherein the energy monitoring equipment is used for controlling the operation of the corresponding energy consumption equipment based on the received equipment operation control information.

It is understood that, in an alternative example, the device operation control information for controlling the operation of each energy consumption device may be generated based on the received device operation control instruction and the device operation association relation information respectively based on the following steps:

firstly, judging whether a device operation control instruction is received or not, and after the device operation control instruction is received, determining a corresponding target energy consumption device based on the device operation control instruction (for example, a user a may generate a corresponding device operation control instruction for an energy consumption device a, which is intended to accurately control the energy consumption device a, and thus, may determine the energy consumption device a as the target energy consumption device);

secondly, determining a first target control parameter for controlling the operation of the target energy consumption device based on the device operation control instruction (if the device operation control instruction is directly analyzed, the consumption per unit time is reduced by a certain value), and generating device operation control information for controlling the operation of the target energy consumption device based on the first target control parameter;

then, second target control parameters corresponding to each of the other energy consumption devices other than the target energy consumption device are respectively determined based on the first target control parameters and the device operation association relationship information, and device operation control information for controlling the operation of each of the other energy consumption devices is respectively generated based on the second target control parameters.

It is understood that, in an alternative example, the second target control parameter corresponding to each other energy consumption device except the target energy consumption device may be respectively determined based on the first target control parameter and the device operation association relation information, and the device operation control information for controlling the operation of each other energy consumption device may be respectively generated based on the second target control parameter, based on the following steps:

firstly, determining target equipment operation association relation information corresponding to the target energy consumption equipment in a plurality of pieces of equipment operation association relation information, wherein each piece of equipment operation association relation information corresponds to each piece of energy consumption equipment, and each piece of equipment operation association relation information comprises equipment operation association relations (as described above) between the corresponding energy consumption equipment and each piece of other energy consumption equipment;

then, second target control parameters corresponding to each of the other energy consumption devices other than the target energy consumption device are respectively determined based on the first target control parameters and the target device operation association relationship information (for example, the closer the device operation association relationship with the target energy consumption device, the greater the similarity between the corresponding second target control parameters and the first target control parameters), and device operation control information for controlling the operation of each of the other energy consumption devices is respectively generated based on the second target control parameters.

The embodiment of the present application further provides an operating system (a computer program or a software functional module) of the energy management system, which is applicable to the energy operation data processing device. The operating system of the energy management system may include a target operating data obtaining module, an association relation information determining module, and an energy consumption device control module.

The target operation data obtaining module is configured to perform screening processing on the device operation data respectively sent by each energy monitoring device to obtain target operation data corresponding to each energy monitoring device, where the device operation data is used to represent usage state information of the corresponding energy consumption device using the target energy. The association relationship information determining module is configured to determine, based on the target operation data, device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device after obtaining the target operation data corresponding to each energy monitoring device. And the energy consumption equipment control module is used for controlling the energy consumption equipment to operate based on the equipment operation association relation information.

Specifically, the functions of the target operation data obtaining module, the association relation information determining module and the energy consumption device control module may refer to the explanations of step S110, step S120 and step S130.

For example, in an alternative example, the association relation information determination module includes:

the data correlation relation information determining submodule is used for determining data correlation relation information between target operation data corresponding to each energy monitoring device after the target operation data corresponding to each energy monitoring device are obtained;

and the operation incidence relation information determining submodule is used for determining equipment operation incidence relation information between each corresponding energy consumption equipment based on the data correlation relation information between the target operation data.

For example, in an alternative example, the energy consumption device control module includes:

the equipment operation control information generation sub-module is used for respectively generating equipment operation control information for controlling the operation of each energy consumption equipment based on a received equipment operation control instruction and the equipment operation incidence relation information, wherein each energy consumption equipment corresponds to one piece of equipment operation control information;

and the energy consumption equipment operation control submodule is used for respectively sending each piece of equipment operation control information to corresponding energy monitoring equipment, wherein the energy monitoring equipment is used for controlling the operation of the corresponding energy consumption equipment based on the received equipment operation control information.

To sum up, according to the operation method and system of the energy management system provided by the application, after the target operation data corresponding to each energy monitoring device is obtained by screening the device operation data respectively sent by the energy monitoring devices, the device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device can be determined based on the target operation data, so that the operation of the energy consumption devices can be controlled based on the device operation association relationship information, and each energy effect device can operate in association, thereby solving the problems that the operation association degree between the energy consumption devices is not high in the prior art, and the operation control effect is difficult to ensure, further, the convenience of operation control can be ensured, and the flow of operation control is simplified.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. An operation method of an energy management system is applied to energy operation data processing equipment, the energy operation data processing equipment is in communication connection with a plurality of energy monitoring equipment, each energy monitoring equipment is respectively arranged on different energy consumption equipment and is used for acquiring equipment operation data of the corresponding energy consumption equipment, and the operation method of the energy management system comprises the following steps:

screening the equipment operation data respectively sent by each energy monitoring equipment to obtain target operation data corresponding to each energy monitoring equipment, wherein the equipment operation data are used for representing the use state information of the corresponding energy consumption equipment using the target energy;

after target operation data corresponding to each energy monitoring device is obtained, determining device operation association relation information between the energy consumption devices corresponding to each energy monitoring device based on the target operation data;

and controlling the energy consumption equipment to operate based on the equipment operation association relation information.

2. The method according to claim 1, wherein the step of determining device operation association relationship information between the energy consumption devices corresponding to each energy monitoring device based on the target operation data after obtaining the target operation data corresponding to each energy monitoring device comprises:

after target operation data corresponding to each energy monitoring device is obtained, determining data correlation relation information between the target operation data corresponding to each energy monitoring device;

and determining equipment operation association relation information between each corresponding energy consumption equipment based on the data association relation information between the target operation data.

3. The method according to claim 2, wherein the step of determining the data correlation information between the target operation data corresponding to each of the energy monitoring devices after obtaining the target operation data corresponding to each of the energy monitoring devices comprises:

after target operation data corresponding to each energy monitoring device is obtained, calculating data similarity between at least one target operation data corresponding to the energy monitoring device and at least one target operation data corresponding to each other energy monitoring device for each energy monitoring device, and respectively obtaining data similarity information corresponding to the energy monitoring device and each other energy monitoring device, wherein each energy monitoring device corresponds to at least one target operation data;

and aiming at each energy monitoring device, taking the corresponding data similarity information between the energy monitoring device and each other energy monitoring device as the data correlation relation information between the target operation data corresponding to the energy monitoring device and the target operation data corresponding to each other energy monitoring device.

4. The method for operating an energy management system according to claim 2, wherein the step of determining device operation relationship information between each corresponding energy consumption device based on the data relationship information between the target operation data includes:

for each energy consumption device, sorting each other energy consumption device based on the relative size of the data correlation information between the target operation data corresponding to the energy consumption device and the target operation data corresponding to each other energy consumption device to obtain a device sorting result corresponding to the energy consumption device;

and for each energy consumption device, obtaining device operation association relation information between the energy consumption device and each other energy consumption device based on a device sorting result corresponding to the energy consumption device, wherein each energy consumption device corresponds to one piece of device operation association relation information, and a plurality of energy consumption devices correspond to a plurality of pieces of device operation association relation information.

5. The method for operating an energy management system according to claim 1, wherein the step of controlling the operation of the energy consumption device based on the device operation association information includes:

respectively generating equipment operation control information for controlling the operation of each energy consumption equipment based on the received equipment operation control instruction and the equipment operation association relation information, wherein each energy consumption equipment corresponds to one piece of equipment operation control information;

and respectively sending each piece of equipment operation control information to corresponding energy monitoring equipment, wherein the energy monitoring equipment is used for controlling the operation of the corresponding energy consumption equipment based on the received equipment operation control information.

6. The method for operating an energy management system according to claim 5, wherein the step of generating device operation control information for controlling the operation of each of the energy consumption devices based on the received device operation control command and the device operation association relationship information, respectively, comprises:

judging whether an equipment operation control instruction is received or not, and determining corresponding target energy consumption equipment based on the equipment operation control instruction after the equipment operation control instruction is received;

determining a first target control parameter for controlling the operation of the target energy consumption device based on the device operation control instruction, and generating device operation control information for controlling the operation of the target energy consumption device based on the first target control parameter;

and respectively determining a second target control parameter corresponding to each other energy consumption device except the target energy consumption device based on the first target control parameter and the device operation association relation information, and respectively generating device operation control information for controlling the operation of each other energy consumption device based on the second target control parameter.

7. The method according to claim 6, wherein the step of determining a second target control parameter corresponding to each of the other energy consumption devices other than the target energy consumption device based on the first target control parameter and the device operation association relationship information, and generating device operation control information for controlling operation of each of the other energy consumption devices based on the second target control parameter includes:

determining target equipment operation association relation information corresponding to the target energy consumption equipment in a plurality of pieces of equipment operation association relation information, wherein each piece of energy consumption equipment corresponds to one piece of equipment operation association relation information, and each piece of equipment operation association relation information comprises equipment operation association relations between the corresponding energy consumption equipment and each other piece of energy consumption equipment;

and respectively determining a second target control parameter corresponding to each other energy consumption device except the target energy consumption device based on the first target control parameter and the target device operation association relation information, and respectively generating device operation control information for controlling the operation of each other energy consumption device based on the second target control parameter.

8. The utility model provides an energy management system's operating system, its characterized in that is applied to energy operation data processing equipment, energy operation data processing equipment communication connection has a plurality of energy monitoring equipment, each energy monitoring equipment sets up respectively in the energy consumption equipment of difference for gather the equipment operation data of the energy consumption equipment that corresponds, energy management system's operating system includes:

the target operation data acquisition module is used for screening the equipment operation data respectively sent by each energy monitoring equipment to obtain target operation data corresponding to each energy monitoring equipment, wherein the equipment operation data are used for representing the use state information of the corresponding energy consumption equipment using the target energy;

the incidence relation information determining module is used for determining equipment operation incidence relation information between the energy consumption equipment corresponding to each energy monitoring equipment based on the target operation data after the target operation data corresponding to each energy monitoring equipment is obtained;

and the energy consumption equipment control module is used for controlling the energy consumption equipment to operate based on the equipment operation association relation information.

9. The operating system of the energy management system according to claim 8, wherein the association information determining module includes:

the data correlation relation information determining submodule is used for determining data correlation relation information between target operation data corresponding to each energy monitoring device after the target operation data corresponding to each energy monitoring device are obtained;

and the operation incidence relation information determining submodule is used for determining equipment operation incidence relation information between each corresponding energy consumption equipment based on the data correlation relation information between the target operation data.

10. The operating system of the energy management system according to claim 8, wherein the energy consumption device control module includes:

the equipment operation control information generation sub-module is used for respectively generating equipment operation control information for controlling the operation of each energy consumption equipment based on a received equipment operation control instruction and the equipment operation incidence relation information, wherein each energy consumption equipment corresponds to one piece of equipment operation control information;

and the energy consumption equipment operation control submodule is used for respectively sending each piece of equipment operation control information to corresponding energy monitoring equipment, wherein the energy monitoring equipment is used for controlling the operation of the corresponding energy consumption equipment based on the received equipment operation control information.

Images