CN116880280A

CN116880280A - Energy-saving control method and device for building, electronic equipment and storage medium

Info

Publication number: CN116880280A
Application number: CN202310855482.8A
Authority: CN
Inventors: 胡永博
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-07-12
Filing date: 2023-07-12
Publication date: 2023-10-13

Abstract

The present application relates to the field of intelligent control technologies, and in particular, to a building energy-saving control method, a building energy-saving control device, an electronic device, and a storage medium. The energy-saving control method of the building comprises the following steps: acquiring a performance schedule of a current performance, the performance schedule including a plurality of performance nodes; acquiring character information of a target character, and determining the electricity utilization type of electric equipment of a current performance node according to the character information and performance arrangement, wherein the target character is a person entering and exiting a building, and the current performance node is a performance node at the current moment; acquiring a target equipment operation mode corresponding to the character information; based on the performance arrangement, the electricity utilization type of each electric equipment of the current performance node, the operation mode of target equipment and character information, the operation parameters of the corresponding electric equipment are adjusted so as to reduce the electricity consumption of the electric equipment. And the energy-saving effect of the building in the performance scene is improved.

Description

Energy-saving control method and device for building, electronic equipment and storage medium

Technical Field

The present application relates to the field of intelligent control technologies, and in particular, to a building energy-saving control method, a building energy-saving control device, an electronic device, and a storage medium.

Background

With the development of economy and society, people have an increasing demand for spirit. In response to the mental demands of people, large performance items such as concerts, ball games and the like are not limited to networks any more and are gradually developed on line. Most of these shows, when carried out off-line, are used in indoor buildings in places such as stadiums, large conference halls, theaters, concert halls, and large theaters. To achieve the best performance effect of a performance, the energy consumption of a building is typically high.

An automatic control system can be arranged in the existing building to collect, store, count and display energy consumption data in the building, and no energy-saving related mode is involved. In the related art, when a building is built, a worker of the building can conduct preliminary operation management strategy planning aiming at the operation mode of electric equipment in the building so as to achieve the purpose of energy saving. However, the building design purpose in such places as gymnasiums and large conference halls is not to perform a performance, so that the current energy-saving mode has poor energy-saving effect when used in a performance scene.

Disclosure of Invention

In order to improve the energy-saving effect of a building during performance, the application provides an energy-saving control method, an energy-saving control device, electronic equipment and a storage medium of the building.

In a first aspect, the present application provides an energy saving control method for a building, including:

obtaining a performance schedule for a current performance, the performance schedule comprising a number of performance nodes;

acquiring character information of a target character, and determining the electricity utilization type of electric equipment of a current performance node according to the character information and the performance arrangement, wherein the target character is a person entering and exiting a building, and the current performance node is a performance node at the current moment;

acquiring a target equipment operation mode corresponding to the character information;

and adjusting operation parameters of corresponding electric equipment based on the performance arrangement, the electricity utilization type of each electric equipment of the current performance node, the operation mode of the target equipment and the character information so as to reduce the electricity consumption of the electric equipment.

Through adopting above-mentioned technical scheme, through the performance arrangement and the persona information of the current performance that acquire, confirm the power consumption type of the consumer that current performance node can use, the power consumption type of different consumers can change. Based on the method, the operation parameters of the electric equipment with different electricity utilization types can be respectively adjusted by combining the operation modes of the target equipment corresponding to the acquired character information, so that the electricity consumption of the different electric equipment is reduced, and the energy-saving control of the building is further realized.

Optionally, the performance arrangement includes a performance presentation form, and the electricity usage type includes a continuous electricity usage type and an intermittent electricity usage type; the determining the electricity utilization type of the electric equipment of the current performance node according to the character information and the performance arrangement comprises the following steps:

determining the current presentation form of the current presentation node from the presentation forms;

determining an original electricity utilization area corresponding to the current performance node according to the performance arrangement and the current display form;

updating the original electricity utilization area according to the character information to obtain a current electricity utilization area;

based on a current display form, determining first electric equipment corresponding to the current power utilization area at the current performance node at the current moment, and determining the first electric equipment as a continuous power utilization type;

and determining the electricity utilization type of the second electric equipment in the waiting electricity utilization area in the building as intermittent electricity utilization, wherein the building comprises the current electricity utilization area and the waiting electricity utilization area.

By adopting the technical scheme, the original electricity utilization area is updated through the character information, the current electricity utilization area is obtained, then the first electric equipment is determined by combining the current display form and the electric equipment is corresponding to the continuous electricity utilization type, and the accuracy of the electricity utilization type of the electric equipment is improved.

Optionally, the character information includes a building area where the target character is located and the number of people in each building area; the step of updating the original electricity utilization area according to the character information to obtain a current electricity utilization area comprises the following steps:

comparing the number of people in the building area with a single-row threshold number of people for each building area;

if the number of people in the building area is larger than the single-row threshold number of people, updating the original electricity utilization area according to the building area to obtain a current electricity utilization area;

the method further comprises the steps of:

and if the number of people in the building area is smaller than or equal to the single-row threshold number of people, determining the building area as an area waiting for electricity consumption.

By adopting the technical scheme, the building is split into each building area to analyze the number of people, the building area with the number greater than the single-row threshold number is used as a part of the current electricity utilization area, and the building area with the number less than or equal to the single-row threshold number is used as the waiting electricity utilization area. The accuracy of the current power utilization area and the partition of the waiting power utilization area is improved.

Optionally, the method further comprises:

acquiring historical electricity consumption data of a building and weather data at the current moment;

determining target adaptation data from the historical electricity utilization data, wherein weather data and character information of the target adaptation data respectively correspond to weather data at the current moment and character information at the current moment, and the target adaptation data comprises electricity utilization data of electric equipment;

The method for acquiring the operation mode of the target equipment corresponding to the character information comprises the following steps:

determining the operation parameters of the electric equipment in the building at the current moment based on the target adaptation data and a time sequence analysis algorithm;

and determining the running mode of the target equipment corresponding to the character information according to the running parameters at the current moment.

By adopting the technical scheme, the operation parameters of the electric equipment at the current moment are determined by applying the time sequence analysis algorithm, so that the accuracy of determining the operation mode of the target equipment is improved.

Optionally, the electric equipment comprises building lamps, the current electricity utilization area comprises a performance ornamental area, and the character information comprises character movement tracks; the adjusting the operation parameters of the corresponding electric equipment based on the performance arrangement, the electricity utilization type of each electric equipment of the current performance node, the operation mode of the target equipment and the character information comprises the following steps:

acquiring an original light display mode corresponding to a performance display mode at the current moment;

detecting current brightness information of the performance ornamental area, wherein the current brightness information comprises lamp plate brightness information;

according to the current brightness information, the original light display mode is adjusted to obtain a target light display mode, so that the performance display mode corresponding to the current brightness information and the target light display mode is consistent with the performance display mode corresponding to the original light display mode;

And adjusting the operation parameters of the building lamp based on the electricity type of the building lamp, the target light display mode, the target equipment operation mode of the building lamp and the character movement track.

By adopting the technical scheme, the operation parameters of the building lamp are adjusted by taking the current brightness information of the viewing area and the character movement track of the target character into consideration, the adjustment accuracy of the building lamp is improved, and the viewing experience of the target character is improved while energy is saved.

Optionally, the method further comprises:

comparing weather data and character information corresponding to the running mode of the target equipment with the weather data and character information at the current moment respectively to determine current environment fluctuation data;

extracting the aggregation information of the target person from the person information;

the building lamp comprises a performance lamp and a lighting lamp; the adjusting the operation parameters of the building lamp based on the electricity type of the building lamp, the target light display mode, the target equipment operation mode of the building lamp and the character movement track comprises the following steps:

acquiring operation parameters of the performance lamp at the current moment under the corresponding electricity utilization type and the target light display mode;

Comparing the operation parameter at the current moment with the operation parameter corresponding to the operation mode of the target equipment of the building lamp to determine an operation fluctuation parameter;

according to a preset fluctuation data table, determining an original fluctuation parameter corresponding to the current environment fluctuation data;

according to the aggregation information and the original fluctuation parameters, determining adjustable parameters in the operation fluctuation parameters;

adjusting the operation parameters of the building lamp based on the adjustable parameters;

the mobile acquisition equipment is associated with the lighting lamp and used for acquiring the corresponding movement track of the person;

and adjusting the operation parameters of the lighting lamp according to the feedback data of the mobile acquisition equipment.

By adopting the technical scheme, the adjustable parameters can be determined by combining the aggregation information of the target person and the current environment fluctuation data, so that the operating parameters of the lighting lamp are adjusted, the accuracy of parameter adjustment is improved, and the energy-saving effect is further improved.

Optionally, the method further comprises:

determining performance node heat information of the current performance according to a history performance record corresponding to the current performance;

setting the monitoring frequency of the image acquisition equipment in the waiting power utilization area according to the performance node heat information, and controlling the image acquisition equipment to acquire images according to the monitoring frequency;

And adjusting the operation parameters of the electric equipment in the waiting power utilization area according to the image acquired by the image acquisition equipment and the image acquired by the mobile acquisition equipment associated with the image acquisition equipment so as to enable the electric equipment in the waiting power utilization area to intermittently work.

By adopting the technical scheme, the image acquisition equipment of the standby power supply area can be set by combining the history performance record corresponding to the current performance, so that the operation parameters of the electric equipment in the standby power supply area can be adjusted. And when the heat of the performance node is low, the working frequency of the image acquisition equipment is reduced. The energy-saving effect can be improved.

In a second aspect, the present application provides an energy saving control device for a building, including:

a performance schedule acquisition module for acquiring a performance schedule of a current performance, the performance schedule comprising a number of performance nodes;

the electricity utilization type determining module is used for acquiring character information of a target character, determining the electricity utilization type of electric equipment of a current performance node according to the character information and the performance arrangement, wherein the target character is a person entering and exiting a building, and the current performance node is a performance node at the current moment;

The target equipment operation mode acquisition module is used for acquiring a target equipment operation mode corresponding to the character information;

and the operation parameter adjustment module is used for adjusting the operation parameters of the corresponding electric equipment based on the performance arrangement, the electricity utilization type of each electric equipment of the current performance node, the operation mode of the target equipment and the character information so as to reduce the electricity consumption of the electric equipment.

Optionally, the performance arrangement includes a performance presentation form, and the electricity usage type includes a continuous electricity usage type and an intermittent electricity usage type; the electricity consumption type determining module is specifically used for:

Optionally, the character information includes a building area where the target character is located and the number of people in each building area; the electricity consumption type determining module is specifically used for:

the energy-saving control device of the building further comprises an equal standby power area determining module for:

Optionally, the energy-saving control device of the building further includes a target adaptation data determining module, configured to:

the target equipment operation mode acquisition module is specifically used for:

Optionally, the electric equipment comprises building lamps, the current electricity utilization area comprises a performance ornamental area, and the character information comprises character movement tracks; the operation parameter adjustment module is specifically used for:

Optionally, the energy-saving control device of the building further includes an aggregate information extraction module, configured to:

the building lamp comprises a performance lamp and a lighting lamp; the operation parameter adjustment module is specifically used for:

Optionally, the energy-saving control device of the building further comprises an intermittent operation adjusting module, configured to:

In a third aspect, the present application provides an electronic device comprising: a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method of the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium storing a computer program capable of being loaded by a processor and performing the method of the first aspect.

Drawings

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

Fig. 1 is a schematic view of an application scenario provided in an embodiment of the present application;

fig. 2 is a flowchart of a building energy-saving control method according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an energy-saving control device for a building according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an electronic device 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 more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In addition, the term "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In this context, unless otherwise specified, the term "/" generally indicates that the associated object is an "or" relationship.

Embodiments of the application are described in further detail below with reference to the drawings.

With the development of the economic society, people have an increasing demand for spirit level, and the pursuers for large performances such as concerts, concerts and the like are also increasing. People are no longer satisfied with the view on the network, and more hopefully can enjoy the viewing feast on site, so that more and more indoor buildings such as stadiums, large conference halls, theatres, concert halls and large theatres are applied for carrying out large-scale performances, the current buildings can be used for planning preliminary operation management strategies according to basic uses of the buildings, such as offices, malls and the like, so as to save energy of the buildings, but the related purposes of the buildings in the large-scale places such as stadiums, large conference halls and the like are not to carry out the performances, and therefore the energy-saving effect of the building is poorer when the performance is carried out according to the energy-saving control mode of the building at present.

Based on the energy-saving control method and device for the building, electronic equipment and storage medium are provided. And determining the electricity utilization type of the electric equipment of the current performance node through the performance arrangement of the current performance and the character information of the target character, and then adjusting the operation parameters of the electric equipment based on the operation mode of the target equipment corresponding to the character information, the electricity utilization type of each electric equipment of the current performance node, the operation mode of the target equipment and the character information so as to reduce the electricity consumption of the electric equipment.

Fig. 1 is a schematic view of an application scenario provided by the present application. When the building in a large-scale place is provided with a plurality of electric equipment, the electricity utilization types of different electric equipment can be changed according to actual character information and performance nodes. In the scenario shown in fig. 1, the energy-saving control method of the building of the present application may be built on an energy-saving analysis server. The energy-saving analysis server can receive the electricity utilization information of the electric equipment, analyze the electricity utilization information in combination with the performance arrangement and adjust the operation parameters of the electric equipment.

Reference may be made to the following examples for specific implementation.

Fig. 2 is a flowchart of a building energy-saving control method according to an embodiment of the present application, where the method of the present embodiment may be applied to the energy-saving analysis server in the above scenario. As shown in fig. 2, the method includes:

S201, acquiring a performance arrangement of the current performance, wherein the performance arrangement comprises a plurality of performance nodes.

The current performance may be a performance that is being exhibited while occupying the building at the current time, and if the performance has not yet been started at the current time, the current performance may be a performance that is about to be started last. The performance schedule may be a specific schedule for each performance node from start to end of the current performance, such as 18:00 entry, 18:30 shows the first performance, 19:00 the first performance ends, 19:05 shows the second performance … … 21:00 the end. Here from 18:00-21: the content of the performance corresponding to each time of 00 can be used as the performance arrangement of the performance of the field, wherein the content corresponding to each time can be used as a performance node, and the entering and ending can also be calculated as the performance node.

Specifically, when the building is occupied for performance, the time of the performance can be applied in advance, the energy-saving analysis server can interact information with equipment of an applicant, and the performance arrangement of the current performance is received.

S202, acquiring character information of a target character, and determining the electricity utilization type of electric equipment of a current performance node according to the character information and performance arrangement, wherein the target character is a person entering and exiting a building, and the current performance node is a performance node at the current moment.

The target person is a person entering and exiting the building and may include a show viewer, a show person, and a worker within the building. The current show node is the show node at the current time. The character information of the target character includes the total number of people entering the building at the current moment, the identity of the character, and the like. The electric equipment in the building can be in information interaction with the energy-saving analysis server, when a target person enters the building, an identity certificate can be presented on identity recognition equipment at a warehouse entry of the building, the identity certificate can be a ticket containing a two-dimensional code or an identity card, and the presented identity certificate can be associated with the identity of the target person. The electric equipment can comprise equipment such as an elevator, an air conditioner, various lighting lamps, various stage lamps and the like. The electricity utilization type of the electricity utilization device can comprise frequently-opened electricity utilization devices and electricity utilization devices with low opening frequency. It should be noted that the electricity type of the electric equipment in the building can be changed at different moments.

Specifically, the energy-saving analysis server may receive identification data sent by the identification device at the entrance of the building to obtain the character information of the target character. The method comprises the steps that the state of a current performance node can be inquired in the performance arrangement, if the performance is not started, the electricity utilization type of electric equipment on a performance stage is determined to be a type with low starting frequency, and the electricity utilization type of the electric equipment corresponding to the position where the target person such as a hall and an elevator frequently appears is determined to be a type with frequent starting.

In some specific implementation modes, the image acquisition devices can be installed everywhere in the building, and the energy-saving analysis server can determine the electricity utilization types of different electric equipment according to image data fed back by the image acquisition devices. The correspondence between the condition of the target person in the building and the type of the electric equipment at the position of the target person can be preset.

S203, acquiring a target device operation mode corresponding to the character information.

The operation mode of the target device can be the operation mode of each electric equipment in the building and can comprise an opening frequency, operation parameters and the like.

An operation data determination model to be trained can be built in advance. The running modes of the electric equipment in the building corresponding to different character information are different, but the usefulness of the building at different moments is also different. The operation data of the historical electric equipment can be cleaned, and the operation data of the historical electric equipment for large-scale performance is reserved. And then, inputting the operation data of the historical electric equipment for large-scale performance into an operation data determining model to be trained, extracting the data characteristics of each cleaned electric equipment, which can comprise corresponding character information and corresponding electricity utilization data, and constructing a training set.

And then the data characteristics of each electric equipment can be obtained from the training set, the training samples which are composed of the corresponding number of people and the corresponding time can be included, and the training samples are input into the operation data determining model to be trained, so that an output result, namely the electricity utilization data of each electric equipment, is obtained. According to the power consumption data of each electric equipment obtained through training and the power consumption data actually corresponding to each electric equipment in the training set, a loss function is calculated, the operation data to be trained is adjusted by using a gradient descent method to determine a model, so that the loss function is reduced, training is stopped when the loss function is known not to be reduced, and the operation data determination model is obtained.

Specifically, the character information can be input into the operation data determining model, the operation data of each electric equipment at the current moment is output, and the operation data of each electric equipment at the current moment is correspondingly integrated into the operation mode of the target equipment.

S204, based on the performance arrangement, the electricity utilization type of each electric equipment of the current performance node, the operation mode of the target equipment and the character information, the operation parameters of the corresponding electric equipment are adjusted so as to reduce the electricity consumption of the electric equipment.

The operation mode of the target equipment can be the operation mode of the electric equipment corresponding to the target person when the specific performance situation is not considered. However, the operation of the electric equipment is affected by different performance arrangements, the electricity utilization type of each electric equipment corresponding to the performance node at the current moment and the actual character information, so that the operation mode of the target equipment can be optimized based on the different performance arrangements, the electricity utilization type of each electric equipment corresponding to the performance node at the current moment and the actual character information.

According to the embodiment, through the acquired performance arrangement and character information of the current performance, the electricity utilization type of the electric equipment used by the current performance node is determined, and the electricity utilization types of different electric equipment are changed. Based on the method, the operation parameters of the electric equipment with different electricity utilization types can be respectively adjusted by combining the operation modes of the target equipment corresponding to the acquired character information, so that the electricity consumption of the different electric equipment is reduced, and the energy-saving control of the building is further realized.

In some embodiments, the performance arrangement includes a performance presentation format, and the electricity usage type includes a continuous electricity usage type and an intermittent electricity usage type; the original electricity utilization area can be updated according to the character information, and then the electricity utilization type of the electric equipment is determined based on the current display form. Specifically, determining a current presentation form of the current presentation node from the presentation forms; according to the performance arrangement and the current display form, determining an original electricity utilization area corresponding to the current performance node; updating the original electricity utilization area according to the character information to obtain a current electricity utilization area; based on the current display form, determining first electric equipment corresponding to a current power utilization area at the current performance node at the current moment, and determining the first electric equipment as a continuous power utilization type; and determining the electricity utilization type of the second electric equipment in the waiting electricity utilization area in the building as intermittent electricity utilization, wherein the building comprises the current electricity utilization area and the waiting electricity utilization area.

The presentation form may be used to represent the presentation effect that the current presentation can reach at different presentation nodes, and a presentation effect map or a presentation effect model may be preset to determine the presentation form of the current presentation. The continuous power consumption type may be used to represent the power consumption type of the electric equipment that needs to be turned on frequently in the above embodiment, and the intermittent power consumption type may be used to represent the power consumption type of the electric equipment that turns on the frequency traffic in the above embodiment. The current presentation form may be a presentation form at the current time. The original electricity utilization area can be an area which is used for electricity when the current performance node is used, the electricity utilization area is beneficial to the performance period, the electricity utilization area comprises a performance stage and an ornamental area below the stage, and the probability of electricity utilization in areas such as a hall and a warehouse entry is small. The building can comprise a current electricity utilization area and a waiting area, wherein the waiting area can be the area of the hall, the entrance and the like, and the current electricity utilization area can be the area of the performance stage, the viewing area below the stage and the like.

Specifically, the current presentation form corresponding to the current presentation node can be searched from the presentation forms. And then, according to the performance arrangement, searching the original electricity utilization area when the current performance node is to show the performance effect of the current display form, and then determining the area where the target person is located by combining the person information, wherein the areas are areas needing electricity utilization, and updating the original electricity utilization area based on the areas to obtain the current electricity utilization area. It may then be determined which devices in the current electricity usage area of the building are needed to be used as the first electricity usage device and the electricity usage type of the first electricity usage device is determined to be a continuous electricity usage type. The electric equipment in the waiting power utilization area except the current power utilization area can be used as second electric equipment, and the power utilization type of the second electric equipment is determined to be intermittent power utilization.

According to the embodiment, the original electricity utilization area is updated through the character information, the current electricity utilization area is obtained, then the first electric equipment is determined by combining the current display form and is corresponding to the continuous electricity utilization type, and the accuracy of the electricity utilization type of the electric equipment is improved.

In some embodiments, the persona information includes the building area in which the target persona is located and the number of people in each building area. The current electricity utilization area can be obtained based on the number of people in each building area and a single line of threshold tasks, and then the waiting electricity utilization area is determined. Specifically, comparing the number of people in the building area with a single-row threshold number of people for each building area; and if the number of people in the building area is larger than the single-row threshold number of people, updating the original electricity utilization area according to the building area to obtain the current electricity utilization area.

Correspondingly, if the number of people in the building area is smaller than or equal to the single-row threshold number of people, determining the building area as the area waiting for electricity consumption.

When a show is performed, the threshold number of people in a single row can be two, and the threshold number of people in a single row can be used for representing actions irrelevant to the show, such as going to a bathroom, and the like.

In some implementations, the number of people in each building area may be extracted from the persona information, the number of people in the building area may be compared with a single-row threshold number of people for each building area, and if the number of people in the building area is greater than the single-row threshold number of people, the building area and the original electricity consumption area may be used together as the current electricity consumption area. If the number of people in the building area is less than or equal to a single row threshold number of people, the building area may be determined to be a waiting area for electricity.

In other implementations, a number of image capture devices may be provided in a building, each of which may correspond to a region of the building. For each building area, images acquired by the corresponding image acquisition device may be received, and the number of people in the building area determined.

In the embodiment, the building is divided into each building area to analyze the number of people, the building area larger than the single-row threshold number of people is used as a part of the current electricity utilization area, and the building area smaller than or equal to the single-row threshold number of people is used as the waiting electricity utilization area. The accuracy of the current power utilization area and the partition of the waiting power utilization area is improved.

In some embodiments, target adaptation data corresponding to weather data and task information at the current moment can be matched from historical electricity utilization data, and then the operation parameters of the electricity utilization equipment at the current moment are determined by using a time sequence analysis algorithm. Specifically, historical electricity consumption data of a building and weather data at the current moment are obtained; and determining target adaptation data from the historical electricity utilization data, wherein the weather data and the character information of the target adaptation data respectively correspond to the weather data at the current moment and the character information at the current moment, and the target adaptation data comprises electricity utilization data of electric equipment.

Correspondingly, determining the operation parameters of the electric equipment in the building at the current moment based on the target adaptation data and a time sequence analysis algorithm; and determining the operation mode of the target equipment corresponding to the character information according to the operation parameters at the current moment.

The historical electricity data may include electricity data for individual consumers at the time of performance, weather data for each performance node, and character data for each performance node during the performance within one or five years prior to the current time. The target adaptation data may include historical time weather data corresponding to the current time in the historical performance, task information of the historical time corresponding to the current time and power consumption data of electric equipment of the historical time corresponding to the current time, and the weather data and the character information included in the target adaptation data correspond to the weather data of the current time and the character information of the current time respectively.

Specifically, the data smoothing operation can be performed on the weather data of the historical time corresponding to the current time, the task information of the historical time corresponding to the current time and the electricity consumption data of the electric equipment of the historical time corresponding to the current time in the historical performance. Then, statistical features, time features, weather features and character information features can be extracted from the data, an autoregressive moving average model to be trained can be trained according to the operation in the embodiment to obtain the autoregressive moving average model, then, weather data and task information at the current moment can be input into the autoregressive moving average model, and electricity consumption data at the current moment can be output. And then determining what operation parameters are needed by each electric equipment to obtain the corresponding electric data, and further obtaining the operation mode of the target equipment corresponding to the character information at the current moment.

According to the embodiment, the time sequence analysis algorithm is applied to determine the operation parameters of the electric equipment at the current moment, so that the accuracy of determining the operation mode of the target equipment is improved.

In some embodiments, the powered device comprises a building light, the current powered region comprises a show viewing region, and the persona information comprises a persona movement track. The original light display mode can be adjusted through the current brightness information, and then the running parameters of the building lamp are adjusted by combining the moving track of the person. Specifically, an original light display mode corresponding to a performance display mode at the current moment is obtained; detecting current brightness information of a performance ornamental area, wherein the current brightness information comprises lamp plate brightness information; according to the current brightness information, adjusting the original light display mode to obtain a target light display mode, so that the performance display mode corresponding to the current brightness information and the target light display mode is consistent with the performance display mode corresponding to the original light display mode; and adjusting the operation parameters of the building lamp based on the electricity type of the building lamp, the target light display mode, the target equipment operation mode of the building lamp and the character movement track.

The building lamp can represent various lighting devices in the building, and the original light display mode can be a display mode which needs to be carried out by the building lamp at the current moment in order to realize the performance effect corresponding to the performance display mode. The viewing area can be a sitting area for viewing the performance, the current brightness information can be the brightness information of the lighting equipment started by the target person in the viewing area, the equipment can comprise a lamp plate, a mobile phone flashlight, a fluorescent stick and other equipment, and the corresponding current brightness information can comprise the lamp plate brightness information and the like. The character movement track may be a movement of the target character at the previous time and the current time.

In particular, the show schedule may include a set light presentation of different show nodes. The energy-saving analysis server can start the brightness detection equipment installed in the ornamental region to detect the current brightness information of the ornamental region. And then adjusting the original light display mode based on the current brightness information, so that the performance display mode corresponding to the target light display mode and the current brightness information is consistent with the performance display mode of the original light display mode. In some implementations, the method can determine the target light display mode by establishing a performance dynamic model and adjusting the operation parameters of each building lamp in the model, and determine which building lamps are required to be started to illuminate the moving target person on the basis of consistent performance display modes by combining the person movement track of the target person, and based on adjusting the operation parameters of the building lamps.

According to the embodiment, the running parameters of the building lamp are adjusted by considering the current brightness information of the viewing area and the character moving track of the target character, so that the adjustment accuracy of the building lamp is improved, and the viewing experience of the target character is improved while energy is saved.

In some embodiments, the building lights include show lights and lighting lights. The operating parameters of the lighting lamp may be adjusted based on the current environmental fluctuation data and the aggregate information of the target person. Specifically, weather data and character information corresponding to the running mode of the target equipment are respectively compared with the weather data and the character information at the current moment, and the current environment fluctuation data is determined; the aggregation information of the target person is extracted from the person information.

Correspondingly, acquiring the operation parameters of the performance lamp at the current moment under the corresponding electricity utilization type and target light display mode; comparing the operation parameter at the current moment with the operation parameter corresponding to the operation mode of the target equipment of the building lamp to determine an operation fluctuation parameter; according to a preset fluctuation data table, determining an original fluctuation parameter corresponding to current environment fluctuation data; according to the aggregation information and the original fluctuation parameters, determining adjustable parameters in the operation fluctuation parameters; adjusting the operating parameters of the building lamp based on the adjustable parameters; the method comprises the steps of obtaining a mobile acquisition device associated with a lighting lamp corresponding to a character movement track; and adjusting the operation parameters of the lighting lamp according to the feedback data of the mobile acquisition equipment.

Since the target device operation mode is approximately predicted based on the mode in the foregoing embodiment, it may be slightly different from the environment at the present time. The current environmental fluctuation data can be used for representing weather data and difference data of character information in an ideal state corresponding to the running mode of the target equipment, and the actual weather data and character data at the current moment. The person information may include aggregation information of the target person, and the aggregation information may be used to characterize aggregation conditions of the target task, for example, whether the target person in the viewing area is sitting adjacently or has a partial vacancy, and the target person on both sides of the vacancy may be regarded as two aggregates. The performance lamp may be a building lamp of various colors that are turned on when performing a performance, and the illumination lamp may be a building lamp for illumination in a building.

The preset fluctuation data table may be a correspondence between different environmental fluctuation data and the original fluctuation parameters. The original fluctuation parameters represent which parameters of the electric equipment in the running process can be regulated down, and the adjustable parameters are more accurate and adjustable parameters determined by combining the aggregation information. The mobile acquisition device may be an image acquisition device that is located within a building and that is mobile. The feedback data may include more specific movements of the target person acquired by the mobile acquisition device.

According to the embodiment, the adjustable parameters can be determined by combining the aggregation information of the target person and the current environment fluctuation data, so that the operation parameters of the lighting lamp are adjusted, the accuracy of parameter adjustment is improved, and the energy-saving effect is improved.

In some embodiments, the monitoring frequency of the image acquisition device in the standby power area can be set in combination with the history performance record of the current performance, and then the operation parameters of the electric equipment in the standby power area can be adjusted according to the received image. Specifically, according to a history performance record corresponding to the current performance, determining performance node heat information of the current performance; according to the performance node heat information, setting the monitoring frequency of the image acquisition equipment in the waiting power-on area, and controlling the image acquisition equipment to acquire images according to the monitoring frequency; and adjusting the operation parameters of the electric equipment in the standby power area according to the image acquired by the image acquisition equipment and the image acquired by the mobile acquisition equipment associated with the image acquisition equipment so as to enable the electric equipment in the standby power area to intermittently work.

The history may be a complete record of the current performance, may not be a performance performed in the same building, and may include the case of separate performance nodes for each performance. The show node heat information may be used to indicate where show nodes often show that people are away. The monitoring frequency may be the frequency at which the image acquisition device performs image acquisition.

Specifically, the energy-saving analysis server may be associated with a server of another building, may obtain a history performance condition of the current performance, generate a history performance record, and determine performance node heat information of the current performance from the history performance record. The specific condition of the current performance node can be determined based on the performance node heat information, then the monitoring frequency of the image acquisition equipment in the standby power waiting area is set, if the heat of the current performance node is lower, the monitoring frequency of the image acquisition equipment can be reduced, and the image acquisition equipment is controlled to acquire images according to the corresponding monitoring frequency. And then, according to the image acquired by the image acquisition device and the image acquired by the mobile acquisition device associated with the image acquisition device, the operation parameters of the electric equipment in the standby power utilization area can be adjusted so as to enable the electric equipment in the standby power utilization area to intermittently work.

The embodiment can combine the history performance record corresponding to the current performance to set the monitoring frequency of the image acquisition equipment of the standby power area, so as to adjust the operation parameters of the electric equipment of the standby power area. And when the heat of the performance node is low, the working frequency of the image acquisition equipment is reduced. The energy-saving effect can be improved.

Fig. 3 is a schematic structural diagram of an energy-saving control device for a building according to an embodiment of the present application, and as shown in fig. 3, the energy-saving control device 300 for a building according to the embodiment includes: the system comprises a performance arrangement acquisition module 301, a power utilization type determination module 302, a target device operation mode acquisition module 303 and an operation parameter adjustment module 304.

A performance schedule acquisition module 301, configured to acquire a performance schedule of a current performance, where the performance schedule includes a plurality of performance nodes;

the electricity utilization type determining module 302 is configured to obtain character information of a target character, determine an electricity utilization type of electric equipment of a current performance node according to the character information and performance arrangement, where the target character is a person who enters and exits a building, and the current performance node is a performance node at a current moment;

the target device operation mode obtaining module 303 is configured to obtain a target device operation mode corresponding to the character information;

The operation parameter adjustment module 304 is configured to adjust an operation parameter of a corresponding electric device based on the performance arrangement, the electricity consumption type of each electric device of the current performance node, the operation mode of the target device, and the character information, so as to reduce the electricity consumption of the electric device.

Optionally, the performance arrangement includes a performance presentation format, and the electricity type includes a continuous electricity type and an intermittent electricity type; the electricity usage type determination module 302 is specifically configured to:

determining a current showing form of the current showing node from the showing forms;

according to the performance arrangement and the current display form, determining an original electricity utilization area corresponding to the current performance node;

based on the current display form, determining first electric equipment corresponding to a current power utilization area at the current performance node at the current moment, and determining the first electric equipment as a continuous power utilization type;

Optionally, the character information includes a building area where the target character is located and the number of people in each building area; the electricity usage type determination module 302 is specifically configured to:

if the number of people in the building area is larger than the single-row threshold number of people, updating the original electricity utilization area according to the building area to obtain the current electricity utilization area;

the energy saving control device 300 of the building further includes an equal standby power region determining module 305 for:

and if the number of people in the building area is smaller than or equal to the single-row threshold number of people, determining the building area as the area waiting for electricity.

Optionally, the energy saving control device 300 of the building further includes a target adaptation data determining module 306, configured to:

determining target adaptation data from historical electricity utilization data, wherein weather data and character information of the target adaptation data correspond to weather data at the current moment and character information at the current moment respectively, and the target adaptation data comprises electricity utilization data of electric equipment;

the target device operation mode obtaining module 303 is specifically configured to:

determining the operation parameters of electric equipment in a building at the current moment based on the target adaptation data and a time sequence analysis algorithm;

and determining the operation mode of the target equipment corresponding to the character information according to the operation parameters at the current moment.

Optionally, the electric equipment comprises building lamps, the current electricity utilization area comprises a performance ornamental area, and the character information comprises character movement tracks; the operation parameter adjustment module 304 is specifically configured to:

detecting current brightness information of a performance ornamental area, wherein the current brightness information comprises lamp plate brightness information;

according to the current brightness information, adjusting the original light display mode to obtain a target light display mode, so that the performance display mode corresponding to the current brightness information and the target light display mode is consistent with the performance display mode corresponding to the original light display mode;

Optionally, the energy saving control device 300 of the building further includes an aggregate information extraction module 307 for:

Building lights include show lights and lighting lights; the operation parameter adjustment module 304 is specifically configured to:

acquiring operation parameters of the performance lamp at the current moment under the corresponding power utilization type and target light display mode;

according to a preset fluctuation data table, determining an original fluctuation parameter corresponding to current environment fluctuation data;

adjusting the operating parameters of the building lamp based on the adjustable parameters;

the method comprises the steps of obtaining a mobile acquisition device associated with a lighting lamp corresponding to a character movement track;

Optionally, the energy saving control device 300 of the building further includes an intermittent operation adjustment module 308 for:

according to the performance node heat information, setting the monitoring frequency of the image acquisition equipment in the waiting power-on area, and controlling the image acquisition equipment to acquire images according to the monitoring frequency;

And adjusting the operation parameters of the electric equipment in the standby power area according to the image acquired by the image acquisition equipment and the image acquired by the mobile acquisition equipment associated with the image acquisition equipment so as to enable the electric equipment in the standby power area to intermittently work.

The apparatus of this embodiment may be used to perform the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein again.

Fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present application, as shown in fig. 4, an electronic device 400 of the present embodiment may include: a memory 401 and a processor 402.

The memory 401 has stored thereon a computer program that can be loaded by the processor 402 and that performs the methods of the above-described embodiments.

Wherein the processor 402 is coupled to the memory 401, e.g. via a bus.

Optionally, the electronic device 400 may also include a transceiver. It should be noted that, in practical applications, the transceiver is not limited to one, and the structure of the electronic device 400 is not limited to the embodiment of the present application.

The processor 402 may be a CPU (Central Processing Unit ), general purpose processor, DSP (Digital Signal Processor, data signal processor), ASIC (Application Specific Integrated Circuit ), FPGA (Field Programmable Gate Array, field programmable gate array) or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this disclosure. Processor 402 may also be a combination that implements computing functionality, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

A bus may include a path that communicates information between the components. The bus may be a PCI (Peripheral Component Interconnect, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. The buses may be divided into address buses, data buses, control buses, etc. For ease of illustration, the figures are shown with only one bold line, but not with only one bus or one type of bus.

Memory 401 may be, but is not limited to, a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory ), a CD-ROM (Compact Disc Read Only Memory, compact disc Read Only Memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 401 is used for storing application program codes for executing the inventive arrangements and is controlled to be executed by the processor 402. The processor 402 is configured to execute the application code stored in the memory 401 to implement what is shown in the foregoing method embodiment.

Among them, electronic devices include, but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. But may also be a server or the like. The electronic device shown in fig. 4 is only an example and should not be construed as limiting the functionality and scope of use of the embodiments of the application.

The electronic device of the present embodiment may be used to execute the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein.

The present application also provides a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the method in the above embodiments.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the method embodiments described above may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

Claims

1. An energy-saving control method for a building, comprising:

2. The method of claim 1, wherein the performance schedule comprises a performance presentation format, the electricity usage type comprising a continuous electricity usage type and an intermittent electricity usage type; the determining the electricity utilization type of the electric equipment of the current performance node according to the character information and the performance arrangement comprises the following steps:

3. The method of claim 2, wherein the persona information includes a building area in which the target persona is located and a number of persons in each building area; the step of updating the original electricity utilization area according to the character information to obtain a current electricity utilization area comprises the following steps:

The method further comprises the steps of:

4. A method according to claim 3, further comprising:

5. The method of claim 4, wherein the powered device comprises a building light, the current powered region comprises a show viewing region, and the persona information comprises a persona movement track; the adjusting the operation parameters of the corresponding electric equipment based on the performance arrangement, the electricity utilization type of each electric equipment of the current performance node, the operation mode of the target equipment and the character information comprises the following steps:

6. The method as recited in claim 5, further comprising:

7. The method as recited in claim 2, further comprising:

8. An energy saving control device for a building, comprising:

9. An electronic device, comprising: a memory and a processor;

the memory is used for storing program instructions;

the processor is configured to call and execute program instructions in the memory to perform the energy saving control method of the building according to any one of claims 1-7.

10. A computer-readable storage medium, wherein the computer-readable storage medium has a computer program stored therein; the computer program, when executed by a processor, implements the energy saving control method of a building as claimed in any one of claims 1-7.