CN113589729A - Intelligent building automatic control method and device - Google Patents

Abstract

The application provides an intelligent building automatic control method and device, and relates to the technical field of intelligent buildings. In the present application, the intelligent building automatic control method includes: processing building monitoring data to be processed sent by building monitoring equipment in communication connection to obtain target building monitoring data corresponding to the building monitoring data to be processed; determining whether operation control parameters of environment adjusting equipment deployed in a target building environment where the building monitoring equipment is located need to be adjusted or not based on the target building monitoring data, wherein the environment adjusting equipment is used for adjusting the target building environment; and if the operation control parameters of the environment adjusting equipment need to be adjusted, adjusting the operation control parameters of the environment adjusting equipment. Based on the method, the problem of poor control effect in the building control process in the prior art can be solved.

Description

Intelligent building automatic control method and device

Technical Field

The application relates to the technical field of intelligent buildings, in particular to an intelligent building automatic control method and device.

Background

The construction of a smart city (SMART CITY) is one of the development strategies of many cities around the world, and the smart city is a huge system engineering and is composed of subsystems such as smart government affairs, smart medical treatment and smart traffic. In which SMART BUILDINGs or SMART BUILDINGs (SMART BUILDING) are an indispensable important part of SMART cities. In the process of realizing the intelligent building, information acquisition is an important step and is the basis and foundation of subsequent control.

However, the inventor researches and discovers that the collected building data is generally used for other monitoring, such as safety monitoring, but not used for controlling the environment adjusting equipment of the building, so that the control of the environment adjusting equipment in the prior art has a problem of poor effect.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an intelligent building automatic control method and apparatus, so as to solve the problem of poor control effect in the building control process in the prior art.

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

an intelligent building automatic control method is applied to building data processing equipment and comprises the following steps:

processing building monitoring data to be processed sent by building monitoring equipment in communication connection to obtain target building monitoring data corresponding to the building monitoring data to be processed, wherein the building monitoring equipment acquires information of a building environment to obtain the building monitoring data to be processed;

determining whether operation control parameters of environment adjusting equipment deployed in a target building environment where the building monitoring equipment is located need to be adjusted or not based on the target building monitoring data, wherein the environment adjusting equipment is used for adjusting the target building environment;

and if the operation control parameters of the environment adjusting equipment need to be adjusted, adjusting the operation control parameters of the environment adjusting equipment.

In a possible embodiment, in the above intelligent building control method, the step of determining whether an operation control parameter of an environmental conditioning device deployed in a target building environment where the building monitoring device is located needs to be adjusted based on the target building monitoring data includes:

determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining a magnitude relationship between the first environmental change information and predetermined environmental change threshold information, wherein the environmental change threshold information is generated based on a threshold configuration operation performed by the building data processing device in response to a corresponding user;

and if the first environment change information is larger than the environment change threshold value information, determining that the operation control parameters of the environment adjusting equipment deployed in the target building environment need to be adjusted.

In a possible embodiment, in the above intelligent building control method, the step of determining whether an operation control parameter of an environmental conditioning device deployed in a target building environment where the building monitoring device is located needs to be adjusted based on the target building monitoring data further includes:

if the first environmental change information is less than or equal to the environmental change threshold information, acquiring current operation control parameters of environmental conditioning equipment deployed in the target building environment;

determining a relationship between the current operation control parameter and a predetermined operation control parameter interval, wherein the operation control parameter interval is generated based on a threshold configuration operation performed by the building data processing equipment in response to a corresponding user;

if the current operation control parameter belongs to the operation control parameter interval, determining that the operation control parameter of the environment adjusting equipment deployed in the target building environment does not need to be adjusted;

and if the current operation control parameter does not belong to the operation control parameter interval, determining that the operation control parameter of the environment adjusting equipment deployed in the target building environment needs to be adjusted.

In a possible embodiment, in the above intelligent building control method, after the step of determining whether an adjustment of an operation control parameter of an environmental conditioning device deployed in a target building environment in which the building monitoring device is located is required based on the target building monitoring data is performed, the intelligent building control method further includes:

if the current operation control parameter does not belong to the operation control parameter interval, determining that the operation state of the environment adjusting equipment deployed in the target building environment belongs to an abnormal state, and acquiring a new operation control parameter of the environment adjusting equipment after executing the step of adjusting the operation control parameter of the environment adjusting equipment if the operation control parameter of the environment adjusting equipment is determined to be required to be adjusted;

determining a relationship between the new operational control parameter and the operational control parameter interval;

and if the new operation control parameter does not belong to the operation control parameter interval, generating equipment operation stop notification information, and sending the equipment operation stop notification information to the environment adjusting equipment, wherein the environment adjusting equipment stops operating based on the equipment operation stop notification information.

In a possible embodiment, in the above intelligent building control method, if it is determined that the operation control parameters of the environmental conditioning equipment need to be adjusted, the step of adjusting the operation control parameters of the environmental conditioning equipment includes:

if the operation control parameters of the environment adjusting equipment are determined to be required to be adjusted, determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining first adjustment proportion information corresponding to the first environmental change information based on a pre-established environmental change-adjustment proportion corresponding relation;

determining a corresponding target operation control parameter based on the current operation control parameter of the environment adjusting equipment and the first adjustment proportion information;

and generating corresponding operation control information based on the target operation control parameters, and sending the operation control information to the environment adjusting equipment, wherein the environment adjusting equipment is used for operating based on the target operation control parameters carried by the operation control information.

In a possible embodiment, in the above-mentioned intelligent building control method, after performing the step of adjusting the operation control parameters of the environmental conditioning equipment if it is determined that the operation control parameters of the environmental conditioning equipment need to be adjusted, the intelligent building control method further includes:

determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining first acquisition frequency information corresponding to the first environmental change information based on a pre-established environmental change-acquisition frequency corresponding relation, and acquiring acquisition frequency of the building monitoring equipment for acquiring information of the target building environment to obtain corresponding second acquisition frequency information;

and adjusting the acquisition frequency of the building monitoring equipment for information acquisition based on the magnitude relation between the first acquisition frequency information and the second acquisition frequency information.

In a possible embodiment, in the above intelligent building control method, the step of adjusting the acquisition frequency of the building monitoring device for information acquisition based on the magnitude relationship between the first acquisition frequency information and the second acquisition frequency information includes:

determining the magnitude relation between the first acquisition frequency information and the second acquisition frequency information;

if the frequency difference value between the first acquisition frequency information and the second acquisition frequency information is greater than or equal to a predetermined frequency difference value threshold value, adjusting the acquisition frequency of the building monitoring equipment for information acquisition based on the frequency difference value, wherein the frequency difference value threshold value is generated based on threshold configuration operation of the building data processing equipment in response to a corresponding user;

and if the frequency difference between the first acquisition frequency information and the second acquisition frequency information is smaller than the frequency difference threshold value, determining that the acquisition frequency of the building monitoring equipment for information acquisition is not adjusted.

This application still provides a wisdom building automatic control device, is applied to building data processing equipment, wisdom building automatic control device includes:

the building monitoring data processing module is used for processing building monitoring data to be processed sent by building monitoring equipment in communication connection to obtain target building monitoring data corresponding to the building monitoring data to be processed, wherein the building monitoring equipment acquires information of a building environment to obtain the building monitoring data to be processed;

a control parameter adjustment determining module, configured to determine, based on the target building monitoring data, whether an operation control parameter of an environment adjusting device deployed in a target building environment where the building monitoring device is located needs to be adjusted, where the environment adjusting device is used to adjust the target building environment;

and the operation control parameter adjusting module is used for adjusting the operation control parameters of the environment adjusting equipment if the operation control parameters of the environment adjusting equipment need to be adjusted.

In a possible embodiment, in the above intelligent building automatic control device, the control parameter adjustment determining module is specifically configured to:

determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining a magnitude relationship between the first environmental change information and predetermined environmental change threshold information, wherein the environmental change threshold information is generated based on a threshold configuration operation performed by the building data processing device in response to a corresponding user;

and if the first environment change information is larger than the environment change threshold value information, determining that the operation control parameters of the environment adjusting equipment deployed in the target building environment need to be adjusted.

In a possible embodiment, in the above intelligent building automatic control device, the operation control parameter adjusting module is specifically configured to:

if the operation control parameters of the environment adjusting equipment are determined to be required to be adjusted, determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining first adjustment proportion information corresponding to the first environmental change information based on a pre-established environmental change-adjustment proportion corresponding relation;

determining a corresponding target operation control parameter based on the current operation control parameter of the environment adjusting equipment and the first adjustment proportion information;

and generating corresponding operation control information based on the target operation control parameters, and sending the operation control information to the environment adjusting equipment, wherein the environment adjusting equipment is used for operating based on the target operation control parameters carried by the operation control information.

According to the intelligent building automatic control method and device, after the corresponding target building monitoring data are obtained based on the building monitoring data to be processed sent by the building monitoring equipment, whether the operation control parameters of the environment adjusting equipment deployed in the target building environment where the building monitoring equipment is located need to be adjusted or not can be determined based on the target building monitoring data, and the operation control parameters of the environment adjusting equipment can be adjusted when the operation control parameters of the environment adjusting equipment need to be adjusted.

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 an application block diagram of a building data processing device according to an embodiment of the present application.

Fig. 2 is a schematic flowchart illustrating steps included in the intelligent building automatic control method according to an embodiment of the present disclosure.

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 a building data processing device. Wherein the building data processing device may include a memory and a processor.

In detail, the memory and the processor are electrically connected directly or indirectly to realize data transmission 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, so as to implement the intelligent building control method provided by the embodiments (described later) of the present application.

It is understood that in an alternative example, the Memory may be, but is not limited to, a Random Access Memory (RAM), a Read Only Memory (ROM), a Programmable Read Only Memory (PROM), an Erasable Read Only Memory (EPROM), an electrically Erasable Read Only Memory (EEPROM), and the like. The Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), a System on Chip (SoC), and the like; but may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components.

It will be appreciated that in an alternative example, the configuration shown in fig. 1 is merely illustrative, and that the building data processing device may also include more or fewer components than shown in fig. 1, or have a different configuration than shown in fig. 1, for example, may include a communication unit for information interaction with other devices (e.g., the building monitoring device shown in fig. 1, which may be various sensors, as well as a camera, audio collector).

It will be appreciated that in an alternative example, the building data processing device may be a server with data processing capabilities.

With reference to fig. 2, an embodiment of the present application further provides an intelligent building automatic control method, which is applicable to the building data processing device. The method steps defined by the flow related to the intelligent building automatic control method can be realized by the building data processing equipment.

The specific process shown in FIG. 2 will be described in detail below.

Step S110, building monitoring data to be processed sent by the building monitoring equipment in communication connection is processed, and target building monitoring data corresponding to the building monitoring data to be processed are obtained.

In this embodiment, the building data processing device may process the building monitoring data to be processed sent by the building monitoring device in communication connection, so as to obtain target building monitoring data corresponding to the building monitoring data to be processed.

The building monitoring equipment can acquire information of the building environment to obtain the building monitoring data to be processed.

Step S120, determining whether the operation control parameters of the environment adjusting equipment deployed in the target building environment where the building monitoring equipment is located need to be adjusted or not based on the target building monitoring data.

In this embodiment, after obtaining the target building monitoring data based on step S110, the building data processing device may determine whether an operation control parameter of an environment adjusting device deployed in a target building environment where the building monitoring device is located needs to be adjusted based on the target building monitoring data, where the environment adjusting device is used to adjust the target building environment.

And, if it is determined that the operation control parameter of the environment adjusting apparatus needs to be adjusted, step S130 may be performed.

Step S130, adjusting the operation control parameter of the environment adjusting apparatus.

In this embodiment, the building data processing device may adjust the operation control parameters of the environmental conditioning device upon determining that the adjustment of the operation control parameters of the environmental conditioning device is required based on step S120.

Based on the steps, after the corresponding target building monitoring data is obtained based on the building monitoring data to be processed sent by the building monitoring equipment, whether the operation control parameters of the environment adjusting equipment deployed in the target building environment where the building monitoring equipment is located need to be adjusted or not can be determined based on the target building monitoring data, and the operation control parameters of the environment adjusting equipment can be adjusted when the operation control parameters of the environment adjusting equipment need to be adjusted.

In the first aspect, it should be noted that, when step S110 is executed, in an alternative example, the target building monitoring data may be obtained based on step S111, step S112 and step S113.

And step S111, acquiring a building monitoring data packet sent by the building monitoring equipment in communication connection with the building data processing equipment.

In this embodiment, the building data processing device may first obtain a building monitoring data packet sent by a building monitoring device in communication connection. The building monitoring data packet is obtained by acquiring information of the building environment based on the building monitoring equipment.

And step S112, analyzing the building monitoring data packet to obtain building monitoring data to be processed, wherein the building monitoring data packet comprises the building monitoring data.

In this embodiment, after the building monitoring data packet is acquired based on step S111, the building data processing device may analyze and process the building monitoring data packet, so as to obtain the building monitoring data to be processed included in the building monitoring data packet.

Step S113, sampling the building monitoring data to be processed to obtain target building monitoring data corresponding to the building monitoring data to be processed.

In this embodiment, after obtaining the building monitoring data to be processed based on step S112, the building data processing device may perform sampling processing on the building monitoring data to be processed, so as to obtain target building monitoring data corresponding to the building monitoring data to be processed.

And the data volume of the target building monitoring data is less than or equal to that of the building monitoring data to be processed, namely, the data volume is reduced to a certain extent.

Based on the steps, after the building monitoring data packet is obtained, the corresponding building monitoring data to be processed is obtained through analysis, then the building monitoring data to be processed is sampled and processed, and the corresponding target building monitoring data is obtained.

It is understood that in an alternative example, when step S111 is executed, the building monitoring data packet may be obtained based on the following steps:

firstly, judging whether a building data acquisition instruction is received or not, wherein the building data processing equipment is in communication connection with a building monitoring terminal (such as a mobile phone of a user and other terminal equipment), and the building monitoring terminal is used for generating the building data acquisition instruction based on building data acquisition operation performed by a corresponding building monitoring user;

secondly, if the building data acquisition instruction sent by the building monitoring terminal is received, determining corresponding building monitoring equipment (such as building monitoring equipment in a certain area) based on building environment identification information carried by the building data acquisition instruction;

then, sending the generated building data acquisition information to the determined building monitoring equipment, wherein the building monitoring equipment is used for acquiring information of the building environment based on the building data acquisition information to obtain corresponding building monitoring data;

and finally, acquiring a building monitoring data packet which is formed and sent by the building monitoring equipment based on the acquired building monitoring data.

It will be appreciated that in an alternative example, the building monitoring data packet formed and transmitted by the building monitoring device may be obtained based on the following steps:

firstly, after sending the generated building data acquisition information to the determined building monitoring equipment, building data acquisition confirmation information can be generated, and the building data acquisition confirmation information is sent to the building monitoring equipment, wherein the building monitoring equipment is used for sending first time information (namely the starting time of acquisition information) for starting information acquisition to the building data processing equipment based on the data acquisition confirmation information;

secondly, acquiring first time information sent by the building monitoring equipment based on the building data acquisition confirmation information, generating building data acquisition notification information after a predetermined first time length (starting from the first time information and continuing for the first time length) based on the first time information, and sending the building data acquisition notification information to the building monitoring equipment, wherein the building monitoring equipment is used for packaging building monitoring data acquired from the first time information based on the building data acquisition notification information to form a building monitoring data packet;

and then, acquiring a building monitoring data packet sent by the building monitoring equipment based on the building data acquisition notification information.

It is understood that, in an alternative example, when the step S112 is executed, the building monitoring data packet may be parsed and processed based on the following steps to obtain the building monitoring data to be processed included in the building monitoring data packet:

firstly, acquiring predetermined protocol type information (a data format protocol);

secondly, analyzing and processing the building monitoring data packet based on the protocol type information to obtain the building monitoring data to be processed included in the building monitoring data packet.

It is understood that, in an alternative example, the building monitoring data packet may be parsed based on the protocol type information based on the following steps to obtain the building monitoring data to be processed included in the building monitoring data packet:

firstly, analyzing and processing the building monitoring data packet based on the protocol type information to obtain a plurality of building monitoring data segments with a precedence relationship (wherein one building monitoring data segment is obtained by performing information acquisition at one moment based on the building monitoring equipment, such as a video frame or an audio frame, or the temperature and the humidity at one moment);

secondly, determining whether a target building monitoring data segment exists in the plurality of building monitoring data segments, wherein the target building monitoring data segment is formed based on target identification information (for example, when the building monitoring equipment forms the building monitoring data packet, a specific building monitoring data segment can be processed to form target identification information to replace the building monitoring data segment, so as to reduce the data volume);

then, if the target building monitoring data segments exist, performing data recovery processing on the target building monitoring data segments to form corresponding building monitoring data segments aiming at each target building monitoring data segment;

and finally, forming the building monitoring data to be processed included in the building monitoring data packet based on all the obtained building monitoring data segments.

It will be appreciated that in an alternative example, the data recovery processing for each of the target building monitoring data segments to form corresponding building monitoring data segments may be based on the following steps:

firstly, if the target building monitoring data segments exist, determining a previous building monitoring data segment and a next building monitoring data segment corresponding to each target building monitoring data segment based on the precedence relationship among the building monitoring data segments;

and secondly, for each target building monitoring data segment, performing data recovery processing on the target building monitoring data segment based on a previous building monitoring data segment and a next building monitoring data segment corresponding to the target building monitoring data segment to obtain a corresponding building monitoring data segment.

It is understood that, in an alternative example, the following steps may be performed to determine, for each of the target building monitoring data segments, a previous building monitoring data segment and a next building monitoring data segment corresponding to the target building monitoring data segment based on the precedence relationship between the building monitoring data segments:

firstly, if the target building monitoring data segments exist, determining whether two adjacent target building monitoring data segments exist based on the precedence relationship among the building monitoring data segments;

on one hand, for each target building monitoring data segment without other adjacent target building monitoring data segments, determining a previous building monitoring data segment and a next building monitoring data segment corresponding to the target building monitoring data segment based on the precedence relationship among the multiple building monitoring data segments (namely, the corresponding previous building monitoring data segment and the corresponding next building monitoring data segment comprise all data of the target building monitoring data segment, and thus, the target building monitoring data segment can be recovered);

on the other hand, for two adjacent target building monitoring data segments, the previous building monitoring data segment and the next building monitoring data segment of the two target building monitoring data segments as a whole are determined based on the precedence relationship between the multiple building monitoring data segments (that is, the corresponding previous building monitoring data segment and the corresponding next building monitoring data segment include all data of the two target building monitoring data segments, and thus, the restoration can be performed).

It is understood that, in an alternative example, the following steps may be performed to perform, for each of the target building monitoring data segments, data recovery processing on the target building monitoring data segment based on a previous building monitoring data segment and a next building monitoring data segment corresponding to the target building monitoring data segment, so as to obtain a corresponding building monitoring data segment:

firstly, for each target building monitoring data segment, acquiring partial monitoring data in a corresponding previous building monitoring data segment based on the target identification information and the first target identification sub-information corresponding to the target building monitoring data segment, and acquiring partial monitoring data in a corresponding next building monitoring data segment based on the target identification information and the second target identification sub-information corresponding to the target building monitoring data segment to obtain first partial monitoring data and second partial monitoring data corresponding to the target building monitoring data segment;

secondly, for each target building monitoring data segment, based on that the target identification information corresponding to the target building monitoring data segment includes third target identification sub-information, combining the first part of monitoring data and the second part of monitoring data corresponding to the target building monitoring data segment to obtain the building monitoring data segment corresponding to the target building monitoring data segment (for example, combining the left part of the previous frame of image with the right part of the next frame of image to obtain a frame of image in the middle of the two frames of images), where the third target identification sub-information is used to represent the relationship between the corresponding first part of monitoring data and the second part of monitoring data.

It is understood that, in an alternative example, when step S113 is executed, the target building monitoring data corresponding to the building monitoring data to be processed may be obtained by performing sampling processing on the building monitoring data to be processed based on the following steps:

firstly, determining data relation and precedence relation among a plurality of building monitoring data segments included in the building monitoring data to be processed, and thus respectively obtaining corresponding first data relation information and first precedence relation information;

secondly, sampling and screening the plurality of building monitoring data segments based on the first data relationship information and the first precedence relationship information to obtain at least one corresponding building monitoring data segment, and using the at least one building monitoring data segment as target building monitoring data corresponding to the building monitoring data to be processed.

It is understood that, in an alternative example, the plurality of building monitoring data segments may be sampled and screened based on the first data relationship information and the first precedence relationship information to obtain at least one corresponding building monitoring data segment, and the at least one corresponding building monitoring data segment is used as target building monitoring data corresponding to the building monitoring data to be processed, based on the following steps:

firstly, sequencing the plurality of building monitoring data segments based on the first precedence relationship information to obtain a corresponding building monitoring data segment ordered set;

secondly, sampling and screening the building monitoring data segment ordered set based on the first data relation information to obtain at least one corresponding building monitoring data segment, and using the building monitoring data segment as target building monitoring data corresponding to the building monitoring data to be processed.

It is understood that, in an alternative example, the step of sampling and screening the ordered set of building monitoring data segments based on the first data relationship information may be performed based on the following steps to obtain at least one corresponding building monitoring data segment, and the at least one corresponding building monitoring data segment is used as target building monitoring data corresponding to the building monitoring data to be processed:

the method comprises the steps of firstly, calculating data similarity between each building monitoring data segment in the building monitoring data segment ordered set and each history screening data segment in a plurality of predetermined history screening data segments, wherein each history screening data segment is screened out based on historical sampling screening processing (or some representative history screening data segments are screened out in the screening out process);

secondly, performing fusion processing (such as multiplication processing or addition processing) on each building monitoring data segment based on the data similarity corresponding to the building monitoring data segment to obtain the fusion similarity corresponding to the building monitoring data segment;

thirdly, determining whether the set position information of each building monitoring data segment in the building monitoring data segment ordered set belongs to similarity mutation position information or not based on the size relation between the fusion similarity corresponding to the building monitoring data segment and a predetermined similarity threshold value, wherein if the fusion similarity is greater than the similarity threshold value, the corresponding set position information is determined to be the similarity mutation position information;

fourthly, aiming at each similarity mutation position information, determining a difference value of fusion similarity corresponding to a building monitoring data segment corresponding to the similarity mutation position information and a subsequent building monitoring data segment to obtain a similarity difference value corresponding to the similarity mutation position information;

fifthly, determining a similarity difference value with a maximum value and a similarity difference value with a minimum value from the obtained similarity difference values, and normalizing the similarity difference values (which may refer to related normalization prior art and is not specifically limited herein) based on the similarity difference value with the maximum value and the similarity difference value with the minimum value to obtain a similarity normalized value corresponding to each similarity difference value;

seventhly, performing fusion processing (such as multiplication) on the fusion similarity and the similarity normalization value corresponding to the similarity mutation position information aiming at each similarity mutation position information to obtain a fusion coefficient corresponding to the similarity mutation position information;

eighthly, screening the similarity mutation position information based on a fusion coefficient corresponding to the similarity mutation position information to obtain a plurality of target similarity mutation position information, wherein the fusion coefficient corresponding to the target similarity mutation position information is larger than a pre-configured fusion coefficient threshold value;

ninthly, dividing the building monitoring data segment ordered sets based on the target similarity mutation position information to obtain corresponding building monitoring data segment ordered subsets;

and tenth, respectively carrying out sampling screening processing (for example, carrying out sampling processing according to a certain sampling frequency, and carrying out selection or partial screening corresponding to a plurality of adjacent same or similar building monitoring data segments) on each building monitoring data segment ordered subset to obtain at least one corresponding building monitoring data segment, and using the at least one building monitoring data segment as target building monitoring data corresponding to the building monitoring data to be processed.

In a second aspect, it should be noted that, in the execution of step S120, in an alternative example, it may be determined whether the operation control parameters of the environment adjusting device deployed in the target building environment where the building monitoring device is located need to be adjusted based on the target building monitoring data based on the following steps:

firstly, determining the environmental change of a target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information (such as people number change, temperature change and the like in the target building environment);

secondly, determining the magnitude relation between the first environment change information and predetermined environment change threshold information, wherein the environment change threshold information is generated based on threshold configuration operation of the building data processing equipment responding to a corresponding user;

then, if the first environmental change information is greater than the environmental change threshold information, it is determined that the operation control parameters of the environmental conditioning equipment deployed in the target building environment need to be adjusted (that is, the target building environment changes greatly, and thus the operation control parameters of the corresponding environmental conditioning equipment need to be adjusted, and if the number of people changes greatly, the environment parameters such as temperature or wind speed can be correspondingly adjusted, that is, the operation control parameters of the environmental conditioning equipment need to be adjusted).

It is understood that in an alternative example, when step S120 is executed, it may be further determined whether an adjustment of an operation control parameter of an environmental conditioning device deployed in the target building environment is required based on the target building monitoring data based on the following steps:

firstly, if the first environment change information is less than or equal to the environment change threshold information, acquiring current operation control parameters of environment adjusting equipment deployed in the target building environment;

secondly, determining the relation between the current operation control parameter and a predetermined operation control parameter interval, wherein the operation control parameter interval is generated based on the threshold value configuration operation of the building data processing equipment responding to a corresponding user;

then, if the current operation control parameter belongs to the operation control parameter interval (indicating that the environment adjusting equipment operates normally), determining that the operation control parameter of the environment adjusting equipment deployed in the target building environment does not need to be adjusted;

and finally, if the current operation control parameter does not belong to the operation control parameter interval (indicating that the environment adjusting equipment operates abnormally), determining that the operation control parameter of the environment adjusting equipment deployed in the target building environment needs to be adjusted.

It is understood that, on the basis of the above example, in an alternative example, the intelligent building control method may further include the following steps:

firstly, if the current operation control parameter does not belong to the operation control parameter interval, determining that the operation state of the environment adjusting equipment deployed in the target building environment belongs to an abnormal state, and after executing the step of adjusting the operation control parameter of the environment adjusting equipment if the operation control parameter of the environment adjusting equipment is determined to be required to be adjusted, acquiring a new operation control parameter of the environment adjusting equipment;

secondly, determining the relationship between the new operation control parameter (namely the adjusted operation control parameter) and the operation control parameter interval;

then, if the new operation control parameter does not belong to the operation control parameter interval (indicating that the operation of the environmental regulation apparatus has not been controlled, such as being subjected to intervention control by another apparatus or a program running away), apparatus operation stop notification information is generated and transmitted to the environmental regulation apparatus, wherein the environmental regulation apparatus stops operating based on the apparatus operation stop notification information.

In a third aspect, it is noted that, in the execution of step S130, in an alternative example, the operation control parameter may be adjusted when it is determined that the operation control parameter of the environment adjusting apparatus needs to be adjusted based on the following steps:

firstly, if the operation control parameters of the environment adjusting equipment are determined to be required to be adjusted, determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

secondly, determining first adjustment proportion information corresponding to the first environmental change information based on a pre-established environmental change-adjustment proportion corresponding relationship, for example, the larger the first environmental change information is, the larger the corresponding first adjustment proportion information is;

then, determining a corresponding target operation control parameter based on the current operation control parameter of the environment adjusting equipment and the first adjustment proportion information;

and finally, generating corresponding operation control information based on the target operation control parameter, and sending the operation control information to the environment adjusting equipment, wherein the environment adjusting equipment is used for operating based on the target operation control parameter carried by the operation control information.

It is understood that, on the basis of the above example, in an alternative example, the intelligent building control method may further include the following steps:

firstly, determining the environmental change of a target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

secondly, determining first acquisition frequency information corresponding to the first environmental change information (if people or monitored objects in the target building environment become more, first acquisition frequency information larger than second acquisition frequency information can be obtained, and if people in the target building environment become less, first acquisition frequency information smaller than the second acquisition frequency information can be obtained) based on a pre-established environmental change-acquisition frequency corresponding relation, and acquiring acquisition frequency of the building monitoring equipment for acquiring information of the target building environment to obtain corresponding second acquisition frequency information;

and then, adjusting the acquisition frequency of the building monitoring equipment for information acquisition based on the magnitude relation between the first acquisition frequency information and the second acquisition frequency information.

It will be appreciated that in an alternative example, the acquisition frequency of information acquisition by the building monitoring device may be adjusted based on the magnitude relationship of the first acquisition frequency information and the second acquisition frequency information based on the following steps:

firstly, determining the magnitude relation between the first acquisition frequency information and the second acquisition frequency information, such as determining the magnitude relation between a frequency difference value between the first acquisition frequency information and the second acquisition frequency information and a predetermined frequency difference value threshold;

secondly, if the frequency difference between the first acquisition frequency information and the second acquisition frequency information is greater than or equal to a predetermined frequency difference threshold, adjusting the acquisition frequency of the building monitoring equipment for information acquisition based on the frequency difference (the larger the frequency difference is, the larger the adjustment range of the acquisition frequency of the building monitoring equipment for information acquisition is, if the number of monitored objects is increased, the corresponding acquisition frequency can be increased, and the number of monitored objects is decreased, the corresponding acquisition frequency can be decreased), wherein the frequency difference threshold is generated based on the threshold configuration operation of the building data processing equipment in response to the corresponding user;

then, if the frequency difference between the first acquisition frequency information and the second acquisition frequency information is smaller than the frequency difference threshold, it is determined that the acquisition frequency for acquiring information of the building monitoring equipment is not adjusted.

The embodiment of the application also provides an intelligent building automatic control device which can be applied to the building data processing equipment. The intelligent building automatic control device can comprise a building monitoring data processing module, a control parameter adjustment determining module and an operation control parameter adjusting module.

In detail, the building monitoring data processing module (as in the step S110) may be configured to process building monitoring data to be processed sent by a building monitoring device in communication connection to obtain target building monitoring data corresponding to the building monitoring data to be processed, where the building monitoring device acquires information of a building environment where the building monitoring device is located to obtain the building monitoring data to be processed. The control parameter adjustment determining module (as the aforementioned step S120) may be configured to determine whether an operation control parameter of an environment adjusting device deployed in a target building environment where the building monitoring device is located needs to be adjusted based on the target building monitoring data, where the environment adjusting device is configured to adjust the target building environment. The operation control parameter adjusting module (as in the foregoing step S130) may be configured to adjust the operation control parameter of the environmental conditioning equipment if it is determined that the operation control parameter of the environmental conditioning equipment needs to be adjusted.

It is to be appreciated that, in an alternative example, the control parameter adjustment determination module may be specifically configured to: determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information; determining a magnitude relationship between the first environmental change information and predetermined environmental change threshold information, wherein the environmental change threshold information is generated based on a threshold configuration operation performed by the building data processing device in response to a corresponding user; and if the first environment change information is larger than the environment change threshold value information, determining that the operation control parameters of the environment adjusting equipment deployed in the target building environment need to be adjusted.

It is understood that, in an alternative example, the operation control parameter adjustment module may be specifically configured to: if the operation control parameters of the environment adjusting equipment are determined to be required to be adjusted, determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information; determining first adjustment proportion information corresponding to the first environmental change information based on a pre-established environmental change-adjustment proportion corresponding relation; determining a corresponding target operation control parameter based on the current operation control parameter of the environment adjusting equipment and the first adjustment proportion information; and generating corresponding operation control information based on the target operation control parameters, and sending the operation control information to the environment adjusting equipment, wherein the environment adjusting equipment is used for operating based on the target operation control parameters carried by the operation control information.

To sum up, the application provides a wisdom building automatic control method and device, after waiting to handle building monitoring data and obtaining corresponding target building monitoring data based on building monitoring equipment sends, can confirm whether need to adjust the operation control parameter of the environmental control equipment that the target building environment of building monitoring equipment place was arranged based on target building monitoring data, and adjust the operation control parameter of environmental control equipment when confirming that needs adjust the operation control parameter of environmental control equipment, thus, can make the operation control parameter of environmental control equipment can be more reliable effective, thereby improve the problem that the in-process of building control among the prior art has control effect not good, and, the utilization ratio of the building monitoring data who obtains has effectively still been improved.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method can be implemented in other ways. The apparatus and method embodiments described above are illustrative only, as the flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, an electronic device, or a network device) to perform all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes. It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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 intelligent building automatic control method is applied to building data processing equipment and comprises the following steps:

processing building monitoring data to be processed sent by building monitoring equipment in communication connection to obtain target building monitoring data corresponding to the building monitoring data to be processed, wherein the building monitoring equipment acquires information of a building environment to obtain the building monitoring data to be processed;

determining whether operation control parameters of environment adjusting equipment deployed in a target building environment where the building monitoring equipment is located need to be adjusted or not based on the target building monitoring data, wherein the environment adjusting equipment is used for adjusting the target building environment;

and if the operation control parameters of the environment adjusting equipment need to be adjusted, adjusting the operation control parameters of the environment adjusting equipment.

2. The intelligent building automatic control method according to claim 1, wherein the step of determining whether an operation control parameter of an environmental conditioning device deployed in a target building environment where the building monitoring device is located needs to be adjusted based on the target building monitoring data comprises:

determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining a magnitude relationship between the first environmental change information and predetermined environmental change threshold information, wherein the environmental change threshold information is generated based on a threshold configuration operation performed by the building data processing device in response to a corresponding user;

and if the first environment change information is larger than the environment change threshold value information, determining that the operation control parameters of the environment adjusting equipment deployed in the target building environment need to be adjusted.

3. The intelligent building control method according to claim 2, wherein the step of determining whether an operation control parameter of an environmental conditioning device deployed in a target building environment in which the building monitoring device is located needs to be adjusted based on the target building monitoring data further comprises:

if the first environmental change information is less than or equal to the environmental change threshold information, acquiring current operation control parameters of environmental conditioning equipment deployed in the target building environment;

determining a relationship between the current operation control parameter and a predetermined operation control parameter interval, wherein the operation control parameter interval is generated based on a threshold configuration operation performed by the building data processing equipment in response to a corresponding user;

if the current operation control parameter belongs to the operation control parameter interval, determining that the operation control parameter of the environment adjusting equipment deployed in the target building environment does not need to be adjusted;

and if the current operation control parameter does not belong to the operation control parameter interval, determining that the operation control parameter of the environment adjusting equipment deployed in the target building environment needs to be adjusted.

4. The intelligent building control method according to claim 3, wherein after the step of determining whether an adjustment of an operation control parameter of an environmental conditioning device deployed in a target building environment in which the building monitoring device is located is required based on the target building monitoring data is performed, the intelligent building control method further comprises:

if the current operation control parameter does not belong to the operation control parameter interval, determining that the operation state of the environment adjusting equipment deployed in the target building environment belongs to an abnormal state, and acquiring a new operation control parameter of the environment adjusting equipment after executing the step of adjusting the operation control parameter of the environment adjusting equipment if the operation control parameter of the environment adjusting equipment is determined to be required to be adjusted;

determining a relationship between the new operational control parameter and the operational control parameter interval;

and if the new operation control parameter does not belong to the operation control parameter interval, generating equipment operation stop notification information, and sending the equipment operation stop notification information to the environment adjusting equipment, wherein the environment adjusting equipment stops operating based on the equipment operation stop notification information.

5. The intelligent building automatic control method according to claim 1, wherein the step of adjusting the operation control parameters of the environmental conditioning equipment if it is determined that the operation control parameters of the environmental conditioning equipment need to be adjusted comprises:

if the operation control parameters of the environment adjusting equipment are determined to be required to be adjusted, determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining first adjustment proportion information corresponding to the first environmental change information based on a pre-established environmental change-adjustment proportion corresponding relation;

determining a corresponding target operation control parameter based on the current operation control parameter of the environment adjusting equipment and the first adjustment proportion information;

and generating corresponding operation control information based on the target operation control parameters, and sending the operation control information to the environment adjusting equipment, wherein the environment adjusting equipment is used for operating based on the target operation control parameters carried by the operation control information.

6. The intelligent building control method according to any one of claims 1 to 5, wherein after performing the step of adjusting the operation control parameters of the environmental conditioning equipment if it is determined that the operation control parameters of the environmental conditioning equipment need to be adjusted, the intelligent building control method further comprises:

determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining first acquisition frequency information corresponding to the first environmental change information based on a pre-established environmental change-acquisition frequency corresponding relation, and acquiring acquisition frequency of the building monitoring equipment for acquiring information of the target building environment to obtain corresponding second acquisition frequency information;

and adjusting the acquisition frequency of the building monitoring equipment for information acquisition based on the magnitude relation between the first acquisition frequency information and the second acquisition frequency information.

7. The intelligent building automatic control method according to claim 6, wherein the step of adjusting the collection frequency of the building monitoring device for information collection based on the magnitude relationship between the first collection frequency information and the second collection frequency information comprises:

determining the magnitude relation between the first acquisition frequency information and the second acquisition frequency information;

if the frequency difference value between the first acquisition frequency information and the second acquisition frequency information is greater than or equal to a predetermined frequency difference value threshold value, adjusting the acquisition frequency of the building monitoring equipment for information acquisition based on the frequency difference value, wherein the frequency difference value threshold value is generated based on threshold configuration operation of the building data processing equipment in response to a corresponding user;

and if the frequency difference between the first acquisition frequency information and the second acquisition frequency information is smaller than the frequency difference threshold value, determining that the acquisition frequency of the building monitoring equipment for information acquisition is not adjusted.

8. The utility model provides an intelligent building automatic control device which characterized in that is applied to building data processing equipment, intelligent building automatic control device includes:

the building monitoring data processing module is used for processing building monitoring data to be processed sent by building monitoring equipment in communication connection to obtain target building monitoring data corresponding to the building monitoring data to be processed, wherein the building monitoring equipment acquires information of a building environment to obtain the building monitoring data to be processed;

a control parameter adjustment determining module, configured to determine, based on the target building monitoring data, whether an operation control parameter of an environment adjusting device deployed in a target building environment where the building monitoring device is located needs to be adjusted, where the environment adjusting device is used to adjust the target building environment;

and the operation control parameter adjusting module is used for adjusting the operation control parameters of the environment adjusting equipment if the operation control parameters of the environment adjusting equipment need to be adjusted.

9. The intelligent building automation device of claim 8, wherein the control parameter adjustment determination module is specifically configured to:

determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining a magnitude relationship between the first environmental change information and predetermined environmental change threshold information, wherein the environmental change threshold information is generated based on a threshold configuration operation performed by the building data processing device in response to a corresponding user;

and if the first environment change information is larger than the environment change threshold value information, determining that the operation control parameters of the environment adjusting equipment deployed in the target building environment need to be adjusted.

10. The intelligent building control apparatus according to claim 8, wherein the operation control parameter adjustment module is specifically configured to:

if the operation control parameters of the environment adjusting equipment are determined to be required to be adjusted, determining the environmental change of the target building environment where the building monitoring equipment is located based on the target building monitoring data to obtain corresponding first environmental change information;

determining first adjustment proportion information corresponding to the first environmental change information based on a pre-established environmental change-adjustment proportion corresponding relation;

determining a corresponding target operation control parameter based on the current operation control parameter of the environment adjusting equipment and the first adjustment proportion information;

and generating corresponding operation control information based on the target operation control parameters, and sending the operation control information to the environment adjusting equipment, wherein the environment adjusting equipment is used for operating based on the target operation control parameters carried by the operation control information.

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