CN114285687B - Intelligent control method and intelligent control device of environment monitoring equipment and electronic equipment - Google Patents

Intelligent control method and intelligent control device of environment monitoring equipment and electronic equipment Download PDF

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CN114285687B
CN114285687B CN202111552799.1A CN202111552799A CN114285687B CN 114285687 B CN114285687 B CN 114285687B CN 202111552799 A CN202111552799 A CN 202111552799A CN 114285687 B CN114285687 B CN 114285687B
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threshold
people
target area
adjustment
monitoring equipment
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CN114285687A (en
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唐树财
宋汉冲
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Shenzhen Oribo Technology Co Ltd
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Shenzhen Oribo Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

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Abstract

The application discloses an intelligent control method and an intelligent control device of environment monitoring equipment and electronic equipment. The method comprises the following steps: the method comprises the steps of obtaining the number of people in a target area, wherein the target area represents a monitoring coverage area of an environment monitoring device, and the environment monitoring device is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds. And if the number of people is greater than the preset number of people, determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area. The specified threshold is adjusted based on a threshold adjustment policy. According to the intelligent control method provided by the application, the number of people in the target area is used as the adjustment basis of the threshold value in the environment monitoring equipment, and when a plurality of people exist in the target area, the threshold value in the environment monitoring equipment is automatically adjusted, so that the probability of occurrence of false alarm, false start and other conditions of the intelligent home system is reduced, and the use experience of users is improved.

Description

Intelligent control method and intelligent control device of environment monitoring equipment and electronic equipment
Technical Field
The application relates to the technical field of intelligent home, in particular to an intelligent control method and an intelligent control device of environment monitoring equipment and electronic equipment.
Background
In the current intelligent home system, each environment monitoring device is provided with a corresponding fixed threshold value, and when the detection parameter meets the condition corresponding to the specified threshold value, a preset function is executed. For example, the temperature monitoring device is provided with a corresponding high-temperature threshold, and when the detected indoor temperature is greater than the high-temperature threshold, the intelligent home system controls the air conditioner to start a refrigeration mode; in another example, the air quality environment monitoring device is provided with a corresponding alarm threshold, and when the index of the indoor air quality is detected to be larger than the alarm threshold, a whistle alarm is carried out.
In the prior art, under some special scenes, such as a multi-person gathering scene, the number of people is more, and the personnel activities during gathering are more complex, the indoor air environment is worse under the conditions of similar barbecue gathering, hot pot gathering and the like, but the indoor environment is still monitored by adopting a fixed threshold, so that the intelligent home system is easy to have false alarm and false start, and the inconvenience is caused to the daily use of a user.
Disclosure of Invention
The embodiment of the application provides an intelligent control method and an intelligent control device for environment monitoring equipment and electronic equipment.
In a first aspect, some embodiments of the present application provide an intelligent control method for an environmental monitoring device, where the intelligent control method includes: and acquiring the number of people in a target area, wherein the target area represents the monitoring coverage area of the environment monitoring equipment. The environment monitoring device is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds, and the specified thresholds are used for representing critical values for enabling the environment monitoring device to switch working states. And if the number of people is greater than the preset number of people, determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area. The specified threshold is adjusted based on a threshold adjustment policy.
In a second aspect, some embodiments of the present application provide an intelligent control apparatus for an environmental monitoring device, the intelligent control apparatus including: the system comprises a population determining module, a threshold adjustment strategy determining module and a threshold adjustment module. The people number determining module is used for acquiring the number of people in a target area, and the target area represents the monitoring coverage area of the environment monitoring equipment. The environment monitoring device is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds, and the specified thresholds are used for representing critical values for enabling the environment monitoring device to switch working states. The threshold adjustment strategy determining module is used for determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area if the number of people is larger than the preset number of people. The threshold adjustment module is used for adjusting the specified threshold based on a threshold adjustment strategy.
In a third aspect, some embodiments of the present application further provide an electronic device, including: one or more processors, memory, and one or more applications. Wherein one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more program configured to perform the intelligent control method of the environmental monitoring device described above.
In a fourth aspect, some embodiments of the present application also provide a computer-readable storage medium having computer program instructions stored thereon. The computer program instructions may be invoked by the processor to perform the intelligent control method of the environmental monitoring device described above.
In a fifth aspect, some embodiments of the present application further provide a computer program product, which when executed, implements the intelligent control method of the environmental monitoring device.
The application provides an intelligent control method and an intelligent control device of environment monitoring equipment and electronic equipment. In the intelligent control method provided by the application, whether the threshold value of the environment monitoring equipment is adjusted is judged by acquiring the number of people in the target area, and when the number of people in the target area is larger than the preset number of people, a threshold value adjustment strategy corresponding to the environment monitoring equipment in the target area is determined, and the threshold value of the environment monitoring equipment is adjusted according to the threshold value adjustment strategy; because the environmental parameters in the target area can change in the multi-person scene, if the environmental monitoring equipment still works by adopting the originally set designated threshold value, the situation of false alarm and false start occurs with a high probability, and when the number of people in the target area is larger than the preset number of people in the embodiment of the application, the threshold value of the environmental monitoring equipment is automatically and timely adjusted according to the threshold value adjustment strategy, the occurrence probability of false alarm and false start of the environmental monitoring equipment is reduced, and the use experience of users is improved.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 shows an application environment schematic diagram of an intelligent control method of an environment monitoring device according to an embodiment of the present application.
Fig. 2 is a schematic flow chart of an intelligent control method of an environmental monitoring device according to a first embodiment of the present application.
Fig. 3 is a schematic flow chart of an intelligent control method of an environmental monitoring device according to a second embodiment of the present application.
Fig. 4 is a schematic flow chart of an intelligent control method of an environmental monitoring device according to a third embodiment of the present application.
Fig. 5 is a schematic flow chart of an intelligent control method of an environmental monitoring device according to a fourth embodiment of the present application.
Fig. 6 shows a block diagram of a device for home service management according to an embodiment of the present application.
Fig. 7 shows a block diagram of an electronic device according to an embodiment of the present application.
Fig. 8 shows a block diagram of a computer-readable storage medium according to an embodiment of the present application.
Detailed Description
Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.
In order to enable those skilled in the art to better understand the solution of the present application, the following description will make clear and complete descriptions of the technical solution of the present application in the embodiments of the present application with reference to the accompanying drawings. It will be apparent that the described embodiments are only 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.
The application provides an intelligent control method and an intelligent control device of environment monitoring equipment and electronic equipment. In the intelligent control method provided by the application, whether the threshold value of the environment monitoring equipment is adjusted is judged by acquiring the number of people in the target area, and when the number of people in the target area is larger than the preset number of people, a threshold value adjustment strategy corresponding to the environment monitoring equipment in the target area is determined, and the threshold value of the environment monitoring equipment is adjusted according to the threshold value adjustment strategy; because the environmental parameters in the target area can change in the multi-person scene, if the environmental monitoring equipment still works by adopting the originally set designated threshold, the situation of false alarm and false start occurs with a high probability, and when the number of people in the target area is larger than the preset number of people in the embodiment of the application, the threshold of the environmental monitoring equipment is timely adjusted according to the threshold adjustment strategy, so that the occurrence probability of false alarm and false start of the environmental monitoring equipment is reduced. For example, if the environment monitoring device is a smoke sensor and the target area where the smoke sensor is located is in a hot pot party scene, the gas environment of the target area is deteriorated, the smoke sensor can send an alarm when working according to the original threshold value, and the threshold value of the smoke sensor is adjusted according to the technical scheme provided by the embodiment of the application, so that the specified threshold value of the smoke sensor is improved, the detection sensitivity of the smoke sensor is reduced, the smoke sensor can tolerate some low-concentration smoke scenes (for example, the hot pot party scene), the occurrence probability of false alarm, false start and the like of the smoke sensor is reduced, and the use experience of a user is improved.
For the purpose of illustrating the application in detail, the application environment in the embodiments of the application will be described with reference to the accompanying drawings. Referring to fig. 1, fig. 1 is an application environment schematic diagram of an intelligent control method of an environmental monitoring device according to an embodiment of the present application, where the intelligent control method of an environmental monitoring device according to an embodiment of the present application may be applied to an intelligent home system 100 shown in the drawings. The smart home system 100 includes one or more human detection devices 110, an environmental monitoring device 120, a smart home device 130, and a console 140.
The human body detection device 110 is used for detecting vital signs such as a position, a posture, and a heart rate of a human body within a target area. Specifically, the human body detection device 110 may be a Vayyar 3D imaging sensor, and the Vayyar 3D imaging sensor can accurately recognize pose information of each person in the target area mainly using a radio wave imaging technology. In an embodiment of the present application, one or more human body detection devices 110 constitute a human body detection system for acquiring the number of people in a target area. Alternatively, the human body detecting device 110 may also be a camera and an infrared sensor.
The environmental monitoring device 120 is a device for detecting environmental parameters within a target area. Specifically, the environmental monitoring device 120 may be a gas monitoring device 120, a temperature monitoring device 120, and the like. Among other things, the gas monitoring device 120 includes, but is not limited to, a gas detector, a smoke sensor, and an air quality sensor. Specifically, the gas detector is used to detect the concentration value of gas in the target area, including but not limited to methane, carbon monoxide, liquefied petroleum gas, and the like. The smoke sensor is used to detect smoke concentration in a target area. The gas quality sensor is used to detect concentration values of PM2.5, PM10, TVOC, oxygen, carbon dioxide, and the like in the target area. The temperature monitoring device 120 is used to detect temperature values within a target area, and in particular, the temperature detection module includes, but is not limited to, a bimetal thermometer, a thermocouple, a thermal resistor, a radiation thermometer, and the like.
The smart home devices 130 include devices such as temperature control devices, security devices, lighting devices, and cleaning devices. In this embodiment, the smart home device 130 includes a temperature control device, which is a device for adjusting the temperature in the target area. Specifically, the temperature control device may include a ventilation device, a fan, an air conditioner, a heating device, and the like, which is not particularly limited in the embodiment of the present application.
The console 140 is used to implement intelligent control management of the various devices in the smart home system 100. In the present application, the console 140 is connected to the human body detection device 110, the environment monitoring device 120, and the temperature control device 130 by wired connection or wireless connection, respectively. In some embodiments, the console 140 is configured to obtain the number of people collected by the human body detection device 110, and adjust the threshold of the environmental monitoring device based on a threshold adjustment policy built in the console 140 if the number of people meets a preset condition. In other embodiments, the smart home system 100 further includes a server 150, where the console 140 and the server 150 communicate by wired connection or wireless connection, and threshold adjustment policies corresponding to different environmental monitoring devices are stored in the server 150, and when the obtained number of people meets a preset condition, the console 140 adjusts the threshold of the environmental monitoring device by reading the threshold adjustment policy in the server 150. The server 150 may be one server 150, a server cluster formed by a plurality of servers 150, or a cloud computing service center.
In some embodiments, console 140 is configured to obtain a first ambient temperature value acquired by ambient monitoring device 120 within the target area and a second ambient temperature value acquired outside the target area. And the console 140 controls the temperature control device to operate according to the corresponding operation mode through the preset temperature control mode when the first ambient temperature value, the second ambient temperature value and the preset temperature threshold value meet the preset conditions.
As shown in fig. 2, fig. 2 schematically illustrates an intelligent control method of an environmental monitoring device according to a first embodiment of the present application. And under the condition that the control console acquires the number of people in the target area, if the number of people is larger than the preset number of people, adjusting the designated threshold value of the environment monitoring equipment in the target area based on a threshold value adjusting strategy. Specifically, the method may include the following steps S210 to S230.
Step S210: the number of people in the target area is acquired.
The target area characterizes a monitoring coverage area of the environmental monitoring device. The environment monitoring device is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds, and the specified thresholds are used for representing critical values for enabling the environment monitoring device to switch working states. Taking environmental monitoring equipment as a smoke sensor for example, wherein the smoke sensor is used for detecting a smoke concentration value in a target area, a smoke concentration threshold (namely a specified threshold) is arranged in the smoke sensor, and if the smoke concentration value is smaller than the smoke concentration threshold, the smoke sensor is in a normal working state; if the smoke concentration value is greater than or equal to the smoke concentration threshold, the smoke sensor is in an alarm state.
In some embodiments, the target area is a fixed area determined based on the installation location of the environmental monitoring device, which may be a closed space in which the environmental device is disposed. For example, if a smoke alarm is provided in the kitchen, the kitchen is the monitoring coverage area of the smoke alarm.
In other embodiments, the target area is an area determined based on the installation location and operational performance of the environmental monitoring device. Alternatively, the target area is a spherical area centered on the installation location of the environmental monitoring device, with the furthest monitoring distance of the environmental monitoring device being the radius. The working performance of the environment monitoring equipment and the farthest monitoring distance of the environment monitoring equipment are in positive correlation, namely, the better the working performance of the environment monitoring equipment is, the larger the farthest monitoring distance of the environment monitoring equipment is; the worse the working performance of the environmental monitoring device, the smaller the furthest monitoring distance of the environmental monitoring device.
In an embodiment of the application, the console detects the number of people in the target area based on the human body detection system. Alternatively, the human body detection system is composed of one or more Vayyar 3D imaging sensors, and the console determines the number of people in the 3D image by acquiring the 3D image acquired by the Vayyar 3D imaging sensor and based on a target detection algorithm preset in the console. Optionally, the human body detection system is composed of one or more cameras, and the console acquires video images in the target area by acquiring the cameras, and determines the number of people in the video images based on a target detection algorithm preset in the console. Optionally, the human body detection system is composed of one or more infrared sensors, and the console acquires a thermal image map in the target area by acquiring the infrared sensors, and determines the number of people in the thermal image map based on a target detection algorithm preset in the console. Specifically, the target detection algorithm includes, but is not limited to, fast R-CNN, R-FCN, YOLO, SSD and the like based on deep learning.
Optionally, the console performs the step of acquiring the number of people in the target area when determining that the human detection system is currently in the multi-person scene, so as to reduce the occurrence of the situation that the human detection system is in a working state for a long time, and ensure the service life of the human detection system.
In some embodiments, before the step of acquiring the number of people in the target area, the method further comprises the steps of: in response to an on indication of the specified mode, the specified mode is turned on. In the case where the specified mode is on, the step of acquiring the number of persons in the target area is performed from the beginning.
In other embodiments, after the step of obtaining the number of people in the target area, the method further comprises the steps of: and sending out a preset mode starting prompt based on the number of people. In the case where the specified mode is on, the subsequent steps are performed.
The specified mode is a mode in which a multi-person scene exists. Illustratively, the designated mode may be a meeting mode, a dinner mode, a movie viewing mode, a KTV mode, and the like, which involve a high number of people.
As one implementation mode, a man-machine interaction interface is arranged in the control console, and the opening instructions corresponding to different modes can be received through the man-machine interaction interface. And if the current opening instruction is characterized as the opening instruction of the appointed mode, responding to the opening instruction and opening the appointed mode. As another embodiment, the smart home system further includes smart devices, for example, smart phones, tablet computers, and the like. And under the condition that the control console receives an opening instruction corresponding to the designated mode sent by the intelligent equipment, opening the designated mode.
Step S220: and if the number of people is greater than the preset number of people, determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area.
The preset number of people can be a default value set in a control console, and can also be dynamically adjusted by technicians or users according to the actual working condition of environment monitoring equipment in the intelligent home system. Taking the preset number of people as 8 as an example, if the number of people in the target area is greater than 8, indicating that the number of people in the target area is more, and determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area when the threshold adjustment requirement for the environment monitoring equipment exists; otherwise, if the number of people in the target area is less than or equal to 8, the number of people in the target area is smaller, and the threshold adjustment requirement on the environment monitoring equipment does not exist, and no operation is needed.
The threshold adjustment policy is used to adjust a specified threshold of the environmental monitoring device. The threshold adjustment policy may be a mapping between the number of people in the target area and the adjustment threshold. The adjustment threshold value refers to a working threshold value of the environment monitoring equipment in a multi-person scene of a desired target area. The mapping relationship may be a linear mapping relationship, a nonlinear mapping relationship, and the like.
As one embodiment, the threshold adjustment policy corresponding to the environmental monitoring device is stored in a memory inside the console, and the console reads the threshold adjustment policy corresponding to the environmental monitoring device from the memory when the number of people is greater than a preset number of people. As another embodiment, the threshold adjustment policy corresponding to the environmental monitoring device is stored in a server that establishes communication connection with the console, and when the number of people is greater than a preset number of people, the console sends a policy acquisition request to the server and receives the threshold adjustment policy corresponding to the environmental monitoring device sent by the server based on the policy acquisition request.
In some embodiments, a plurality of environmental monitoring devices, such as gas monitoring devices and temperature monitoring devices, etc., are disposed within the target area. When the types and the installation positions of the environment monitoring devices are different, the corresponding threshold adjustment strategies can be the same or different. In the embodiment of the present application, only different types of monitoring devices are described as examples corresponding to different threshold adjustment policies. In some embodiments, step S220 may include steps S222 to S224.
Step S222: and if the number of people is greater than the preset number of people, acquiring the type of the environment monitoring equipment.
And under the condition that the number of people is larger than the preset number of people, the console acquires the type of the environment monitoring equipment in the target area. As an implementation manner, a first mapping table of a corresponding relation between a target area and environment monitoring equipment is stored in a console, and the console determines the environment monitoring equipment in the target area based on the first mapping table when the number of people in the target area is greater than a preset number of people, so that the type of the environment monitoring equipment is obtained.
Step S224: and determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area based on the type of the environment monitoring equipment.
As an implementation manner, under the condition that the type of the environment monitoring device is determined, the control console determines a threshold adjustment strategy corresponding to the environment monitoring device in the target area based on a second mapping table of a corresponding relation between the type of the preset environment monitoring device and the threshold adjustment strategy.
In this embodiment, different threshold adjustment policies are set for different types of environmental monitoring devices, so that the threshold adjustment policies are more consistent with the working characteristics of the environmental monitoring devices, and have more pertinence.
Step S230: the specified threshold is adjusted based on a threshold adjustment policy.
And the console determines an adjustment threshold corresponding to the environment monitoring equipment through a threshold adjustment strategy, and adjusts the designated threshold of the environment monitoring equipment to the adjustment threshold. In some embodiments, the designated threshold corresponding to the environment monitoring device is stored in the corresponding environment monitoring device, and the console sends threshold adjustment information to the environment monitoring device when determining the adjustment threshold, where the threshold adjustment information includes the adjustment threshold, and the threshold adjustment information is used to instruct the environment monitoring device to adjust the designated threshold based on the adjustment threshold. The environmental monitoring device adjusts the specified threshold to an adjustment threshold upon receiving the threshold adjustment information.
The application provides an intelligent control method of environment monitoring equipment. In the intelligent control method provided by the application, whether the threshold value of the environment monitoring equipment is adjusted is judged by acquiring the number of people in the target area, and when the number of people in the target area is larger than the preset number of people, a threshold value adjustment strategy corresponding to the environment monitoring equipment in the target area is determined, and the threshold value of the environment monitoring equipment is adjusted according to the threshold value adjustment strategy; because the environmental parameters in the target area can change in the multi-person scene, if the environmental monitoring equipment still works by adopting the originally set designated threshold value, the situation of false alarm and false start occurs with a high probability, and when the number of people in the target area is larger than the preset number of people in the embodiment of the application, the threshold value of the environmental monitoring equipment is automatically and timely adjusted according to the threshold value adjustment strategy, the occurrence probability of false alarm and false start of the environmental monitoring equipment is reduced, and the use experience of users is improved.
As shown in fig. 3, fig. 3 schematically illustrates an intelligent control method of an environmental monitoring device according to a second embodiment of the present application. In the embodiment of the application, the type of the environment monitoring equipment comprises gas monitoring equipment, the detection parameter of the specified environment factor comprises the concentration value of the specified gas in the target area, and the control console determines the threshold adjustment strategy corresponding to the gas monitoring equipment and adjusts the specified threshold of the gas monitoring equipment based on the threshold adjustment strategy under the condition that the environment monitoring equipment is determined to be the gas monitoring equipment. Specifically, the method may include the following steps S310 to S360.
Step S310: the number of people in the target area is acquired.
Step S320: the type of the environmental monitoring device is obtained.
In the embodiment of the application, the type of the environment monitoring equipment is gas monitoring equipment.
The specific embodiments of step S310 to step S320 may refer to the specific descriptions in step S210 and step S222, and will not be described in detail herein.
In some embodiments, the preset number of people includes a first preset number of people, and in a case that the number of people in the target area is greater than the first preset number of people, steps S330 to S340 are performed.
Step S330: if the number of people is greater than a first preset number of people, a first adjustment threshold is determined based on the number of people, the first mapping relationship and a specified threshold of the gas monitoring device.
The first adjustment threshold refers to an operating threshold of the gas monitoring device in a multi-person scenario for a desired target area. The first mapping relationship characterizes a positive correlation between the number of persons in the target area and a first adjustment threshold, the first adjustment threshold being greater than a specified threshold of the gas monitoring device. As one embodiment, the first mapping relationship is a mapping relationship in which the number of people in the target area and the first adjustment threshold value are positively correlated, that is, the more the number of people in the target area is, the greater the first adjustment threshold value is; conversely, the smaller the number of people in the target area, the smaller the first adjustment threshold. Alternatively, the first mapping relationship may be expressed by the following calculation formula:
t′ 1 =t 1 *(1+(p//p 1 )*k 1 ),p>p 1
wherein p is 1 For the first preset number of people, p is the number of people in the target area, t 1 For a specified threshold, t' 1 For a first adjustment threshold, k 1 Is a first scale factor, and k 1 Is a number greater than 0. When the number of people in the target area is larger than the first preset number of people, calculating a corresponding first adjustment threshold t 'through the formula' 1
It should be noted here that "//" means integer divide and round operations, i.e., if p and p 1 After division operation, if the obtained result is a decimal, the corresponding integer part in the decimal is reserved. For example, p has a value of 10, p 1 The value of (2) is 4, the result of the division operation is 2.5, and the corresponding integer part is 2, so the result of 10//4 is 2.
In the above formula, the first preset number of people p 1 A first scale factor k 1 By default setting of the control console, technicians or users can also dynamically adjust according to actual working conditions of the gas monitoring equipment in the intelligent home system. Illustratively, a first preset number of people p 1 Is 6 and a first scale factor k 1 For example, 0.1, the formula corresponding to the first mapping relationship is as follows:
t′ 1 =t 1 *(1+(p//6)*0.1),p>6
illustratively, the specified threshold t of the gas monitoring device is 13 for the number of persons p in the target area 1 For example, 10, the first adjustment threshold t 'obtained by the first mapping relation' 1 12.
In some embodiments, the gas monitoring devices within the target area are a plurality of different sub-types of gas monitoring devices, such as smoke sensors and air quality sensors. The first mapping relationships corresponding to the gas monitoring devices of different sub-types may be the same or different, and are not specifically limited in this embodiment.
Step S340: the specified threshold of the gas monitoring device is set to a first adjustment threshold.
The specific embodiment of step S340 may refer to the specific description of step S230, and will not be described herein.
The embodiment provides a threshold adjustment strategy corresponding to the gas monitoring equipment, and by improving the specified threshold of the gas monitoring equipment, the probability of occurrence of false alarm, false start and other conditions of the gas monitoring equipment can be reduced. For example, if the gas monitoring device is a smoke sensor and the target area to which the smoke sensor corresponds is in a multi-person mode, such as a hot pot meal. Under the condition that the gas environment of the target area is poor and the false alarm condition of the smoke sensor is caused, the method improves the appointed threshold value of the smoke sensor and can reduce the detection sensitivity of the smoke sensor under the condition that the number of people in the target area is larger than the first preset number of people, so that the smoke sensor can tolerate some low-concentration smoke scenes, the occurrence probability of the false alarm condition of the smoke sensor is reduced, and better use experience is brought to users.
In other embodiments, the preset number of people includes a second preset number of people, the second preset number of people being greater than the first preset number of people. In the case where the number of persons in the target area is greater than the second preset number of persons, steps S350 to S360 are performed.
Step S350: if the number of people is greater than the second preset number of people, determining a second adjustment threshold based on the second preset number of people, the first mapping relationship and a specified threshold of the gas monitoring device.
The second adjustment threshold is greater than or equal to the first adjustment threshold.
The first mapping relationship may refer to the specific explanation in step S330. As an embodiment, the first mapping relationship may be represented by the following calculation formula:
t′ 2 =t 1 *(1+(p 2 //p 1 )*k 1 ),p>p 2
wherein p is 2 P is the number of people in the target area, t 'is the second preset number of people' 2 And for the second adjustment threshold, when the number of people in the target area is larger than a second preset number of people, calculating the corresponding second adjustment threshold through the formula.
In the above formula, the first preset number of people p 1 A second preset number p of people 2 A first scale factor k 1 By default setting of the control console, technicians or users can also dynamically adjust according to actual working conditions of the gas monitoring equipment in the intelligent home system. Illustratively, a first preset number of people p 1 Is 6 and the second preset number p of people 2 Is 18 and a first scale factor k 1 For example, 0.1, the formula corresponding to the first mapping relationship is as follows:
t′ 2 =1.3*t 1 ,p>18
illustratively, the specified threshold t of the gas monitoring device is 22 for the number of people p in the target area 1 For example, 10, the second adjustment threshold t 'obtained by the first mapping relation' 2 13. As can be seen from the above formula, the second adjustment threshold calculated by the above formula is a fixed value when the number of people in the target area is greater than the second preset number of people. And further, under the condition that the number of people is continuously increased, the adjustment threshold value of the gas monitoring equipment is not increased along with the increase of the number of people in the target area, but is correspondingly provided with an adjustment threshold upper limit value, and under the condition that the adjustment threshold value is larger than the adjustment threshold upper limit value, the adjustment threshold value is not changed any more. In some embodiments, the adjustment threshold upper limit is determined by a minimum safety standard for the corresponding gas monitoring device, e.g., the minimum safety standard for the smoke sensor is the highest smoke concentration value that a human body can tolerate.
Step S360: the specified threshold of the gas monitoring device is set to a second adjustment threshold.
The specific embodiment of step S360 may refer to the specific description in step S230, and will not be described in detail herein.
The embodiment provides a threshold adjustment strategy corresponding to the gas monitoring equipment, and when the number of people in the target area is larger than a second preset number of people, the second adjustment threshold corresponding to the gas monitoring equipment is not increased any more, so that the gas monitoring equipment can be ensured to work at least in a corresponding minimum safety standard range, and the situation that the threshold adjustment of the gas monitoring equipment is overlarge and then no alarm occurs under the dangerous situation is avoided.
The application provides an intelligent control method of environment monitoring equipment. In the intelligent control method provided by the application, the environment monitoring equipment comprises gas monitoring equipment, and the gas monitoring equipment is provided with a corresponding threshold adjustment strategy. Determining a threshold adjustment strategy corresponding to the gas monitoring equipment in the target area when the number of people in the target area is larger than a first preset number of people, and adjusting the threshold of the gas monitoring equipment according to the threshold adjustment strategy; because the environmental parameters in the target area can change in a multi-person scene, if the gas monitoring equipment still works by adopting the originally set designated threshold value, the situation of false alarm and false start is caused with a high probability, and when the number of people in the target area is larger than the preset number of people in the embodiment of the application, the threshold value of the gas monitoring equipment is timely adjusted according to the threshold value adjustment strategy, so that the occurrence probability of false alarm and false start of the gas monitoring equipment is reduced. In addition, under the condition that the number of people in the target area is larger than a second preset number of people, the second adjustment threshold value corresponding to the gas monitoring equipment is not increased any more, so that the gas monitoring equipment can work at least in the corresponding minimum safety standard range, and the situation that the threshold value adjustment of the gas monitoring equipment is overlarge and then no alarm occurs under the condition of dangerous situations is avoided.
As shown in fig. 4, fig. 4 schematically illustrates an intelligent control method of an environmental monitoring device according to a third embodiment of the present application. In the embodiment of the application, the type of the environment monitoring equipment comprises temperature monitoring equipment, the detection parameter of the appointed environment factor comprises a first environment temperature value in the target area, and the control console further determines a threshold adjustment strategy corresponding to the temperature monitoring equipment and adjusts the appointed threshold of the temperature monitoring equipment based on the threshold adjustment strategy under the condition that the environment monitoring equipment is determined to be the temperature monitoring equipment. Specifically, the method may include the following steps S410 to S460.
Step S410: the number of people in the target area is acquired.
Step S420: the type of the environmental monitoring device is obtained.
In the embodiment of the application, the type of the environment monitoring device is a temperature monitoring device.
The specific embodiments of step S410 to step S420 may refer to the specific descriptions in step S210 and step S222, and will not be described in detail herein.
In some embodiments, the preset number of people includes a third preset number of people, and in case the number of people in the target area is greater than the third preset number of people, steps S430 to S440 are performed.
Step S430: if the number of people is greater than a third preset number of people, a third adjustment threshold is determined based on the number of people, the second mapping relationship and a specified threshold of the temperature monitoring device.
The third adjustment threshold refers to a working threshold of the temperature monitoring device of the expected target area in a multi-person scene. The second mapping relationship characterizes a negative correlation between the number of persons in the target area and a third adjustment threshold, the third adjustment threshold being less than a specified threshold of the temperature monitoring device. As one embodiment, the second mapping relationship is a mapping relationship in which the number of people in the target area and the third adjustment threshold value are inversely related, that is, the more the number of people in the target area is, the smaller the third adjustment threshold value is; conversely, the smaller the number of people in the target area, the larger the third adjustment threshold. Alternatively, the second mapping relationship may be expressed by the following calculation formula:
t′ 3 =t 2 *(1-(p//p 3 )*k 2 ),p>p 3
wherein p is 3 For the third presetThe number of people, p, is the number of people in the target area, t 2 For a specified threshold value, t' 3 For a third adjustment threshold, k 2 Is a second scale factor, and k 2 Is a number greater than 0. When the number of people in the target area is larger than a third preset number of people, calculating a corresponding third adjustment threshold t 'through the formula' 3
In the above formula, the third preset number of people p 3 A second scale factor k 2 By default setting of the control console, technicians or users can also dynamically adjust according to actual working conditions of temperature monitoring equipment in the intelligent home system. Illustratively, a third preset number of people p 3 Is 6 and the second scale factor k 2 For example, 0.1, the formula corresponding to the second mapping relationship is as follows:
t′ 3 =t 2 *(1-(p//6)*0.1),p>6
illustratively, the temperature monitoring device specifies a threshold t with the number of people p in the target area as 13 2 Taking 10 as an example, a third adjustment threshold t 'obtained by the second mapping relation' 3 8.
In some embodiments, the temperature monitoring devices within the target area are a plurality of different sub-types of temperature monitoring devices. The second mapping relationships corresponding to the temperature monitoring devices of different sub-types may be the same or different, and are not specifically limited in this embodiment.
Step S440: the specified threshold of the temperature monitoring device is set to a third adjustment threshold.
The specific embodiment of step S440 may refer to the specific description of step S230, and will not be described in detail herein.
The embodiment provides a threshold adjustment strategy corresponding to the temperature monitoring equipment, and by reducing the designated threshold of the temperature monitoring equipment, the temperature control equipment corresponding to the temperature monitoring equipment can be ensured to be started in time in a multi-person scene, so that comfortable home experience is created for users. For example, if the temperature monitoring device is a temperature sensor, the temperature control device is an air conditioner, and the target area corresponding to the temperature sensor is in a multi-person mode, for example, in an indoor KTV mode, the environmental temperature of the target area can be increased, and the air conditioner can be ensured to be started in time by reducing the specified threshold corresponding to the temperature sensor, so that the temperature in the target area can be ensured to be quickly and timely adjusted to a proper temperature, and better use experience is brought to a user.
In other embodiments, the preset number of people includes a fourth preset number of people, the fourth preset number of people being greater than the third preset number of people. In the case where the number of persons in the target area is greater than the fourth preset number of persons, steps S450 to S460 are performed.
Step S450: and if the number of people is greater than the second preset number of people, determining a fourth adjustment threshold based on the fourth preset number of people, the second mapping relation and the designated threshold of the temperature monitoring device.
The fourth adjustment threshold is less than or equal to the third adjustment threshold.
The second mapping relationship may refer to the specific explanation in step S430. As an embodiment, the second mapping relationship may be represented by the following calculation formula:
t′ 4 =t 2 *(1-(p 4 //p 3 )*k 2 ),p>p 4
wherein p is 4 For the fourth preset number of people, p is the number of people in the target area, t' 4 And for the fourth adjustment threshold, when the number of people in the target area is larger than a fourth preset number of people, calculating the corresponding fourth adjustment threshold through the formula.
In the above formula, the third preset number of people p 3 Fourth preset number p of people 4 A second scale factor k 2 By default setting of the control console, technicians or users can also dynamically adjust according to actual working conditions of temperature monitoring equipment in the intelligent home system. Illustratively, a third preset number of people p 3 For 6 and the fourth preset number p 4 Is 18 and a second scale factor k 2 For example, 0.1, the formula corresponding to the second mapping relationship is as follows:
t′ 4 =0.7*t 2 ,p>18
illustratively, in the target areaThe number p of people is 22, and the designated threshold t of the temperature monitoring equipment 2 For example, 10, the fourth adjustment threshold t 'obtained by the second mapping relation' 4 7. As can be seen from the above formula, in the case that the number of people in the target area is greater than the fourth preset number of people, the fourth adjustment threshold calculated by the above formula is a fixed value. And further, the condition that the adjustment threshold value of the temperature monitoring equipment is not reduced along with the increase of the number of people is ensured, and the adjustment threshold value is correspondingly provided with an adjustment threshold lower limit value, and is not changed under the condition that the adjustment threshold value is smaller than the adjustment threshold lower limit value.
Step S460: the specified threshold of the temperature monitoring device is set to a fourth adjustment threshold.
The specific embodiment of step S460 may refer to the specific description in step S230, and will not be described in detail herein.
The embodiment provides a threshold adjustment strategy corresponding to the temperature monitoring equipment, and when the number of people in the target area is larger than a fourth preset number of people, the fourth adjustment threshold corresponding to the temperature monitoring equipment is not reduced any more, so that the situation that the temperature control equipment corresponding to the temperature monitoring equipment is started by mistake is avoided.
The application provides an intelligent control method of environment monitoring equipment. In the intelligent control method provided by the application, the environment monitoring equipment comprises temperature monitoring equipment, and the temperature monitoring equipment is provided with a corresponding threshold adjustment strategy. And when the number of people in the target area is larger than a third preset number of people, determining a threshold adjustment strategy corresponding to the temperature monitoring equipment in the target area, and adjusting the threshold of the temperature monitoring equipment according to the threshold adjustment strategy. According to the intelligent control method provided by the application, the number of people in the target area is used as the adjustment basis of the threshold value in the temperature monitoring equipment, and when a plurality of people exist in the target area, the threshold value in the temperature monitoring equipment is adjusted, so that the temperature control equipment corresponding to the temperature monitoring equipment can be timely started, and the intelligent home system is more intelligent and humanized. In addition, under the condition that the number of people in the target area is larger than a fourth preset number of people, the fourth adjustment threshold value corresponding to the temperature monitoring equipment is not reduced any more, and further the situation that the temperature control equipment corresponding to the temperature monitoring equipment is started by mistake is avoided.
As shown in fig. 5, fig. 5 schematically illustrates an intelligent control method of an environmental monitoring device according to a fourth embodiment of the present application. In an embodiment of the present application, the type of the environmental monitoring device includes a temperature monitoring device, and the detection parameter specifying the environmental factor includes a first environmental temperature value within the target area. Specifically, the method may include the following steps S510 to S560.
Step S510: the number of people in the target area is acquired.
Step S520: and if the number of people is greater than the preset number of people, determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area.
Step S530: the specified threshold is adjusted based on a threshold adjustment policy.
The specific embodiments of step S510 to step S530 may refer to the specific descriptions of step S210 to step S230, and will not be described in detail herein.
Step S540: a first ambient temperature value within the target area and a second ambient temperature value outside the target area are obtained.
In an embodiment of the application, an intelligent home system comprises a first temperature monitoring device and a second temperature monitoring device. The first temperature monitoring device is used for acquiring a first environment temperature value in the target area, and the second temperature monitoring device is used for acquiring a second environment temperature value outside the target area. The control console reads the temperature values acquired by the first temperature monitoring equipment and the second temperature monitoring equipment respectively, so as to acquire a first environment temperature value in the target area and a second environment temperature value outside the target area.
In some embodiments, the target area is a user's home, and the second ambient temperature value outside the home may also be determined based on the temperature of the home location. The control console determines a second ambient temperature value by acquiring temperature information of the city in which the residence is located in the server.
Step S550: and determining the working mode of the temperature control equipment based on the first environment temperature value, the second environment temperature value and the preset temperature threshold value.
The temperature control device is used for adjusting the ambient temperature in the target area. In the embodiment of the application, the temperature control equipment comprises ventilation equipment, fans, air conditioners, heating equipment and the like. The preset temperature threshold may be a specified threshold of the first temperature monitoring device, or may be an adjustment threshold determined based on a threshold adjustment policy.
As one embodiment, the preset temperature threshold includes a preset high temperature threshold and a preset low temperature threshold, and the console determines the temperature control mode within the target area based on the preset temperature threshold and the first ambient temperature value. Under the condition of determining the temperature control mode, the control console determines the temperature control equipment and the working mode of the temperature control equipment based on the second environment temperature value and the preset temperature threshold value. For example, if the first ambient temperature value is greater than the preset high temperature threshold, the console sets the temperature control mode in the target area to a cooling mode; otherwise, if the first ambient temperature value is smaller than the preset low temperature threshold, the control console sets the temperature control mode in the target area as a heating mode. Specifically, if the first ambient temperature value is 35 ℃ and the preset high temperature threshold value is 30 ℃, the temperature control mode in the target area is a cooling mode. If the first environmental temperature value is 0 ℃ and the preset low temperature threshold value is 10 ℃, the temperature control mode in the target area is a heating mode.
Under the condition that the temperature control mode is the cooling mode, if the second environmental temperature value is lower than the preset high temperature threshold value, the control console determines that the temperature control equipment is the ventilation equipment and the fan, and determines that the working modes of the ventilation equipment and the fan are in the opening mode, in some embodiments, the ventilation equipment comprises a window and a window intelligent control device, the control console sends an opening instruction to the window intelligent control device under the condition that the temperature control mode is the cooling mode, and the window intelligent control device opens the window under the condition that the opening instruction is received. If the second environmental temperature value is higher than or equal to the preset high temperature threshold value, the control console determines that the temperature control equipment is an air conditioner and a fan, and determines that the working mode of the air conditioner is in a refrigeration mode and the working mode of the fan is in an opening mode. Specifically, if the second ambient temperature value is 25 ℃ and the preset high temperature threshold value is 30 ℃, the control console determines that the temperature control device is a ventilation device and a fan. If the second ambient temperature value is 33 ℃, the control console determines that the temperature control device is an air conditioner and a fan.
Under the condition that the temperature control mode is the heating mode, the control console determines that the temperature control equipment is an air conditioner and a heating air, and determines that the working mode of the air conditioner is in a heating mode and the working mode of the heating air is in an opening mode. In some embodiments, the temperature control device further includes a window and a window intelligent control device, the console sends a closing instruction to the window intelligent control device when the temperature control mode is determined to be the heating mode, and the window intelligent control device closes the window when receiving the closing instruction.
Step S560: the temperature control equipment is controlled to work according to the working mode.
The control console controls the temperature control equipment to work according to the working mode.
In this embodiment, a manner of temperature control in a target area is provided, and through a relationship among a first ambient temperature value, a second ambient temperature value and a preset temperature threshold value, a corresponding temperature control device and a working manner of the temperature control device can be selectively determined, so that the intellectualization and humanization of whole-house temperature control are realized.
Referring to fig. 6, an intelligent control apparatus 600 of an environmental monitoring device according to an embodiment of the present application is shown, where the intelligent control apparatus 600 includes: a population determination module 610, a threshold adjustment policy determination module 620, and a threshold adjustment module 630. The people number determining module 610 is configured to obtain the number of people in a target area, where the target area characterizes a monitoring coverage area of the environmental monitoring device. The environment monitoring device is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds, and the specified thresholds are used for representing critical values for enabling the environment monitoring device to switch working states. The threshold adjustment policy determining module 620 is configured to determine a threshold adjustment policy corresponding to the environmental monitoring device in the target area if the number of people is greater than a preset number of people. The threshold adjustment module 630 is configured to adjust the specified threshold based on a threshold adjustment policy.
In some embodiments, the threshold adjustment policy determination module 620 is further configured to obtain a type of the environmental monitoring device if the number of people is greater than a preset number of people. And determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area based on the type of the environment monitoring equipment.
In some embodiments, the type of environmental monitoring device comprises a gas monitoring device and the sensed parameter specifying the environmental factor comprises a concentration value of a specified gas within the target area. The preset number of people includes a first preset number of people, and the threshold adjustment policy determining module 620 is further configured to determine a first adjustment threshold based on the number of people, the first mapping relationship, and a specified threshold of the gas monitoring device, if the number of people is greater than the first preset number of people. The first mapping relation characterizes a positive correlation relation between the number of people and a first adjustment threshold value, and the first adjustment threshold value is larger than a specified threshold value of the gas monitoring equipment. The threshold adjustment module 630 is also configured to set a specified threshold of the gas monitoring apparatus to a first adjustment threshold.
In some embodiments, the type of environmental monitoring device comprises a gas monitoring device and the sensed parameter specifying the environmental factor comprises a concentration value of a specified gas within the target area. The preset number of people includes a second preset number of people, the second preset number of people being greater than the first preset number of people. In the case that the number of people is greater than the second preset number of people, the threshold adjustment policy determining module 620 is further configured to determine a second adjustment threshold based on the second preset number of people, the first mapping relationship, and a specified threshold of the gas monitoring device. Wherein the second adjustment threshold is greater than or equal to the first adjustment threshold. The threshold adjustment module 630 is also configured to set a specified threshold of the gas monitoring apparatus to a second adjustment threshold.
In some embodiments, the type of environmental monitoring device includes a temperature monitoring device, and the detection parameter specifying the environmental factor includes a first environmental temperature value within the target area. The preset number of people includes a third preset number of people, and the threshold adjustment policy determining module 620 is further configured to determine a third adjustment threshold based on the number of people, the second mapping relationship, and a specified threshold of the temperature monitoring device, if the number of people is greater than the third preset number of people. The second mapping relation characterizes a negative correlation relation between the number of people and a third adjustment threshold value, and the third adjustment threshold value is smaller than a designated threshold value of the temperature monitoring device. The threshold adjustment module 630 is further configured to set a specified threshold of the temperature monitoring device to a third adjustment threshold.
In some embodiments, the type of environmental monitoring device includes a temperature monitoring device, and the detection parameter specifying the environmental factor includes a first environmental temperature value within the target area. The preset number of people includes a fourth preset number of people, the fourth preset number of people being greater than the third preset number of people. In the case that the number of people is greater than the fourth preset number of people, the threshold adjustment policy determining module 620 is further configured to determine a fourth adjustment threshold based on the fourth preset number of people, the second mapping relationship, and a specified threshold of the temperature monitoring device. Wherein the fourth adjustment threshold is less than or equal to the third adjustment threshold. The threshold adjustment module 630 is further configured to set a specified threshold of the temperature monitoring device to a fourth adjustment threshold.
In some embodiments, the intelligent control apparatus 600 further includes an ambient temperature acquisition module (not shown), a temperature control device operation mode confirmation module (not shown), and a temperature control device control module (not shown). Wherein, the ambient temperature acquisition module (not shown in the figure) is used for acquiring a first ambient temperature value in the target area and a second ambient temperature value outside the target area. The temperature control device working mode confirming module (not shown in the figure) is used for confirming the working mode of the temperature control device based on the first environment temperature value, the second environment temperature value and the preset temperature threshold value, and the temperature control device is used for adjusting the environment temperature in the target area. The temperature control device control module (not shown in the figure) is used for controlling the temperature control device to work according to the working mode.
In some embodiments, the intelligent control device 600 further includes a designated mode turn-on module (not shown). A designated mode turning-on module (not shown in the figure) is configured to turn on a designated mode, which is a mode in which a multi-person scene exists, in response to an on instruction of the designated mode. The person number determination module 610 is further configured to start execution from the step of acquiring the number of persons in the target area in the case where the specified mode is on.
It will be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the apparatus and modules described above may refer to the corresponding process in the foregoing method embodiment, which is not repeated herein.
In several embodiments provided by the present application, the coupling of the modules to each other may be electrical, mechanical, or other.
In addition, each functional module in each embodiment of the present application may be integrated into one processing module, or each module may exist alone physically, or two or more modules may be integrated into one module. The integrated modules may be implemented in hardware or in software functional modules.
The application provides an intelligent control device of environment monitoring equipment. In the intelligent control device provided by the application, whether the threshold value of the environment monitoring equipment is adjusted is judged by acquiring the number of people in the target area. Specifically, when the number of people in the target area is greater than the preset number of people, determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area, and adjusting the threshold of the environment monitoring equipment according to the threshold adjustment strategy. According to the intelligent control device provided by the application, the number of people in the target area is used as the adjustment basis of the threshold value in the environment monitoring equipment, and when a plurality of people exist in the target area, the threshold value in the environment monitoring equipment is automatically adjusted, so that the probability of occurrence of false alarm, false start and other conditions of the intelligent home system is reduced, and the use experience of users is improved.
Referring to fig. 7, an electronic device 700 according to an embodiment of the present application is further provided, where the electronic device 700 includes: one or more processors 710, memory 720, and one or more application programs. Wherein one or more application programs are stored in the memory 720 and configured to be executed by the one or more processors 710, the one or more application programs configured to perform the methods described in the above embodiments. In an embodiment of the present application, the electronic device 700 may be a console.
Processor 710 may include one or more processing cores. The processor 710 utilizes various interfaces and lines to connect various portions of the overall battery management system, perform various functions of the battery management system, and process data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 720, and invoking data stored in the memory 720. Alternatively, the processor 710 may be implemented in hardware in at least one of digital signal processing (Digital Signal Processing, DSP), field programmable gate array (Field-Programmable Gate Array, FPGA), programmable logic array (Programmable Logic Array, PLA). The processor 710 may integrate one or a combination of several of a central processor 710 (Central Processing Unit, CPU), an image processor 710 (Graphics Processing Unit, GPU), and a modem, etc. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for being responsible for rendering and drawing of display content; the modem is used to handle wireless communications. It will be appreciated that the modem may not be integrated into the processor 710 and may be implemented solely by a single communication chip.
The Memory 720 may include a random access Memory 720 (Random Access Memory, RAM) or a Read-Only Memory 720 (Read-Only Memory). Memory 720 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 720 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing various method embodiments described below, and the like. The storage data area may also store data created by the electronic device map in use (e.g., phonebook, audiovisual data, chat log data), and the like.
Referring to FIG. 8, an embodiment of the present application is also shown to provide a computer readable storage medium 800 having computer program instructions 810 stored in the computer readable storage medium 800. Wherein the computer program instructions 810 are callable by a processor to perform the method described in the above embodiments.
The computer readable storage medium 800 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer readable storage medium 800 comprises a non-volatile computer readable storage medium (non-transitory computer-readable storage medium). The computer readable storage medium 800 has storage space for computer program instructions 810 that perform any of the method steps described above. The computer program instructions 810 may be read from or written to one or more computer program products. The computer program instructions 810 may be compressed in a suitable form.
Although the present application has been described in terms of the preferred embodiments, it should be understood that the present application is not limited to the specific embodiments, but is capable of numerous modifications and equivalents, and alternative embodiments and modifications of the embodiments described above, without departing from the spirit and scope of the present application.

Claims (10)

1. An intelligent control method of an environmental monitoring device, the method comprising:
acquiring the number of people in a target area, wherein the target area represents a monitoring coverage area of environment monitoring equipment; the environment monitoring equipment is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds, and the specified thresholds are used for representing critical values for enabling the environment monitoring equipment to switch working states; if the environment monitoring equipment is gas monitoring equipment, the gas monitoring equipment enters an alarm state under the condition that the detection parameter of the gas monitoring equipment is larger than or equal to a corresponding specified threshold value; if the environment monitoring equipment is temperature monitoring equipment, under the condition that the detection parameter of the temperature monitoring equipment is greater than or equal to a corresponding specified threshold value, the temperature control equipment corresponding to the temperature monitoring equipment enters an on state;
If the number of people is larger than the preset number of people, determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area; the threshold adjustment strategy characterizes a mapping relation between the number of people in the target area and an adjustment threshold, wherein the adjustment threshold refers to a working threshold of the environment monitoring equipment when the target area is expected to be in a multi-person scene;
and adjusting the specified threshold based on the threshold adjustment strategy.
2. The intelligent control method according to claim 1, wherein determining a threshold adjustment policy corresponding to an environmental monitoring device in the target area if the number of people is greater than a preset number of people comprises:
if the number of people is larger than the preset number of people, acquiring the type of the environment monitoring equipment;
and determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area based on the type of the environment monitoring equipment.
3. The intelligent control method according to claim 2, wherein the type of the environmental monitoring device includes a gas monitoring device, and the detection parameter of the specified environmental factor includes a concentration value of a specified gas in the target area; the preset number of people comprises a first preset number of people, and when the number of people is larger than the first preset number of people, the determining the threshold adjustment strategy corresponding to the environment monitoring equipment in the target area based on the type of the environment monitoring equipment comprises the following steps:
Determining a first adjustment threshold based on the number of people, a first mapping relationship and a specified threshold of the gas monitoring device, wherein the first mapping relationship characterizes a positive correlation relationship between the number of people and the first adjustment threshold, and the first adjustment threshold is larger than the specified threshold of the gas monitoring device;
the adjusting the specified threshold based on the threshold adjustment policy includes:
and setting a specified threshold of the gas monitoring equipment as the first adjustment threshold.
4. The intelligent control method according to claim 3, wherein the preset number of people includes a second preset number of people, the second preset number of people being greater than the first preset number of people; and when the number of people is greater than the second preset number of people, determining a threshold adjustment strategy corresponding to the environmental monitoring equipment in the target area based on the type of the environmental monitoring equipment, including:
determining a second adjustment threshold based on the second preset number of people, the first mapping relationship and a specified threshold of the gas monitoring device, wherein the second adjustment threshold is greater than or equal to the first adjustment threshold;
the adjusting the specified threshold based on the threshold adjustment policy includes:
And setting a designated threshold of the gas monitoring equipment as the second adjustment threshold.
5. The intelligent control method according to claim 2, wherein the type of the environmental monitoring device includes a temperature monitoring device, the detection parameter of the specified environmental factor includes a first environmental temperature value in the target area, the preset number of people includes a third preset number of people, and the determining, based on the type of the environmental monitoring device, a threshold adjustment policy corresponding to the environmental monitoring device in the target area includes:
determining a third adjustment threshold based on the number of people, a second mapping relationship and a specified threshold of the temperature monitoring device, wherein the second mapping relationship characterizes a negative correlation relationship between the number of people and the third adjustment threshold, and the third adjustment threshold is smaller than the specified threshold of the temperature monitoring device;
the adjusting the specified threshold based on the threshold adjustment policy includes:
and setting a specified threshold of the temperature monitoring device as the third adjustment threshold.
6. The intelligent control method according to claim 5, wherein the preset number of people includes a fourth preset number of people, the fourth preset number of people is greater than the third preset number of people, and the determining, based on the type of the environmental monitoring device, a threshold adjustment policy corresponding to the environmental monitoring device in the target area if the number of people is greater than the fourth preset number of people includes:
Determining a fourth adjustment threshold based on the fourth preset number of people, the second mapping relationship and a specified threshold of the temperature monitoring device, wherein the fourth adjustment threshold is smaller than or equal to the third adjustment threshold;
the adjusting the specified threshold based on the threshold adjustment policy includes:
and setting a designated threshold of the temperature monitoring device as the fourth adjustment threshold.
7. The intelligent control method according to any one of claims 1 to 6, characterized in that the method further comprises:
acquiring a first ambient temperature value in the target area and a second ambient temperature value outside the target area;
determining a working mode of temperature control equipment based on the first environment temperature value, the second environment temperature value and a preset temperature threshold value; the temperature control device is used for adjusting the ambient temperature in the target area;
and controlling the temperature control equipment to work according to the working mode.
8. The intelligent control method according to any one of claims 1 to 6, characterized by further comprising, before the acquisition of the number of people in the target area:
responding to an opening instruction of a designated mode, and opening the designated mode, wherein the designated mode is a mode in which a multi-person scene exists;
And when the specified mode is on, starting to execute the step of acquiring the number of people in the target area.
9. An intelligent control device of an environmental monitoring apparatus, wherein the intelligent control device comprises:
the system comprises a population determining module, a population detecting module and a population detecting module, wherein the population determining module is used for obtaining the population in a target area, and the target area represents a monitoring coverage area of environment monitoring equipment; the environment monitoring equipment is used for detecting detection parameters of specified environment factors in the monitoring coverage area and working according to the relation between the detection parameters and specified thresholds, and the specified thresholds are used for representing critical values for enabling the environment monitoring equipment to switch working states; if the environment monitoring equipment is gas monitoring equipment, the gas monitoring equipment enters an alarm state under the condition that the detection parameter of the gas monitoring equipment is larger than or equal to a corresponding specified threshold value; if the environment monitoring equipment is temperature monitoring equipment, under the condition that the detection parameter of the temperature monitoring equipment is greater than or equal to a corresponding specified threshold value, the temperature control equipment corresponding to the temperature monitoring equipment enters an on state;
the threshold adjustment strategy determining module is used for determining a threshold adjustment strategy corresponding to the environment monitoring equipment in the target area if the number of people is larger than a preset number of people; the threshold adjustment strategy characterizes a mapping relation between the number of people in the target area and an adjustment threshold, wherein the adjustment threshold refers to a working threshold of the environment monitoring equipment when the target area is expected to be in a multi-person scene; and
And the threshold adjustment module is used for adjusting the specified threshold based on the threshold adjustment strategy.
10. An electronic device, comprising:
one or more processors;
a memory;
one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more applications configured to perform the method of any of claims 1-8.
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