CN114415535A - Intelligent home management and control system based on data acquisition - Google Patents

Intelligent home management and control system based on data acquisition Download PDF

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Publication number
CN114415535A
CN114415535A CN202210074708.6A CN202210074708A CN114415535A CN 114415535 A CN114415535 A CN 114415535A CN 202210074708 A CN202210074708 A CN 202210074708A CN 114415535 A CN114415535 A CN 114415535A
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intelligent
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董美亚
朱小聪
董正奇
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Suzhou Meixin Internet Information Technology Co ltd
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Suzhou Meixin Internet Information Technology Co ltd
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B15/00Systems controlled by a computer
    • G05B15/02Systems controlled by a computer electric
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/26Pc applications
    • G05B2219/2642Domotique, domestic, home control, automation, smart house
    • 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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  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
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Abstract

The invention discloses an intelligent home management and control system based on data acquisition, which comprises an indoor environment monitoring module, an intelligent sensing control module, a data receiving and storing module, an intelligent health service platform, an intelligent positioning module, an intelligent security module, an intelligent user control module, a master control module and intelligent home equipment, wherein the intelligent positioning module is used for receiving and storing data; the indoor environment monitoring module is used for acquiring indoor environment information, the indoor environment information comprises toxic gas concentration, carbon dioxide concentration, humidity, temperature and illumination intensity, and the indoor environment information is sent to the intelligent sensing control module and the data collecting and storing module; the intelligent positioning module is used for positioning a user to obtain user positioning information, and the user positioning information is sent to the intelligent perception control module, the data collection and storage module and the intelligent security module. The invention can intelligently control indoor home according to the current position and state of the user and regulate and control the indoor environment to the most comfortable place.

Description

Intelligent home management and control system based on data acquisition
Technical Field
The invention relates to the field of intelligent home, in particular to an intelligent home management and control system based on data acquisition.
Background
With the development of science and technology and the continuous improvement of living standard of people, the improvement of living environment is concerned, and the requirements of comfort, safety and convenience for each member in family life are more and more paid attention by developers. The intelligent home is an intelligent control system which takes a house as a platform, has building equipment, network communication, information household appliances and equipment automation, integrates a system, a structure, service and management into a whole, and can meet and realize a humane living environment with high efficiency, comfort, safety, convenience and environmental protection.
Smart homes may be defined as a system. The intelligent home management and control system takes a house as a platform, utilizes advanced computer technology, network communication technology, comprehensive wiring technology and wireless technology, is organically combined with subsystems related to home life, and needs to be used in the actual use process of the intelligent home to manage and control the intelligent home.
The existing intelligent home management and control system is low in intelligent effect, management and control mechanization causes that indoor environment regulation and control are not comfortable enough, and the intelligent home management and control system is used to bring certain influence, so that the intelligent home management and control system based on data acquisition is provided.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: how to solve current intelligent house management and control system, intelligent effect is lower, and management and control mechanization leads to the problem of comfortable inadequately of indoor environment regulation and control, and certain influence has been brought in intelligent house management and control system's use, provides an intelligent house management and control system based on data acquisition.
The invention solves the technical problems through the following technical scheme, and the intelligent household intelligent monitoring system comprises an indoor environment monitoring module, an intelligent sensing control module, a data receiving and storing module, an intelligent health service platform, an intelligent positioning module, an intelligent security module, an intelligent user control module, a master control module and intelligent household equipment;
the indoor environment monitoring module is used for acquiring indoor environment information, the indoor environment information comprises toxic gas concentration, carbon dioxide concentration, humidity, temperature and illumination intensity, and the indoor environment information is sent to the intelligent sensing control module and the data collecting and storing module;
the intelligent positioning module is used for positioning a user to obtain user positioning information, and the user positioning information is sent to the intelligent perception control module, the data collection and storage module and the intelligent security module;
the intelligent sensing control module receives indoor environment information and then processes the indoor environment information and user positioning information to generate environment regulation and control information, the environment regulation and control information is sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the environment regulation and control information;
the data collection and storage module is used for uploading the received data and the data of each intelligent home to a background data center through a network for storage and backup, and sending the stored data to the intelligent health service center;
the intelligent health service center analyzes the data after receiving the stored data to obtain indoor environment perception data and user health state data, identifies and controls health risk factors, implements personalized health education, guides medical needs and medical services, and assists clinical decisions;
the intelligent security module controls the intelligent home to provide automatic hierarchical security after receiving the user positioning information, security services with different security levels are provided according to the current position and the activity state of the user, namely intelligent security control information is generated and sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the intelligent security control information;
the intelligent user control module is used for enabling a user to remotely control the intelligent household equipment outdoors through a network through mobile terminals such as the intelligent equipment, the intelligent user control module generates remote regulation and control information, and the remote regulation and control information is sent to the master control module and then regulates and controls the intelligent household equipment according to the remote regulation and control information.
Further, the environment control information includes ventilation information, temperature control information, brightness control information, and humidity control information.
Further, the specific processing procedure of the ventilation information is as follows: extracting the obtained user positionAcquiring the user position information, extracting indoor environment information of the position of the user, extracting toxic gas concentration and carbon dioxide concentration from the indoor environment information, directly extracting the toxic gas concentration and the carbon dioxide concentration in the environment information when the user position information cannot be acquired, marking the toxic gas concentration as M1, marking the carbon dioxide concentration as M2, setting a toxic gas concentration threshold value K1 and a carbon dioxide concentration threshold value K2, calculating a difference value between the toxic gas concentration M1 and the toxic gas concentration threshold value K1 to obtain a gas difference Mk1Difference (D)The difference between the carbon dioxide concentration M2 and the carbon dioxide concentration threshold K2 is used to obtain the concentration difference Mk2Difference (D)When the gas difference Mk1Difference (D)And the concentration difference Mk2Difference (D)When any one of the air exchange information is larger than the preset value, the air exchange information is generated.
Further, the temperature regulation and control information includes temperature increase information and temperature decrease information, and the specific processing procedures of the temperature increase information and the temperature decrease information are as follows: the method comprises the steps of extracting obtained user position information, obtaining the user position information, extracting indoor environment information of the position where a user is located, extracting temperature information from the indoor environment information, directly extracting the temperature information from the environment information when the user position information cannot be obtained, marking the temperature information as W, extracting outdoor temperature information at the moment, marking the outdoor temperature information as P, generating temperature reduction information when the outdoor temperature information P is larger than a preset value and the temperature information W is larger than the preset value, and generating the temperature reduction information when the outdoor temperature information P is smaller than the preset value and the temperature information W is smaller than the preset value.
Further, the brightness control information includes first control information and second control information, and the specific processing procedures of the first control information and the second control information are as follows: the method comprises the steps of extracting obtained user position information, obtaining the user position information, extracting indoor environment information of a position where a user is located, extracting illumination intensity information from the indoor environment information, directly extracting the illumination intensity information from the environment information when the user position information cannot be obtained, marking the illumination intensity information as L, extracting outdoor brightness information as U, generating second regulation and control information when the outdoor brightness information U is smaller than a preset value and the difference value between the illumination intensity information L and the outdoor brightness information U is larger than the preset value, generating second regulation and control information when the outdoor brightness information U is larger than the preset value and the illumination intensity information L is also larger than the preset value, and generating first regulation and control information when the illumination intensity information L is smaller than the preset value.
Further, the humidity control information includes humidification information and drying information, and the specific processing procedures of the humidification information and the drying information are as follows: the method comprises the steps of extracting the obtained user position information, obtaining the user position information, extracting indoor environment information of the position where a user is located, extracting humidity information from the indoor environment information, directly extracting the humidity information from the environment information when the user position information cannot be obtained, marking the humidity information as S, generating dry information when the humidity information S is larger than a humidity threshold, and generating humidification information when the humidity information S is smaller than an environment drying threshold.
The intelligent positioning module carries out user position positioning modes including infrared positioning and sound positioning, and the infrared positioning and the sound positioning are carried out simultaneously.
Further, the specific process of infrared positioning is as follows: two groups of infrared transmitters and receivers are respectively arranged at the joints of each door, a walking road junction and the like, the two groups of infrared devices are arranged in parallel in the horizontal direction, when a user passes through the infrared devices, the two groups of infrared devices are triggered successively, and the position sensing module judges whether the user enters or leaves a room according to the triggering sequence of the infrared devices, so that the room where the user is located is judged.
Further, the specific process of sound localization is as follows: the intelligent home is provided with a plurality of positioning terminals, the positioning terminals simultaneously transmit sound wave signals and electromagnetic signals, when a user carries a mobile phone or other mobile terminals indoors, the mobile terminal captures the sound wave signals and the electromagnetic signals of the positioning terminals, the propagation speed of sound waves in the air is approximately a fixed value, the electromagnetic signals can be approximately considered to arrive instantly when the electromagnetic signals are propagated indoors, the mobile terminal calculates the distance between the mobile terminal and the positioning terminals according to the time difference of receiving the sound wave signals and the electromagnetic signals of the same positioning terminal, and the position of the user carrying the mobile terminal is positioned by measuring the distance between the mobile terminal and more than three positioning terminals.
Compared with the prior art, the invention has the following advantages: this intelligent house management and control system based on data acquisition, can be according to user's current position and state, various furniture in the control room intelligently, it is most comfortable, convenient, the requirement of safety to adjust indoor environment, and share indoor environment perception data and user health state data, discernment, control health risk factor, implement individualized health education, guide medical demand and medical service simultaneously, supplementary clinical decision, thereby realize whole health information management, entire system is more intelligent controls the management to intelligent house, user's different user demands have been satisfied, let this system be worth using widely more.
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FIG. 1 is a system block diagram of the present invention;
FIG. 2 is an infrared positioning schematic of the present invention;
fig. 3 is a schematic diagram of sound localization of the present invention.
Detailed Description
The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.
As shown in fig. 1 to 3, the present embodiment provides a technical solution: an intelligent home management and control system based on data acquisition comprises an indoor environment monitoring module, an intelligent sensing control module, a data receiving and storing module, an intelligent health service platform, an intelligent positioning module, an intelligent security module, an intelligent user control module, a master control module and intelligent home equipment;
the indoor environment monitoring module is used for acquiring indoor environment information, the indoor environment information comprises toxic gas concentration, carbon dioxide concentration, humidity, temperature and illumination intensity, and the indoor environment information is sent to the intelligent sensing control module and the data collecting and storing module;
the intelligent positioning module is used for positioning a user to obtain user positioning information, and the user positioning information is sent to the intelligent perception control module, the data collection and storage module and the intelligent security module;
the intelligent sensing control module receives indoor environment information and then processes the indoor environment information and user positioning information to generate environment regulation and control information, the environment regulation and control information is sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the environment regulation and control information;
the data collection and storage module is used for uploading the received data and the data of each intelligent home to a background data center through a network for storage and backup, and sending the stored data to the intelligent health service center;
the intelligent health service center analyzes the data after receiving the stored data to obtain indoor environment perception data and user health state data, identifies and controls health risk factors, implements personalized health education, guides medical needs and medical services, and assists clinical decisions;
the intelligent security module controls the intelligent home to provide automatic hierarchical security after receiving the user positioning information, security services with different security levels are provided according to the current position and the activity state of the user, namely intelligent security control information is generated and sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the intelligent security control information;
the intelligent user control module is used for enabling a user to remotely control the intelligent household equipment outdoors through a network through mobile terminals such as the intelligent equipment, the intelligent user control module generates remote regulation and control information, and the remote regulation and control information is sent to the master control module and then regulates and controls the intelligent household equipment according to the remote regulation and control information.
This intelligent house management and control system based on data acquisition, can be according to user's current position and state, various furniture in the control room intelligently, it is most comfortable, convenient, the requirement of safety to adjust indoor environment, and share indoor environment perception data and user health state data, discernment, control health risk factor, implement individualized health education, guide medical demand and medical service simultaneously, supplementary clinical decision, thereby realize whole health information management, entire system is more intelligent controls the management to intelligent house, user's different user demands have been satisfied, let this system be worth using widely more.
The environment regulation and control information comprises ventilation information, temperature regulation and control information, brightness regulation and control information and humidity regulation and control information.
The specific processing process of the ventilation information is as follows: extracting the obtained user position information, obtaining the user position information, extracting indoor environment information of the position of the user, extracting toxic gas concentration and carbon dioxide concentration from the indoor environment information, when the user position information cannot be obtained, directly extracting the toxic gas concentration and the carbon dioxide concentration from the environment information, marking the toxic gas concentration as M1, marking the carbon dioxide concentration as M2, setting a toxic gas concentration threshold value K1 and a carbon dioxide concentration threshold value K2, calculating a difference value between the toxic gas concentration M1 and the toxic gas concentration threshold value K1 to obtain a gas difference Mk1Difference (D)The difference between the carbon dioxide concentration M2 and the carbon dioxide concentration threshold K2 is used to obtain the concentration difference Mk2Difference (D)When the gas difference Mk1Difference (D)And the concentration difference Mk2Difference (D)When any one of the air exchange information is larger than the preset value, the air exchange information is generated.
Through the process, the indoor ventilation can be timely carried out when the indoor carbon dioxide concentration is too high or the harmful gas concentration is abnormal, so that accidents caused by the indoor carbon dioxide concentration or the harmful gas concentration are avoided, and the safety of users is better protected.
The temperature regulation and control information comprises temperature rise information and temperature fall information, and the specific processing processes of the temperature rise information and the temperature fall information are as follows: the method comprises the steps of extracting obtained user position information, obtaining the user position information, extracting indoor environment information of the position where a user is located, extracting temperature information from the indoor environment information, directly extracting the temperature information from the environment information when the user position information cannot be obtained, marking the temperature information as W, extracting outdoor temperature information at the moment, marking the outdoor temperature information as P, generating temperature reduction information when the outdoor temperature information P is larger than a preset value and the temperature information W is larger than the preset value, and generating the temperature reduction information when the outdoor temperature information P is smaller than the preset value and the temperature information W is smaller than the preset value.
Through the process, intelligent stable regulation and control can be better carried out.
The brightness regulation and control information comprises first regulation and control information and second regulation and control information, and the specific processing process of the first regulation and control information and the second regulation and control information is as follows: the method comprises the steps of extracting obtained user position information, obtaining the user position information, extracting indoor environment information of a position where a user is located, extracting illumination intensity information from the indoor environment information, directly extracting the illumination intensity information from the environment information when the user position information cannot be obtained, marking the illumination intensity information as L, extracting outdoor brightness information as U, generating second regulation and control information when the outdoor brightness information U is smaller than a preset value and the difference value between the illumination intensity information L and the outdoor brightness information U is larger than the preset value, generating second regulation and control information when the outdoor brightness information U is larger than the preset value and the illumination intensity information L is also larger than the preset value, and generating first regulation and control information when the illumination intensity information L is smaller than the preset value.
Through the process, intelligent indoor brightness adjustment can be performed, and energy conservation and environmental protection are achieved.
The humidity regulation and control information comprises humidification information and drying information, and the specific processing process of the humidification information and the drying information is as follows: the method comprises the steps of extracting the obtained user position information, obtaining the user position information, extracting indoor environment information of the position where a user is located, extracting humidity information from the indoor environment information, directly extracting the humidity information from the environment information when the user position information cannot be obtained, marking the humidity information as S, generating dry information when the humidity information S is larger than a humidity threshold, and generating humidification information when the humidity information S is smaller than an environment drying threshold.
Through the process, intelligent indoor humidity adjustment is realized, and the indoor environment is more comfortable.
The intelligent positioning module carries out user position positioning mode and comprises infrared positioning and sound positioning, the infrared positioning and the sound positioning are carried out simultaneously, and the specific process of the infrared positioning is as follows: two groups of infrared transmitters and receivers are respectively arranged at the joints of each door, a walking road junction and the like, the two groups of infrared devices are horizontally arranged in parallel, when a user passes through the infrared positioning device, the two groups of infrared devices are sequentially triggered, and according to the sequence triggered by the infrared devices, the position sensing module judges whether the user enters or leaves a room, so that the room where the user is located is judged, and the specific process of sound positioning is as follows: the method comprises the steps that a plurality of positioning terminals are arranged in an intelligent home, the positioning terminals simultaneously transmit sound wave signals and electromagnetic signals, when a user carries a mobile phone or other mobile terminals indoors, the mobile terminals capture the sound wave signals and the electromagnetic signals of the positioning terminals, the propagation speed of sound waves in the air is approximately a fixed value, the electromagnetic signals can be approximately considered to arrive instantly when the electromagnetic signals propagate indoors, the mobile terminals calculate the distance between the mobile terminals and the positioning terminals according to the time difference of receiving the sound wave signals and the electromagnetic signals of the same positioning terminal, and the positions of the user carrying the mobile terminals are positioned by measuring the distances between the mobile terminals and more than three positioning terminals;
infrared positioning roughly judges the room where the user is currently located by sensing the position switching of the user walking between different rooms. The infrared positioning method comprises the following steps: two groups of infrared transmitters and receivers are respectively arranged at the joints of each door, each road crossing and the like, the two groups of infrared devices are arranged in parallel in the horizontal direction, and when a user passes through the infrared devices, the two groups of infrared devices are triggered successively. According to the triggering sequence of the infrared devices, the position sensing module can judge whether the user enters or leaves a room, so that the current room of the user is judged. This location-aware approach is simple to implement, but the granularity of localization is coarse and does not provide detailed location information of the user in the room, and sound localization is different from infrared localization. Through a plurality of sound positioning terminals deployed in the intelligent home, sound positioning can be accurately positioned to the real-time position and the moving track of a user in the intelligent home. The sound positioning method comprises the following steps: a plurality of positioning terminals are deployed in an intelligent home, and the positioning terminals can transmit sound wave signals and electromagnetic signals simultaneously. When a user carries a mobile phone or other mobile terminals indoors, the mobile terminal can capture the sound wave signals and the electromagnetic signals of the positioning terminal. Since the propagation speed of sound waves in air is approximately 340m/s, electromagnetic signals can be considered to arrive approximately instantaneously when propagating indoors. And the mobile terminal calculates the distance between the mobile terminal and the positioning terminal according to the time difference of the received sound wave signal and the electromagnetic signal of the same positioning terminal. By measuring the distances between the mobile terminal and more than three positioning terminals, the intelligent home can position the position of a user carrying the mobile terminal. The sound positioning method has the advantages that the sound positioning method can be used for positioning only by carrying a mobile terminal by a user, but the positioning granularity is fine, the real-time performance is strong, the moving track of the user can be tracked, the two modes are used simultaneously, the positioning accuracy can be improved, and the more accurate position of the user can be obtained.
In conclusion, when the intelligent sensing control system is used, the indoor environment monitoring module collects indoor environment information, the indoor environment information comprises toxic gas concentration, carbon dioxide concentration, humidity, temperature and illumination intensity, and the indoor environment information is sent to the intelligent sensing control module and the data collecting and storing module; the intelligent positioning module positions a user to obtain user positioning information, and the user positioning information is sent to the intelligent perception control module, the data collection and storage module and the intelligent security module; the intelligent sensing control module receives the indoor environment information and then processes the indoor environment information and the user positioning information to generate environment regulation and control information, the environment regulation and control information is sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the environment regulation and control information; the data collection and storage module uploads the received data and the data of each intelligent home to a background data center through a network for storage and backup, and sends the stored data to an intelligent health service center; the intelligent health service center analyzes the data after receiving the stored data to obtain indoor environment perception data and user health state data, identifies and controls health risk factors, implements personalized health education, guides medical needs and medical services, and assists clinical decisions; the intelligent security module controls the intelligent home to provide automatic hierarchical security after receiving the user positioning information, security services with different security levels are provided according to the current position and the activity state of the user, namely intelligent security control information is generated and sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the intelligent security control information; the intelligent user control module is used for controlling the intelligent household equipment outdoors through a network remote control mode through mobile terminals such as the intelligent equipment, the intelligent user control module generates remote control information, and the remote control information is sent to the master control module and then is used for controlling the intelligent household equipment according to the remote control information.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.
Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (9)

1. An intelligent home management and control system based on data acquisition is characterized by comprising an indoor environment monitoring module, an intelligent sensing control module, a data receiving and storing module, an intelligent health service platform, an intelligent positioning module, an intelligent security module, an intelligent user control module, a master control module and intelligent home equipment;
the indoor environment monitoring module is used for acquiring indoor environment information, the indoor environment information comprises toxic gas concentration, carbon dioxide concentration, humidity, temperature and illumination intensity, and the indoor environment information is sent to the intelligent sensing control module and the data collecting and storing module;
the intelligent positioning module is used for positioning a user to obtain user positioning information, and the user positioning information is sent to the intelligent perception control module, the data collection and storage module and the intelligent security module;
the intelligent sensing control module receives indoor environment information and then processes the indoor environment information and user positioning information to generate environment regulation and control information, the environment regulation and control information is sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the environment regulation and control information;
the data collection and storage module is used for uploading the received data and the data of each intelligent home to a background data center through a network for storage and backup, and sending the stored data to the intelligent health service center;
the intelligent health service center analyzes the data after receiving the stored data to obtain indoor environment perception data and user health state data, identifies and controls health risk factors, implements personalized health education, guides medical needs and medical services, and assists clinical decisions;
the intelligent security module controls the intelligent home to provide automatic hierarchical security after receiving the user positioning information, security services with different security levels are provided according to the current position and the activity state of the user, namely intelligent security control information is generated and sent to the master control module, and the master control module regulates and controls the intelligent home equipment according to the intelligent security control information;
the intelligent user control module is used for enabling a user to remotely control the intelligent household equipment outdoors through a network through mobile terminals such as the intelligent equipment, the intelligent user control module generates remote regulation and control information, and the remote regulation and control information is sent to the master control module and then regulates and controls the intelligent household equipment according to the remote regulation and control information.
2. The intelligent home management and control system based on data acquisition of claim 1, wherein: the environment regulation and control information comprises ventilation information, temperature regulation and control information, brightness regulation and control information and humidity regulation and control information.
3. The intelligent home management and control system based on data acquisition of claim 2, wherein: the specific processing process of the ventilation information is as follows: extracting the obtained user position information, obtaining the user position information, extracting indoor environment information of the position of the user, extracting toxic gas concentration and carbon dioxide concentration from the indoor environment information, when the user position information cannot be obtained, directly extracting the toxic gas concentration and the carbon dioxide concentration from the environment information, marking the toxic gas concentration as M1, marking the carbon dioxide concentration as M2, setting a toxic gas concentration threshold value K1 and a carbon dioxide concentration threshold value K2, calculating a difference value between the toxic gas concentration M1 and the toxic gas concentration threshold value K1 to obtain a gas difference Mk1Difference (D)The difference between the carbon dioxide concentration M2 and the carbon dioxide concentration threshold K2 is used to obtain the concentration difference Mk2Difference (D)When the gas difference Mk1Difference (D)And the concentration difference Mk2Difference (D)When any one of the air exchange information is larger than the preset value, the air exchange information is generated.
4. The intelligent home management and control system based on data acquisition of claim 2, wherein: the temperature regulation and control information comprises temperature rise information and temperature fall information, and the specific processing processes of the temperature rise information and the temperature fall information are as follows: the method comprises the steps of extracting obtained user position information, obtaining the user position information, extracting indoor environment information of the position where a user is located, extracting temperature information from the indoor environment information, directly extracting the temperature information from the environment information when the user position information cannot be obtained, marking the temperature information as W, extracting outdoor temperature information at the moment, marking the outdoor temperature information as P, generating temperature reduction information when the outdoor temperature information P is larger than a preset value and the temperature information W is larger than the preset value, and generating the temperature reduction information when the outdoor temperature information P is smaller than the preset value and the temperature information W is smaller than the preset value.
5. The intelligent home management and control system based on data acquisition of claim 2, wherein: the brightness regulation and control information comprises first regulation and control information and second regulation and control information, and the specific processing process of the first regulation and control information and the second regulation and control information is as follows: the method comprises the steps of extracting obtained user position information, obtaining the user position information, extracting indoor environment information of a position where a user is located, extracting illumination intensity information from the indoor environment information, directly extracting the illumination intensity information from the environment information when the user position information cannot be obtained, marking the illumination intensity information as L, extracting outdoor brightness information as U, generating second regulation and control information when the outdoor brightness information U is smaller than a preset value and the difference value between the illumination intensity information L and the outdoor brightness information U is larger than the preset value, generating second regulation and control information when the outdoor brightness information U is larger than the preset value and the illumination intensity information L is also larger than the preset value, and generating first regulation and control information when the illumination intensity information L is smaller than the preset value.
6. The intelligent home management and control system based on data acquisition of claim 2, wherein: the humidity regulation and control information comprises humidification information and drying information, and the specific processing process of the humidification information and the drying information is as follows: the method comprises the steps of extracting the obtained user position information, obtaining the user position information, extracting indoor environment information of the position where a user is located, extracting humidity information from the indoor environment information, directly extracting the humidity information from the environment information when the user position information cannot be obtained, marking the humidity information as S, generating dry information when the humidity information S is larger than a humidity threshold, and generating humidification information when the humidity information S is smaller than an environment drying threshold.
7. The intelligent home management and control system based on data acquisition of claim 1, wherein: the intelligent positioning module carries out user position positioning modes including infrared positioning and sound positioning, and the infrared positioning and the sound positioning are carried out simultaneously.
8. The intelligent home management and control system based on data acquisition of claim 7, wherein: the specific process of infrared positioning is as follows: two groups of infrared transmitters and receivers are respectively arranged at the joints of each door, a walking road junction and the like, the two groups of infrared devices are arranged in parallel in the horizontal direction, when a user passes through the infrared devices, the two groups of infrared devices are triggered successively, and the position sensing module judges whether the user enters or leaves a room according to the triggering sequence of the infrared devices, so that the room where the user is located is judged.
9. The intelligent home management and control system based on data acquisition of claim 7, wherein: the specific process of sound localization is as follows: the intelligent home is provided with a plurality of positioning terminals, the positioning terminals simultaneously transmit sound wave signals and electromagnetic signals, when a user carries a mobile phone or other mobile terminals indoors, the mobile terminal captures the sound wave signals and the electromagnetic signals of the positioning terminals, the propagation speed of sound waves in the air is approximately a fixed value, the electromagnetic signals can be approximately considered to arrive instantly when the electromagnetic signals are propagated indoors, the mobile terminal calculates the distance between the mobile terminal and the positioning terminals according to the time difference of receiving the sound wave signals and the electromagnetic signals of the same positioning terminal, and the position of the user carrying the mobile terminal is positioned by measuring the distance between the mobile terminal and more than three positioning terminals.
CN202210074708.6A 2022-01-21 2022-01-21 Intelligent home management and control system based on data acquisition Pending CN114415535A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117075491A (en) * 2023-10-13 2023-11-17 湖南朗赫科技有限公司 Intelligent household health management system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117075491A (en) * 2023-10-13 2023-11-17 湖南朗赫科技有限公司 Intelligent household health management system
CN117075491B (en) * 2023-10-13 2024-02-09 湖南朗赫科技有限公司 Intelligent household health management system

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