CN117395093B - Smart home system based on mobile phone APP and Internet of things communication - Google Patents

Smart home system based on mobile phone APP and Internet of things communication Download PDF

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Publication number
CN117395093B
CN117395093B CN202311694533.XA CN202311694533A CN117395093B CN 117395093 B CN117395093 B CN 117395093B CN 202311694533 A CN202311694533 A CN 202311694533A CN 117395093 B CN117395093 B CN 117395093B
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intelligent home
home
execution
mobile phone
establishing
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CN117395093A (en
Inventor
曾义
刘正林
陈文斌
翁云峰
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Guangzhou Hedong Technology Co ltd
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Guangzhou Hedong Technology Co ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
    • H04L12/2803Home automation networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/12Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72409User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72409User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
    • H04M1/72415User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories for remote control of appliances
    • 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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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Human Computer Interaction (AREA)
  • Automation & Control Theory (AREA)
  • Health & Medical Sciences (AREA)
  • Computing Systems (AREA)
  • General Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
  • Telephonic Communication Services (AREA)

Abstract

The invention provides an intelligent home system based on communication between a mobile phone APP and the Internet of things, which comprises: connecting each intelligent home in a designated room to a preset management center, establishing a center service platform of the designated room, obtaining an operation instruction corresponding to each intelligent home according to a control instruction sent by a user on a designated mobile phone APP, adjusting a working mode corresponding to each intelligent home and establishing a coordination instruction in a working time period, controlling the corresponding intelligent home to execute corresponding operation according to the control instruction and the coordination instruction, acquiring operation information corresponding to each intelligent home in real time, establishing feedback information according to the operation information, feeding the feedback information back to a mobile phone of the user through the center service platform for display, and controlling the intelligent home through the mobile phone APP and an Internet of things communication technology, so that the operation distance between controllable equipment of an operator can be effectively prolonged, and the satisfaction of the user is improved.

Description

Smart home system based on mobile phone APP and Internet of things communication
Technical Field
The invention relates to the technical field of intelligent home, in particular to an intelligent home system based on communication between a mobile phone APP and the Internet of things.
Background
With the improvement of national economy and scientific technology, particularly the rapid development and improvement of computer technology, communication technology, network technology and control technology, the living modernization of families is promoted, the living environment is comfortable and safe, the high technologies have affected the aspects of people living, the living habit of people is changed, the living quality of people is improved, and the living intelligence of families is also generated at the moment. However, in the current method for controlling smart home, a user generally uses a remote control or an intelligent central control screen to operate, and in order to realize controllability and control accuracy, operation control needs to be performed within a short distance range, so that the operation distance between a controller and control equipment is greatly limited.
Therefore, the invention provides an intelligent home system based on communication between the mobile phone APP and the Internet of things.
Disclosure of Invention
According to the intelligent home system based on communication between the mobile phone APP and the Internet of things, the intelligent home is controlled through the communication technology of the mobile phone APP and the Internet of things, so that the operation distance between controllable devices of an operator can be effectively prolonged, and the satisfaction of users is improved.
The invention provides an intelligent home system based on communication between a mobile phone APP and the Internet of things, which comprises:
the system comprises a building module, a control module and a control module, wherein the building module is used for connecting each intelligent home in a designated room to a preset management center and building a center service platform of the designated room;
the coordination module is used for obtaining an operation instruction corresponding to each intelligent home according to a control instruction sent by a user on a designated mobile phone APP, and adjusting a working mode corresponding to each intelligent home and establishing a coordination instruction in a working time period;
the management module is used for controlling the corresponding intelligent home to execute corresponding operations according to the control instruction and the coordination instruction;
and the feedback module is used for acquiring the corresponding operation information of each intelligent home in real time, establishing feedback information according to the operation information, and feeding the feedback information back to the mobile phone of the user for display through the central service platform.
In one embodiment of the present invention, in one possible implementation,
further comprises:
and the networking module is used for making a connection protocol based on a preset home gateway, and accessing each intelligent home in the designated room and the designated mobile phone into a preset network based on the connection protocol.
In one embodiment of the present invention, in one possible implementation,
The building module comprises:
the parameter analysis unit is used for acquiring home parameters corresponding to each intelligent home in the designated room, and establishing a working space range corresponding to each intelligent home and a working time range corresponding to each intelligent home based on the home parameters;
the mark weight building unit is used for dividing the intelligent home into a fixed home and a movable home based on the working space range, building a state mark for each intelligent home based on a classification result, sorting the working time range corresponding to each intelligent home from long to short, and building a use frequency weight for each intelligent home according to the sorting result;
the classification estimation unit is used for establishing a dynamic management domain and a static management domain in the preset management center, connecting each intelligent home in the designated room to a corresponding management domain based on the state mark, evaluating the use duration of the corresponding intelligent home according to the use frequency weight, and estimating an estimated use time period corresponding to each intelligent home in the next preset period;
and the building execution unit is used for counting intelligent home connected to each management domain and estimating the use time period corresponding to each appointed home, and building a central service platform of the appointed room.
In one embodiment of the present invention, in one possible implementation,
the coordination module comprises:
the analysis searching unit is used for acquiring and analyzing the control instruction sent by the user on the appointed mobile phone APP to obtain a plurality of control purposes of the user, and searching the execution intelligent home corresponding to each control purpose in the central service platform;
the state analysis unit is used for acquiring the current state corresponding to each execution intelligent home, establishing a target state corresponding to the execution intelligent home according to the control purpose, and establishing an operation instruction corresponding to the execution intelligent home based on the adjustment operation according to the corresponding adjustment operation when each execution intelligent home is adjusted from the corresponding current state to the corresponding target state;
the simulation analysis unit is used for searching a state mark corresponding to each execution intelligent home in the central service platform, dividing the execution intelligent home into a fixed execution intelligent home and an active execution intelligent home according to the state mark, and simulating the adjustment operation of the corresponding active execution intelligent home based on the operation instruction to obtain an operation range and operation duration corresponding to each active execution intelligent home;
The coordination execution unit is used for acquiring coincidence sub-ranges among different operation ranges, respectively adjusting the operation actions of the movable execution intelligent home corresponding to each coincidence sub-range in each preset unit time period, and respectively establishing corresponding coordination instructions for each movable execution intelligent home.
In one embodiment of the present invention, in one possible implementation,
a management module, comprising:
the statistics management unit is used for counting control instructions and coordination instructions corresponding to each activity execution intelligent home to obtain a home-execution set of the designated room;
the comparison management unit is used for analyzing the home-execution aggregate, acquiring the same instruction point and different instruction point of the control instruction and the coordination instruction corresponding to each activity execution intelligent home, establishing control key points corresponding to the activity execution intelligent home according to the different instruction points, and establishing a control key point chain corresponding to the activity execution intelligent home;
the dynamic management unit is used for establishing a dynamic control scheme of the corresponding activity execution intelligent home according to the control key chain and the operation duration corresponding to the activity execution intelligent home, and controlling the activity execution intelligent home to perform corresponding dynamic operation based on the dynamic control scheme;
And the stationary management unit is used for establishing a static control scheme based on the operation instruction corresponding to the fixed execution intelligent home, and controlling the fixed execution intelligent home to perform corresponding static operation based on the static control scheme.
In one embodiment of the present invention, in one possible implementation,
the feedback module comprises:
the preprocessing unit is used for collecting operation information generated in the process of executing corresponding operation by each intelligent home, and establishing an operation time period corresponding to each intelligent home according to the operation information;
the first feedback unit is used for searching the estimated use time period corresponding to each intelligent home in the central service platform, judging whether the operation time period is consistent with the estimated use time period, and if so, establishing a first feedback label for the corresponding operation time period;
the second feedback unit is used for acquiring the time difference between the operation time period and the estimated use time period if the operation time period is inconsistent with the estimated use time period, and establishing a second feedback label for the corresponding operation time period according to the time difference;
the feedback execution unit is used for counting intelligent home corresponding to each feedback tag and operation information corresponding to each intelligent home, establishing feedback information of the appointed room, and feeding the feedback information back to a user mobile phone through the central service platform for display.
In one embodiment of the present invention, in one possible implementation,
the coordination execution unit comprises:
the first execution subunit is used for establishing a background model of the appointed room according to the room layout of the appointed room, obtaining current coordinate information of each activity execution intelligent home in the appointed room according to the current state corresponding to each activity execution intelligent home, and obtaining home coordinate information of each activity execution intelligent home in the appointed room according to the target state corresponding to each activity execution intelligent home;
the second execution subunit is used for inputting the current coordinate information into the background model and performing first marking, inputting the home coordinate information into the background model and performing second marking, and generating a live model of the designated room;
the third execution subunit is used for establishing a vector transformation path of each movable execution intelligent home from current coordinate information to corresponding home coordinate information in the live model, acquiring coincidence information among different vector transformation paths to obtain a coincidence sub-range among different operation ranges, adjusting each vector transformation path in the live model until the coincidence information among different vector transformation paths is 0, and generating a vector effective path corresponding to each movable execution intelligent home;
And the fourth execution subunit is used for determining the operation actions corresponding to the activity execution intelligent home in each preset unit time period according to the target states corresponding to the activity execution intelligent home and the vector effective path, and establishing coordination instructions corresponding to each activity execution intelligent home.
In one embodiment of the present invention, in one possible implementation,
the feedback module further comprises:
the feedback analysis unit is used for analyzing the feedback information, marking the intelligent home containing the second feedback tag as the intelligent home to be tested according to the analysis result, and respectively acquiring the tag value corresponding to each intelligent home to be tested;
when the tag value of the intelligent home to be detected is in a preset value range, respectively acquiring a home trigger condition corresponding to each intelligent home to be detected and acquiring the current trigger condition of the appointed room;
when the current triggering condition is consistent with the household triggering condition, determining that the corresponding intelligent household to be detected belongs to a normal household;
otherwise, determining that the intelligent home to be detected belongs to an abnormal home;
when the specified room contains abnormal home furnishing, acquiring an abnormal home furnishing generation feedback list in the specified room, and feeding back the feedback list to a user mobile phone for display through the center service platform.
In one embodiment of the present invention, in one possible implementation,
and when the tag value of the intelligent home to be detected is out of the preset value range, determining that the intelligent home to be detected is an abnormal home.
In one embodiment of the present invention, in one possible implementation,
and the coordination module is also used for regarding the control instruction as an operation instruction when the control instruction controls a single intelligent home, and transmitting the operation instruction to the management module for home management.
The invention has the beneficial effects that: in order to expand the control distance of the smart home and realize remote control, a central service platform is established by connecting the smart home in a room to a preset management center, when a user remotely sends a control instruction through a mobile phone APP, the corresponding operation instruction of each smart home is analyzed, in order to avoid collision or contradiction caused by simultaneous operation of different smart home, the working mode and the working time of each smart home are adjusted according to the attribute of each smart home, so that a coordination instruction of each smart home is established, further, the smart home is controlled to execute corresponding operation according to the control instruction and the coordination instruction, in order to enable the user to remotely know the condition in the room at any time, the operation information generated by the smart home is collected in real time, the feedback information is generated by summarizing the operation information and is transmitted to the mobile phone of the user through the central service platform for display, in the system, the operation mode and the working time of the smart home are adjusted by utilizing the attribute of the smart home, so that not only the operation instruction of the smart home can be executed, but also the space in the room and the operation duration of the smart home can be effectively distributed, the state of the user can be expected in a short time, the state of the user can be improved, and the user can know the state of the user in the room through the mobile phone APP can be effectively controlled in real time, and the user can conveniently and conveniently control the system at any time.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.
The technical scheme of the invention is further described in detail through the drawings and the embodiments.
Drawings
The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:
fig. 1 is a schematic diagram of an intelligent home system based on communication between a mobile phone APP and the internet of things in an embodiment of the invention;
fig. 2 is a schematic diagram of building modules of an intelligent home system based on communication between a mobile phone APP and the internet of things in an embodiment of the present invention;
fig. 3 is a schematic diagram of a coordination module of an intelligent home system based on communication between a mobile phone APP and the internet of things in an embodiment of the present invention;
fig. 4 is a schematic diagram of a management module composition of an intelligent home system based on communication between a mobile phone APP and the internet of things in an embodiment of the present invention;
Fig. 5 is a schematic diagram of a feedback module composition of an intelligent home system based on communication between a mobile phone APP and the internet of things in an embodiment of the invention.
Detailed Description
The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.
Example 1
The embodiment provides an intelligent home system based on communication between a mobile phone APP and the Internet of things, as shown in fig. 1, including:
the system comprises a building module, a control module and a control module, wherein the building module is used for connecting each intelligent home in a designated room to a preset management center and building a center service platform of the designated room;
the coordination module is used for obtaining an operation instruction corresponding to each intelligent home according to a control instruction sent by a user on a designated mobile phone APP, and adjusting a working mode corresponding to each intelligent home and establishing a coordination instruction in a working time period;
the management module is used for controlling the corresponding intelligent home to execute corresponding operations according to the control instruction and the coordination instruction;
and the feedback module is used for acquiring the corresponding operation information of each intelligent home in real time, establishing feedback information, and feeding the feedback information back to the mobile phone of the user for display through the central service platform.
In this example, the designated room may be a room that the user has previously entered or set;
in the example, the preset management center represents a management platform which is set in advance and is used for networking with each intelligent home;
in the example, the central service platform is a virtual platform for managing work of different intelligent households in a designated room;
in the example, the appointed mobile phone APP represents an APP which is set on a user mobile phone in advance and used for controlling intelligent home in an appointed room;
in this example, the working mode indicates a mode adopted when the smart home performs a corresponding operation, and in general, the smart home may correspond to multiple modes when performing a corresponding operation, for example: when the sweeping robot is used for sweeping, a bedroom can be firstly swept, then a living room can be swept, and the living room can be firstly swept, then the bedroom can be swept;
in the example, the operation instruction represents an instruction which is sent by a user through a mobile phone APP and is used for controlling the intelligent home;
in the example, the working time period represents a time period when the smart home works in the working process;
in the example, the coordination instruction represents an instruction which is established for adjusting working modes and working time periods of different intelligent home in order to avoid collision or contradiction when a plurality of intelligent home work at the same time;
In this example, when the smart home performs a corresponding operation, corresponding operation information is generated.
The working principle of the technical scheme has the beneficial effects that: in order to expand the control distance of the smart home and realize remote control, a central service platform is established by connecting the smart home in a room to a preset management center, when a user remotely sends a control instruction through a mobile phone APP, the corresponding operation instruction of each smart home is analyzed, in order to avoid collision or contradiction caused by simultaneous operation of different smart home, the working mode and the working time of each smart home are adjusted according to the attribute of each smart home, so that a coordination instruction of each smart home is established, further, the smart home is controlled to execute corresponding operation according to the control instruction and the coordination instruction, in order to enable the user to remotely know the condition in the room at any time, the operation information generated by the smart home is collected in real time, the feedback information is generated by summarizing the operation information and is transmitted to the mobile phone of the user through the central service platform for display, in the system, the operation mode and the working time of the smart home are adjusted by utilizing the attribute of the smart home, so that not only the operation instruction of the smart home can be executed, but also the space in the room and the operation duration of the smart home can be effectively distributed, the state of the user can be expected in a short time, the state of the user can be improved, and the user can know the state of the user in the room through the mobile phone APP can be effectively controlled in real time, and the user can conveniently and conveniently control the system at any time.
Example 2
Based on embodiment 1, the smart home system based on communication between the mobile phone APP and the internet of things further includes:
and the networking module is used for making a connection protocol based on a preset home gateway, and accessing each intelligent home in the designated room and the designated mobile phone into a preset network based on the connection protocol.
In this example, the preset home gateway represents a device for making an internet connection;
in this example, the preset network may be a public network or a local area network;
in this example, the connection protocol represents a pre-provisioning protocol that is performed before the smart home accesses the pre-set network.
The working principle of the technical scheme has the beneficial effects that: in order to ensure that a user can effectively control the work of the intelligent home, a connection protocol is established according to a preset home gateway, and then the intelligent home and a specified mobile phone are accessed into a preset network according to the protocol, so that a foundation is laid for follow-up remote control.
Example 3
On the basis of embodiment 1, the smart home system based on communication between the mobile phone APP and the internet of things, as shown in fig. 2, the building module includes:
the parameter analysis unit is used for acquiring home parameters corresponding to each intelligent home in the designated room, and establishing a working space range corresponding to each intelligent home and a working time range corresponding to each intelligent home based on the home parameters;
The mark weight building unit is used for dividing the intelligent home into a fixed home and a movable home based on the working space range, building a state mark for each intelligent home based on a classification result, sorting the working time range corresponding to each intelligent home from long to short, and building a use frequency weight for each intelligent home according to the sorting result;
the classification estimation unit is used for establishing a dynamic management domain and a static management domain in the preset management center, connecting each intelligent home in the designated room to a corresponding management domain based on the state mark, evaluating the use duration of the corresponding intelligent home according to the use frequency weight, and estimating an estimated use time period corresponding to each intelligent home in the next preset period;
and the building execution unit is used for counting intelligent home connected to each management domain and estimating the use time period corresponding to each appointed home, and building a central service platform of the appointed room.
In this example, the working space range represents the maximum space range of the smart home when working;
in this example, the working time range includes a working time period corresponding to one time of working of the smart home, and a time period of working of the smart home, for example: the operation time of the electric curtain is 3 minutes, and the operation time period is 18:00-0:00, and 06:00-10:00;
In this example, a fixed home represents a smart home that is stationary within a given room, such as: refrigerators, televisions, desktop computers, and the like;
in this example, an active home represents a smart home that may change location within a given room, such as: sweeping robots, motorized curtains, motorized doors, etc.;
in this example, the longer the operating time range, the greater the frequency of use weight;
in this example, the dynamic management domain represents a management area for managing the active home;
in this example, the static management domain represents a management area for managing a fixed home;
in the example, the usage frequency weight represents a weight corresponding to the frequency of the user using the smart home;
in this example, the preset period is 24 hours;
in this example, the estimated usage period represents an estimated usage period of each smart home in a next preset period determined by means of estimation.
The working principle of the technical scheme has the beneficial effects that: in order to facilitate management of smart home, a working space range and a working time range corresponding to the smart home are established according to home parameters corresponding to each smart home, the smart home is divided into two types of fixed home and movable home according to the working space range, different management is carried out on the two types of home by different management domains, a use frequency weight corresponding to each smart home is established according to the working time range, further, the use duration of the smart home is evaluated, the estimated use time period of the smart home in the open day is estimated, and therefore a central service platform of a designated room is established, unified management is facilitated, and control is carried out simultaneously.
Example 4
On the basis of embodiment 1, the smart home system based on communication between the mobile phone APP and the internet of things, as shown in fig. 3, the coordination module includes:
the analysis searching unit is used for acquiring and analyzing the control instruction sent by the user on the appointed mobile phone APP to obtain a plurality of control purposes of the user, and searching the execution intelligent home corresponding to each control purpose in the central service platform;
the state analysis unit is used for acquiring the current state corresponding to each execution intelligent home, establishing a target state corresponding to the execution intelligent home according to the control purpose, and establishing an operation instruction corresponding to the execution intelligent home based on the adjustment operation according to the corresponding adjustment operation when each execution intelligent home is adjusted from the corresponding current state to the corresponding target state;
the simulation analysis unit is used for searching a state mark corresponding to each execution intelligent home in the central service platform, dividing the execution intelligent home into a fixed execution intelligent home and an active execution intelligent home according to the state mark, and simulating the adjustment operation of the corresponding active execution intelligent home based on the operation instruction to obtain an operation range and operation duration corresponding to each active execution intelligent home;
The coordination execution unit is used for acquiring coincidence sub-ranges among different operation ranges, respectively adjusting the operation actions of the movable execution intelligent home corresponding to each coincidence sub-range in each preset unit time period, and respectively establishing corresponding coordination instructions for each movable execution intelligent home.
In this example, one control purpose may control multiple different performing smart home devices simultaneously, for example: the control purpose is to heat water to 90 °, then corresponding execution smart home is: tea bar counter and intelligent heating kettle;
in this example, the adjustment operation represents an operation that needs to be performed when the smart home is to be adjusted from the current state to the target state;
in this example, the status markers are markers that distinguish between stationary and movable homes;
in the example, the operation process of simulating the activity execution intelligent home represents the process of reflecting the operation instruction executed by the activity intelligent home in a simulation mode;
in this example, the unit time period is 1 minute;
in this example, the operational action represents an action performed by the activity executing the smart home.
The working principle of the technical scheme has the beneficial effects that: in order to further control and execute the intelligent home to work, the control purpose of the user is determined according to the control instruction sent by the user on the mobile phone APP, the corresponding execution intelligent home is searched in the central service platform, the adjustment operation required by the intelligent home is established according to the current state and the target state corresponding to the execution intelligent home, so that the operation instruction for executing the intelligent home is established, the state mark corresponding to the execution intelligent home is searched in the central service platform to determine the activity execution intelligent home in order to avoid collision of the activity intelligent home in working, then the adjustment operation process of the activity execution intelligent home is simulated, so that the operation range and the operation duration corresponding to each activity execution intelligent home are obtained, the operation range which is overlapped is adjusted, the activity track of different activity execution intelligent home is adjusted, the operation action of the activity execution intelligent home in each minute is obtained, the coordination instruction is established for the activity execution intelligent home, the intelligence of the system can be improved, and a reliable control system is created for the user.
Example 5
On the basis of embodiment 4, the smart home system based on communication between the mobile phone APP and the internet of things, as shown in fig. 4, the management module includes:
the statistics management unit is used for counting control instructions and coordination instructions corresponding to each activity execution intelligent home to obtain a home-execution set of the designated room;
the comparison management unit is used for analyzing the home-execution aggregate, acquiring the same instruction point and different instruction point of the control instruction and the coordination instruction corresponding to each activity execution intelligent home, establishing control key points corresponding to the activity execution intelligent home according to the different instruction points, and establishing a control key point chain corresponding to the activity execution intelligent home;
the dynamic management unit is used for establishing a dynamic control scheme of the corresponding activity execution intelligent home according to the control key chain and the operation duration corresponding to the activity execution intelligent home, and controlling the activity execution intelligent home to perform corresponding dynamic operation based on the dynamic control scheme;
and the stationary management unit is used for establishing a static control scheme based on the operation instruction corresponding to the fixed execution intelligent home, and controlling the fixed execution intelligent home to perform corresponding static operation based on the static control scheme.
In the example, the home-execution set comprises an active execution intelligent home and corresponding control instructions and coordination instructions;
in the example, the instruction identical point represents the identical point between a control instruction and a coordination instruction corresponding to the intelligent home for executing the activity, and the instruction different point represents the different point between the control instruction and the coordination instruction corresponding to the intelligent home for executing the activity;
in the example, the control key points represent control points where the smart home needs to be adjusted for executing the original actions;
in the example, the control key point chain represents a control chain generated by sequencing a plurality of control key points corresponding to the intelligent home for executing an activity;
in this example, the dynamic control scheme represents a scheme for controlling an activity to perform smart home;
in this example, dynamic operation means that the activity performs an operation corresponding to the smart home;
in this example, the static control scheme represents a scheme for controlling the fixed execution of smart home;
in this example, the static operation means that the corresponding operation of the smart home is fixedly performed.
The working principle of the technical scheme has the beneficial effects that: in order to effectively control the execution intelligent home, the same instruction point and different instruction points between the control instruction and the coordination instruction of the execution intelligent home are analyzed, so that control key points of the execution intelligent home are established according to the same instruction point and different instruction points, a control key point chain corresponding to the execution intelligent home is established, a dynamic control scheme for controlling the execution intelligent home is established according to the control key point chain, the execution intelligent home is controlled to perform corresponding dynamic operation according to the dynamic control scheme, meanwhile, a static control scheme is established according to the operation instruction corresponding to the fixed execution intelligent home, the fixed execution intelligent home is controlled to perform corresponding static operation according to the static control scheme, dynamic and static management in batches is realized, synchronous work is achieved, and a complete and effective management scheme is formed.
Example 6
On the basis of embodiment 1, the smart home system based on communication between the mobile phone APP and the internet of things, as shown in fig. 5, the feedback module includes:
the preprocessing unit is used for collecting operation information generated in the process of executing corresponding operation by each intelligent home, and establishing an operation time period corresponding to each intelligent home according to the operation information;
the first feedback unit is used for searching the estimated use time period corresponding to each intelligent home in the central service platform, judging whether the operation time period is consistent with the estimated use time period, and if so, establishing a first feedback label for the corresponding operation time period;
the second feedback unit is used for acquiring the time difference between the operation time period and the estimated use time period if the operation time period is inconsistent with the estimated use time period, and establishing a second feedback label for the corresponding operation time period according to the time difference;
the feedback execution unit is used for counting intelligent home corresponding to each feedback tag and operation information corresponding to each intelligent home, establishing feedback information of the appointed room, and feeding the feedback information back to a user mobile phone through the central service platform for display.
In the example, the operation time period represents the time when the smart home works and the duration of the work;
in the example, the first feedback label indicates that the operation time period and the estimated time period of the smart home are consistent, and the smart home belongs to reasonable work;
in the example, the second feedback label indicates that the operation time period and the estimated time period of the smart home are inconsistent, and the smart home is unreasonable to work;
in this example, the larger the time difference, the larger the feedback value of the second feedback tag;
in this example, the feedback information includes operation information of each smart home, and a first feedback tag and a second feedback tag corresponding to the operation information.
The working principle of the technical scheme has the beneficial effects that: in order to facilitate users to know the real-time state of the intelligent home in the room at any time, operation information generated when each intelligent home executes corresponding operation is collected first, so that an operation time period corresponding to the intelligent home is determined, whether the operation time period corresponding to the intelligent home is consistent with an estimated time period or not is judged, and then a corresponding feedback label is established according to the time difference between the operation time period corresponding to the intelligent home and the estimated time period, so that the feedback information of the room is established based on the feedback label corresponding to each intelligent home and the operation information, and finally the feedback information is transmitted to a mobile phone of the user to be displayed, so that the users can conveniently know the real-time state of the room at any time and remotely.
Example 7
On the basis of embodiment 4, the smart home system based on communication between the mobile phone APP and the internet of things, the coordination executing unit includes:
the first execution subunit is used for establishing a background model of the appointed room according to the room layout of the appointed room, obtaining current coordinate information of each activity execution intelligent home in the appointed room according to the current state corresponding to each activity execution intelligent home, and obtaining home coordinate information of each activity execution intelligent home in the appointed room according to the target state corresponding to each activity execution intelligent home;
the second execution subunit is used for inputting the current coordinate information into the background model and performing first marking, inputting the home coordinate information into the background model and performing second marking, and generating a live model of the designated room;
the third execution subunit is used for establishing a vector transformation path of each movable execution intelligent home from current coordinate information to corresponding home coordinate information in the live model, acquiring coincidence information among different vector transformation paths to obtain a coincidence sub-range among different operation ranges, adjusting each vector transformation path in the live model until the coincidence information among different vector transformation paths is 0, and generating a vector effective path corresponding to each movable execution intelligent home;
And the fourth execution subunit is used for determining the operation actions corresponding to the activity execution intelligent home in each preset unit time period according to the target states corresponding to the activity execution intelligent home and the vector effective path, and establishing coordination instructions corresponding to each activity execution intelligent home.
In this example, the background model represents a model that virtually represents a specified room layout;
in the example, the current coordinate information represents coordinate information corresponding to the smart home when the smart home is currently in a designated room;
in the example, the home coordinate information indicates coordinate information corresponding to a designated room when the activity execution intelligent home is about to reach a target state;
in this example, the first mark represents real-marking the current coordinate information;
in this example, the second mark represents virtually marking the home coordinate information;
in this example, the vector change path represents a movement path with a forward direction and a path length generated during the course of the activity execution smart home changing from one location to another;
in the example, the vector effective path represents a path of the smart home for activity execution, which is changed from the current coordinate information to the home coordinate information and needs to be changed;
In this example, the preset unit time period may be 1 minute;
in this example, the operation action represents an activity performed by the smart home for a preset period of time.
The working principle of the technical scheme has the beneficial effects that: in order to further coordinate the operation of executing the intelligent home by the activity, a background model is firstly established according to the room layout of a designated room, the current coordinate information and the home coordinate information of the intelligent home by the activity execution are established according to the current state and the target state corresponding to the intelligent home by the activity execution, the current coordinate information and the home coordinate information are marked in the background model, so that a live model is obtained, and further, the overlapping sub-ranges among different operation ranges are determined according to the overlapping sub-information among the vector change paths presented in the live model, so that the overlapping information among different vector change paths is adjusted by adjusting the vector change paths, further, the vector effective path of executing the intelligent home by each activity is physiological, the operation action of executing the intelligent home by the activity execution in each unit time period is established according to the vector effective path, further, a coordination instruction is established for the intelligent home by the activity execution, the path of executing the intelligent home can be intuitively and effectively adjusted by establishing the model, and the path adjusting efficiency is improved, and an effective coordination instruction is established for executing the intelligent home by the activity execution.
Example 8
Based on embodiment 6, the smart home system based on communication between the mobile phone APP and the internet of things, the feedback module further includes:
the feedback analysis unit is used for analyzing the feedback information, marking the intelligent home containing the second feedback tag as the intelligent home to be tested according to the analysis result, and respectively acquiring the tag value corresponding to each intelligent home to be tested;
when the tag value of the intelligent home to be detected is in a preset value range, respectively acquiring a home trigger condition corresponding to each intelligent home to be detected and acquiring the current trigger condition of the appointed room;
when the current triggering condition is consistent with the household triggering condition, determining that the corresponding intelligent household to be detected belongs to a normal household;
otherwise, determining that the intelligent home to be detected belongs to an abnormal home;
when the specified room contains abnormal home furnishing, acquiring an abnormal home furnishing generation feedback list in the specified room, and feeding back the feedback list to a user mobile phone for display through the center service platform.
In the example, the greater the tag value is, the greater the degree of abnormality of the smart home to be detected is;
in this example, the preset value range may be 1 hour;
in this example, the trigger condition represents a condition for turning on the smart home;
In this example, a normal home indicates a home whose performed work is normal although the performed work is performed outside the estimated time, for example: starting a ventilation system of the bathroom before six points in the morning;
in this example, the abnormal home indicates a home in which there is an abnormality in the current work, for example: rock music is played loudly late at night.
The working principle of the technical scheme has the beneficial effects that: in order to further analyze whether the working states of different households in the appointed room are normal, the intelligent household containing the second feedback label is subjected to label value analysis, and whether the intelligent household works normally is judged according to the existing triggering conditions in the appointed room, so that a feedback list is generated for a user to refer to. The user can conveniently adjust facilities in the room in time, unnecessary waste is avoided, and accidents are avoided.
Example 9
Based on embodiment 8, the smart home system based on communication between mobile phone APP and internet of things:
and when the tag value of the intelligent home to be detected is out of the preset value range, determining that the intelligent home to be detected is an abnormal home.
In this example, for example: the triggering condition of the door lock is that someone is outside the door or someone is inside the door, the triggering condition is not present at the moment, the label value of the second feedback label is 5, that is to say, the door is automatically opened at late night, and the door is abnormal.
The working principle of the technical scheme has the beneficial effects that: in order to avoid the dangerous state of facilities in a room caused by the false touch of a user or the wrong instruction is given, when the tag value is too large, the corresponding home is determined to be an abnormal home.
Example 10
Based on embodiment 1, the smart home system based on communication between mobile phone APP and internet of things:
and the coordination module is also used for regarding the control instruction as an operation instruction when the control instruction controls a single intelligent home, and transmitting the operation instruction to the management module for home management.
The working principle of the technical scheme has the beneficial effects that: when a user only controls a single intelligent home, the user does not need to generate a coordination instruction and only needs to manage the corresponding intelligent home according to the control instruction.
It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (9)

1. An intelligent home system based on communication of mobile phone APP and Internet of things, which is characterized by comprising:
The system comprises a building module, a control module and a control module, wherein the building module is used for connecting each intelligent home in a designated room to a preset management center and building a center service platform of the designated room;
the coordination module is used for obtaining an operation instruction corresponding to each intelligent home according to a control instruction sent by a user on a designated mobile phone APP, generating a working mode and a working time period corresponding to each intelligent home, and establishing a coordination instruction;
the management module is used for controlling the corresponding intelligent home to execute corresponding operations according to the control instruction and the coordination instruction;
the feedback module is used for acquiring the corresponding operation information of each intelligent home in real time, establishing feedback information according to the operation information, and feeding the feedback information back to a user mobile phone through the central service platform for display;
the coordination module comprises:
the analysis searching unit is used for acquiring and analyzing the control instruction sent by the user on the appointed mobile phone APP to obtain a plurality of control purposes of the user, and searching the execution intelligent home corresponding to each control purpose in the central service platform;
the state analysis unit is used for acquiring the current state corresponding to each execution intelligent home, establishing a target state corresponding to the execution intelligent home according to the control purpose, and establishing an operation instruction corresponding to the execution intelligent home based on the adjustment operation according to the corresponding adjustment operation when each execution intelligent home is adjusted from the corresponding current state to the corresponding target state;
The simulation analysis unit is used for searching a state mark corresponding to each execution intelligent home in the central service platform, dividing the execution intelligent home into a fixed execution intelligent home and an active execution intelligent home according to the state mark, and simulating the adjustment operation of the corresponding active execution intelligent home based on the operation instruction to obtain an operation range and operation duration corresponding to each active execution intelligent home;
the coordination execution unit is used for acquiring coincidence sub-ranges among different operation ranges, respectively adjusting the operation actions of the movable execution intelligent home corresponding to each coincidence sub-range in each preset unit time period, and respectively establishing corresponding coordination instructions for each movable execution intelligent home.
2. The smart home system based on communication between a mobile phone APP and the internet of things of claim 1, further comprising:
and the networking module is used for making a connection protocol based on a preset home gateway, and accessing each intelligent home in the designated room and the designated mobile phone into a preset network based on the connection protocol.
3. The smart home system based on communication between a mobile phone APP and the internet of things of claim 1, wherein the building module comprises:
The parameter analysis unit is used for acquiring home parameters corresponding to each intelligent home in the designated room, and establishing a working space range corresponding to each intelligent home and a working time range corresponding to each intelligent home based on the home parameters;
the mark weight building unit is used for dividing the intelligent home into a fixed home and a movable home based on the working space range, building a state mark for each intelligent home based on a classification result, sorting the working time range corresponding to each intelligent home from long to short, and building a use frequency weight for each intelligent home according to the sorting result;
the classification estimation unit is used for establishing a dynamic management domain and a static management domain in the preset management center, connecting each intelligent home in the designated room to a corresponding management domain based on the state mark, evaluating the use duration of the corresponding intelligent home according to the use frequency weight, and estimating an estimated use time period corresponding to each intelligent home in the next preset period;
and the building execution unit is used for counting intelligent home connected to each management domain and estimating the use time period corresponding to each appointed home, and building a central service platform of the appointed room.
4. The smart home system based on communication between a mobile phone APP and the internet of things as set forth in claim 1, wherein the management module includes:
the statistics management unit is used for counting control instructions and coordination instructions corresponding to each activity execution intelligent home to obtain a home-execution set of the designated room;
the comparison management unit is used for analyzing the home-execution aggregate, acquiring the same instruction point and different instruction point of the control instruction and the coordination instruction corresponding to each activity execution intelligent home, establishing control key points corresponding to the activity execution intelligent home according to the different instruction points, and establishing a control key point chain corresponding to the activity execution intelligent home;
the dynamic management unit is used for establishing a dynamic control scheme of the corresponding activity execution intelligent home according to the control key chain and the operation duration corresponding to the activity execution intelligent home, and controlling the activity execution intelligent home to perform corresponding dynamic operation based on the dynamic control scheme;
and the stationary management unit is used for establishing a static control scheme based on the operation instruction corresponding to the fixed execution intelligent home, and controlling the fixed execution intelligent home to perform corresponding static operation based on the static control scheme.
5. The smart home system based on communication between a mobile phone APP and the internet of things of claim 1, wherein the feedback module comprises:
the preprocessing unit is used for collecting operation information generated in the process of executing corresponding operation by each intelligent home, and establishing an operation time period corresponding to each intelligent home according to the operation information;
the first feedback unit is used for searching the estimated use time period corresponding to each intelligent home in the central service platform, judging whether the operation time period is consistent with the estimated use time period, and if so, establishing a first feedback label for the corresponding operation time period;
the second feedback unit is used for acquiring the time difference between the operation time period and the estimated use time period if the operation time period is inconsistent with the estimated use time period, and establishing a second feedback label for the corresponding operation time period according to the time difference;
the feedback execution unit is used for counting intelligent home corresponding to each feedback tag and operation information corresponding to each intelligent home, establishing feedback information of the appointed room, and feeding the feedback information back to a user mobile phone through the central service platform for display.
6. The smart home system based on communication between a mobile phone APP and the internet of things as set forth in claim 4, wherein the coordination executing unit includes:
the first execution subunit is used for establishing a background model of the appointed room according to the room layout of the appointed room, obtaining current coordinate information of each activity execution intelligent home in the appointed room according to the current state corresponding to each activity execution intelligent home, and obtaining home coordinate information of each activity execution intelligent home in the appointed room according to the target state corresponding to each activity execution intelligent home;
the second execution subunit is used for inputting the current coordinate information into the background model and performing first marking, inputting the home coordinate information into the background model and performing second marking, and generating a live model of the designated room;
the third execution subunit is used for establishing a vector transformation path of each movable execution intelligent home from current coordinate information to corresponding home coordinate information in the live model, acquiring coincidence information among different vector transformation paths to obtain a coincidence sub-range among different operation ranges, adjusting each vector transformation path in the live model until the coincidence information among different vector transformation paths is 0, and generating a vector effective path corresponding to each movable execution intelligent home;
And the fourth execution subunit is used for determining the operation actions corresponding to the activity execution intelligent home in each preset unit time period according to the target states corresponding to the activity execution intelligent home and the vector effective path, and establishing coordination instructions corresponding to each activity execution intelligent home.
7. The smart home system based on communication between a mobile phone APP and the internet of things of claim 5, wherein the feedback module further comprises:
the feedback analysis unit is used for analyzing the feedback information, marking the intelligent home containing the second feedback tag as the intelligent home to be tested according to the analysis result, and respectively acquiring the tag value corresponding to each intelligent home to be tested;
when the tag value of the intelligent home to be detected is in a preset value range, respectively acquiring a home trigger condition corresponding to each intelligent home to be detected and acquiring the current trigger condition of the appointed room;
when the current triggering condition is consistent with the household triggering condition, determining that the corresponding intelligent household to be detected belongs to a normal household;
otherwise, determining that the intelligent home to be detected belongs to an abnormal home;
when the specified room contains abnormal home furnishing, acquiring an abnormal home furnishing generation feedback list in the specified room, and feeding back the feedback list to a user mobile phone for display through the center service platform.
8. The intelligent home system based on communication between mobile phone APP and Internet of things as set forth in claim 7, wherein:
and when the tag value of the intelligent home to be detected is out of the preset value range, determining that the intelligent home to be detected is an abnormal home.
9. The smart home system based on communication between a mobile phone APP and the internet of things as claimed in claim 1, wherein:
and the coordination module is also used for regarding the control instruction as an operation instruction when the control instruction controls a single intelligent home, and transmitting the operation instruction to the management module for home management.
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