CN113253623B - HomeMap-based air environment visualization control method and system - Google Patents

Abstract

The invention relates to the field of smart home, in particular to a HomeMap-based air environment visualization control method and system. The air environment visualization control method based on the HomeMap comprises a HomeMap construction step and an air environment control step. The network environment vision control system based on the HomeMap is applied to the HomeMap construction step, so that the HomeMap construction operation can be completely automated, a large amount of position information does not need to be input by a user in the construction process, the HomeMap construction efficiency and accuracy are greatly improved, the air environment is detected and visually displayed in the air environment control step, the user can conveniently and visually detect the air environment quality condition in a room, and the user can select multiple air environment adjusting devices to perform linkage control according to the air quality information, so that the control efficiency and flexibility of the intelligent home equipment are further improved.

Description

HomeMap-based air environment visualization control method and system

Technical Field

The invention relates to the field of smart home, in particular to a HomeMap-based air environment visualization control method and system.

Background

The smart home can connect various smart home devices in the home of the user, such as an air conditioner, an audio and video device, a lighting system, a curtain control system, a security system, a network appliance and the like, to the mobile phone through smart home application programs installed in portable mobile terminals such as the mobile phone, when the user wants to control a certain smart home device, the smart home application program on the mobile phone can be opened, and the user can click a control interface entering the smart home device to control the electronic device.

Compared with the mode of controlling the intelligent household equipment through an infrared or Bluetooth remote controller or an equipment operation panel, the mode of controlling the intelligent household equipment through the intelligent household application program has the advantages of being free from regional limitation and capable of realizing remote rapid control; however, the control interface of the existing control system of the smart home application program is still displayed in a list, and a user only knows the name and the working data or the text information of the smart home device during control operation, but cannot intuitively know the working state information of the device and the specific position and other information in a home, so that when the number of the smart home devices arranged in a home space exceeds a certain number, the user hardly knows the specific position information of each smart home device, and cannot quickly distinguish the smart home device and the specific application scene thereof, which causes that the user is not fast, accurate, intuitive and convenient when controlling the smart home devices.

With the development of smart home technology, there is also a technology for matching a house type graph with smart home application scene position information and for controlling smart home devices in the prior art, for example, a chinese patent with patent application publication No. CN107819652A, which discloses a method and an apparatus for controlling smart home devices, which can obtain a house type graph of a user room; acquiring the position of each intelligent household device in the room type graph; generating an equipment-type graph, wherein the equipment-type graph is used for displaying the identification of each intelligent household equipment at the position of each intelligent household equipment in the room-type graph; controlling each intelligent household device through the identifier of each intelligent household device displayed in the device house type diagram; the intelligent home devices in the same user room can be controlled in the device house type diagram without entering respective control interfaces, and the operation steps of controlling the intelligent home devices by the user are simplified. However, in the technology of this patent application, when the position information of the smart home device is matched with the house type diagram, manual participation is required, and the smart home device in the default position needs to be manually moved and set in the corresponding position of the house type diagram according to the actual placement position of the smart home device, the building process of the house type diagram of the device cannot be automated, a large number of input operations are required for a user, and the accuracy of the input information is difficult to guarantee, so that the actual application effect of the intelligent control method and device is not ideal, in addition, when the house type diagram is successfully built, the quality of the air ring environment in the application scene of the smart home device cannot be visually presented to the user, and the user cannot perform linkage control on a plurality of air environment adjusting devices in the application scene according to the air environment.

Disclosure of Invention

In view of the above defects, the invention aims to provide an air environment visualization control method and system based on a HomeMap, which skillfully utilize a sweeping robot to accurately scan and extract position information of each intelligent home device in a user room, can realize automatic construction of the HomeMap without human participation, and can detect and visually display the air environment of each area in the user room.

In order to solve the technical problem, the first aspect of the present invention discloses an air environment visualization control method based on HomeMap, which includes:

the HomeMap construction step comprises:

acquiring a room layout drawing of a user room, and importing the room layout drawing into a map interface of a building module to form a control layout drawing;

marking equipment shape information on corresponding intelligent home equipment according to the shape of the intelligent home equipment, and realizing wireless network connection between each intelligent home equipment and a gateway in a user room;

the sweeping robot moves and scans in a user room according to a movement rule, a positioning server obtains scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern graph is obtained in a control floor pattern graph;

the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted;

the construction module marks the equipment shape information corresponding to the intelligent household equipment on the scanned household type graph according to the scanned mobile position information and the equipment position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain a HomeMap;

the equipment shape information of each intelligent household equipment displayed in the HomeMap controls each intelligent household equipment;

air environment control:

the HomeMap extracts the operation state information of the air environment conditioning equipment and the air quality information of the area in the room of the user, and displays the operation state information and the air quality information on a control interface of the HomeMap in real time.

As an optional implementation manner, in an aspect of the present invention, the air environment controlling step is further preceded by an updating step, where the updating step includes the following steps: according to the updating setting, the sweeping robot moves and scans in the user room according to the moving rule, the positioning server obtains the scanning moving position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and an updated scanning floor pattern graph is obtained in the control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted; the construction module marks the device shape information corresponding to the intelligent household equipment on the updated scanning household graph according to the scanning mobile position information and the device position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain the updated HomeMap.

As an alternative embodiment, in an aspect of the present invention, a room-floor map of a user room is obtained, including:

acquiring user room address information;

and acquiring a user room layout drawing through a developer or the Internet according to the user room address information, wherein the user room layout drawing comprises a two-dimensional layout drawing or a three-dimensional layout drawing.

As an optional implementation manner, in an aspect of the present invention, marking device shape information on a corresponding smart home device according to a shape of the smart home device, and extracting device shape information and device position information of the smart home device in a user room during a moving scanning process of a sweeping robot in the user room includes:

setting an equipment shape recognition module according to the three-dimensional shape or the occupied two-dimensional shape of the intelligent equipment, wherein the equipment shape information comprises the equipment name, the area, the volume and/or the shape;

the equipment shape equipment module is a scanning code label or an induction chip;

the sweeping robot scans the scanning code label by moving close to the scanning code label or senses the scanning code label by moving close to the scanning code label, and the sensing chip identifies and extracts the shape information of the equipment.

As an optional implementation manner, in an aspect of the present invention, the sweeping robot moves and scans in the user room according to a movement rule, the positioning server obtains scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and obtains a scanned floor plan in the control floor plan; the method comprises the following steps:

the scanned floor plan is a two-dimensional map;

the sweeping robot scans by adopting a scanning radar to obtain a two-dimensional scanning house type image.

As an optional implementation manner, in an aspect of the present invention, the sweeping robot moves and scans in the user room according to the movement rule, the positioning server obtains the scanning movement position information of the sweeping robot according to the positioning terminal installed on the sweeping robot, and obtains a scanned floor pattern diagram in the control floor pattern diagram; the method comprises the following steps:

the scanned house-type diagram is a three-dimensional diagram;

the sweeping robot scans image information by adopting a camera module, and generates the scanning house-type picture with the live-action picture according to the scanning moving position information and the image information.

As an optional implementation manner, in an aspect of the present invention, the building module identifies device shape information corresponding to the smart home device on the scanned floor plan according to the scanned mobile location information and the device location information, and clears other area scanning information without the smart home device shape information to obtain a HomeMap; the method comprises the following steps:

according to the scanning mobile position information, marking an occupied two-dimensional shape in the equipment shape information of the intelligent household equipment at a position corresponding to the scanning house type graph; and comparing the scanned house type graph with the control house type graph, and clearing an area without the shape information of the intelligent household equipment except the two-dimensional shape mark by taking the peripheral shape of the control house type graph as a standard.

As an optional implementation manner, in an aspect of the present invention, the building module identifies device shape information corresponding to the smart home device on the scanned floor plan according to the scanned mobile location information and the device location information, and clears area scanning information without the smart home device shape information to obtain a HomeMap; the method comprises the following steps:

marking a three-dimensional shape in the equipment shape information of the intelligent household equipment at a position corresponding to the scanned house type graph according to the scanned mobile position information; and comparing the scanned house type picture with the control house type picture, clearing an area without the shape information of the intelligent household equipment except the three-dimensional shape mark by taking the peripheral shape of the control house type picture as a standard, and replacing the live-action picture of the cleared area with the wall picture of the house type picture.

The invention discloses a HomeMap-based air environment visualization control system, which comprises a house type graph acquisition and introduction module, a positioning server, a construction module and a control module, wherein a positioning terminal, an induction module, a camera module and a network signal detection module are installed on a sweeping robot in a user room, intelligent household equipment placed in the room is provided with an equipment shape recognition module and an air detection module, wherein:

the house type graph acquisition and import module is used for acquiring a room house type graph of a user room and importing the room house type graph into the construction module;

the air detection module is used for detecting air quality information of an area where the intelligent household equipment is located;

the positioning server is used for acquiring scanning moving position information of the sweeping robot and controlling the sweeping robot to move in a user room according to the positioning terminal;

the sweeping robot is used for moving in the room according to rules;

the camera module is used for dynamically shooting live-action pictures in a room in the moving process of the sweeping robot;

the device shape module is used for storing or linking device shape information stored in the cloud;

the sensing module is used for extracting the equipment shape information in the equipment shape module;

the construction module is used for forming a control house type graph according to the house type graph, obtaining a scanned house type graph according to the scanning movement position information of the sweeping robot, and constructing and obtaining a HomeMap according to the marking condition of the equipment shape information on the scanned house type graph;

the control module acquires the control authority of the intelligent home equipment through the HomeMap, and controls the intelligent home equipment through the equipment shape information of the intelligent home equipment displayed in the HomeMap.

In a third aspect of the present invention, a computer-readable storage medium is disclosed, which stores computer instructions, and is characterized in that the computer instructions, when executed by a processor, are executed in any one of the steps of the method for controlling the air environment visualization based on the HomeMap based on the sweeping robot disclosed in the first aspect of the present invention.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

the HomeMap construction step is based on a sweeping robot moving scanning technology in a user room, the position information of each intelligent household device in the user room can be automatically and accurately scanned and extracted, then the position information of the intelligent household device is matched into an indoor type graph to form a visual interface, and after the control interface obtains the control authority of the intelligent household device, a user can directly control the intelligent household device through the visual interface; the network environment vision control system based on the HomeMap is applied to the HomeMap construction step, so that the HomeMap construction operation can be completely automated, a large amount of position information does not need to be input by a user in the construction process, the HomeMap construction efficiency and accuracy are greatly improved, in addition, in the air environment control step, the HomeMap control and display advantages are utilized, the air environment of each area in a user room is detected and visually displayed, the user can more visually know the air environment quality condition of the application area where each intelligent household device is located, and the user can select multiple intelligent household devices to perform linkage control according to the air quality information, so that the control efficiency and flexibility of the intelligent household devices are further improved, and meanwhile, the air quality in the user living space is further improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic flow chart of an air environment visualization control method based on HomeMap, disclosed by an embodiment of the invention;

FIG. 2 is a schematic flow chart of the HomeMap construction step in another HomeMap-based air environment visualization control method disclosed by the embodiment of the invention;

FIG. 3 is a schematic structural diagram of a HomeMap construction step in another HomeMap-based air environment visualization control method disclosed in the embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an air environment visualization control system based on a HomeMap, which is disclosed by the embodiment of the invention;

FIG. 5 is a schematic diagram of the room floor plan configuration in accordance with an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of the control floor plan displayed in the map interface after the room floor plan shown in FIG. 5 is imported into the building module;

fig. 7 is a schematic structural view of a scanned house layout obtained after the control house layout shown in fig. 6 is scanned by the sweeping robot;

fig. 8 is a schematic structural diagram of the scanned house type diagram shown in fig. 8 after identifying device shape information corresponding to smart home devices;

fig. 9 is a schematic structural diagram of a display interface of the HomeMap obtained after clearing area scanning information of other pieces of shape information of smart home devices in the scanned floor plan in fig. 8.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

In order to make those skilled in the art better understand the technical solutions of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "including" and "having," and any variations thereof, in the description and claims of this invention and the above-described drawings are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The HomeMap is displayed on a software interface, a space distribution graph is established by acquiring a user type graph of a specified space, and the identification or other operation information of each intelligent household device is displayed in the space distribution graph aiming at the position of each intelligent household device.

The HomeMap-based environment network visualization control method comprises a HomeMap construction step and an air environment control step. The HomeMap construction step is based on a sweeping robot moving scanning technology in a user room, the position information of each intelligent household device in the user room can be automatically and accurately scanned and extracted, then the position information of the intelligent household device is matched into an indoor type graph to form a visual interface, and after the control interface obtains the control authority of the intelligent household device, a user can directly control the intelligent household device through the visual interface; the network environment vision control system based on the HomeMap is applied to the HomeMap construction step, so that the HomeMap construction operation can be completely automatically operated, a large amount of position information is not required to be input by a user in the construction process, the HomeMap construction efficiency and precision are greatly improved, in addition, in the air environment control step, the HomeMap is controlled and displayed by utilizing the control and display advantages of the HomeMap, the air environment in each area in a user room is detected and visually displayed, the user can more visually know the air environment quality condition of the application area where each intelligent home device is located, and the user can select multiple air environment quality conditions to perform linkage control in various air environment adjusting devices according to the air quality information, so that the control efficiency and flexibility of the intelligent home devices are further improved, and meanwhile, the air quality in the user living space is further improved.

In order to better understand the HomeMap construction steps described in the present invention, an application scenario to which the method described in the present invention is applicable will be described first. As shown in fig. 5 to 9, in the HomeMap construction step according to an embodiment of the present invention, a room floor plan as shown in fig. 5 is obtained first, and then the room floor plan is imported into the construction model block map interface to form a control floor plan as shown in fig. 6, in the floor plan as shown in fig. 6, under the automatic scanning operation of the sweeping robot, a scanning floor plan as shown in fig. 7 is obtained, and the diagonal lines in the scanning floor plan mark the areas where articles are displayed in the user room; the sweeping robot can actively and accurately identify the intelligent home equipment at each position in the scanning process, and marks the intelligent home equipment in a scanned house type graph to obtain a graphical interface shown in figure 8, wherein a grid marked area in the graphical cross section is an area where the intelligent home equipment is correspondingly placed; and eliminating other useless areas on the basis of the graph 8 to obtain a visual control display interface of the HomeMap. The HomeMap building step ingeniously utilizes scanning mobile position information of the sweeping robot when scanning a user room, the position information of each intelligent household device in the user room is accurately scanned and extracted, automatic HomeMap building can be achieved under the condition that no person participates in the HomeMap building process, it needs to be stated that a HomeMap terminal or device is arranged and used as the control module, other intelligent household devices can be controlled by the control module, and intelligent control of a plurality of control modules can be achieved for one intelligent household. Optionally, the application scenario may be an application scenario in which a plurality of intelligent household electrical appliances exist, such as a home scenario, in the application scenario, the mobile phone or the tablet computer may serve as the control module, and the HomeMap may be used to display the air environment quality visualization limit in the user room in the control interface.

The air environment visualization control method and system based on HomeMap described in the present invention are described in detail below.

Example one

Referring to fig. 1, fig. 1 is a schematic flow diagram of a method for controlling visualization of air environment based on HomeMap according to an embodiment of the present invention, where the method for controlling visualization of air environment based on HomeMap includes:

constructing HomeMap:

101. and acquiring a room layout of a user room, and importing the room layout into a map interface of a building module to form a control layout.

In the embodiment of the invention, the room layout is a three-dimensional space structure diagram of a user room or a two-dimensional ground contour diagram, the room layout is led into a construction module in many ways, the room layout can be transmitted by a network or copied by a storage medium such as a hard disk, and the construction module is an existing hardware module or equipment terminal with a graphic processing function, a map construction function and a control authority configuration function.

102. Marking equipment shape information on corresponding intelligent household equipment according to the shape of the intelligent household equipment; the step 101 and the step 102 are preparation operation steps for constructing the HomeMap, so that the step 101 and the step 102 are executed in sequence in actual application, and the step 103 is triggered after the step 101 and the step 102 are executed.

In the embodiment of the invention, because the constructed HomeMap needs to be visually displayed on the household graph more intuitively, a user can conveniently and visually control the HomeMap according to the specific application scene of the intelligent household equipment in a user room, and therefore, in order to ensure the position accuracy of the intelligent household equipment in the household graph, the HomeMap needs to be constructed according to the actual shape information of the intelligent household equipment.

103. The sweeping robot moves and scans in a user room according to a movement rule, a positioning server obtains scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern graph is obtained in a control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted; the scanning moving position information and the equipment position information obtained in the step 103 are synchronous, when the sweeping robot moves and scans in a user room and moves to the position near the household equipment marked with the equipment shape information, the sweeping robot marks the position coordinates on a scanned user-type diagram to form the equipment position information; when the execution of step 103 is completed, step 104 is triggered.

In the embodiment of the invention, the movement rule of the sweeping robot can be that the movement track of a user room is comprehensively scanned, and the efficiency of constructing the HomeMap can also be improved, a user can self-define and draw the movement track according to the placement position of the intelligent home equipment, for example, if the intelligent home equipment is generally placed close to a wall, the sweeping robot only needs to move along the outline close to the wall to scan each area for one circle; the coordinate reference of the sweeping robot in the scanned house type graph can be the initial position where the sweeping robot is placed by a user, or the position of certain intelligent household equipment can be used as the reference. The scanning movement position information refers to the movement track and real-time position information of the sweeping robot in a control house type graph; the device position information refers to information such as the placement position and the orientation of each intelligent home device in the control house type diagram.

104. The construction module marks the device shape information corresponding to the intelligent household equipment on the scanning household graph according to the scanning mobile position information and the device position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain the HomeMap. When the execution of step 104 is completed, step 105 is triggered.

In the embodiment of the invention, the HomeMap is used for performing visual control on the intelligent home equipment and has no relation with other furniture placed in a user room, so that in order to ensure the intuitiveness of the HomeMap in the visual control on the intelligent home equipment and avoid the interference of other indoor objects on a control interface, the scanning information irrelevant to the control of the intelligent home equipment needs to be actively cleared when the HomeMap is constructed.

105. And the equipment shape information of each intelligent household equipment displayed in the HomeMap controls each intelligent household equipment.

In the embodiment of the invention, on the basis of the existing intelligent home application program visual control technology, the user type graph and the specific device placement position information are combined, so that the device shape information marked on the user type graph has the control authority, and the user selects each device shape information mark to control the intelligent home devices in the user room in the user type graph control interface displayed by the HomeMap, so that the intelligent home devices and the application scenes thereof can be accurately and more intuitively, accurately and quickly controlled.

Air environment control:

106. an updating step can be added before the air environment control step, and the updating step comprises the following steps:

according to the updating setting, the sweeping robot moves and scans in the user room according to the movement rule, the positioning server obtains the scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and an updated scanning floor pattern graph is obtained in the control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted;

and the construction module marks the equipment shape information corresponding to the intelligent household equipment on the updated scanning household type graph according to the scanning mobile position information and the equipment position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain the updated HomeMap.

In the embodiment of the invention, the updating setting means that the user sets the inherent updating frequency or time point according to the requirement on the updating frequency of the HomeMap, or the sweeping robot actively starts the updating function in the daily cleaning process; the movement rule followed by the sweeping robot during updating refers to that a user can set according to actual use requirements, for example, a movement track of the sweeping robot for detecting air quality information is set, the movement track can cover the whole room, and a user-defined route or a designated area can be designated for detection. After the HomeMap is constructed, the default placement position of the intelligent home equipment in the control interface is not changed, so that when a user controls the intelligent home equipment in the HomeMap control interface, the position information of the intelligent home equipment in a user room and the position information of the intelligent home equipment in the HomeMap are required to be corresponding to each other to achieve the control effect; however, in practical use, the smart home devices may be moved out of the original corresponding positions or spaces according to the use needs of the user, and therefore, an update step needs to be added to solve the above-mentioned problems caused by temporary change of the location information of the smart home devices.

107. The HomeMap extracts the operation state information of the air environment conditioning equipment and the air quality information of the area in the room of the user, and displays the operation state information and the air quality information on a control interface of the HomeMap in real time.

In the embodiment of the invention, the air quality information comprises temperature, humidity and PM2.5, and the air quality parameters can be detected by using a commercially available air detection module. The operation state information includes the name and the on-off state of the air environment conditioning equipment, the current set working temperature, humidity, PM2.5 working parameters and the like.

Example two

Referring to fig. 2, fig. 2 is a schematic flow chart of a HomeMap construction step in a HomeMap-based air environment visualization control method according to an embodiment of the present invention, where the method described in fig. 1 may be applied to a construction system, and as shown in fig. 2, the HomeMap construction step in the HomeMap-based air environment visualization control method may include the following operations:

101. and acquiring a room layout of a user room, and importing the room layout into a map interface of a building module to form a control layout.

In the embodiment of the invention, the room layout is a three-dimensional space structure diagram of a user room or a two-dimensional ground contour diagram, the room layout is led into a construction module in many ways, the room layout can be transmitted by a network or copied by a storage medium such as a hard disk, and the construction module is an existing hardware module or equipment terminal with a graphic processing function, a map construction function and a control authority configuration function.

102. Marking equipment shape information on corresponding intelligent household equipment according to the shape of the intelligent household equipment; the step 101 and the step 102 are preparation operation steps for constructing the HomeMap, so that the step 101 and the step 102 are executed in sequence in actual application, and the step 103 is triggered after the step 101 and the step 102 are executed.

In the embodiment of the invention, because the constructed HomeMap needs to be visually displayed on the household graph more intuitively, a user can conveniently and visually control the HomeMap according to the specific application scene of the intelligent household equipment in a user room, and therefore, in order to ensure the position accuracy of the intelligent household equipment in the household graph, the HomeMap needs to be constructed according to the actual shape information of the intelligent household equipment.

103. The sweeping robot moves and scans in a user room according to a movement rule, a positioning server obtains scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern graph is obtained in a control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted; the scanning moving position information and the equipment position information obtained in the step 103 are synchronous, when the sweeping robot moves and scans in a user room and moves to the position near the household equipment marked with the equipment shape information, the sweeping robot marks the position coordinates on a scanned user-type diagram to form the equipment position information; when the execution of step 103 is completed, step 104 is triggered.

In the embodiment of the invention, the movement rule of the sweeping robot can be that the movement track of a user room is comprehensively scanned, and the efficiency of constructing the HomeMap can also be improved, a user can self-define and draw the movement track according to the placement position of the intelligent home equipment, for example, if the intelligent home equipment is generally placed close to a wall, the sweeping robot only needs to move along the outline close to the wall to scan each area for one circle; the coordinate reference of the sweeping robot in the scanned house type graph can be the initial position where the sweeping robot is placed by a user, or the position of certain intelligent household equipment can be used as the reference. The scanning movement position information refers to the movement track and real-time position information of the sweeping robot in a control house type graph; the device position information refers to information such as the placement position and the orientation of each intelligent home device in the control house type diagram.

104. The construction module marks the device shape information corresponding to the intelligent household equipment on the scanned house type graph according to the scanned mobile position information and the device position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain the HomeMap. When the execution of step 104 is completed, step 105 is triggered.

In the embodiment of the invention, the HomeMap is used for performing visual control on the intelligent home equipment and has no relation with other furniture placed in a user room, so that in order to ensure the intuitiveness of the HomeMap in the visual control on the intelligent home equipment and avoid the interference of other indoor articles on a control interface, the HomeMap needs to be actively cleared of the scanning information irrelevant to the control of the intelligent home equipment when being constructed.

105. And the equipment shape information of each intelligent household equipment displayed in the HomeMap controls each intelligent household equipment.

In the embodiment of the invention, on the basis of the existing intelligent home application program visual control technology, the user type graph and the specific device placement position information are combined, so that the device shape information marked on the user type graph has the control authority, and the user selects each device shape information mark to control the intelligent home devices in the user room in the user type graph control interface displayed by the HomeMap, so that the intelligent home devices and the application scenes thereof can be accurately and more intuitively, accurately and quickly controlled.

In step 101, obtaining a room-floor type diagram of a user room includes:

acquiring user room address information;

and acquiring a user room layout drawing through a developer or the Internet according to the user room address information, wherein the user room layout drawing comprises a two-dimensional layout drawing.

In step 102, device shape information is marked on the corresponding smart home device according to the shape of the smart home device, and in the moving and scanning process of the sweeping robot in the user room, in step 103, the device shape information and the device position information of the smart home device in the user room are extracted, which includes:

setting an equipment shape recognition module according to a two-dimensional shape of the intelligent equipment, wherein the equipment shape information comprises an equipment name, an area, a volume, a shape and the like;

the device shape device module is an induction chip;

the sweeping robot moves to approach the induction chip to recognize and extract the shape information of the equipment.

In the step 103, the sweeping robot moves and scans in the user room according to the movement rule, the positioning server obtains the scanning movement position information of the sweeping robot according to the positioning terminal installed on the sweeping robot, and a scanned floor pattern diagram is obtained in the control floor pattern diagram; the method comprises the following steps:

the scanned floor plan is a two-dimensional plan;

the sweeping robot scans by adopting a scanning radar to obtain a two-dimensional scanning house type figure.

The step 104 includes: according to the scanning mobile position information, marking an occupied two-dimensional shape in the equipment shape information of the intelligent household equipment at a position corresponding to the scanning house type graph; and comparing the scanned house type graph with the control house type graph, and clearing an area without the shape information of the intelligent household equipment except the two-dimensional shape mark by taking the peripheral shape of the control house type graph as a standard.

In this embodiment, the HomeMap step can be based on efficient and automatic construction of the sweeping robot, and the visual control interface displayed in the HomeMap is a two-dimensional plane graph, so that a user can control the smart home device more intuitively.

EXAMPLE III

Referring to fig. 3, fig. 3 is a schematic flow chart of a HomeMap construction step in a HomeMap-based air environment visualization control method according to an embodiment of the present invention, where the method described in fig. 3 may be applied to a construction system, and as shown in fig. 3, the HomeMap construction step in the HomeMap-based air environment visualization control method may include the following operations:

101. and acquiring a room layout drawing of a user room, and importing the room layout drawing into a map interface of a building module to form a control layout drawing.

In the embodiment of the invention, the room layout is a three-dimensional space structure diagram of a user room or a two-dimensional ground contour diagram, the room layout is led into a construction module in many ways, the room layout can be transmitted by a network or copied by a storage medium such as a hard disk, and the construction module is an existing hardware module or equipment terminal with a graphic processing function, a map construction function and a control authority configuration function.

102. Marking equipment shape information on corresponding intelligent household equipment according to the shape of the intelligent household equipment; the step 101 and the step 102 are preparation operation steps for constructing the HomeMap, so that the step 101 and the step 102 are executed in sequence in actual application, and the step 103 is triggered after the step 101 and the step 102 are executed.

In the embodiment of the invention, because the constructed HomeMap needs to be visually displayed on the household graph more intuitively, a user can conveniently and visually control the HomeMap according to the specific application scene of the intelligent household equipment in a user room, and therefore, in order to ensure the position accuracy of the intelligent household equipment in the household graph, the HomeMap needs to be constructed according to the actual shape information of the intelligent household equipment.

103. The sweeping robot moves and scans in a user room according to a movement rule, a positioning server obtains scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern graph is obtained in a control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted; the scanning moving position information and the equipment position information obtained in the step 103 are synchronous, when the sweeping robot moves and scans in a user room and moves to the position near the household equipment marked with the equipment shape information, the sweeping robot marks the position coordinates on a scanned user-type diagram to form the equipment position information; when the execution of step 103 is completed, step 104 is triggered.

In the embodiment of the invention, the movement rule of the sweeping robot can be that the movement track of a user room is scanned comprehensively, and the efficiency of constructing the HomeMap can also be improved, a user can draw the movement track in a user-defined manner according to the placement position of the intelligent household equipment, for example, if the intelligent household equipment is generally placed close to a wall, the sweeping robot only needs to move along the outline close to the wall to scan each area for one circle; the coordinate reference of the sweeping robot in the scanned floor plan can be an initial position where the sweeping robot is placed by a user, or can be a position where a certain intelligent household device is located as a reference. The scanning movement position information refers to the movement track and real-time position information of the sweeping robot in a control house type graph; the device position information refers to information such as the placement position and the orientation of each intelligent home device in a control house type diagram.

104. The construction module marks the device shape information corresponding to the intelligent household equipment on the scanned house type graph according to the scanned mobile position information and the device position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain the HomeMap. When the execution of step 104 is completed, step 105 is triggered.

In the embodiment of the invention, the HomeMap is used for performing visual control on the intelligent home equipment and has no relation with other furniture placed in a user room, so that in order to ensure the intuitiveness of the HomeMap in the visual control on the intelligent home equipment and avoid the interference of other indoor articles on a control interface, the HomeMap needs to be actively cleared of the scanning information irrelevant to the control of the intelligent home equipment when being constructed.

105. And the equipment shape information of each intelligent household equipment displayed in the HomeMap controls each intelligent household equipment.

In the embodiment of the invention, on the basis of the existing intelligent home application program visual control technology, the user type graph and the specific device placement position information are combined, so that the device shape information marked on the user type graph has the control authority, and the user selects each device shape information mark to control the intelligent home devices in the user room in the user type graph control interface displayed by the HomeMap, so that the intelligent home devices and the application scenes thereof can be accurately and more intuitively, accurately and quickly controlled.

In step 101, obtaining a room-floor type diagram of a user room includes:

acquiring user room address information;

and acquiring a user room layout drawing through a developer or the Internet according to the user room address information, wherein the user room layout drawing comprises a three-dimensional layout drawing.

In the step 102, device shape information is marked on the corresponding smart home device according to the shape of the smart home device, and in the moving and scanning process of the cleaning robot in the user room, in the step 103, extracting the device shape information and the device position information of the smart home device in the user room includes:

setting an equipment shape recognition module according to the three-dimensional shape of the intelligent equipment, wherein the equipment shape information comprises an equipment name, an area, a volume and/or a shape;

the device shape device module is a scanning code label;

the sweeping robot is close to the intelligent household equipment through moving, and the scanning code label is scanned by the camera module to identify and extract the equipment shape information.

In the step 103, the sweeping robot moves and scans in the user room according to the movement rule, the positioning server obtains the scanning movement position information of the sweeping robot according to the positioning terminal installed on the sweeping robot, and a scanned floor pattern diagram is obtained in the control floor pattern diagram; the method comprises the following steps:

the sweeping robot scans image information by adopting a camera module, and generates the scanning house-type picture with the live-action picture according to the scanning moving position information and the image information.

The step 104 includes: marking a three-dimensional shape in the equipment shape information of the intelligent household equipment at a position corresponding to the scanned house type graph according to the scanned mobile position information; and comparing the scanned house type picture with the control house type picture, clearing an area without the shape information of the intelligent household equipment except the three-dimensional shape mark by taking the peripheral shape of the control house type picture as a standard, and replacing the live-action picture of the cleared area with the wall picture of the house type picture.

In this embodiment, the HomeMap building step may be based on efficient and automatic building of the HomeMap by the sweeping robot, and the visual control interface displayed in the HomeMap is a three-dimensional model map, so that the user may further browse the application three-dimensional space of the smart home device through the live-action picture, and the user may control the smart home device more intuitively and accurately.

Example four

Referring to fig. 4, fig. 4 is a schematic structural diagram of an air environment visualization control system based on HomeMap according to another embodiment of the present invention. The air environment visualization control system based on the HomeMap comprises a house type map acquisition and import module 402, a positioning server 401, a construction module 403 and a control module 404, wherein a positioning terminal 301, an induction module 302 and a camera module 303 are installed on a sweeping robot 30 in a user room, and intelligent household equipment 20 placed in the room is provided with an equipment shape recognition module 201 and an air detection module 202, wherein:

a house type graph obtaining and importing module 402, configured to obtain a room type graph of a user room, and import the room type graph to a building module 403;

the air detection module 202 is used for detecting air quality information of an area where the smart home device is located;

the positioning server 101 is configured to obtain scanning movement position information of the sweeping robot 20 according to the positioning terminal 301 and control the sweeping robot 20 to move in a user room;

the sweeping robot 20 is used for moving in a room according to rules;

the camera module 202 is used for dynamically shooting live-action pictures in a room during the movement of the sweeping robot 20;

the device shape identification module 201 is used for storing or linking device shape information stored in a cloud;

a sensing module 302, configured to extract device shape information in the device shape recognition module 20;

the building module 403 is configured to form a control house type graph according to the house type graph of the room, obtain a scanned house type graph according to the scanning position information scanned by the sweeping robot 20, and build a HomeMap according to the marking condition on the scanned house type graph of the device shape information;

the control module 404 obtains the control authority of the smart home devices 20 through the HomeMap, and controls the smart home devices 20 through the device shape information of the smart home devices 20 displayed in the HomeMap.

EXAMPLE five

The embodiment of the invention discloses a computer storage medium, which stores computer instructions, and the computer instructions are used for executing the steps of the HomeMap-based air environment visualization control method in the first embodiment, the second embodiment or the third embodiment of the invention when being called.

The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate components may or may not be physically separate, and the components shown as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above detailed description of the embodiments, those skilled in the art will clearly understand that the embodiments may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. Based on such understanding, the above technical solutions may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, wherein the storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), a One-time Programmable Read-Only Memory (OTPROM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), a Compact Disc-Read-Only Memory (CD-ROM) or other Memory capable of storing data, a magnetic tape, or any other computer-readable medium capable of storing data.

Finally, it should be noted that: the method and system for controlling air environment visualization based on HomeMap disclosed in the embodiments of the present invention are only preferred embodiments of the present invention, and are only used for illustrating the technical solutions of the present invention, not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The air environment visualization control method based on the HomeMap is characterized by comprising the following steps:

constructing HomeMap:

acquiring a room layout of a user room, and importing the room layout into a map interface of a building module to form a control layout;

marking equipment shape information on corresponding intelligent household equipment according to the shape of the intelligent household equipment; the intelligent household equipment is air environment adjusting equipment;

the sweeping robot moves and scans in a user room according to a movement rule, a positioning server obtains scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern graph is obtained in a control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted;

the construction module marks the device shape information corresponding to the intelligent household equipment on the scanned household graph according to the scanned mobile position information and the device position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain a HomeMap;

the equipment shape information of each intelligent household equipment displayed in the HomeMap controls each intelligent household equipment;

air environment control:

the HomeMap extracts the operation state information of the air environment conditioning equipment and the air quality information of the area in the room of the user, and displays the operation state information and the air quality information on a control interface of the HomeMap in real time.

2. The HomeMap-based air environment visualization control method according to claim 1, wherein the air environment control step is preceded by an updating step, and the updating step comprises the following steps:

according to the updating setting, the sweeping robot moves and scans in the user room according to the moving rule, the positioning server obtains the scanning moving position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and an updated scanning floor pattern graph is obtained in the control floor pattern graph; the method comprises the steps that in the moving scanning process of a sweeping robot in a user room, equipment shape information and equipment position information of intelligent household equipment in the user room are extracted;

the construction module marks the device shape information corresponding to the intelligent household equipment on the updated scanning household graph according to the scanning mobile position information and the device position information, and clears the other area scanning information without the intelligent household equipment shape information to obtain the updated HomeMap.

3. The HomeMap-based visual control method of the air environment according to claim 2, wherein obtaining a room-type map of a user's room comprises:

acquiring user room address information;

and acquiring a user room layout drawing through a developer or the Internet according to the user room address information, wherein the user room layout drawing comprises a two-dimensional layout drawing or a three-dimensional layout drawing.

4. The HomeMap-based air environment visualization control method according to claim 3, wherein device shape information is marked on corresponding smart home devices according to shapes of the smart home devices, and in a moving scanning process of the sweeping robot in a user room, device shape information and device position information of the smart home devices in the user room are extracted, and the method comprises the following steps:

the method comprises the steps that an equipment shape recognition module is arranged according to the three-dimensional shape or the occupied two-dimensional shape of the intelligent household equipment, and equipment shape information comprises equipment name, area, volume and/or shape;

the equipment shape equipment module is a scanning code label or an induction chip;

the sweeping robot scans the scanning code label by moving close to or senses the sensing chip by moving close to identify and extract the shape information of the equipment.

5. The HomeMap-based air environment visualization control method according to claim 4, wherein the sweeping robot moves and scans in the user room according to the movement rule, the positioning server obtains the scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern is obtained in a control floor pattern; the method comprises the following steps:

the scanned floor plan is a two-dimensional plan;

the sweeping robot scans by adopting a scanning radar to obtain a two-dimensional scanning house type image.

6. The HomeMap-based air environment visualization control method according to claim 4, wherein the sweeping robot moves and scans in the user room according to the movement rule, the positioning server obtains the scanning movement position information of the sweeping robot according to a positioning terminal installed on the sweeping robot, and a scanned floor pattern is obtained in a control floor pattern; the method comprises the following steps:

the scanned house-type diagram is a three-dimensional diagram;

the sweeping robot scans image information by adopting a camera module, and generates the scanning house-type picture with the live-action picture according to the scanning moving position information and the image information.

7. The HomeMap-based air environment visualization control method according to claim 5, wherein the construction module identifies device shape information corresponding to the smart home devices on the scanned floor plan according to the scanned mobile position information and the device position information, and clears other area scanning information without the smart home device shape information to obtain the HomeMap; the method comprises the following steps:

according to the scanning mobile position information, marking an occupied two-dimensional shape in the equipment shape information of the intelligent household equipment at a position corresponding to the scanning house type graph; and comparing the scanned house type graph with the control house type graph, and clearing an area without the shape information of the intelligent household equipment except the two-dimensional shape mark by taking the peripheral shape of the control house type graph as a standard.

8. The HomeMap-based air environment visualization control method according to claim 6, wherein the construction module identifies device shape information corresponding to the smart home devices on the scanned floor plan according to the scanned mobile position information and the device position information, and clears other area scanning information without the smart home device shape information to obtain the HomeMap; the method comprises the following steps:

marking a three-dimensional shape in the equipment shape information of the intelligent household equipment at a position corresponding to the scanned house type graph according to the scanned mobile position information; and comparing the scanned house type picture with the control house type picture, clearing an area without the shape information of the intelligent household equipment except the three-dimensional shape mark by taking the peripheral shape of the control house type picture as a standard, and replacing the live-action picture of the cleared area with the wall picture of the house type picture.

9. The utility model provides an air circumstance vision control system based on HomeMap, its characterized in that obtains leading-in module, location server, construction module and control module including the house type picture, installs location terminal, response module and camera module on the robot of sweeping the floor in the user room, and the intelligent household equipment of placing in the room is equipped with equipment shape recognition module and empty gas detection survey module, wherein:

the family pattern acquisition and import module is used for acquiring a room family pattern of a user room and importing the room family pattern into the construction module;

the air detection module is used for detecting air quality information of an area where the intelligent household equipment is located;

the positioning server is used for acquiring the scanning moving position information of the sweeping robot according to the positioning terminal and controlling the sweeping robot to move in the user room;

the sweeping robot is used for moving in the room according to rules;

the camera module is used for dynamically shooting live-action pictures in a room in the moving process of the sweeping robot;

the device shape module is used for storing or linking device shape information stored in the cloud;

the sensing module is used for extracting the equipment shape information in the equipment shape module;

the building module is used for forming a control house type graph according to the house type graph, obtaining a scanned house type graph according to the scanning movement position information of the sweeping robot, and building a HomeMap according to the marking condition of the equipment shape information on the scanned house type graph;

the control module acquires the control authority of the intelligent home equipment through the HomeMap, and controls the intelligent home equipment through the equipment shape information of the intelligent home equipment displayed in the HomeMap.

10. A computer readable storage medium storing computer instructions, wherein the computer instructions, when executed by a processor, implement the steps of the HomeMap-based air environment visualization control method of any one of claims 1 to 8.

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