WO2023124076A1 - Smart home layout diagram generation method and apparatus and computer readable storage medium - Google Patents

Abstract

The present disclosure provides a smart home layout diagram generation method and apparatus and a computer readable storage medium. The method comprises: obtaining room information of a target house, and determining coordinate information of each room; determining deployment demand information of a smart device according to a preset layout rule on the basis of the room information and the coordinate information, wherein the deployment demand information comprises the types, number and deployment positions of smart devices; and generating a smart home layout diagram of the target house, wherein the area of the smart home layout diagram corresponding to the deployment positions of the smart devices indicates information of the smart devices, and the information of the smart devices at least reflects the types of the smart devices.

Description

Smart home layout drawing generation method, device and computer-readable storage medium

Cross References to Related Applications

This disclosure claims the priority of the Chinese patent application CN202111622851.6 entitled "Smart Home Layout Generation Method, Device, and Computer-Readable Storage Medium" filed on December 28, 2021, the entire contents of which are incorporated by reference into this disclosure middle.

technical field

The present disclosure relates to but not limited to the field of smart home, in particular, relates to but not limited to a method, a device and a computer-readable storage medium for generating a layout map of a smart home.

Background technique

With the advancement of computer and communication technology, various smart devices can achieve more diverse and powerful functions. In the current era, smart home has emerged as the times require and has become an important part of improving the convenience and wisdom of people's daily life. However, there are many brands of smart homes in the related art, and there are various types of smart devices involved in smart homes. The deployment and design process of smart homes is complicated, the user experience is low, and it is not conducive to the promotion of smart homes.

Contents of the invention

The smart home layout drawing generation method, device and computer-readable storage medium provided by the present disclosure solve the technical problem that the deployment and design process of the smart home is complicated and the user experience is low.

The present disclosure provides a method for generating a smart home layout diagram, including: acquiring room information of a target house and determining coordinate information of each room; determining deployment requirement information of smart devices according to preset layout rules based on the room information and coordinate information, Deployment demand information includes the type, quantity, and deployment location of smart devices; generate a smart home layout diagram of the target house, and the smart home layout diagram corresponds to the deployment location of each smart device. Reflect the types of smart devices.

The present disclosure also provides a smart home layout diagram generating device, including a processor, a memory, and a communication bus; the communication bus is used to realize connection and communication between the processor and the memory; the processor is used to execute one or more computer programs stored in the memory A program to realize the steps of the method for generating a smart home layout diagram as described above.

The present disclosure also provides a computer-readable storage medium storing one or more programs, and one or more programs can be executed by one or more processors to implement the above steps of the method for generating a smart home layout diagram.

Description of drawings

FIG. 1 is a schematic flowchart of a method for generating a smart home layout diagram according to Embodiment 1 of the present disclosure;

FIG. 2 is a schematic diagram of a detailed flow chart of a method for generating a smart home layout diagram according to Embodiment 1 of the present disclosure;

FIG. 3 is a schematic diagram of determining a rectangular area corresponding to a target house according to Embodiment 1 of the present disclosure;

FIG. 4 is a first schematic diagram of the distribution of idealized deployment coordinates of hotspot devices according to Embodiment 1 of the present disclosure;

FIG. 5 is a second schematic diagram of the distribution of idealized deployment coordinates of hotspot devices according to Embodiment 1 of the present disclosure;

FIG. 6 is a second schematic flow diagram of the refinement process of the method for generating a smart home layout diagram according to Embodiment 1 of the present disclosure;

FIG. 7 is a schematic diagram of the coordinates of a certain room in Embodiment 1 of the present disclosure;

FIG. 8 is a third schematic flow diagram of the refinement of the method for generating a smart home layout diagram according to Embodiment 1 of the present disclosure;

FIG. 9 is a schematic flowchart of a method for generating a smart home layout diagram according to Embodiment 2 of the present disclosure;

FIG. 10 is a schematic flow diagram of determining the actual deployment coordinates of hotspot devices according to Embodiment 2 of the present disclosure;

FIG. 11 is a schematic diagram of determining actual deployment coordinates of hotspot devices according to Embodiment 2 of the present disclosure;

Fig. 12 is a schematic diagram of windows in the hallway according to Embodiment 2 of the present disclosure;

FIG. 13 is a generated smart home layout diagram according to Embodiment 2 of the present disclosure;

FIG. 14 is a schematic structural diagram of a device for generating a smart home layout diagram according to Embodiment 3 of the present disclosure.

Detailed ways

In order to make the purpose, technical solutions and advantages of the present disclosure clearer, the present disclosure will be further described in detail below through specific implementation methods in conjunction with the accompanying drawings. It should be understood that the embodiments described here are only used to explain the present disclosure, not to limit the present disclosure.

Embodiment one

In order to improve the convenience for users when deploying smart homes and improve user experience, this embodiment provides a method for generating a smart home layout diagram, as shown in FIG. 1 , including steps S101 to S103.

S101. Obtain room information of a target house and determine coordinate information of each room.

The acquisition of the room information of the target house and determining the coordinate information of each room includes, but is not limited to, identification based on the floor plan, or input by the user in other ways. Room information includes but is not limited to the type of the room, such as marking whether the room is a living room, bedroom, study, toilet or kitchen, etc. In some implementations, in order to simplify the complexity, areas such as corridors and balconies are also treated as one room. deal with. The coordinate information of each room includes but not limited to at least one of the coordinates of each vertex of the room, the coordinates of various objects in the room, and the coordinates of the central area of the room. The coordinate information uses a certain point as the coordinate origin. In an exemplary embodiment, a certain corner of the target house may be selected as the coordinate origin, for example, the lower left corner of the target house is the coordinate origin. Or when there is a floor plan of the target house, a certain corner of the floor plan is used as the coordinate origin, such as the lower left corner of the floor plan. Since the adjacent side of the floor plan or the corner of the room is usually vertical, the horizontal and vertical coordinate axes can be set along the direction of the adjacent side of the floor plan or the corner of the room, which is convenient for determining the coordinate information. Of course, it can be understood that the relative relationship between the various coordinate information of the target house is certain, and the coordinate origin and the horizontal and vertical coordinate axes can be arbitrarily determined in practical applications.

S102. Based on the room information and the coordinate information, determine the deployment requirement information of the smart device according to the preset layout rules.

Deployment requirement information includes the type, quantity and deployment location of smart devices. The smart home layout diagram generation method in this embodiment does not require the user to put forward requirements in advance, and the deployment requirements of smart devices are determined based on the actual situation of the target house, and the deployment requirement information can provide reference suggestions for users for the deployment of smart devices.

S103. Generate a smart home layout diagram of the target house.

The area corresponding to the deployment location of each smart device on the smart home layout map indicates the information of the smart device. The information of the smart device at least reflects the type of the smart device. In the smart home layout diagram generated in this embodiment, the smart devices are marked at their suggested deployment locations. When the user views the smart home layout diagram, he can intuitively know what kind of smart device needs to be deployed at which location. The smart home layout diagram includes but is not limited to text, pictures and other forms of information labeling of smart devices. In an exemplary embodiment, the smart home layout diagram can directly present the smart device in the area corresponding to the deployment location of a certain smart device. The name of the type of device. In another example, a picture of the smart device is set in an area corresponding to the deployment location of the smart device on the smart home layout map. In an exemplary embodiment, the information of the smart device may further include more content, such as optional models, specifications, and precautions of the smart device. In practical applications, as an example, on the smart home layout map, only part of the information of the smart device can be directly displayed in the area corresponding to the smart device. When the user clicks on this area, a more complete and specific information will be presented. information. Of course, the previous example needs to be based on the fact that the smart home layout diagram is a dynamic and interactive presentation form, but the smart home layout diagram in this embodiment also includes static images. When the home layout diagram is a static image, according to The actual needs show the required information on the smart home layout diagram.

Referring to FIG. 2 , in some embodiments, determining deployment requirement information of smart devices according to preset layout rules based on room information and coordinate information includes steps S201 to S202.

S201. Determine the number of hotspot devices and the ideal deployment coordinates of each hotspot device according to the length and width of the target house.

In an exemplary embodiment, the coverage capabilities of the hotspot devices can be preset, considering that several hotspot devices can completely cover the target house or cover a certain percentage of the area of the target house. Hotspot devices include but are not limited to CPE equipment (Customer Premise Equipment, customer terminal equipment), home routers and other network devices that can convert mobile communication signals or wired broadband signals into local area network signals for other smart devices to connect to. In practical application, the coverage capability of the hotspot device can be set according to the actual situation. As an example, the length and width of the target house can be the length of the longest side and the width of the widest side, and the longest side and the widest side are used to determine the number of hotspot devices to ensure that the number of hotspot devices can meet the requirements of the target house. Coverage needs. As another example, the length and width of the target house may also be the maximum difference in coordinates in the length direction and the maximum difference in coordinates in the width direction.

In some embodiments, determining the number of hotspot devices and the ideal deployment coordinates of each hotspot device according to the length and width of the target house includes: determining a rectangular area corresponding to the target house according to the house type information, as shown in FIG. 3 , The target house is surrounded by the rectangular area, which is the smallest rectangle that can enclose the target house. In this example, the length and width of the rectangular area are used as the length X0 and width Y0 of the target house to determine the hotspot device The ideal deployment coordinates of hotspot devices are the coordinates when these hotspot devices are uniformly arranged in the rectangular area. The setting of the hotspot device in this embodiment includes, but is not limited to, equal division in the length and width directions, setting the hotspot device on the equal line in the length and width directions; or dividing the rectangular area into multiple smaller ones zones, placing the hotspot device at the center of these smaller zones. It should be noted that when the number of hotspot devices is one, its ideal deployment coordinates are the center of the rectangular area. As another example, as shown in FIG. 4 , there are two hotspot devices determined in this example, the rectangular area 100 corresponding to the target house is a rectangular area, and the idealized deployment coordinates 201 of the two hotspot devices are in the length of the rectangular area The directions are at one-third and two-thirds of the length respectively. In the example of FIG. 5 , there are four hotspot devices, the rectangular area 100 can be divided into four sub-rectangular areas, and the ideal deployment coordinate 201 of each hotspot device is the center of the equally divided sub-rectangular area.

It can be understood that the idealized deployment coordinates determined in step S201 are not necessarily equal to the actual location where the hotspot device is to be deployed. For example, the location corresponding to the idealized deployment coordinates may have other factors that are not suitable for deploying the hotspot device.

S202. According to the idealized deployment coordinates of each hotspot device and the room information, respectively determine the actual deployment coordinates of each hotspot device closest to the idealized deployment coordinates.

Through step S202, on the basis of the idealized deployment coordinates, the actual deployment coordinates suitable for deploying the hotspot device need to be determined through the following step S202.

In an exemplary embodiment, referring to FIG. 6 , in some implementation manners, step S202 may include: steps S2021 to S2022.

S2021. When the idealized deployment coordinates are within the range of the target room, determine that the actual deployment coordinates of the hotspot device are within the range of the target room. S2022. When the idealized deployment coordinates are not within the range of the target room, search for a target room closest to the idealized deployment coordinates, and determine that the actual deployment coordinates of the hotspot device are within the range of the target room closest to the idealized deployment coordinates.

It is understandable that in some examples, the coordinates of a certain corner of each room can be obtained, for example, the coordinates of the lower left corner can be obtained, and whether the position corresponding to the idealized deployment coordinates can be determined according to the length, width and other information of each room in that room. As a more specific example, for example, as shown in Figure 7, the coordinates of the lower left corner of a room (the directions in this example are all shown in the figure) are (Xn, Ym), the positive direction of the X-axis is to the right, and the Y-axis The positive direction of is upward, the length of the room is 3 (in meters), and the width is 2. When the X value of the idealized deployment coordinates is not less than Xn, not greater than Xn+3; the Y value is not less than Ym, not greater than Ym+ 2, it can be considered that the idealized deployment coordinates are in the house of the room.

The target room in this embodiment includes but is not limited to the main activity area of the residents in real life, and in order to set up hotspot devices, the target room can be equipped with a network port. In some implementations, the target room includes, but is not limited to, at least one of the following rooms configured with network ports: bedroom, study room, and living room. In practical applications, the target room can also be confirmed according to actual needs. At the same time, in some implementation processes, there may be multiple target rooms that are the closest to the ideal deployment coordinates, and the order of priority can be set for these target rooms. When more than one target room is found, the hotspot The actual deployment coordinates of the equipment are determined in the target room with the highest priority.

Referring to FIG. 8 , in order to more accurately confirm the deployment location of the smart device, in some embodiments, determining the deployment requirement information of the smart device according to the preset layout rules based on the room information and coordinate information includes steps S301 to S302.

S301. Determine coordinate information of a reference object in each room that is correlated with the location of the smart device.

Determining the coordinate information of each room includes determining the coordinate information of these reference objects.

S302. Determine the actual deployment coordinates of the smart device according to the coordinate information of the reference object corresponding to the smart device.

In this embodiment, by determining the coordinates of the reference object in the room, the reference object is used to more accurately locate the actual deployment coordinates of the smart device.

In an exemplary embodiment, the smart device and the reference objects related to the location of the smart device include at least one of the following: the smart device is a hotspot device, and the reference objects include network ports; the smart device is a smart switch, and the reference objects include various The door of the room; the smart device is an audio-visual device, and the reference object includes the TV wall; the smart device is a smart curtain, and the reference object includes the window.

In some embodiments, acquiring the room information of the target house and determining the coordinate information of each room includes any of the following: acquiring a floor plan input by the user, acquiring room information from the floor plan and determining the coordinate information of each room; According to the real estate and room number of the target house, obtain the floor plan of the target house according to the real estate and house number, obtain the room information from the floor plan and determine the coordinate information of each room; obtain the photos of the target house, and determine the Room information and determine the coordinate information of each room.

Ways to obtain the floor plan of the target house according to the real estate and the room number include but are not limited to searching the Internet, such as querying the developer's website, or establishing and maintaining a corresponding database, and querying from the database.

The smart home layout map generation method provided by the present disclosure obtains the room information of the target house and determines the coordinate information of each room; based on the room information and coordinate information, the deployment requirement information of the smart device is determined according to the preset layout rules, and the deployment requirement The information includes the type, quantity, and deployment location of smart devices; the smart home layout diagram of the target house is generated, and users can intuitively know what kind of smart devices need to be deployed at any location; it improves the convenience of users when deploying smart homes, and improves user experience.

Embodiment two

In order to better understand the method for generating a layout diagram of a smart home in the present disclosure, the implementation steps of the method for generating a layout diagram of a smart home are further described with examples combined in this embodiment.

As shown in FIG. 9, in this example, the method for generating a smart home layout diagram includes steps S401 to S404.

S401. Obtain the floor plan input by the user and acquire house information and coordinate information.

After the floor plan is obtained, the floor plan can be identified to determine each room in the house. In an exemplary embodiment, the floor plan input by the user marks the dimensions of each room in the entire house, and the coordinates of each room can be determined according to the dimensions marked in the floor plan. In this example, the lower left corner of the floor plan (the direction in this example is based on the direction when the user enters the floor plan) is used as the origin of the coordinates. The coordinates of the corners are described as the coordinates of the room.

In this example, the coordinates of the network port are also obtained. If the network port is marked on the floor plan, the coordinates of the network port can be obtained when the floor plan is recognized. If the floor plan does not mark the position of the network port, the user can input the position of the network port. .

The house information in this example includes the identified types of rooms, and the types of rooms may be input by the user. For example, after the user inputs the floor plan, the user marks each room on the floor plan. In other examples, the type of the room can also be determined when the floor plan is recognized. In an exemplary embodiment, the characteristic elements in each room can be identified to determine the type of the room, for example including but not limited to if a certain room is identified If the figure of the bed is drawn in the room, it is determined that the type of the room is a bedroom; if the figure of the toilet is drawn in a certain room, it is determined that the type of the room is a toilet; if the figure of the dining table is drawn in a certain room , then it is determined that the type of the room is a restaurant; if it is recognized that a stove is drawn in a certain room, then it is determined that the type of the room is a kitchen; if it is recognized that a sofa and/or a TV is drawn in a certain room, then Determine the type of the room as a living room. Of course, some floor plans may also be directly printed with the text of the room type, which can also be directly recognized.

The coordinate information in this example also includes the coordinates of the door and the window, and information such as the size of the door and the window has been obtained.

For ease of understanding, the floor plan of this example reflects the overall shape of the target house as a rectangle, with the long side of the target house being X0 and the wide side being Y0.

This example assumes that there are three windows in each room. In practice, the number of windows and the width of the windows reflect the actual situation of the target house.

As shown in Table 1 below, it shows part of the information obtained before generating the smart home layout diagram in this example (the units of the lengths in the table are all meters).

Table 1

Room	The long side	broadside	door width	window width	bottom left coordinates	Network port coordinates
hall	A2	A1	a1	a2, a3, a4	(x 1 ,y 1 )	(x a ,y a )
living room	A4	A3	b1	b2, b3, b4	(x 2 ,y 2 )	(x b ,y b )
Dining room	A6	A5	c1	c2, c3, c4	(x 3 ,y 3 )	(x c ,y c )
kitchen	B2	B1	d1	d2, d3, d4	(x 4 ,y 4 )	-
toilet 1	C2	C1	e1	e2, e3, e4	(x 5 ,y 5 )	-
toilet 2	C4	C3	f1	f2, f3, f4	(x 6 ,y 6 )	-
bedroom 1	D2	D1	g1	g2, g3, g4	(x 7 ,y 7 )	(x g ,y g )
bedroom 2	D4	D3	h1	h2, h3, h4	(x 8 ,y 8 )	(x h ,y h )
bedroom 3	D6	D5	j1	j2, j3, j4	(x 9 ,y 9 )	(x j ,y j )

study	E2	E1	k1	k2, k3, k4	(x 10 ,y 10 )	(x k ,y k )
corridor	F2	F1	m1	m2, m3, m4	(x 11 ,y 11 )	(x m ,y m )
balcony 1	G2	G1	n1	n2, n3, n4	(x 12 ,y 12 )	-
balcony 2	G4	G3	p1	p2, p3, p4	(x 13 ,y 13 )	-

S402. Determine the number and location of hotspot devices.

In an exemplary embodiment, the number of hotspot devices is

(rounded up).

In this example, hotspot devices can only be placed in the study, bedroom 1, bedroom 2, bedroom 3, and living room with network ports, that is, the study, bedroom 1, bedroom 2, bedroom 3, and living room are the target rooms.

Determine the number of hotspot devices as 1, then the center of the target house

is the idealized deployment coordinates of the hotspot device, and then judges whether the idealized deployment coordinates are appropriate.

Referring to FIG. 10 , for this example, the process of determining the actual deployment coordinates of each hotspot device according to the idealized deployment coordinates and room information includes steps S501 to S510 .

S501. Whether the idealized deployment coordinates are in the target room; if yes, execute step S502; otherwise, execute step S505; the target rooms in this example include study, bedroom and living room.

S502. Whether the idealized deployment coordinates are in the study; if yes, execute step S506; otherwise, execute step S503.

S503. Whether the idealized deployment coordinates are in the bedroom; if yes, execute step S508; otherwise, execute step S504.

S504. Determine that the actual deployment coordinates are in the living room.

S505. Whether there is a study within the range of the idealized deployment coordinate α; if yes, execute step S506; otherwise, execute step S507.

S506. Determine that the actual deployment coordinates are in the study.

S507. Whether there is a bedroom within the range of the idealized deployment coordinate α; if yes, execute step S508; otherwise, execute step S509.

S508. Determine that the actual deployment coordinates are in the bedroom.

S509. Whether there is a living room within the range of the idealized deployment coordinates α; if yes, execute step S504; otherwise, execute step S510.

S510. Increase the value of α.

Each time step S510 is executed, the increased step size is set according to the actual situation, such as 0.5 meter, 1 meter, 1.5 meter and so on.

In this example, if the idealized deployment coordinates are not in the target room, search whether there is a target room within the range of α meters near the idealized deployment coordinates, and if it still does not exist, increase the search range with a predetermined step size, that is, increase α The value of , until there is a target room within the range of α meters near the idealized deployment coordinates, then it is determined that the hotspot device is set in the target room, that is, the actual deployment coordinates are in the target room. Referring to the flow chart in Figure 10, it can be seen that in this example, if more than one target room is searched within the range of α meters near the idealized deployment coordinates, the actual deployment coordinates will be determined in the order of priority of the study, bedroom, and living room from high to low. in the higher-level target room. In an exemplary embodiment, if more than one bedroom is searched at the same time, it may be determined which bedroom the actual deployment coordinates are in by means of random selection or user designation.

In order to better understand the process of determining the coordinates of the deployment location of the hotspot device, this embodiment also provides another example, please refer to Figure 11, first determine the number of hotspot devices as 1, and determine the coordinates of the center of the house as the hotspot device The idealized deployment coordinates 201 of . In an exemplary embodiment, as shown in FIG. 11 , the coordinates of the center of the house can be determined based on converting the house into a more approximate rectangular area 100, and the center of the rectangular area 100 is regarded as the center of the house, which can avoid the There are difficulties in determining the center of the entire house caused by some irregular shapes or arc-shaped rooms. In this example, the smallest rectangular area that can enclose the house is used as the rectangular area to determine the center of the house. In fact, in practical applications, the center of the house can also be determined by determining a rectangle similar to the overall layout of the house or even other basic graphics in other ways.

In the example of FIG. 11 , the idealized deployment coordinates 201 of the hotspot device are determined, and according to the coordinates and sizes of each room, it can be known that the idealized deployment coordinates 201 are in the corridor. First determine whether there is a study 102, bedroom 103 or living room 104 within 0.5 meters of the idealized deployment coordinates 201. In this example, the distance z1 from the idealized deployment coordinates 201 to the bedroom 103 is 0.8 meters, and the distance z2 to the living room 104 is 1.3 meters. , it can be seen that the above-mentioned target room does not exist within 0.5 meters of the idealized deployment coordinate 201 in this example. Expand the search range to 1 meter, and determine that there is a bedroom 103 within 1 meter of the idealized deployment coordinates 201 , then determine that the actual deployment coordinates of the hotspot device are in the bedroom 103 .

In an exemplary embodiment, this embodiment also acquires the coordinates of the network port, and the hotspot device is set in an area close to the network port, for example, the hotspot device may be set within 1 meter from the network port. When the target room is determined, the actual deployment coordinates of the hotspot device are determined according to the coordinates of the network ports in the target room.

It can be understood that, when there is more than one confirmed hotspot device, these hotspot devices can respectively determine corresponding actual deployment coordinates according to the above steps based on their respective idealized deployment coordinates. In an exemplary embodiment, in some examples, if more than one target room is searched, it may also be determined whether there are other hotspot devices in these target rooms, and the actual deployment coordinates of the hotspot device are determined as not yet deployed. The coordinates within the target room range of the hotspot device.

S403. Determine the quantity and location of other smart devices.

The smart device in this embodiment also includes a smart light. In an exemplary embodiment, the smart light can determine requirement information such as specifications and quantities according to the size of each room. In this embodiment, it is assumed that only one smart light is deployed in each room, and the coordinates of the deployment position of the smart light are shown in Table 2 below.

In the example in Table 2 below, the smart lights in each room are deployed in the middle of the room. In practical applications, the coordinates of the deployment location of the smart lights may not be able to deploy the smart lights due to some factors, which can be based on the deployment locations of the smart lights in Table 2 above. The coordinates of other smart lights in the room are determined as the actual deployment positions of the smart lights. For example, there are obstacles at the coordinates of the deployment position of the smart light in a certain room, and the smart light cannot be deployed, then search whether there is still an obstacle within a certain range of the coordinates of the deployment position of the smart light, and if there is no obstacle, determine the distance from the smart light Coordinates of Deployment Position The position at a certain distance is the coordinate of the actual deployment position of the smart light.

Table 2

As mentioned above, in this embodiment, the coordinate information of objects such as doors and windows is also obtained. In this embodiment, there is a certain positional relationship between the smart switch and the door. Therefore, when determining the coordinates of the deployment position of the smart switch, the door can be used as a reference object, and the coordinates of the deployment position of the smart switch can be accurately determined based on the door. As an example, the layout rule for the smart switch can be: when the door is on the left side of the long side of the room, the deployment position of the smart switch is 20 cm to the right of the threshold on the right side of the door; When the long side of the room is on the right side, the smart switch is deployed at a position 20 cm to the left of the threshold on the left side of the door; when the door is on the upper side of the short side of the room, the smart switch is deployed at the lower side of the door 20 cm below the threshold; when the door is on the lower side of the short side of the room, the deployment position of the smart switch is 20 cm above the threshold on the upper side of the door.

It should be noted that, in the above examples, it is assumed that the long sides of the room are set along the left and right directions, and the short sides are set along the up and down directions. In practical applications, the layout rules of the smart switch can also be set to other arbitrarily.

The coordinates of the deployment positions of each smart switch determined according to the above process are shown in Table 3 below, and the coordinates in Table 3 are the coordinates of the deployment positions of the smart switches.

table 3

It can be understood that there is a position relationship between the smart curtain and the window. Therefore, when determining the coordinates of the deployment position of the smart curtain, the window is used as a reference object, and the coordinates of the deployment position of the smart curtain are accurately determined based on the coordinates of the window. Please refer to FIG. 12 , which is a schematic diagram of windows in the hallway in this embodiment. The windows in other rooms are similar to the hallway, and are not shown in this embodiment. In practical applications, the coordinates of the windows are obtained according to the actual situation. In this embodiment, the smart curtain is wider than X _i on one side of the window. The coordinates of the exit window can be determined, see Table 4 below, and the unit of the length in the table is meter.

Table 4

This embodiment also recognizes the position of the TV wall. In an exemplary embodiment, the TV graphic in the floor plan can be identified, and the wall close to the TV is the TV wall; or the position of the sofa graphic in the living room can be identified. The wall opposite to the wall close to the sofa figure is the TV wall. When no object such as a TV or a sofa can be identified that can help determine the location of the TV, the location of the TV can also be planned directly according to the shape of the living room.

In this embodiment, the coordinates of the deployment position of the audio-visual equipment can be determined according to the coordinates of the TV wall, for example, the audio-visual equipment is deployed in the middle of the TV wall; the sofa in the living room can also be used as a reference object to determine the deployment position of the audio-visual equipment The coordinates are the position directly opposite the sofa on the TV wall. In an exemplary embodiment, the deployment requirement information of the audio-visual equipment may also include the recommended size of the TV set, the viewing distance is obtained, and the recommended size is determined according to the viewing distance. The recommended size of the TV can be marked on the deployment position of the audio-visual equipment as the information of the audio-visual equipment in the final smart home layout diagram. It can be understood that the recommended size of the TV in this embodiment is also applicable to the size of other video-playing audio-visual equipment such as the size projected by a projector. Table 5 below shows a comparison between the recommended size of a TV set and the viewing distance:

table 5

Recommended size of TV (in inches)	Viewing distance (m)
32	2.47
37	2.85
40	3.08
43	3.32
50	3.86
55	4.24
60	4.63
65	5.01
70	5.4

In an exemplary embodiment, the viewing distance can be assumed to be the length of the adjacent side of the TV wall-1 meter (or other predetermined distance parameters), or it can be based on the coordinates of the deployment position of the audio-visual equipment and the opposite wall of the sofa or audio-visual equipment The distance between -1 meter (or other predetermined distance parameters) is determined as the viewing distance.

It can be understood that this embodiment only exemplifies the above-mentioned smart devices, and in practical applications, other smart devices such as air purifiers, smart night lights, and smart toilets may also be included, but not limited to. In an exemplary embodiment, smart devices such as air purifiers that have a certain coverage when working can use layout rules similar to hotspot devices to determine the coordinates of the deployment location, and the target rooms can be residents such as study rooms, bedrooms, and living rooms. A room where you may often stay; for example, a smart night light can adopt a layout rule similar to that of a smart switch. The coordinates of the bed or the bedside cabinet, based on the coordinates of the bed or the bedside cabinet, accurately determine the coordinates of the deployment position of the smart night light. The smart toilet can determine the coordinates of the sewer pipe, and use the sewer pipe as a reference object to determine the coordinates of the deployment position of the smart toilet.

S404. Generate a smart home layout diagram displaying the smart device identification.

After the deployment requirement information of the smart device is determined, at least a part of the deployment requirement information is reflected on the layout diagram of the smart home. The smart device is displayed on the layout diagram of the smart home in the form of a graphic identification, and the graphic identification can reflect what kind of smart device the smart device is. In an exemplary embodiment, as shown in FIG. 13 , the generated smart home layout diagram is marked with a graphic corresponding to the hotspot device 30 at the position where the hotspot device 30 is set. If the smart home layout diagram is interactive, then In some examples, more information of the hotspot device 30 , such as model, coverage, etc., may be displayed after receiving a user's click on the graphic of the hotspot device 30 . The smart home layout diagram shown in Fig. 13 also shows the smart lamps 31 in each room in a circular shape. For other smart devices, they can also be presented with corresponding signs in the smart home layout diagram, which will not be repeated in this example.

In some embodiments, the user can input a photo of the house, and obtain room information and coordinate information of each room according to the photo of the house. The smart home layout diagram generated in this disclosure includes, but is not limited to, a floor plan similar to a floor plan. The corresponding smart device is marked on the corresponding position. The smart home layout diagram can also be a three-dimensional rendering or a three-dimensional graphic of a house AR\VR scene, and corresponding smart devices can also be marked on corresponding positions.

It can be seen that through the method for generating a smart home layout diagram in this embodiment, the deployment requirements of the house for smart devices can be determined, and a smart home layout plan suitable for the house can be generated for the user. After the user enters the floor plan or selects the floor plan of his house, he can directly obtain a smart home layout map that identifies the deployment location of the smart device, which improves the convenience of the user when deploying the smart home, even if the technology is small Bai can also know how to realize the smart home deployment of his own house and improve the user experience.

Embodiment three

This embodiment also provides a device for generating a smart home layout diagram, as shown in FIG. connection and communication; the processor 401 is configured to execute one or more computer programs stored in the memory 402, so as to realize at least one step in the method for generating a smart home layout diagram in the first and second embodiments above.

The present embodiment also provides a computer-readable storage medium, including any method or technology for storing information, such as computer-readable instructions, data structures, computer program modules, or other data. volatile or nonvolatile, removable or non-removable media. Computer-readable storage media include but are not limited to RAM (Random Access Memory, random access memory), ROM (Read-Only Memory, read-only memory), EEPROM (Electrically Erasable Programmable read only memory, electrically erasable programmable read-only memory ), flash memory or other memory technology, CD-ROM (Compact Disc Read-Only Memory, compact disk read-only memory), digital versatile disk (DVD) or other optical disk storage, magnetic cartridges, tapes, magnetic disk storage or other magnetic storage devices, Or any other medium that can be used to store desired information and that can be accessed by a computer.

The computer-readable storage medium in this embodiment can be used to store one or more computer programs, and the one or more computer programs stored in it can be executed by the processor to realize the smart home layout in the first and second embodiments above At least one step in a graph generation method.

It can be seen that those skilled in the art should understand that all or some of the steps in the methods disclosed above, the functional modules/units in the system and the device can be implemented as software (the computer program code executable by the computing device can be used to realize ), firmware, hardware, and appropriate combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be composed of several physical components. Components cooperate to execute. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application-specific integrated circuit .

In addition, as is well known to those of ordinary skill in the art, communication media typically embodies computer readable instructions, data structures, computer program modules, or other data in a modulated data signal such as a carrier wave or other transport mechanism, and may include any information delivery medium. Therefore, the present disclosure is not limited to any specific combination of hardware and software.

According to the smart home layout generation method, device and computer-readable storage medium provided by the present disclosure, the deployment requirement information of smart devices is determined according to the preset layout rules through the room information and the coordinate information of each room, and the graphical In this way, the deployment of smart devices is marked, and users can intuitively know what kind of smart devices need to be deployed at any location. In some implementation processes, the convenience of users when deploying smart homes is improved, and the user experience is improved.

The above content is a further detailed description of the present disclosure in conjunction with specific implementation modes, and it cannot be deemed that the implementation of the present disclosure is limited to these descriptions. For those of ordinary skill in the technical field to which the present disclosure belongs, without departing from the concept of the present disclosure, some simple deductions or substitutions can be made, which should be deemed to belong to the protection scope of the present disclosure.

Claims (10)

1. A method for generating a smart home layout diagram, comprising:

   Obtain the room information of the target house and determine the coordinate information of each room;

   Determining the deployment requirement information of the smart device according to the preset layout rules based on the room information and the coordinate information, the deployment requirement information including the type, quantity and deployment location of the smart device;

   Generating a smart home layout diagram of the target house, where the area corresponding to the deployment position of each smart device on the smart home layout diagram indicates the information of the smart device, and the information of the smart device at least reflects The type of the smart device.
2. The method for generating a smart home layout diagram according to claim 1, wherein said determining deployment requirement information of smart devices according to preset layout rules based on said room information and said coordinate information includes:

   Determine the number of hotspot devices and the idealized deployment coordinates of each hotspot device according to the length and width of the target house;

   The actual deployment coordinates of each of the hotspot devices closest to the idealized deployment coordinates are respectively determined according to the idealized deployment coordinates of each of the hotspot devices and the room information.
3. The smart home layout drawing generation method according to claim 2, wherein said determining the number of hotspot devices and the idealized deployment coordinates of each said hotspot device according to the length and width of said target house comprises:

   According to the house type information, determine a rectangular area corresponding to the target house, the rectangular area is the smallest rectangular area capable of enclosing the target house inside, and use the length and width of the rectangular area as the target house The length and width determine the number of hotspot devices;

   Coordinates when each hotspot device is uniformly arranged in the rectangular area are used as idealized deployment coordinates of the hotspot device.
4. The smart home layout drawing generation method according to claim 2 or 3, wherein, according to the idealized deployment coordinates of each of the hotspot devices and the room information, the distance between each of the hotspot devices and the idealized deployment is determined respectively Coordinates The closest actual deployment coordinates include:

   When the idealized deployment coordinates are within the range of the target room, determine that the actual deployment coordinates of the hotspot device are within the range of the target room;

   When the idealized deployment coordinates are not within the range of the target room, search for the target room closest to the idealized deployment coordinates, and determine that the actual deployment coordinates of the hotspot device are within the range of the idealized deployment coordinates. within the range of the target room.
5. The method for generating a smart home layout diagram according to claim 4, wherein the target room includes at least one of the following rooms equipped with network ports:

   bedroom;

   study;

   living room.
6. The method for generating a smart home layout diagram according to claim 1, wherein said determining deployment requirement information of smart devices according to preset layout rules based on said room information and said coordinate information includes:

   Determining the coordinate information of each of the rooms includes determining the coordinate information of a reference object in each of the rooms that is correlated with the location of the smart device;

   The actual deployment coordinates of the smart device are determined according to the coordinate information of the reference object corresponding to the smart device.
7. The method for generating a smart home layout diagram according to claim 6, wherein the smart device and the reference object correlated with the location of the smart device include at least one of the following:

   The smart device is a hotspot device, and the reference object includes a network port;

   The smart device is a smart switch, and the reference objects include the doors of each of the rooms;

   The smart device is an audio-visual device, and the reference object includes a video wall;

   The smart device is a smart curtain, and the reference object includes a window.
8. The method for generating a smart home layout diagram according to claim 1, wherein said obtaining the room information of the target house and determining the coordinate information of each room includes any of the following:

   Obtain the floor plan input by the user, obtain the room information from the floor plan, and determine the coordinate information of each of the rooms;

   Obtain the real estate and room number of the target house, obtain the floor plan of the target house according to the real estate and the house number, obtain the room information from the floor plan, and determine the coordinates of each of the rooms information;

   A photo of the target house is acquired, and the room information and coordinate information of each room are determined according to the photo of the target house.
9. A smart home layout diagram generation device, the smart home layout diagram generation device includes a processor, a memory and a communication bus;

   The communication bus is used to realize connection and communication between the processor and the memory;

   The processor is used to execute one or more computer programs stored in the memory, so as to realize the steps of the method for generating a smart home layout diagram according to any one of claims 1-8.
10. A computer-readable storage medium, the computer-readable storage medium stores one or more computer programs, and the one or more computer programs can be executed by one or more processors to implement claims 1 to 8 The steps of the smart home layout drawing generation method described in any one.

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