CN109408851B

CN109408851B - Furniture display method and device, storage medium and electronic equipment

Info

Publication number: CN109408851B
Application number: CN201811002873.0A
Authority: CN
Inventors: 向佳耀
Original assignee: Beijing Baidu Netcom Science and Technology Co Ltd
Current assignee: Beijing Baidu Netcom Science and Technology Co Ltd
Priority date: 2018-08-30
Filing date: 2018-08-30
Publication date: 2020-04-14
Anticipated expiration: 2038-08-30
Also published as: CN109408851A

Abstract

The invention provides a furniture display method, a furniture display device, a storage medium and electronic equipment. The furniture display method provided by the invention comprises the following steps: the method comprises the steps of obtaining a real video of a room to be decorated, obtaining a space constraint size of the room to be decorated according to the real video, obtaining a first model of first furniture to be arranged, generating a first virtual video according to the first model, determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in a superposition mode at the first position in the real video, wherein the first model in the first virtual video is not interfered with any obstacle in the real video. The furniture display method provided by the invention can be used for visually judging whether the furniture is suitable for the integral style and size requirements of the room to be decorated at present by an owner, so that the owner can quickly, simply and conveniently select the suitable furniture.

Description

Furniture display method and device, storage medium and electronic equipment

Technical Field

The invention relates to the technical field of computer vision, in particular to a furniture display method, a furniture display device, a storage medium and electronic equipment.

Background

With the rapid development of economic society, the requirements of people on living quality are gradually improved, wherein soft-packed homes are the overall planning of the interior of living rooms, reasonable selection of furniture size and style is performed by combining the hard-packed structure and the overall style of the living rooms, for example, the furniture such as electric appliances, cabinets and beds need to be arranged in a limited space, and therefore, the comprehensive and three-dimensional improvement is performed.

At present, in the arrangement of home furnishing, an owner usually goes to a furniture city or an online shopping platform to select furniture according to the decoration style and the indoor approximate placing size after a living room is hard-dressed, and then arranges the selected furniture. Especially for purchasing large furniture articles such as sofas, tables and the like, the selection is basically carried out in person in a market, the detailed comparison and consideration are carried out according to the structure and the size of a living room, the style, the texture, the size and the like of the furniture, and then judgment and selection are made depending on feeling or imagination.

However, since there is usually a certain difference between the display effect in the store and the display effect in the room, and since the effect of placing the furniture at a specific position in the home cannot be seen intuitively, it is difficult for the owner to determine whether the furniture can meet the space conditions in the room, and it is often necessary to repeatedly measure the furniture for determination, which is not only troublesome and laborious, but also takes up a lot of valuable time for the owner.

Disclosure of Invention

The invention provides a furniture display method, a device, a storage medium and electronic equipment, which are used for visually judging whether furniture is suitable for the integral style and size requirement of a current living room by a user so that an owner can quickly, simply and conveniently select the suitable furniture.

In a first aspect, the present invention provides a furniture display method, comprising:

acquiring a real video of a room to be decorated, and acquiring a space constraint size of the room to be decorated according to the real video, wherein the space constraint size comprises: the distance between any two obstacles in the range of the room to be decorated;

the method comprises the steps of obtaining a first model of first furniture to be arranged, and generating a first virtual video according to the first model, wherein the first model comprises a first size of the first furniture;

and determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in an overlapping mode at the first position in the real video, wherein the first model in the first virtual video does not interfere with any obstacle in the real video.

In one possible design, after determining the first position in the real video according to the spatially constrained size and the first size, the method further includes:

acquiring a first moving instruction, wherein a starting position corresponding to the first moving instruction is the first position, and an end position corresponding to the first moving instruction is a second position in the real video;

judging whether the first model in the first virtual video interferes with the obstacle in the real video in the moving process responding to the first moving instruction according to the first size and the space constraint size;

if the judgment result is negative, the first virtual video moves from the first position to the second position in the real video.

In one possible design, if the first model in the first virtual video interferes with an obstacle in the real video during the movement of the first model in response to the first movement instruction, the first virtual video moves from the first position to a third position in the real video, where the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, the distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value.

In one possible design, after the first virtual video moves from the first location to a third location in the real video, further comprising:

and generating a second virtual video, and displaying the second virtual video in an overlapping mode at the third position, wherein the second virtual video is used for representing that the first virtual video interferes with the obstacle in the real video.

In one possible design, after displaying the first virtual video at the first position in the real video in an overlaid manner, further comprising:

updating the spatially constrained size according to the first location and the first size of the first model, the spatially constrained size comprising: the distance between any two obstacles in the range of the room to be decorated and the distance between the first model and any obstacle.

In one possible design, after the updating the spatially constrained size according to the first location and the first size of the first model, further comprising:

acquiring a second model of second furniture to be arranged, and generating a third virtual video according to the second model, wherein the second model comprises a second size of the second furniture;

and determining a fourth position in the real video according to the space constraint size and the second size, and displaying a third virtual video in an overlapping mode at the fourth position in the real video, wherein the second model in the third virtual video does not interfere with any obstacle in the real video, and the second model in the third virtual video does not interfere with the first model in the first virtual video.

In one possible design, after the determining the first position in the real video according to the spatially constrained size and the first size, the method further includes:

acquiring first attribute information of the first furniture according to an attribute viewing instruction input by a user;

and generating a fourth virtual video according to the first attribute information, and displaying the fourth virtual video in the real video in an overlapping manner.

In one possible design, after displaying the fourth virtual video in the real video in an overlaid manner, the method further includes:

modifying the first attribute information according to an attribute changing instruction input by a user to generate second attribute information;

and updating the fourth virtual video according to the second attribute information.

and acquiring a purchase link of the first furniture according to a purchase instruction input by a user.

In one possible design, the obtaining the space constraint size of the room to be decorated according to the real video includes:

acquiring a first distance between a first obstacle and a camera in the room space range to be decorated and a second distance between a second obstacle and the camera according to the real video;

calculating the distance between the first obstacle and the second obstacle according to the pixel distance between the first obstacle and the second obstacle in the real video, the first distance and the second distance.

respectively extracting the outer contour features of the first obstacle and the second obstacle in the real video through a preset neural network model;

and calculating the distance between the first obstacle and the second obstacle according to the outer contour characteristic.

In a second aspect, the present invention also provides a furniture display device comprising:

the acquisition module is used for acquiring a real video of a room to be decorated and acquiring a space constraint size of the room to be decorated according to the real video, wherein the space constraint size comprises: the distance between any two obstacles in the range of the room to be decorated;

the acquisition module is further configured to acquire a first model of first furniture to be arranged, and generate a first virtual video according to the first model, where the first model includes a first size of the first furniture;

and the display module is used for determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in an overlapping mode at the first position in the real video, wherein the first model in the first virtual video does not interfere with any obstacle in the real video.

In one possible design, the furniture display further comprises:

the obtaining module is further configured to obtain a first moving instruction, where a starting point position corresponding to the first moving instruction is the first position, and an ending point position corresponding to the first moving instruction is a second position in the real video;

a judging module, configured to judge whether the first model in the first virtual video interferes with the obstacle in the real video in a movement process in response to the first movement instruction according to the first size and the spatial constraint size;

the display module is further configured to display that the first virtual video moves from the first location to the second location in the real video.

In a possible design, if the first model in the first virtual video interferes with an obstacle in the real video during the movement of the first model in response to the first movement instruction, the display module is further configured to display that the first virtual video moves from the first position to a third position in the real video, where the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, the distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value.

In one possible design, the display module is further configured to generate a second virtual video, and display the second virtual video in an overlay manner at the third location, where the second virtual video is used to represent that the first virtual video interferes with the obstacle in the real video.

In one possible design, the furniture display further includes:

an update module to update the spatially constrained size according to the first location and the first size of the first model, the spatially constrained size comprising: the distance between any two obstacles in the range of the room to be decorated and the distance between the first model and any obstacle.

In a possible design, the obtaining module is further configured to obtain a second model of a second piece of furniture to be arranged, and generate a third virtual video according to the second model, where the second model includes a second size of the second piece of furniture;

the display module is further configured to determine a fourth position in the real video according to the space constraint size and the second size, and display the third virtual video in an overlaid manner at the fourth position in the real video, where the second model in the third virtual video does not interfere with any obstacle in the real video, and the second model in the third virtual video does not interfere with the first model in the first virtual video.

In a possible design, the obtaining module is further configured to obtain first attribute information of the first furniture according to an attribute viewing instruction input by a user;

the display module is further configured to generate a fourth virtual video according to the first attribute information, and display the fourth virtual video in the real video in an overlapping manner.

In one possible design, the furniture display further includes:

the updating module is used for modifying the first attribute information according to an attribute changing instruction input by a user to generate second attribute information;

the updating module is configured to update the fourth virtual video according to the second attribute information.

In a possible design, the obtaining module is further configured to obtain a purchase link of the first furniture according to a purchase instruction input by a user.

In one possible design, the furniture display further includes:

the acquisition module is further used for acquiring a first distance between a first obstacle and a camera in the room space range to be decorated and a second distance between a second obstacle and the camera according to the real video;

a calculating module, configured to calculate a distance between the first obstacle and the second obstacle according to a pixel distance between the first obstacle and the second obstacle in the real video, the first distance, and the second distance.

In one possible design, the furniture display further includes:

the acquisition module is further used for respectively extracting the outer contour features of the first obstacle and the second obstacle in the real video through a preset neural network model;

and the calculating module is used for calculating the distance between the first obstacle and the second obstacle according to the outer contour characteristic.

In a third aspect, the present invention further provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor implements any one of the possible furniture display methods of the first aspect.

In a fourth aspect, the present invention further provides an electronic device, comprising:

the device comprises a camera, a processor, a memory and a display;

the camera and the display are respectively connected with the processor;

the camera is used for acquiring a real video of a room to be decorated;

the memory for storing executable instructions of the processor;

wherein the processor is configured to perform any one of the possible furniture display methods of the first aspect via execution of the executable instructions;

the display is used for displaying the real video and the virtual video.

According to the furniture display method, the device, the storage medium and the electronic equipment, the real video of the room to be decorated is obtained, the space constraint size of the room to be decorated is obtained according to the real video, the first model of the first furniture to be arranged is obtained, the first virtual video is generated according to the first model, the first position in the real video is determined according to the space constraint size and the first size, the first virtual video is displayed in a superposition mode at the first position in the real video, the first model in the first virtual video does not interfere with any obstacle in the real video, and therefore the home owner can judge whether the furniture is suitable for the integral style and size requirements of the current room to be decorated intuitively, and the home owner can select the suitable furniture quickly, simply and conveniently.

Drawings

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

FIG. 1 is an application scenario diagram illustrating a furniture display method according to an exemplary embodiment;

fig. 2 is a display diagram of the application scenario shown in fig. 1 in a terminal device;

FIG. 3 is a schematic flow diagram illustrating a furniture display method according to an exemplary embodiment;

FIG. 4 is a schematic flow diagram of a furniture display method according to another exemplary embodiment;

FIG. 5 is a diagram showing the effect of movement of furniture in the terminal device in the embodiment shown in FIG. 4;

FIG. 6 is a schematic view of a display of another furniture layout in the terminal device in the embodiment shown in FIG. 4;

FIG. 7 is a diagram of the effect of movement of the furniture layout shown in FIG. 6 in a terminal device;

FIG. 8 is a schematic flow chart diagram illustrating a furniture display method according to yet another exemplary embodiment;

FIG. 9 is a schematic diagram of a furniture display according to an exemplary embodiment;

FIG. 10 is a schematic illustration of a furniture display according to another exemplary embodiment;

fig. 11 is a schematic structural diagram of an electronic device shown in accordance with an example embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

Fig. 1 is an application scenario diagram illustrating a furniture display method according to an exemplary embodiment. As shown in fig. 1, the scenario applied in this embodiment is a scenario selected for soft furniture of a room 3 to be decorated, for example, an office table 1 and a locker 2 have been arranged in the room 3 to be decorated, at this time, a sofa needs to be added by an owner, and the owner may first obtain a real video of the room 3 to be decorated by using a camera mounted on a terminal device, where the terminal device may be an electronic device with real video image acquisition, data processing and display functions, such as a smart phone, a tablet computer, a personal computer, and the like. Fig. 2 is a display diagram of the application scenario shown in fig. 1 in the terminal device. As shown in fig. 2, the owner may select a suitable sofa in the terminal device, move the sofa in the terminal device display screen and superimpose the sofa in the currently displayed display video so as to observe whether the size, style, color and the like of the selected sofa are in accordance with the current decoration style, if so, the selected sofa may be selected for subsequent purchase, but if not, the attribute of the sofa may be changed or other styles of sofas may be directly replaced. It should be noted that, in this embodiment, after the terminal device obtains the real video of the room to be decorated, the optical principle of the camera configured on the terminal device or the image recognition technology may be used to calculate the space constraint size of the room to be decorated.

FIG. 3 is a flowchart illustrating a furniture display method according to an exemplary embodiment. As shown in fig. 3, the furniture display method provided by this embodiment includes:

step 101, acquiring a real video of a room to be decorated, and acquiring a space constraint size of the room to be decorated according to the real video.

Specifically, a real video of a room to be decorated may be acquired through a camera on the terminal device, and then a space constraint size of the room to be decorated is acquired according to the acquired real video, where the space constraint size of the room to be decorated includes: the distance between any two obstacles in the range of the room to be decorated.

With continued reference to fig. 1-2, in a possible application scenario, the office table 1 and the locker 2 are already arranged in the room 3 to be decorated, at this time, the owner needs to add a sofa, and the owner may first obtain a real video of the room 3 to be decorated through a camera on the terminal device. Then, acquiring the space constraint size of the room to be decorated from the acquired real video through an optical principle of a camera or an image recognition technology, wherein in the scene, the space constraint size comprises: the distance between the office desk 1 and the storage cabinet 2, the distance between the office desk 1 and each wall of the room 3 to be decorated, the distance between the storage cabinet 2 and each wall of the room 3 to be decorated, and the distance between the walls of the room 3 to be decorated. It should be noted that, in this embodiment, it is required to ensure that the spatial constraint size obtained from the real video can represent the spatial layout in the room 3 to be decorated.

In another possible application scenario, no furniture may be set in the room 3 to be decorated, and then the space constraint size includes: the distance between the walls of the room 3 to be decorated.

The space constraint size of the room to be decorated can be obtained by a camera optical principle, specifically, a first distance between a first obstacle and the camera in a room space range to be decorated and a second distance between a second obstacle and the camera can be obtained according to a real video, and then a distance between the first obstacle and the second obstacle is calculated according to a pixel distance between the first obstacle and the second obstacle in the real video, the first distance and the second distance. The first distance between the first obstacle and the camera and the second distance between the second obstacle and the camera can be obtained through an optical principle of double-camera imaging or a focusing principle of a single camera between different video frames, the pixel distance between the first obstacle and the second obstacle in a real video can be directly obtained through an image processor in the terminal device, and then the distance between the first obstacle and the second obstacle can be calculated based on the obtained parameters and the geometric relationship between the distances.

With continued reference to fig. 1-2, in a possible application scenario, the first obstacle may be the desk 1, the second obstacle may be the locker 2, the distance from the desk 1 to the camera and the distance from the locker 2 to the camera may be determined according to an optical algorithm, then, the pixel distance between the desk 1 and the locker 2 may be obtained according to fig. 2, and then, the distance between the desk 1 and the locker 2 may be calculated.

In addition, the space constraint size of the room to be decorated can be obtained through an image recognition technology, specifically, the method can be implemented by respectively extracting the outer contour features of a first obstacle and a second obstacle in a real video through a preset neural network model, and calculating the distance between the first obstacle and the second obstacle according to the outer contour features.

With continued reference to fig. 1-2, in a possible application scenario, the first obstacle may be a desk 1, and the second obstacle may be a locker 2, and then, the outer contour features of the desk 1 and the locker 2 in the real video may be extracted according to a preset neural network model, and the distance between the desk 1 and the locker 2 may be calculated according to the outer contour features.

The neural network model for extracting the outline features of the obstacle may be any suitable neural network capable of realizing feature extraction or target object recognition, including but not limited to a convolutional neural network, an reinforcement learning neural network, a generation network in an antagonistic neural network, and the like. The specific configuration of the neural network may be set by those skilled in the art according to actual requirements, such as the number of convolutional layers, the size of convolutional core, the number of channels, and the like, which is not limited in this embodiment of the present invention. In a possible implementation manner, the preset neural network model may be set as a tensor recurrent neural network model.

In one possible design, the tensor recurrent neural network described above may be arranged as a three-layer structure. Specifically, the tensor recurrent neural network model includes an input layer, a first convolutional layer, a first correction layer, a first pooling layer, a second convolutional layer, a second correction layer, a second pooling layer, a third convolutional layer, a tensor recurrent layer, and an output layer. The input layer, the first convolution layer, the first correction layer, the first pooling layer, the second convolution layer, the second correction layer, the second pooling layer and the third convolution layer are sequentially connected, the tensor recursion layer is fully connected to the third convolution layer, and the output layer is fully connected to the tensor recursion layer.

Step 102, a first model of first furniture to be arranged is obtained, and a first virtual video is generated according to the first model.

After a real video of a room to be decorated is acquired, a space constraint size of the room to be decorated is acquired according to the real video, a first model of first furniture to be arranged is acquired, and a first virtual video is generated according to the first model, wherein the first model comprises the first size of the first furniture.

With continued reference to fig. 1-2, in one possible application scenario, if a sofa needs to be added by the owner, the owner may select a sofa model on the display screen of the terminal device, where the sofa model may be stored in the terminal device or in the cloud server, and the sofa model may be created by the manufacturer, and the sofa model includes the actual dimensions of the sofa, including the length, width and height of the sofa.

The owner can select a specific sofa model and drag the sofa model to the real video, so that the first virtual video corresponding to the subsequent sofa model is displayed in the real video in an overlapping manner, and the actual display effect of the sofa is realized.

And 103, determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in an overlapping mode at the first position in the real video.

Specifically, a first position in the real video may be determined according to the space constraint size of the room to be decorated and the first size of the first model, and the first virtual video is displayed in an overlapping manner at the first position in the real video, where the first model in the first virtual video does not interfere with any obstacle in the real video.

Referring to fig. 1-2, in a possible application scenario, an owner may select a sofa model on a display screen of a terminal device, drag the sofa model to a real video, determine a first position in the real video according to a space constraint size of a room to be decorated and the first size of the sofa model, and display a first virtual video at the first position in the real video in an overlaid manner, where the sofa model in the first virtual video does not interfere with any obstacle in the real video, in other words, the sofa model does not interfere with a desk 1, a room 2, and walls in a room 3 to be decorated, that is, the sofa model may be accommodated in an accommodating space formed by the desk 1, the cabinet 2, and the walls.

In the embodiment, the method includes the steps of obtaining a real video of a room to be decorated, obtaining a space constraint size of the room to be decorated according to the real video, obtaining a first model of first furniture to be arranged, generating a first virtual video according to the first model, determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in a superposition mode at the first position in the real video, wherein the first model in the first virtual video and any obstacle in the real video do not interfere with each other, so that a proprietor can intuitively judge whether the furniture is suitable for the overall style and size requirements of the room to be decorated at present, and the proprietor can select the suitable furniture quickly, simply and conveniently.

Fig. 4 is a schematic flow diagram illustrating a furniture display method according to another exemplary embodiment. As shown in fig. 4, the furniture display method provided by this embodiment includes:

step 201, acquiring a real video of the room to be decorated, and acquiring a space constraint size of the room to be decorated according to the real video.

Step 202, obtaining a first model of first furniture to be arranged, and generating a first virtual video according to the first model.

And step 203, determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video at the first position in the real video in an overlapping mode.

It should be noted that, the specific implementation manner of the step 201-203 is described with reference to the step 101-103 in the embodiment shown in fig. 3, and is not described herein again.

Step 204, a first moving instruction is obtained.

And acquiring a first moving instruction, wherein the starting position corresponding to the first moving instruction is a first position, and the end position corresponding to the first moving instruction is a second position in the real video. It should be understood that when the owner needs to move the first model currently displayed in the first position of the living room to be decorated to the second position, the first moving instruction can be input through the display screen of the terminal device.

Fig. 5 is a diagram showing the effect of movement of furniture in the terminal device in the embodiment shown in fig. 4. As shown in fig. 5, in a possible application scenario, if a user needs to move a first virtual video of a current sofa model to a position between the desk 1 and the locker 2 in a real video for display, an owner may select the first virtual video corresponding to the sofa model, and then drag the first virtual video to a position between the desk 1 and the locker 2 in the real video.

Step 205, determining whether the first model in the first virtual video interferes with the obstacle in the real video in the moving process responding to the first moving instruction. If yes, go to step 207; if the determination result is negative, step 206 is executed.

Specifically, whether the first model in the first virtual video interferes with the obstacle in the real video in the moving process responding to the first moving instruction is judged according to the first size and the space constraint size.

In a possible application scenario, if a user needs to move a first virtual video of a current sofa model to a position between the office table 1 and the locker 2 in a real video for display, the owner can select the first virtual video corresponding to the sofa model and drag the first virtual video to the position between the office table 1 and the locker 2 in the real video. And judging whether the first size is larger than the distance between the office table 1 and the storage cabinet 2 or not according to the first size of the sofa model and the distance between the office table 1 and the storage cabinet 2.

If the first dimension is larger than the distance between the desk 1 and the storage cabinet 2, it means that the sofa model will interfere with the desk 1 and the storage cabinet 2 when moving between the desk 1 and the storage cabinet 2, in other words, the space between the desk 1 and the storage cabinet 2 is not enough to accommodate the sofa model. However, if the first dimension is smaller than or equal to the distance between the desk 1 and the storage cabinet 2, it means that the sofa model will not interfere with the desk 1 and the storage cabinet 2 when moving between the desk 1 and the storage cabinet 2, that is, the space between the desk 1 and the storage cabinet 2 is enough to accommodate the sofa model.

Step 206, the first virtual video is moved from the first location to a second location in the real video.

With continued reference to fig. 5, in a possible application scenario, if the first size is smaller than or equal to the distance between the desk 1 and the locker 2, it means that the sofa model will not interfere with the desk 1 and the locker 2 when moving between the desk 1 and the locker 2, and then the sofa model in the first virtual video will be moved between the desk 1 and the locker 2 in the display video when moving in response to the first movement instruction.

Step 207, the first virtual video is moved from the first position to a third position in the real video.

If the first model in the first virtual video interferes with the obstacle in the real video in the moving process of responding to the first moving instruction, the first virtual video moves from the first position to a third position in the real video, wherein the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, the distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value.

Fig. 6 is a display schematic diagram of another furniture layout in the terminal device in the embodiment shown in fig. 4, and fig. 7 is a movement effect diagram of the furniture layout in the terminal device shown in fig. 6. As shown in fig. 6-7, in a possible application scenario, if the first size is larger than the distance between the desk 1 and the locker 2, it means that when the sofa model moves between the desk 1 and the locker 2, it will interfere with the desk 1 and the locker 2, and the sofa model cannot move to the position between the desk 1 and the locker 2, but when the sofa model moves to the preset distance from the desk 1 or the locker 2, it stops moving and stays at the third position for displaying.

In addition, if the space between the obstacles is only slightly smaller than the size of the sofa model, the owner cannot visually judge whether the space between the obstacles can accommodate the first model by naked eyes. In order to intuitively generate a second virtual video after the first virtual video is moved from the first position to a third position in the real video, and display the second virtual video in an overlapping mode at the third position, wherein the second virtual video is used for representing that the first virtual video interferes with an obstacle in the real video.

In a possible application scenario, if the space between the desk 1 and the storage cabinet 2 is only slightly smaller than the size of the sofa model, the owner cannot visually judge whether the space of the desk 1 or the storage cabinet 2 can accommodate the sofa model by naked eyes. In order to intuitively remind the user that the sofa model cannot be accommodated in the space between the desk 1 and the storage cabinet 2, a second virtual video can be generated after the sofa model is moved to a third position in the real video, and the second virtual video is displayed in an overlapping mode at the third position, wherein the second virtual video is used for representing that the first virtual video interferes with an obstacle in the real video. The second virtual video may be text information, for example, "the size is too small to accommodate", and the specific form of the second virtual video is not specifically limited in this embodiment.

FIG. 8 is a flowchart illustrating a furniture display method according to yet another exemplary embodiment. As shown in fig. 8, the furniture display method provided by the embodiment includes:

301, acquiring a real video of the room to be decorated, and acquiring a space constraint size of the room to be decorated according to the real video.

Step 302, a first model of first furniture to be arranged is obtained, and a first virtual video is generated according to the first model.

And step 303, determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in an overlapping manner at the first position in the real video.

It should be noted that, the specific implementation manner of the steps 301 and 303 is described with reference to the

step

101 and 103 in the embodiment shown in fig. 3, and will not be described herein again.

Step 304, updating the space constraint size according to the first position and the first size of the first model.

After the first virtual video is displayed in an overlaid mode at a first position in the real video, updating a spatial constraint size according to the first position and a first size of the first model, wherein the spatial constraint size comprises: the distance between any two obstacles in the range of the room to be decorated and the distance between the first model and any obstacle.

Referring to fig. 5, in one possible scenario, after a first virtual video corresponding to a sofa model is displayed in a real video, on the basis of an original space constraint size, a distance between the sofa model located at a first position and the office table 1, a distance between the sofa model and the locker 2, and a distance between the sofa model and each wall of a room to be arranged are calculated, and the space constraint size is updated so as to provide a size constraint when other second furniture to be arranged is added later.

And 305, acquiring a second model of the second furniture to be arranged, and generating a third virtual video according to the second model.

If the owner needs to add other second furniture to be arranged after adding the sofa model to the currently-arranged living room, such as a back rest chair, the second model of the second furniture to be arranged is obtained, and a third virtual video is generated according to the second model, wherein the second model comprises a second size of the second furniture.

And step 306, determining a fourth position in the real video according to the space constraint size and the second size, and displaying the third virtual video in an overlapping mode at the fourth position in the real video.

Specifically, a fourth position in the real video is determined according to the space constraint size and the second size, and a third virtual video is displayed in an overlapping mode at the fourth position in the real video, wherein the second model in the third virtual video does not interfere with any obstacle in the real video, and the second model in the third virtual video does not interfere with the first model in the first virtual video.

In addition, on the basis of the above embodiment, the first attribute information of the first furniture may be acquired according to an attribute viewing instruction input by the user, then a fourth virtual video is generated according to the first attribute information, and the fourth virtual video is displayed in a superimposed manner in the real video.

In one possible application scenario, the first attribute information of the sofa model on the screen may be clicked, wherein the first attribute information may include: and color, color and other surface attributes are generated, a fourth virtual video is generated according to the first attribute information, and the fourth virtual video is displayed in a superposition manner in the real video, so that the sofa model is really displayed in the room to be decorated, and the owner can visually judge whether the color, color and other surface attributes of the sofa accord with the current decoration style.

If the owner needs to compare and select the same furniture but different pattern styles, the owner can superpose and display the fourth virtual video in the real video, and then modify the first attribute information according to the attribute modification instruction input by the user to generate second attribute information, and then update the fourth virtual video according to the second attribute information.

And, if the owner is satisfied with the first furniture after viewing the effect that the first furniture is displayed in the decorated room, the purchase link of the first furniture may be acquired according to the purchase instruction input by the user, so that the user directly purchases the furniture.

FIG. 9 is a schematic diagram of a furniture display shown in accordance with an exemplary embodiment. As shown in fig. 9, the furniture display device provided in this embodiment includes:

the obtaining module 401 is configured to obtain a real video of a room to be decorated, and obtain a space constraint size of the room to be decorated according to the real video, where the space constraint size includes: the distance between any two obstacles in the range of the room to be decorated;

the obtaining module 401 is further configured to obtain a first model of a first piece of furniture to be arranged, and generate a first virtual video according to the first model, where the first model includes a first size of the first piece of furniture;

a display module 402, configured to determine a first position in the real video according to the space constraint size and the first size, and display the first virtual video in an overlaid manner at the first position in the real video, where the first model in the first virtual video does not interfere with any obstacle in the real video.

On the basis of the embodiment shown in fig. 9, fig. 10 is a schematic structural view of a furniture display according to another exemplary embodiment. Referring to fig. 10, the furniture display device according to the present invention further includes:

the obtaining module 401 is further configured to obtain a first moving instruction, where a starting point position corresponding to the first moving instruction is the first position, and an ending point position corresponding to the first moving instruction is a second position in the real video;

a determining module 403, configured to determine, according to the first size and the spatial constraint size, whether the first model in the first virtual video interferes with the obstacle in the real video during a movement process in response to the first movement instruction;

the display module 402 is further configured to display the first virtual video moving from the first location to the second location in the real video.

In a possible design, if the first model in the first virtual video interferes with an obstacle in the real video during the movement of the first model in response to the first movement instruction, the display module 402 is further configured to display that the first virtual video moves from the first position to a third position in the real video, where the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, the distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value.

In one possible design, the display module 402 is further configured to generate a second virtual video, and display the second virtual video in an overlay manner at the third location, wherein the second virtual video is used to represent that the first virtual video interferes with the obstacle in the real video.

In one possible design, the furniture display device provided by the invention further comprises:

an update module 404 for updating the spatially constrained size according to the first location and the first size of the first model, the spatially constrained size comprising: the distance between any two obstacles in the range of the room to be decorated and the distance between the first model and any obstacle.

In a possible design, the obtaining module 401 is further configured to obtain a second model of a second piece of furniture to be arranged, and generate a third virtual video according to the second model, where the second model includes a second size of the second piece of furniture;

the display module 402 is further configured to determine a fourth position in the real video according to the space constraint size and the second size, and display a third virtual video in an overlay manner at the fourth position in the real video, where the second model in the third virtual video does not interfere with any obstacle in the real video, and the second model in the third virtual video does not interfere with the first model in the first virtual video.

In a possible design, the obtaining module 401 is further configured to obtain first attribute information of the first furniture according to an attribute viewing instruction input by a user;

the display module 402 is further configured to generate a fourth virtual video according to the first attribute information, and display the fourth virtual video in an overlay manner in the real video.

an updating module 404, configured to modify the first attribute information according to an attribute change instruction input by a user to generate second attribute information;

the updating module 404 is configured to update the fourth virtual video according to the second attribute information.

In a possible design, the obtaining module 401 is further configured to obtain the purchase link of the first furniture according to a purchase instruction input by a user.

the obtaining module 401 is further configured to obtain, according to the real video, a first distance between a first obstacle and a camera in the room space range to be decorated, and a second distance between a second obstacle and the camera;

a calculating module 405, configured to calculate a distance between the first obstacle and the second obstacle according to the pixel distance between the first obstacle and the second obstacle in the real video, the first distance, and the second distance.

the obtaining module 401 is further configured to perform outer contour feature extraction on the first obstacle and the second obstacle in the real video through a preset neural network model;

a calculating module 405, which calculates the distance between the first obstacle and the second obstacle according to the outer contour feature.

It should be noted that the furniture display device in the embodiment shown in fig. 9 and 10 can be used to execute the method in the embodiment shown in fig. 3 to 8, and the specific implementation manner and the technical effect are similar and will not be described again here.

The present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the technical solutions of any of the foregoing method embodiments, and the implementation principles and technical effects are similar, and are not described herein again.

Fig. 11 is a schematic structural diagram of an electronic device shown in accordance with an example embodiment. As shown in fig. 11, the electronic device provided in this embodiment includes:

a camera 501, a processor 502, a memory 503, and a display 504;

the camera 501 and the display 504 are respectively connected with the processor 502;

the camera 501 is configured to acquire a real video of a first limb action of a user;

the memory 403 is used for storing executable instructions of the processor;

the display 504 is configured to display the real video and the virtual video;

the processor 504 is configured to execute the technical solution of any one of the foregoing method embodiments through executing the executable instructions, which achieves similar implementation principles and technical effects, and is not described herein again.

Also, the functions of the modules in the above-described apparatus may be implemented by the processor 502.

Specifically, the camera 501 is configured to obtain a real video of a room to be decorated, and obtain a space constraint size of the room to be decorated according to the real video, where the space constraint size includes: the distance between any two obstacles in the range of the room to be decorated;

the display 504 for obtaining a first model of a first piece of furniture to be arranged;

the processor 502 configured to generate a first virtual video according to the first model, wherein the first model comprises a first size of the first furniture;

the display 504 is further configured to determine a first position in the real video according to the spatial constraint size and the first size, and display the first virtual video in an overlaid manner at the first position in the real video, where the first model in the first virtual video does not interfere with any obstacle in the real video.

In a possible design, the display 504 is further configured to obtain a first movement instruction, where a start position corresponding to the first movement instruction is the first position, and a destination position corresponding to the first movement instruction is a second position in the real video;

the processor 502 is configured to determine whether the first model in the first virtual video interferes with the obstacle in the real video during the movement in response to the first movement instruction according to the first size and the spatial constraint size;

the display 504 is further configured to display the first virtual video moving from the first location to the second location in the real video.

In one possible design, if the first model in the first virtual video interferes with an obstacle in the real video during the movement of the first model in response to the first movement instruction, the display 504 is further configured to display that the first virtual video moves from the first position to a third position in the real video, where the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, the distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value.

In one possible design, the display 504 is further configured to generate a second virtual video and display the second virtual video in an overlay manner at the third location, wherein the second virtual video is used to characterize the first virtual video as interfering with the obstacle in the real video.

In one possible design, the processor 502 is configured to update the spatially constrained size according to the first location and the first size of the first model, the spatially constrained size including: the distance between any two obstacles in the range of the room to be decorated and the distance between the first model and any obstacle.

In one possible design, the display 504 is further configured to obtain a second model of a second piece of furniture to be arranged;

the processor 502 is configured to generate a third virtual video according to the second model, wherein the second model comprises a second size of the second furniture;

the display 504 is further configured to determine a fourth position in the real video according to the spatially constrained size and the second size, and display a third virtual video in an overlay manner at the fourth position in the real video, wherein the second model in the third virtual video does not interfere with any obstacle in the real video, and the second model in the third virtual video does not interfere with the first model in the first virtual video.

In a possible design, the display 504 is further configured to obtain first attribute information of the first furniture according to an attribute viewing instruction input by a user;

the display 504 is further configured to generate a fourth virtual video according to the first attribute information, and superimpose and display the fourth virtual video in the real video.

The processor 502 is further configured to modify the first attribute information according to an attribute modification instruction input by a user to generate second attribute information;

the display 504 is configured to update the fourth virtual video according to the second attribute information.

In one possible design, the processor 502 is further configured to obtain the purchase link of the first furniture according to a purchase instruction input by a user.

In a possible design, the camera 501 is further configured to obtain, according to the real video, a first distance between a first obstacle and the camera within a spatial range of the room to be decorated, and a second distance between a second obstacle and the camera;

the processor 502 is further configured to calculate a distance between the first obstacle and the second obstacle according to the pixel distance between the first obstacle and the second obstacle in the real video, the first distance, and the second distance.

the camera 501 is further configured to extract outer contour features of a first obstacle and a second obstacle in the real video through a preset neural network model;

the processor 502 is configured to calculate a distance between the first obstacle and the second obstacle according to the outer contour feature.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the 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 scope of the technical solutions of the embodiments of the present invention.

Claims

1. A furniture display method, comprising:

determining a first position in the real video according to the space constraint size and the first size, and displaying the first virtual video in an overlapping mode at the first position in the real video, wherein the first model in the first virtual video does not interfere with any obstacle in the real video;

wherein, after determining the first position in the real video according to the space constraint size and the first size, the method further comprises:

if the first model in the first virtual video interferes with an obstacle in the real video during the movement process of the first model in the first virtual video in response to the first movement instruction, moving the first virtual video from the first position to a third position in the real video, wherein the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, the distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value;

after the first virtual video moves from the first location to a third location in the real video, further comprising:

2. The furniture display method of claim 1,

3. The furniture display method of claim 1, wherein after displaying the first virtual video superimposed at the first location in the real video, further comprising:

4. The furniture display method of claim 3, further comprising, after said updating said spatial constraint dimension in accordance with said first location and said first dimension of said first model:

5. The furniture display method of claim 1, wherein after said determining a first position in the real video according to the spatially constrained size and the first size, further comprising:

6. The furniture display method according to claim 5, wherein after the displaying of the fourth virtual video in the real video in an overlaid manner, further comprising:

7. The furniture display method of claim 1, wherein after said determining a first position in the real video according to the spatially constrained size and the first size, further comprising:

8. The furniture display method according to any one of claims 1 to 7, wherein the obtaining of the space constraint size of the room to be decorated according to the real video comprises:

9. The furniture display method according to any one of claims 1 to 7, wherein the obtaining of the space constraint size of the room to be decorated according to the real video comprises:

10. A furniture display, comprising:

a display module, configured to determine a first position in the real video according to the space constraint size and the first size, and display the first virtual video in an overlaid manner at the first position in the real video, where the first model in the first virtual video does not interfere with any obstacle in the real video;

wherein the furniture display further comprises:

if the first model in the first virtual video interferes with an obstacle in the real video in the moving process of the first model in the first virtual video in response to the first moving instruction, the display module is further configured to display that the first virtual video moves from the first position to a third position in the real video, where the third position is a position between the first position and the second position, and when the first virtual video is located at the third position, a distance between the first model in the first virtual video and the obstacle is smaller than a preset distance value;

the display module is further configured to generate a second virtual video, and display the second virtual video in an overlaid manner at the third location, where the second virtual video is used to represent that the first virtual video interferes with the obstacle in the real video.

11. Furniture display device according to claim 10,

12. The furniture display of claim 10, further comprising:

13. The furniture display device of claim 12, wherein the obtaining module is further configured to obtain a second model of a second piece of furniture to be arranged, and generate a third virtual video according to the second model, wherein the second model includes a second size of the second piece of furniture;

14. The furniture display device of claim 10, wherein the obtaining module is further configured to obtain first attribute information of the first furniture according to an attribute viewing instruction input by a user;

15. The furniture display of claim 14, further comprising:

16. The furniture display device of claim 10, wherein the obtaining module is further configured to obtain the purchase link of the first furniture according to a purchase instruction input by a user.

17. The furniture display of any of claims 10-16, further comprising:

18. The furniture display of any of claims 10-16, further comprising:

19. A computer-readable storage medium, on which a computer program is stored, which program, when being executed by a processor, is adapted to carry out the furniture display method of any one of claims 1-9.

20. An electronic device, comprising:

the device comprises a camera, a processor, a memory and a display;

the camera and the display are respectively connected with the processor;

the camera is used for acquiring a real video of a room to be decorated;

the memory for storing executable instructions of the processor;

wherein the processor is configured to perform the furniture display method of any of claims 1-9 via execution of the executable instructions;

the display is used for displaying the real video and the virtual video.