CN115760269B - House type feature generation method and device, electronic equipment and storage medium - Google Patents

Abstract

The application provides a house type feature generation method, a house type feature generation device, electronic equipment and a storage medium, wherein the house type feature generation method comprises the following steps: acquiring characteristic parameters of a target house type graph in a target dimension, wherein the target dimension at least comprises at least one of a space dimension and a transparent lighting dimension; determining a feature tag corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension; and generating house type analysis information according to the feature labels corresponding to the target house type graph and displaying the house type analysis information. The method and the device can display all acquired house type features so that a user can efficiently and accurately know the relatively comprehensive house type features, and information acquisition experience of the user is improved.

Description

House type feature generation method and device, electronic equipment and storage medium

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method and apparatus for generating household features, an electronic device, and a storage medium.

Background

In the house source transaction process, a user needs to know house source information, and the online house watching has the advantage of convenience and high efficiency, so that the user is favored by a plurality of users, and the online house watching plays an increasingly important role in house watching scenes.

The house type is used as the content focused by the user in the house transaction, and the house type is usually displayed in the on-line house watching scene, so that the user can conveniently watch the house type information, and the key characteristics of the house type are extracted.

However, in the existing house type display mode, the user is required to identify the possible features of the house type through experience, the feature omission is easy to occur, the feature judgment condition of some house types is complex, and the user cannot acquire accurate features.

Therefore, the existing house type display mode needs the user to actively identify house type features, and the problems that the features are easy to miss and the house type features cannot be accurately obtained exist.

Disclosure of Invention

The embodiment of the application provides a house type feature generation method, a house type feature generation device, electronic equipment and a storage medium, and aims to solve the problems that a house type display mode in the prior art needs a user to actively identify house type features, and the existing house type features are easy to cause feature omission and cannot be accurately obtained.

In a first aspect, an embodiment of the present application provides a method for generating a household type feature, including:

acquiring characteristic parameters of a target house type graph in a target dimension, wherein the target dimension at least comprises at least one of a space dimension and a transparent lighting dimension;

Determining a feature tag corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension;

and generating house type analysis information according to the feature labels corresponding to the target house type graph and displaying the house type analysis information.

In a second aspect, an embodiment of the present application provides a household type feature generating device, including:

the acquisition module is used for acquiring characteristic parameters of the target house type graph in a target dimension, wherein the target dimension at least comprises at least one of a space dimension and a transparent daylighting dimension;

the determining module is used for determining a characteristic label corresponding to the target house type graph according to the characteristic parameter of the target house type graph in the target dimension;

and the generation display module is used for generating household type analysis information and displaying the household type analysis information according to the characteristic labels corresponding to the target household type graph.

In a third aspect, an embodiment of the present application provides an electronic device, including a processor, a memory, and a computer program stored on the memory and executable on the processor, where the computer program is executed by the processor to implement the steps of the house type feature generating method according to the first aspect.

In a fourth aspect, embodiments of the present application provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the house type feature generating method according to the first aspect described above.

According to the technical scheme, the characteristic parameters corresponding to the target house type graph in the target dimension are obtained, the characteristic labels corresponding to the target house type graph are determined based on the obtained characteristic parameters, the corresponding characteristic parameters can be extracted through analysis of the target house type graph, the corresponding characteristic labels are generated based on the extracted characteristic parameters, and the house type feature of the target house type graph is obtained; after the feature labels corresponding to the target house type graphs are determined, house type analysis information is generated and displayed based on the feature labels corresponding to the target house type graphs, and all acquired house type features can be displayed, so that a user can efficiently and accurately know relatively comprehensive house type features, and information acquisition experience of the user is improved.

Drawings

Fig. 1 shows a schematic diagram of a house type feature generation method provided in an embodiment of the present application;

fig. 2 is a schematic diagram illustrating a layout situation of a moving line of a target house type graph according to an embodiment of the present application;

fig. 3 shows a schematic diagram of a target house type diagram corresponding to direct-to-ventilation according to an embodiment of the present application;

fig. 4 shows a schematic view of a lighting direction corresponding to a target house type graph provided in an embodiment of the present application;

fig. 5 shows a schematic diagram of adding feature labels to a target house type graph according to an embodiment of the present application;

Fig. 6 shows a schematic diagram of a house type feature generating device provided in an embodiment of the present application;

fig. 7 shows a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

In various embodiments of the present application, it should be understood that the sequence numbers of the following processes do not mean the order of execution, and the order of execution of the processes should be determined by the functions and internal logic thereof, and should not constitute any limitation on the implementation process of the embodiments of the present application.

Aiming at the problems that the existing house type display mode needs a user to actively identify house type characteristics, the existing house type display mode is easy to cause characteristic omission and cannot accurately acquire house type characteristics, the application provides a house type characteristic generation method, the house type characteristics can be acquired by analyzing a house type diagram and extracting corresponding house type labels, corresponding house type analysis information is generated according to the house type characteristics to display, a user can know the relatively comprehensive house type characteristics efficiently and accurately based on the house type analysis information under the condition that the house type identification is not needed, and information acquisition experience of the user is improved.

The following describes a house type feature generation method provided by the application, and referring to fig. 1, the method comprises the following steps:

step 101, obtaining characteristic parameters of a target house type graph in a target dimension, wherein the target dimension at least comprises at least one of a space dimension and a transparent daylighting dimension.

According to the household pattern feature generation method, firstly, aiming at a target household pattern diagram to be analyzed, feature parameters corresponding to the target household pattern diagram in a target dimension are obtained, the target household pattern diagram can be any household pattern diagram in a plurality of household pattern diagrams, and the target dimension at least comprises at least one of a space dimension and a transparent daylighting dimension. The characteristic parameters corresponding to the target house type graph in the space dimension are associated with the characteristics of the house type graph on the house type structure, and the characteristic parameters corresponding to the target house type graph in the transparent lighting dimension are associated with the characteristics of the house type graph in ventilation, lighting and orientation.

Step 102, determining a feature tag corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension.

After the characteristic parameters of the target house type graph in the target dimension are acquired, the characteristic labels corresponding to the target house type graph in the target dimension are determined according to the acquired characteristic parameters, so that the characteristic parameters are extracted through analysis of the target house type graph, and the corresponding characteristic labels are generated based on the extracted characteristic parameters, so that the house type feature of the target house type graph is acquired.

When determining the feature labels corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension, one or more feature labels corresponding to the target house type graph in the target dimension can be determined based on one or more feature parameters, so that house type features corresponding to the target house type graph can be obtained based on at least one feature label.

It should be noted that, in the embodiment of the present application, the target house type graph may be a two-dimensional house type graph and/or a three-dimensional house type graph displayed by a digital interface of a 3D space, and the digital interface of the 3D space may be a Virtual Reality (VR), enhanced display (Augmented Reality, AR), panorama, and other interactive interfaces. Aiming at the situation that the target house type diagram is a two-dimensional house type diagram and a three-dimensional house type diagram of the same house type, the characteristic parameters of the target house type diagram can be obtained based on the two-dimensional house type diagram and the three-dimensional house type diagram, so that the relatively comprehensive and accurate characteristic parameters are obtained, and further the characteristic label is determined based on the characteristic parameters.

And step 103, generating household type analysis information according to the feature labels corresponding to the target household type graph and displaying the household type analysis information.

After the feature tag corresponding to the target house type graph is determined, house type analysis information aiming at the target house type graph can be generated according to the determined feature tag, and the generated house type analysis information is displayed, so that a user can know house type features corresponding to the target house type graph through the displayed house type analysis information.

The generated house type analysis information can be a tag list comprising characteristic tags corresponding to the target house type graph, and the house type analysis information is displayed through the display tag list; the household type analysis information can be generated according to the characteristic labels and the target household type graph, and the household type analysis information can be displayed by displaying the target household type graph added with the characteristic labels; the house type analysis information can be generated according to the characteristic labels and the panoramic information corresponding to the target house type graph, and the house type analysis information is displayed by displaying the panoramic information added with the characteristic labels; and generating house type analysis information according to the feature labels and the guide videos corresponding to the target house type graphs, and displaying the house type analysis information by displaying the guide videos fused with the feature labels. Of course, the house type analysis information may be other information, and is not limited to the above listed items, and will not be described in detail herein.

According to the implementation process, the feature parameters corresponding to the target house type graph in the target dimension are obtained, the feature labels corresponding to the target house type graph are determined based on the obtained feature parameters, the corresponding feature parameters can be extracted through analysis of the target house type graph, the corresponding feature labels are generated based on the extracted feature parameters, and the house type feature of the target house type graph is obtained; after the feature labels corresponding to the target house type graphs are determined, house type analysis information is generated and displayed based on the feature labels corresponding to the target house type graphs, and all acquired house type features can be displayed, so that a user can efficiently and accurately know relatively comprehensive house type features, and information acquisition experience of the user is improved.

The process of obtaining the characteristic parameters corresponding to the target house type graph is described below. The target dimension in the embodiment of the application at least comprises at least one of a space dimension and a transparent lighting dimension, and when the characteristic parameters of the target house type graph in the target dimension are obtained, the method comprises at least one of the following schemes:

acquiring at least one of the following characteristic parameters corresponding to the target house type graph in the space scale dimension: space utilization, house square, room structure, dynamic and static area distribution, line distribution and face width depth;

Acquiring at least one of the following characteristic parameters corresponding to the target house type diagram in the transparent lighting dimension: ventilation, house type, lighting.

For the case that the target dimension includes a spatial dimension, one or more feature parameters corresponding to the target house type graph in the spatial dimension may be obtained, where the feature parameters corresponding to the target house type graph in the spatial dimension may include at least one of the following feature parameters: space utilization, house type square, room structure, dynamic and static area distribution, line distribution and face width depth. Aiming at the condition that the target dimension comprises a transparent light-emitting dimension, one or more characteristic parameters corresponding to the target house type diagram in the transparent light-emitting dimension can be obtained, wherein the characteristic parameters corresponding to the target house type diagram in the transparent light-emitting dimension can comprise at least one of the following characteristic parameters: ventilation, house type, lighting. Aiming at the condition that the target dimension comprises a space dimension and a transparent lighting dimension, one or more characteristic parameters respectively corresponding to the space dimension and the transparent lighting dimension of the target house type graph can be obtained.

The following describes a case of acquiring the characteristic parameters corresponding to the spatial dimension, where at least one of the following characteristic parameters corresponding to the spatial dimension of the target house type graph is acquired: space utilization, house type square, room structure, dynamic and static area distribution, line distribution and face width depth, comprising at least one of the following steps:

Acquiring the space utilization rate corresponding to the target house type graph according to the length-width ratio corresponding to each room in the target house type graph;

obtaining the house type square degree corresponding to the target house type graph according to the length-width ratio and the room shape corresponding to the target room in the target house type graph, wherein the target room is a room in a preset room set;

acquiring a room structure corresponding to the target house type graph according to the structural function characteristics of each room in the target house type graph;

acquiring dynamic and static area distribution and line distribution corresponding to the target house type graph according to the room functions and room distribution of each room in the target house type graph;

and acquiring the face width depth corresponding to the target house type graph according to the face width depth of each room in the target house type graph.

In terms of space dimension, when the characteristic parameters are acquired, one or more of space utilization rate, house type square degree, room structure, dynamic and static area distribution, line distribution and face width depth can be acquired.

When the space utilization rate is acquired, the corresponding aspect ratio is required to be acquired for each room in the target house type graph, and the space utilization rate corresponding to the target house type graph is acquired based on the aspect ratio of each room, that is, the space utilization rate in the embodiment includes the aspect ratio of each room, and the space utilization rate corresponding to the target house type graph is acquired by summarizing the aspect ratios of each room, and the space utilization rate corresponding to the target house type graph is represented based on the aspect ratio corresponding to each room. When the aspect ratio of each room is acquired, an internal maximum rectangle corresponding to each room is determined, and the aspect ratio corresponding to each room is determined based on the aspect ratio of the determined internal maximum rectangle. Wherein, for a regular-shaped room (the corners in the room are all right angles) and an irregular-shaped room (the corners in the room comprise right angles and non-right angles), the internal maximum rectangle is calculated in a corresponding manner.

And when the house type square degree corresponding to the target house type diagram is obtained, obtaining the house type square degree based on the length-width ratio and the room shape corresponding to the target room in the target house type diagram. The target room may be at least part of all rooms corresponding to the target house type diagram, and the target room is a room in a preset room set, where the target room is a room determined based on a room function, for example, may include a living room, a restaurant, a main sleeping room, a secondary sleeping room, a main guard, a balcony, a study room, a child room, a kitchen, and the like. The internal maximum rectangle needs to be determined when the aspect ratio of the target room is obtained, and then the aspect ratio is calculated, and the room shape of the target room may be a regular shape or an irregular shape. The house type square headedness in the present embodiment includes the aspect ratio and the room shape corresponding to the target room, i.e., the house type square headedness is expressed based on the aspect ratio and the room shape corresponding to the target room.

When the room structure corresponding to the target house type graph is acquired, the structural function characteristics of each room need to be acquired, so that the room structure of the target house type graph is acquired based on the structural function characteristics of each room.

When the dynamic and static area distribution and the line distribution corresponding to the target house type diagram are acquired, the room functions and the room distribution conditions of all rooms in the target house type diagram are required to be acquired, then the dynamic area and the static area corresponding to the target house type diagram are determined, further the dynamic and static area distribution conditions are acquired, and after the dynamic area and the static area are determined, the line distribution corresponding to the target house type diagram can be determined, so that the dynamic and static area distribution and the line distribution are acquired.

When the face width depth corresponding to the target house type graph is acquired, the face width depth of each room in the target house type graph is required to be acquired, and the face width depths of the rooms are summarized to acquire the face width depth corresponding to the target house type graph.

According to the implementation process, one or more of the space utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type graph can be obtained in the space dimension according to the related conditions of each room in the target house type graph, so that the feature label corresponding to the target house type graph in the space dimension is determined based on the feature parameters corresponding to the target house type graph in the space dimension.

The following describes a process for determining a feature tag corresponding to a target house type graph, and when determining the feature tag corresponding to the target house type graph according to a feature parameter of the target house type graph in a target dimension, the process comprises at least one of the following schemes:

determining a feature tag corresponding to the target house type diagram in the space dimension according to at least one of space utilization rate, house type square degree, room structure, dynamic and static area distribution, line distribution and face width depth corresponding to the target house type diagram;

And determining a characteristic label corresponding to the target house type diagram in the transparent lighting dimension according to at least one of the ventilation condition, the house type category and the lighting condition corresponding to the target house type diagram.

When the feature tag corresponding to the target house type graph is determined, the feature tag can be determined according to the feature parameters of the target house type graph in the space dimension and/or the transparent lighting dimension.

When the feature labels are determined according to the feature parameters corresponding to the space dimension, the feature labels corresponding to the target house type graph in the space dimension are determined according to one or more of the space utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type graph in the space dimension.

When the feature labels are determined according to the feature parameters corresponding to the transparent lighting dimension, the feature labels corresponding to the target house type diagram in the transparent lighting dimension are determined according to one or more of ventilation conditions, house type categories and lighting conditions corresponding to the target house type diagram in the transparent lighting dimension. The house type category in the present embodiment relates to the orientation of windows in a room.

In this embodiment, the feature tag may be determined according to the feature parameter corresponding to the target house type graph in the spatial dimension, so as to generate the feature tag based on the spatial structural characteristic of the target house type graph; the feature labels can be determined based on the feature parameters corresponding to the target house type graph in the transparent lighting dimension, so that the feature labels are generated based on the transparent lighting condition of the target house type graph; and determining a characteristic label according to the characteristic parameters corresponding to the target house type graph in the space dimension and the characteristic parameters corresponding to the transparent daylighting dimension.

The process of determining the feature labels corresponding to the target house type graph in the spatial dimension is described in detail below. When determining the feature label corresponding to the space dimension of the target house type graph according to at least one of the space utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type graph, the method comprises the following steps:

when the number of rooms with the length-width ratio meeting the first condition in the target house type graph is determined to be larger than a first threshold according to the space utilization ratio, setting a high-space utilization ratio characteristic label for the target house type graph;

when the aspect ratio in the target house type graph meets a first condition and the number of rooms of the target room with square room shape is larger than a second threshold value according to the house type square degree, setting a house type square feature tag for the target house type graph;

when at least one first room of the target house type graph meets corresponding preset structural function characteristics according to the room structure, setting at least one corresponding structural characteristic label for the target house type graph;

when the room distribution of the target house type graph meets the dynamic and static partition according to the dynamic and static area distribution, setting a dynamic and static partition characteristic label for the target house type graph;

When the line layout of the target house type graph is determined to be reasonable according to the line distribution, setting a line reasonable feature tag for the target house type graph;

when the face width and depth in the target house type graph are determined to meet the corresponding second condition and the number of rooms is larger than a third threshold value according to the face width and depth, setting a face width and depth reasonable feature tag for the target house type graph;

determining the feature labels corresponding to the target house type graph in the space scale dimension comprises at least one of the following: the space utilization rate high-characteristic label, the house type square positive characteristic label, the at least one structural characteristic label, the dynamic and static partition characteristic label, the line reasonable characteristic label and the face width depth reasonable characteristic label.

When determining the feature tag according to the space utilization rate corresponding to the target house type graph, acquiring the length-width ratio of each room in the target house type graph based on the space utilization rate corresponding to the target house type graph, determining the number of rooms with the length-width ratio meeting a first condition in the target house type graph, comparing the determined number of rooms with a first threshold, and setting the feature tag with high space utilization rate for the target house type graph when the number of rooms with the length-width ratio meeting the first condition in the target house type graph is larger than the first threshold. The first condition is a preset room length-width ratio condition, for example, the length-width ratio is greater than or equal to 1 and less than or equal to 3, and the length-width ratio is determined to meet the first condition. Accordingly, if the first threshold is a preset limit value, and if the first threshold is 3, determining that the space utilization rate of the target house type graph is high when the number of rooms meeting the first condition is greater than 3.

When determining the feature tag according to the house type square corresponding to the target house type diagram, the aspect ratio of each target room in the target house type diagram and the room shape corresponding to each target room need to be obtained based on the house type square corresponding to the target house type diagram, then the number of the target rooms with the aspect ratio meeting the first condition and the square room shape is determined in the target rooms corresponding to the target house type diagram, the determined number of the rooms is compared with a second threshold, and when the determined number of the rooms is larger than the second threshold, the house type square feature tag is set for the target house type diagram. The square shape of the room can be a square shape, wherein the corners in the room are all right angles, and/or the room is a regular rectangle; the second threshold is a preset extremum, and may be the same as or different from the first threshold.

When the feature labels are determined according to the room structures corresponding to the target house type diagrams, the structural function features of the rooms corresponding to the target house type diagrams need to be obtained, and when the structural function features of at least one first room in the target house type diagrams meet the corresponding preset structural function features, the corresponding at least one structural feature label is set for the target house type diagrams. The first room can be a living room, a vestibule, a balcony, a coat-hat room and other functional spaces. For example, an independent vestibule space with the area determined by the multiple walls being smaller than or equal to 4 square meters exists in the target house type graph, the vestibule space is determined to meet corresponding preset structural function characteristics, and an independent vestibule characteristic tag is set for the target house type graph. If the independent coat-cap room is arranged in the target house type diagram, determining that the coat-cap room meets the corresponding preset structural function characteristics, and setting an independent coat-cap room characteristic label for the target house type diagram. And the living room in the target house type diagram is connected with the balcony, and the bedroom is connected with the balcony, so that the living room and the bedroom respectively meet the corresponding preset structural function characteristics, and the living room with the balcony characteristic tag and the bedroom with the balcony characteristic tag are arranged on the target house type diagram.

When the feature labels are determined according to the dynamic and static area distribution conditions corresponding to the target house type diagram, the room functions and the room distribution conditions of all rooms in the target house type diagram are required to be obtained, further the dynamic area and the static area corresponding to the target house type diagram are determined, and when the room distribution of the target house type diagram is determined to meet the dynamic and static partition conditions, the dynamic and static partition feature labels are set for the target house type diagram. For example, the main lying, the secondary lying, the child rooms and the study rooms of the target house type graph are adjacent, the rooms are divided into dead zones, the vestibule, the living room, the dining room, the corridor, the kitchen and the bathroom are adjacent (the adjacent can be that the two rooms share one wall, or the distance is smaller than or equal to a specific distance, such as 200 mm), the rooms are divided into moving zones, at the moment, the moving and static areas are separated, and the moving and static partition characteristic labels can be set for the target house type graph.

When determining the feature labels according to the line layout corresponding to the target house type diagram, the room functions and room distribution conditions of all rooms in the target house type diagram are required to be obtained, then the moving area and the dead area corresponding to the target house type diagram are determined, further the line distribution corresponding to the target house type diagram is determined, after the line distribution is determined, whether the line layout of the target house type diagram is reasonable or not is detected, and if the line layout of the target house type diagram is reasonable, the line reasonable feature labels are set for the target house type diagram. For example, the visitor line corresponding to the target house type graph is a line segment from a entrance vestibule to a living room, the living line refers to a line segment from a bedroom to a bathroom, and the housekeeping line refers to a line segment from a kitchen to a restaurant, and if any two line segments have at most one intersection (including the case of only one intersection and the case of no intersection), the line layout corresponding to the target house type graph is determined to be reasonable. As shown in fig. 2, three lines corresponding to the target house type graph satisfy the reasonable layout of the lines, and in this case, a reasonable characteristic tag of the line can be set for the target house type graph.

When determining the feature tag according to the face width depth condition of each room of the target house type graph, the face width depth of each room of the target house type graph needs to be acquired, and then the face width depth of each room is compared with the corresponding face width depth condition, that is, each room can correspond to the face width depth condition. When the face width depth of the current room meets the corresponding face width depth condition, determining that the current room meets the corresponding second condition, counting the number of rooms meeting the corresponding second condition, comparing with a third threshold value, and setting a face width depth reasonable feature tag for the target house type graph if the number of rooms with the face width depth meeting the corresponding second condition is larger than the third threshold value.

The process of determining whether or not the face width depth thereof satisfies the corresponding second condition for different rooms is explained below by way of example. In this embodiment, the face width may be calculated according to the wall surface on which the largest window is provided, the depth may be calculated according to the vertical direction of the wall surface, and the depth may be calculated according to the wall surface on which the door is provided for the case where no window is provided.

For the living room, when the face width depth of the living room is determined, the minimum circumscribed rectangle can be determined based on all corner points of the room, and then the outline of the room is determined. Aiming at the condition that a living room is provided with windows, determining the side length corresponding to the wall surface provided with the maximum window or the side length parallel to the wall surface as the face width length, and determining the side length perpendicular to the wall surface as the depth length; if the living room has no window and a single door, determining the side length of the wall surface where the door is positioned or the side length parallel to the wall surface as the face width length, and determining the side length corresponding to the wall surface vertical to the door as the depth length; if the living room has no window and corresponds to a plurality of doors, the long side is determined as the depth length and the short side is determined as the face width length based on the contour of the room. If the depth length of the living room in the target house type diagram is greater than or equal to 5 meters and the face width length is between 3.6 meters and 4.2 meters, determining that the face width depth of the living room meets the corresponding second condition.

For the main lying, if a window exists, the side length corresponding to the wall surface provided with the maximum window body or the side length parallel to the wall surface is determined as the face width length, and the side length perpendicular to the wall surface is determined as the depth length; if no window is provided with a single door, determining the side length of the wall surface where the door is positioned or the side length parallel to the wall surface as the face width length, and determining the side length corresponding to the wall surface perpendicular to the door as the depth length; if the living room has no window and corresponds to a plurality of doors, the long side is determined as the depth length and the short side is determined as the face width length based on the contour of the room. If the depth length of the main berth in the target house type diagram is greater than or equal to 4.5 meters and the face width length is between 3.0 meters and 3.9 meters, determining that the face width depth of the main berth meets the corresponding second condition.

In the toilet, the window and the non-window are considered, and the window width and depth are determined in the same manner as the window width and depth, and in the non-window, the door number is considered, and the window width and depth are determined in the same manner as the window width and depth. If the depth length of the bathroom in the target house type diagram is greater than or equal to 2 meters and the face width length is between 1.8 meters and 2.4 meters, determining that the face width depth of the bathroom meets the corresponding second condition.

In the kitchen, the window and the non-window are considered, and the window width and depth are determined in the same manner as the window width and depth, and in the non-window, the door number is considered, and the window width and depth are determined in the same manner as the window width and depth. If the depth length of the kitchen in the target house type graph is greater than or equal to 2.1 meters and the face width length is greater than or equal to 1.5 meters, determining that the face width depth of the kitchen meets the corresponding second condition.

For the next lying, the window and the non-window are considered, and the window width depth is determined in the same manner as the window width depth, and for the non-window, the door number is considered, and the window width depth is determined in the same manner as the window width depth. If the depth length of the secondary lying in the target house type diagram is greater than or equal to 3.3 meters and the face width length is greater than or equal to 2.7 meters, determining that the face width depth of the secondary lying meets the corresponding second condition.

The window and the non-window are considered as well, and the window width and depth are determined in the same manner as the window width and depth, and the non-window is considered as well, and the door number is considered. If the depth length of the child room in the target house type diagram is greater than or equal to 3.3 meters and the face width length is greater than or equal to 2.8 meters, determining that the face width depth of the child room meets the corresponding second condition.

The window and the non-window are considered as well, and the window width and depth are determined in the same manner as the window width and depth, and the non-window is considered as well, and the door number is considered. If the depth length of the study room in the target house type diagram is greater than or equal to 3.3 meters and the face width length is greater than or equal to 2.7 meters, determining that the face width depth of the study room meets the corresponding second condition. The specific determination threshold corresponding to the depth length and the face width length is merely an example.

The above description is given by way of example of the case that whether each room in the target house type graph satisfies the corresponding face width depth condition, but the face width depth condition may be other forms.

The feature labels corresponding to the target house type graph determined in the space scale dimension can comprise one or more of a high space utilization rate feature label, a house type square feature label, a structural feature label, a dynamic and static partition feature label, a line-of-sight reasonable feature label and a face width and depth reasonable feature label.

According to the implementation process, one or more feature labels corresponding to the target house type graph in the space dimension are determined based on the feature parameters corresponding to the target house type graph in the space dimension, so that house type features corresponding to the target house type graph in the space dimension can be represented in a label form.

The process of determining the feature labels corresponding to the target house type graph in the transparent lighting dimension is described below. When determining the feature tag corresponding to the transparent lighting dimension of the target house type diagram according to at least one of the ventilation condition, the house type category and the lighting condition corresponding to the target house type diagram, the method comprises at least one of the following schemes:

setting a ventilation characteristic label for the target house type graph according to the ventilation condition;

setting a house type characteristic label for the target house type graph according to the house type category;

and setting a lighting characteristic label for the target house type graph according to the lighting condition.

When determining the feature tag according to the feature parameter corresponding to the lighting dimension of the target house type graph, the corresponding feature tag can be set for the target house type graph according to at least one of the ventilation condition, house type category and lighting condition corresponding to the lighting dimension of the target house type graph. According to the ventilation condition, a ventilation characteristic label can be set for the target house type diagram, according to the house type category, a house type characteristic label can be set for the target house type diagram, and according to the lighting condition, a lighting characteristic label can be set for the target house type diagram.

When the ventilation characteristic labels are set for the target house type graph according to the ventilation condition, the method comprises the following steps:

setting a direct ventilation characteristic label for the target house type graph when the ventilation condition indicates that the ventilation type is direct ventilation; when the ventilation condition indicates that the ventilation type is double-sided ventilation, setting a double-sided ventilation characteristic label for the target house type diagram; and setting a single-sided ventilation characteristic label for the target house type graph when the ventilation condition indicates that the ventilation type is single-sided ventilation.

When the target house type diagram is determined to be the opposite windowed, the ventilation type is determined to be the direct ventilation, and at the moment, the direct ventilation characteristic label is set for the target house type diagram, and a specific example of the direct ventilation is shown in fig. 3, which is the ventilation type corresponding to the target house type diagram. It should be noted that, when the included angle between two windows is within a preset range, the target house type graph may be determined to be a facing window, for example, the included angle between two windows is between 150 degrees and 210 degrees. When the target house type diagram is determined to be that the adjacent wall surfaces are respectively provided with windows, the ventilation type is determined to be double-sided ventilation, and at the moment, double-sided ventilation characteristic labels are set for the target house type diagram, it is to be noted that the target house type diagram can be determined to be that the adjacent wall surfaces are respectively provided with windows when the included angle between the two windows is within a preset range, and if the included angle between the two windows is between 85 degrees and 95 degrees. And when the target house type diagram is determined to be one-way windowed, determining that the ventilation type is one-way ventilation, and setting a one-way ventilation characteristic label aiming at the target house type diagram.

In this embodiment, the household type category of the target household type map is related to the window orientations of the rooms of the target household type map, and the household type category corresponding to the target household type map is one of the following categories: the house type is a full-open house type, a north-south permeable house type, a full-south house type, a southwest house type, a full-east house type, a full-west house type, a east-north house type, a northwest house type and a full-north house type. When setting the house type feature tag for the target house type graph according to the house type category, the all-open house type feature tag, the north-south through house type feature tag, the all-south house type feature tag, the southeast house type feature tag, the southwest house type feature tag, the all-east house type feature tag, the all-west house type feature tag, the east-north house type feature tag, the northwest house type feature tag or the all-north house type feature tag can be set for the target house type graph according to the house type category.

When determining the household type category corresponding to the target household type diagram, the household type category can be determined according to the window setting condition corresponding to the target household type diagram, and the process of determining the household type category is introduced by way of example. If each room is communicated with the outside, for example, each room is provided with an external window, or the rooms are connected with a balcony through a door and an open space, the target house type map is determined to correspond to the full-open house type. And if the target house type graph has the outer windows in the north-south direction, determining that the target house type graph corresponds to the north-south permeable house type. If all windows of all rooms with external windows face south, the target house type map is determined to correspond to the all south house type. If only the southeast two directions have the outer window, the target house type diagram is determined to correspond to the southeast house type. If only the southwest two directions have the outer window, the target house type graph is determined to correspond to the southwest house type. If all windows of all rooms with external windows are facing eastward, then it is determined that the target house type map corresponds to Quan Dong house types. If all the windows of all the rooms with the outer window are facing west, the target house type map is determined to correspond to Quan Xi house types. If only the east-west two directions have the outer window, the target house type diagram is determined to correspond to the east-west house type. If only the northeast directions have the outer windows, the target house type graph is determined to correspond to the northeast house type. If only two northwest directions have the outer window, determining that the target house type graph corresponds to the northwest house type. If all windows of all rooms with external windows face north, the target house type graph is determined to correspond to the all north house type. It should be noted that if the outer window width is too small (e.g., less than 500 mm), the window may not calculate the orientation.

When the lighting characteristic label is set for the target house type graph according to lighting conditions, the method comprises the following steps: when the target house type graph is determined to meet at least one of the following conditions based on the lighting condition, setting a lighting reasonable characteristic label for the target house type graph; wherein the plurality of conditions includes at least: south living room, south bedroom, ming kitchen, ming Wei.

In this embodiment, for the case that the living room has a window facing south or the living room is connected with a balcony facing south, the living room can be determined to be a south living room, if the balcony has a multi-face window, the window with the largest area can be used as the reference, if the window with the largest area faces south, the balcony is determined to face south, and for the case that the living room has a multi-face window, the strategy is also applicable; aiming at the situation that a window facing south is arranged in a bedroom or the bedroom is connected with a balcony facing south, the bedroom can be determined to be a southern bedroom; aiming at the condition that a kitchen is provided with a window or is connected with a balcony, the kitchen can be determined to be a bright kitchen; aiming at the condition that a bathroom is provided with a window or is connected with a balcony, the bathroom can be determined to be a sanitation. Referring to fig. 4, a specific example of a client and bedroom in the south direction, a kitchen in the kitchen, and a bathroom in the toilet is shown.

The lighting condition of the target house type graph is determined based on the directions of windows of all rooms in the target house type graph, and lighting reasonable characteristic labels are set for the target house type graph when the lighting condition corresponding to the target house type graph is determined to meet at least one of a southbound living room, a southbound bedroom, a Ming kitchen and a Ming bathroom. It should be noted that, the plurality of conditions may further include a southbound study room or other conditions, and for the southbound study room, it may be understood that the study room is based on bedroom reconstruction, and the southbound study room is included in the southbound bedroom.

According to the implementation process, the one or more characteristic labels corresponding to the target house type graph in the transparent lighting dimension are determined based on the characteristic parameters corresponding to the target house type graph in the transparent lighting dimension, and house type features corresponding to the target house type graph in the transparent lighting dimension can be represented in a label form.

In an embodiment of the present application, generating and displaying house type analysis information according to a feature tag corresponding to a target house type graph includes at least one of the following schemes:

adding a feature tag corresponding to the target house type graph, and displaying the target house type graph added with the feature tag;

and adding the feature labels corresponding to the target house type diagrams into the guide videos corresponding to the target house type diagrams, and displaying the guide videos added with the feature labels.

After determining the feature labels corresponding to the target house type graphs, when house type analysis information is generated based on the feature labels corresponding to the target house type graphs, the feature labels corresponding to the target house type graphs can be added to the target house type graphs to generate the target house type graphs added with the feature labels, and the generated target house type graphs added with the feature labels are used as house type analysis information to realize the display of the target house type graphs added with the feature labels. Referring to fig. 5, a specific example of adding a feature tag corresponding to a target house type graph to the target house type graph is shown.

After determining the feature tag corresponding to the target house type graph, when house type analysis information is generated based on the feature tag corresponding to the target house type graph, the feature tag corresponding to the target house type graph can be added into the guide video corresponding to the target house type graph, the guide video added with the feature tag is generated, and the generated guide video added with the feature tag is used as house type analysis information to realize the display of the guide video added with the feature tag. The guiding video may include introduction information of different rooms corresponding to the target house type graph, and for the overall introduction information of the target house type graph, when the feature tag is added to the guiding video, the feature tag may be added to a corresponding video frame according to specific content represented by the feature tag.

When the house type analysis information is generated, the feature labels corresponding to the target house type graph can be added to the target house type graph and the guide video corresponding to the target house type graph so as to display the guide video added with the feature labels and the target house type graph.

The user can conveniently and efficiently and accurately acquire the house type characteristic information based on the target house type graph by displaying the target house type graph with the feature tag; the feature tag-added guide video is displayed, so that a user can conveniently and efficiently and accurately acquire the household feature information when browsing the guide video.

The overall implementation process of the household pattern feature generation method provided by the embodiment of the application is that the feature parameters corresponding to the target household pattern in the target dimension are obtained, the feature labels corresponding to the target household pattern are determined based on the obtained feature parameters, the corresponding feature parameters can be extracted by analyzing the target household pattern, the corresponding feature labels are generated based on the extracted feature parameters, and the household pattern feature of the target household pattern is obtained; after the feature labels corresponding to the target house type graphs are determined, house type analysis information is generated and displayed based on the feature labels corresponding to the target house type graphs, and all acquired house type features can be displayed, so that a user can efficiently and accurately know relatively comprehensive house type features, and information acquisition experience of the user is improved.

Further, by acquiring one or more of space utilization rate, house type square degree, room structure, dynamic and static area distribution, line distribution and face width depth corresponding to the target house type graph according to the corresponding characteristics of each room in the target house type graph in the space dimension, the characteristic label corresponding to the target house type graph in the space dimension can be determined based on the characteristic parameters corresponding to the target house type graph in the space dimension; through obtaining one or more of ventilation conditions, house types and lighting conditions corresponding to the target house type diagram in the transparent lighting dimension, the feature labels corresponding to the target house type diagram in the transparent lighting dimension can be determined based on the feature parameters corresponding to the target house type diagram in the transparent lighting dimension.

The user type characteristics corresponding to the target user type graph in the spatial dimension and/or the transparent lighting dimension can be represented in a label form by determining the characteristic labels corresponding to the target user type graph in the spatial dimension and/or the transparent lighting dimension.

The user can conveniently and efficiently and accurately acquire the house type characteristic information based on the target house type graph by displaying the target house type graph with the feature tag; the feature tag-added guide video is displayed, so that a user can conveniently and efficiently and accurately acquire the household feature information when browsing the guide video.

The embodiment of the application also provides a household type feature generating device, which is shown in fig. 6, and includes:

the obtaining module 601 is configured to obtain a feature parameter of a target house type graph in a target dimension, where the target dimension at least includes at least one of a spatial dimension and a transparent lighting dimension;

a determining module 602, configured to determine a feature tag corresponding to the target house type graph according to a feature parameter of the target house type graph in a target dimension;

and the generation display module 603 is configured to generate and display house type analysis information according to the feature tag corresponding to the target house type graph.

Optionally, the obtaining module includes at least one of the following sub-modules:

the first acquisition sub-module is used for acquiring at least one of the following characteristic parameters corresponding to the target house type graph in the space scale dimension: space utilization, house square, room structure, dynamic and static area distribution, line distribution and face width depth;

the second acquisition submodule is used for acquiring at least one of the following characteristic parameters corresponding to the target house type diagram in the transparent lighting dimension: ventilation, house type, lighting.

Optionally, the first acquisition submodule includes at least one of the following elements:

The first acquisition unit is used for acquiring the space utilization rate corresponding to the target house type graph according to the length-width ratio corresponding to each room in the target house type graph;

the second acquisition unit is used for acquiring the house type square degree corresponding to the target house type graph according to the length-width ratio and the room shape corresponding to the target room in the target house type graph, wherein the target room is a room in a preset room set;

the third acquisition unit is used for acquiring a room structure corresponding to the target house type graph according to the structural function characteristics of each room in the target house type graph;

the fourth acquisition unit is used for acquiring dynamic and static area distribution and line distribution corresponding to the target house type graph according to the room functions and the room distribution of each room in the target house type graph;

and a fifth obtaining unit, configured to obtain a face width depth corresponding to the target house type graph according to the face width depths of the rooms in the target house type graph.

Optionally, the determining module includes at least one of the following sub-modules:

the first determining submodule is used for determining a feature tag corresponding to the target house type diagram in the space scale dimension according to at least one of the space utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type diagram;

And the second determining submodule is used for determining the characteristic label corresponding to the target house type diagram in the transparent lighting dimension according to at least one of the ventilation condition, the house type category and the lighting condition corresponding to the target house type diagram.

Optionally, the first determining submodule includes:

the first setting unit is used for setting a high-space-utilization-rate feature tag for the target house type graph when the number of rooms, with the length-width ratio meeting a first condition, in the target house type graph is determined to be larger than a first threshold according to the space utilization rate;

the second setting unit is used for setting a house type square characteristic label for the target house type graph when the aspect ratio in the target house type graph meets a first condition and the number of rooms of the target room with the square room shape is larger than a second threshold according to the house type square degree;

the third setting unit is used for setting at least one corresponding structural feature label for the target house type graph when the at least one first room of the target house type graph meets the corresponding preset structural function feature according to the room structure;

the fourth setting unit is used for setting dynamic and static partition characteristic labels for the target house type graph when the room distribution of the target house type graph is determined to meet the dynamic and static partition according to the dynamic and static area distribution;

The fifth setting unit is used for setting a reasonable line characteristic tag for the target house type graph when the line layout of the target house type graph is determined to be reasonable according to the line distribution;

a sixth setting unit, configured to set a face width depth reasonable feature tag for the target house type graph when it is determined that the face width depth in the target house type graph meets the number of rooms corresponding to the second condition according to the face width depth is greater than a third threshold;

the determining unit is used for determining the feature labels corresponding to the target house type graph in the space scale dimension, and comprises at least one of the following: the space utilization rate high-characteristic label, the house type square positive characteristic label, the at least one structural characteristic label, the dynamic and static partition characteristic label, the line reasonable characteristic label and the face width depth reasonable characteristic label.

Optionally, the second determination submodule includes at least one of:

a seventh setting unit, configured to set a ventilation feature tag for the target house type graph according to the ventilation condition;

an eighth setting unit, configured to set a house type feature tag for the target house type graph according to the house type category;

and the ninth setting unit is used for setting lighting characteristic labels for the target house type graph according to the lighting condition.

Optionally, the seventh setting unit is further configured to:

setting a direct ventilation characteristic label for the target house type graph when the ventilation condition indicates that the ventilation type is direct ventilation;

when the ventilation condition indicates that the ventilation type is double-sided ventilation, setting a double-sided ventilation characteristic label for the target house type diagram;

and setting a single-sided ventilation characteristic label for the target house type graph when the ventilation condition indicates that the ventilation type is single-sided ventilation.

Optionally, the household type category corresponding to the target household type graph is one of the following categories: the house type is a full-open house type, a north-south permeable house type, a full-south house type, a southwest house type, a full-east house type, a full-west house type, a east-north house type, a northwest house type and a full-north house type.

Optionally, the ninth setting unit is further configured to:

when the target house type graph is determined to meet at least one of the following conditions based on the lighting condition, setting a lighting reasonable characteristic label for the target house type graph;

wherein the plurality of conditions includes at least: south living room, south bedroom, ming kitchen, ming Wei.

Optionally, the generating and displaying module comprises at least one of the following submodules:

The first adding and displaying sub-module is used for adding the characteristic labels corresponding to the target house type diagrams and displaying the target house type diagrams added with the characteristic labels;

and the second adding and displaying sub-module is used for adding the feature labels corresponding to the target house type pictures into the guide videos corresponding to the target house type pictures and displaying the guide videos added with the feature labels.

For the device embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, and reference is made to the description of the method embodiments for relevant points.

The embodiment of the application also provides electronic equipment, which comprises: the processor, the memory, store the computer program on the memory and can run on the processor, this computer program realizes each process of the above-mentioned house type characteristic generation method embodiment when being carried out by the processor, and can reach the same technical result, in order to avoid repetition, will not be repeated here.

For example, fig. 7 shows a schematic diagram of the physical structure of an electronic device. As shown in fig. 7, the electronic device may include: processor 710, communication interface (Communications Interface) 720, memory 730, and communication bus 740, wherein processor 710, communication interface 720, memory 730 communicate with each other via communication bus 740. Processor 710 may call logic instructions in memory 730, processor 710 to perform the steps of: acquiring characteristic parameters of a target house type graph in a target dimension, wherein the target dimension at least comprises at least one of a space dimension and a transparent lighting dimension; determining a feature tag corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension; and generating house type analysis information according to the feature labels corresponding to the target house type graph and displaying the house type analysis information. Processor 710 may also perform other aspects of embodiments of the present application, which are not further described herein.

Further, the logic instructions in the memory 730 described above may be implemented in the form of software functional units and may be stored in a computer readable storage medium when sold or used as a stand alone product. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application.

The embodiment of the application also provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements each process of the above embodiment of the household feature generation method, and can achieve the same technical effect, so that repetition is avoided, and no further description is provided here. Wherein the computer readable storage medium is selected from Read-Only Memory (ROM), random access Memory (Random Access Memory, RAM), magnetic disk or optical disk.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), including several instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method described in the embodiments of the present application.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are also within the protection of the present application.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps described in connection with the embodiments disclosed herein can be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of the units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk, etc.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The house type feature generation method is characterized by comprising the following steps of:

acquiring characteristic parameters of a target house type graph in a target dimension, wherein the target dimension comprises a space dimension and a transparent lighting dimension;

determining a feature tag corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension;

generating house type analysis information and displaying according to the feature labels corresponding to the target house type graph;

the method for acquiring the characteristic parameters of the target house type graph in the target dimension comprises the following steps:

the following characteristic parameters corresponding to the target house type graph in the space scale dimension are obtained: space utilization, house square, room structure, dynamic and static area distribution, line distribution and face width depth;

the following characteristic parameters of the target house type graph corresponding to the transparent lighting dimension are obtained: ventilation, house type and lighting;

the method for determining the feature labels corresponding to the target house type graph according to the feature parameters of the target house type graph in the target dimension comprises the following steps:

determining a feature tag corresponding to the target house type diagram in the space scale dimension according to the space utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type diagram;

Determining a characteristic label corresponding to the target house type diagram in the transparent lighting dimension according to the ventilation condition, house type category and lighting condition corresponding to the target house type diagram;

generating and displaying house type analysis information according to the feature labels corresponding to the target house type graph, wherein the house type analysis information comprises at least one of the following schemes:

adding a feature tag corresponding to the target house type graph, and displaying the target house type graph added with the feature tag;

and adding the feature labels corresponding to the target house type diagrams into the guide videos corresponding to the target house type diagrams, and displaying the guide videos added with the feature labels.

2. The method according to claim 1, wherein the obtaining the following feature parameters corresponding to the target house type graph in a spatial dimension is characterized in that: space utilization, house type square, room structure, dynamic and static area distribution, line distribution and face width depth, comprising the following steps:

acquiring the space utilization rate corresponding to the target house type graph according to the length-width ratio corresponding to each room in the target house type graph;

obtaining the house type square degree corresponding to the target house type graph according to the length-width ratio and the room shape corresponding to the target room in the target house type graph, wherein the target room is a room in a preset room set;

Acquiring a room structure corresponding to the target house type graph according to the structural function characteristics of each room in the target house type graph;

acquiring dynamic and static area distribution and line distribution corresponding to the target house type graph according to the room functions and room distribution of each room in the target house type graph;

and acquiring the face width depth corresponding to the target house type graph according to the face width depth of each room in the target house type graph.

3. The method of claim 1, wherein determining the feature label corresponding to the target house type graph in the spatial dimension according to the spatial utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type graph comprises:

when the number of rooms with the length-width ratio meeting the first condition in the target house type graph is determined to be larger than a first threshold according to the space utilization ratio, setting a high-space utilization ratio characteristic label for the target house type graph;

when the length-width ratio in the target house type diagram meets a first condition and the number of rooms of a target room with a square room shape is larger than a second threshold value according to the house type square degree, setting a house type square feature tag for the target house type diagram;

When at least one first room of the target house type graph meets corresponding preset structural function characteristics according to the room structure, setting at least one corresponding structural characteristic label for the target house type graph;

when the room distribution of the target house type graph meets the dynamic and static partition according to the dynamic and static area distribution, setting a dynamic and static partition characteristic label for the target house type graph;

when the line layout of the target house type graph is determined to be reasonable according to the line distribution, setting a line reasonable feature tag for the target house type graph;

when the face width and depth in the target house type graph are determined to meet the corresponding second condition and the number of rooms is larger than a third threshold value according to the face width and depth, setting a face width and depth reasonable feature tag for the target house type graph;

determining the feature labels corresponding to the target house type graph in the space scale dimension comprises at least one of the following: the space utilization rate high-characteristic label, the house type square positive characteristic label, the at least one structural characteristic label, the dynamic and static partition characteristic label, the line reasonable characteristic label and the face width depth reasonable characteristic label.

4. The method of claim 1, wherein the determining the feature tag corresponding to the target house type graph in the transparent lighting dimension according to the ventilation condition, the house type category and the lighting condition corresponding to the target house type graph comprises the following steps:

Setting a ventilation characteristic label for the target house type graph according to the ventilation condition;

setting a house type characteristic label for the target house type graph according to the house type category;

and setting a lighting characteristic label for the target house type graph according to the lighting condition.

5. The method according to claim 4, wherein setting a ventilation feature tag for the target house type graph according to the ventilation condition comprises:

setting a direct ventilation characteristic label for the target house type graph when the ventilation condition indicates that the ventilation type is direct ventilation;

when the ventilation condition indicates that the ventilation type is double-sided ventilation, setting a double-sided ventilation characteristic label for the target house type diagram;

and setting a single-sided ventilation characteristic label for the target house type graph when the ventilation condition indicates that the ventilation type is single-sided ventilation.

6. The method of claim 4, wherein the category of the household corresponding to the target household graph is one of the following categories: the house type is a full-open house type, a north-south permeable house type, a full-south house type, a southwest house type, a full-east house type, a full-west house type, a east-north house type, a northwest house type and a full-north house type.

7. The method according to claim 4, wherein the setting a lighting feature tag for the target house type graph according to the lighting condition includes:

when the target house type graph is determined to meet at least one of the following conditions based on the lighting condition, setting a lighting reasonable characteristic label for the target house type graph;

wherein the plurality of conditions includes at least: south living room, south bedroom, ming kitchen, ming Wei.

8. A house type feature generating device applied to the method of any one of claims 1 to 7, characterized by comprising:

the acquisition module is used for acquiring characteristic parameters of the target house type graph in a target dimension, wherein the target dimension comprises a space dimension and a transparent lighting dimension;

the determining module is used for determining a characteristic label corresponding to the target house type graph according to the characteristic parameter of the target house type graph in the target dimension;

the generation display module is used for generating household type analysis information and displaying the household type analysis information according to the characteristic labels corresponding to the target household type graph;

the acquisition module comprises the following submodules:

the first acquisition sub-module is used for acquiring the following characteristic parameters of the target house type graph corresponding to the space scale dimension: space utilization, house square, room structure, dynamic and static area distribution, line distribution and face width depth;

The second obtaining submodule is used for obtaining the following characteristic parameters of the target house type graph corresponding to the transparent lighting dimension: ventilation, house type, lighting

The determining module comprises the following submodules:

the first determining submodule is used for determining a characteristic label corresponding to the target house type diagram in the space dimension according to the space utilization rate, the house type square degree, the room structure, the dynamic and static area distribution, the line distribution and the face width depth corresponding to the target house type diagram;

the second determining submodule is used for determining a characteristic label corresponding to the target house type diagram in the transparent lighting dimension according to the ventilation condition, the house type category and the lighting condition corresponding to the target house type diagram;

the generating and displaying module comprises at least one of the following submodules:

the first adding and displaying sub-module is used for adding the characteristic labels corresponding to the target house type diagrams and displaying the target house type diagrams added with the characteristic labels;

and the second adding and displaying sub-module is used for adding the feature labels corresponding to the target house type pictures into the guide videos corresponding to the target house type pictures and displaying the guide videos added with the feature labels.

9. An electronic device comprising a processor, a memory and a computer program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the house type feature generating method according to any one of claims 1 to 7.

10. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a computer program which, when executed by a processor, implements the steps of the house type feature generating method according to any of claims 1 to 7.