CN113221309A - Article display method and device, electronic equipment and storage medium - Google Patents

Abstract

The embodiment of the specification provides an article display method, an article display device, electronic equipment and a storage medium, wherein the method comprises the following steps: obtaining a first three-dimensional model of a first article; obtaining a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size for the second item; determining at least one first item and at least two second items to be displayed; obtaining a storage condition of the at least one first article for storing the at least two second articles, wherein the storage condition is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and displaying the storage condition.

Description

Article display method and device, electronic equipment and storage medium

Technical Field

The present disclosure relates to the field of furniture design technologies, and more particularly, to a method for displaying an article, a method for generating an article storage status, an apparatus for displaying an article, and an electronic device.

Background

With the development of information technology, users can select and design favorite furniture on line. The online platform can provide basic home styles for users to select. The furniture which is liked by the user can be selected and sent to the corresponding factory for manufacturing and production.

However, since the user is not a professional in the furniture industry, the actual function and the actual accommodation capacity of the furniture are often unclear to the user when designing the furniture. As such, users tend to be very lost at design time. In addition, the produced furniture often cannot meet the requirements of users.

Therefore, there is a need to provide a more efficient way to enhance the user's experience when designing furniture online.

Disclosure of Invention

Embodiments of the present description provide new solutions for displaying articles.

According to a first aspect of the present description, there is provided a method of displaying an article by a terminal electronic device, comprising: obtaining a first three-dimensional model of a first article; obtaining a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size for the second item; determining at least one first item and at least two second items to be displayed; obtaining a storage condition of the at least one first article for storing the at least two second articles, wherein the storage condition is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and displaying the storage condition.

According to a second aspect of the present specification, there is provided a method of generating an item storage status by a server, comprising: creating a first three-dimensional model of a first article; creating a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size for the second item; acquiring at least one first article and at least two second articles to be displayed; generating a storage condition for the at least one first article to store the at least two second articles based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and transmitting the storage status to the terminal electronic device.

According to a third aspect of the present specification, there is provided an apparatus for displaying an article, comprising: a first obtaining module for obtaining a first three-dimensional model of a first article; a second obtaining module for obtaining a second three-dimensional model of a second article, wherein the first three-dimensional model comprises a first size for accommodating the second article, and the second three-dimensional model comprises a second size of the second article; a determining module that determines at least one first item and at least two second items to be displayed; a third obtaining module, configured to obtain a receiving condition of the at least one first article receiving the at least two second articles, wherein the receiving condition is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and a display module for displaying the storage condition.

According to a fourth aspect of the present description, there is provided an electronic device comprising a processor and a memory, the memory storing executable instructions that, when the electronic device is operated, control the processor to perform the method according to the embodiments.

In different embodiments, by displaying the condition that the first article accommodates the second article to the user, reference can be provided for the design of the user, so that the efficiency of the design of the user is improved, and the use experience of the user is improved.

Other features of embodiments of the present specification and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments and together with the description, serve to explain the principles of the various embodiments.

Fig. 1 illustrates an exemplary network system.

Fig. 2 shows a schematic flow chart of a method of presenting an item by a terminal electronic device according to one embodiment.

Fig. 3 shows a schematic flow diagram of a method of generating an item housing status by a server according to one embodiment.

Fig. 4 shows a schematic flow chart of a method of stowing a condition of an item by a network platform according to one embodiment.

FIG. 5 shows a schematic block diagram of an apparatus for displaying an item according to one embodiment.

FIG. 6 shows a schematic block diagram of an electronic device according to one embodiment.

Fig. 7 shows a schematic diagram of a practical application according to an embodiment.

FIG. 8 shows a diagram illustrating results according to one embodiment.

Fig. 9 shows a schematic diagram illustrating results according to another embodiment.

FIG. 10 illustrates a schematic diagram of an online design platform architecture, according to one embodiment.

Detailed Description

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

In the following, different embodiments and examples of the present description are described with reference to the drawings.

Fig. 1 illustrates an exemplary network system.

The network system shown in fig. 1 may include a network 110, terminal electronic devices 130, 142, 144. Servers 122, 124, etc. are disposed in network 110. The terminal electronic devices 130, 142, 144 are connected to the network 110 by wire or wirelessly.

The user can design furniture using the terminal electronic devices 130, 142, 144, and the design results are presented to the user through the terminal electronic devices 130, 142, 144. The terminal electronic device is, for example, a notebook computer, a desktop computer, a tablet computer, or the like. The end electronic devices 130, 142, 144 may obtain design software from the servers 130, 142, 144 over the network 110 to implement the design.

In addition, the user can also implement the design in an online manner through a web page. For example, the terminal electronic devices 130, 142, 144 may access the servers 122, 124 over a network. The terminal electronic device 130, 142, 144 may retrieve the web page from the server 122, 124 and may display the web page at the terminal electronic device 130, 142, 144. The web pages displayed at the terminal electronic devices 130, 142, 144 may present the user's design results. In one example, the three-dimensional model and processing module for presentation may be downloaded from a server to the end- point electronics 130, 142, 144, and the user may control the model directly at the end- point electronics 130, 142, 144 to arrive at the design result. In another example, a user's control action, such as selecting a model, deleting a model, moving a model, etc., is received at the terminal electronic device 130, 142, 144. The terminal electronic devices 130, 142, 144 send the information of the control operation to the servers 122, 124, and the servers 122, 124 execute processing on the model according to the information and send the processing result back to the terminal electronic devices 130, 142, 144 to be displayed to the user.

Fig. 2 shows a schematic flow chart of a method of presenting an item by a terminal electronic device according to one embodiment.

As shown in fig. 2, at step S202, a first three-dimensional model of a first article is obtained.

In step S204, a second three-dimensional model of a second article is obtained, wherein the first three-dimensional model includes a first size for accommodating the second article, and the second three-dimensional model includes a second size of the second article.

For example, the first item may be an appliance capable of receiving other items, such as furniture, a refrigerator, a garage tool rack, and so forth. The second item is an item to be received into the first item, for example a shoe in furniture, clothing, hat, accessory, food in a refrigerator or a tool on a garage tool rack etc.

Where the first article is furniture, the first dimension may comprise an inner dimension and an outer dimension of the furniture. The external dimensions are, for example, the length, width, height of the exterior of the furniture, and the internal dimensions are, for example, the length, width, height, thickness of the furniture panel, etc. of the internal space divided in the interior of the furniture.

In some cases, some of the second article may be compressible, e.g. a garment, a comforter, etc., and therefore the dimensions of the second article in several different states (compressed state, folded state) may also be provided.

The first and second three-dimensional models may be designed by a designer and placed in a server. When the user uses these models through the terminal electronic device, they are downloaded from the server to the terminal electronic device for use by the user. These models may also be designed and created by the user at the terminal electronics.

In step S206, at least one first item and at least two second items to be displayed are determined. The first and second items to be displayed may be automatically determined by the terminal electronic device, and the first and second items to be displayed may be determined based on a user selection.

In step S208, a storage status of the at least one first article for storing the at least two second articles is obtained, wherein the storage status is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles.

In step S210, the housing status is shown.

The storage condition in which the first article stores the second article can be obtained based on the first size and the second size, for example, how many second articles the first article can store, the kind of the stored second articles, and the like.

By presenting the user with the status of the first item housing the second item, a reference may be provided to the user's design. For example, in the case of a user designing furniture, one consideration of the user is whether the designed furniture arrangement can meet the user's needs. The storage condition that a first article such as furniture is stored in a second article such as clothes and shoes is displayed for a user, so that vivid and direct reference can be provided for the design of the user, the design efficiency of the user is improved, and the use experience of the user is improved.

Here, the first three-dimensional model and the second three-dimensional model may be parameterized three-dimensional models that can be adjusted by adjusting parameters. For example, by adjusting the length, width, height, etc. parameters in the first and second three-dimensional models, the length, width, height parameters of the internal space in the first three-dimensional model, and the usage parameters can also be adjusted. Since a parameterized three-dimensional model is created for each first and second item, when a user adjusts the first or second item, the new design may be adjusted by adjusting the parameters. This avoids unnecessary labor for repeatedly making the three-dimensional model to a certain extent, and improves the efficiency in redesigning.

Spatial parameters of the first three-dimensional model may also be determined. The spatial parameters include the internal available space and the purpose of the first three-dimensional model. The spatial parameters may be determined when designing the first three-dimensional model. The spatial parameters are associated to respective second three-dimensional models. For example, the first three-dimensional model is a three-dimensional model of furniture, and a first available space inside the three-dimensional model is used for placing shoes, and the space parameters of the first available space can comprise the use of the shoes and the sizes of the shoes which can be stored. In this case, for example, where a second item is a shoe, whose second three-dimensional model is a three-dimensional model of the shoe, the spatial parameters may be associated with the three-dimensional model of the shoe to indicate that the shoe should be stored in the space for storing the shoe. A second item may be placed into a different interior space, and thus, multiple spatial parameters may be appended to a second item. In this way, when filling the second three-dimensional model into the first three-dimensional model, it is possible to automatically fill the second three-dimensional model into an appropriate internal space based on the spatial parameters, or to automatically determine whether a second three-dimensional model can be filled into a certain internal space.

By the method, the storage mode of the second article in the first article can be automatically determined, so that a more accurate and reasonable output result is provided, and the trouble of judgment by a user can be reduced. Furthermore, since the spatial parameters are labeled in the second three-dimensional model, an appropriate available space can be determined from the second model side. For example, when a user designs a wardrobe, the user may consider which interior space of the wardrobe the clothes can be placed into, rather than what items can be placed when facing one interior space. The mode is more in line with the daily use habit of the general users.

In practical applications, there may be a plurality of ways to receive the second item. Thus, the condition may be determined based on the space filling rate of the second item in the first item. For example, at least two storage modes for storing the second article in the first article can be determined based on the first size and the second size; determining the space filling rate of each storage mode; selecting the storage mode with the highest space filling rate as a selected storage mode; and acquiring the storage condition based on the selected storage mode.

It will be understood by those skilled in the art that the space filling ratio refers to the ratio of the space occupied by the second article after being received into the interior space of the first article to the total interior space, e.g. the size of the interior space of the first three-dimensional model of the first article is 1m³Each of the second three-dimensional models has a size of 0.1m³. In the first storage mode, the first article can store 8 second articles. Therefore, the space filling rate of the first storage method is 80%.

In addition, a minimum filling number and a filling weight may be set for each item. At least two storage modes can be determined in the case where the minimum filling amount per article is satisfied. And obtaining the space filling rate based on the actual filling quantity of the second three-dimensional model and the weighted value of the filling weight. For example, the first item is a wardrobe and the second item includes clothing and shoes. The minimum number of clothes is 30 and the minimum number of shoes is 10. The size of the inner space of the wardrobe is 1m³The size of each clothes is 0.01m³(ii) a The size of each shoe is 0.01m³. The user has more clothing and less shoes, so the weight of clothing is 1 and the weight of shoes is 0.5. In the first storage mode, 30 pieces of clothes and 20 pairs of shoes can be filled, and therefore, the weighted space filling rate is (0.01 × 30 +0.01 × 20 × 0.5)/1 — 40%. In the second storage mode, 40 pieces of clothes and 10 pairs of shoes can be filled, and therefore, the weighted space filling rate is (0.01 × 40 +0.01 × 10 × 0.5)/1 ═ 45%. In this case, mayThe second storage mode is selected as the selected storage mode. The storage mode obtained by the mode can more effectively meet the requirements of users.

Further, in some cases, the user may wish to preferentially receive certain items, such as shoes and the like. In addition, if only the space filling rate is pursued, and the storage of some articles is neglected, the requirement of the user is also violated. In consideration of these circumstances, the minimum number of fills and the fill priority may be set for each second three-dimensional model. And filling the second three-dimensional model into the first three-dimensional model according to the filling priority in the condition that the minimum filling quantity of each article is met. For example, the first item is a wardrobe and the second item includes clothing and shoes. The minimum number of clothes is 30 and the minimum number of shoes is 10. The user has more clothing and fewer shoes, so the clothing has a higher priority than the shoes. It may be first set up to fill 30 garments and 10 pairs of shoes in a wardrobe. Then, since the priority of the laundry is high, 20 additional laundry are preferentially filled in the remaining space of the wardrobe. Thereafter, 5 pairs of shoes were refilled in the remaining space. Thus, 50 pieces of clothes and 15 pairs of shoes can be placed in the wardrobe. Through the arrangement, the personalized requirements of the user can be met, so that the user experience is provided.

In addition, it is not practically allowable that the first item and/or the second item of the first item may overlap each other when the user selects or reselects the first item. Therefore, here, the boundary range of the first and/or second object may also be determined based on the first and/or second three-dimensional model. At least one storage mode is obtained by placing the first three-dimensional model and/or the second three-dimensional model outside the boundary range of each other to avoid physical collision between the first article and/or the second article. For example, the first three-dimensional model and/or the second three-dimensional model should not overlap, they should be plants within the boundary of each other. Then, the storage state of the storage mode is acquired. This can provide the user with more accurate status information regarding the first article accommodating the second article.

Here, the three-dimensional model can be used to prevent physical collision between the first article and the second article, so that the situation that the first article receives the second article is more real, and the spatial arrangement is more accurate. In addition, the object is displayed through the three-dimensional model, and a better viewing experience can be provided for a user.

In addition, an offer associated with the housing condition may also be determined; and displaying the offer.

Fig. 3 shows a schematic flow diagram of a method of generating an item accommodation situation by a server according to one embodiment.

In step S222, a first three-dimensional model of a first article is created.

In step S224, a second three-dimensional model of a second item is created, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size of the second item.

In step S226, at least one first item and at least two second items to be displayed are acquired.

In step S228, a storage status of the at least one first article for storing the at least two second articles is generated based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles.

In step S230, the storage status is transmitted to the terminal electronic device.

Fig. 4 shows a schematic flow chart of a method of providing an item stowage status by a network platform or provider according to an embodiment.

As shown in fig. 4, at step S242, a first three-dimensional model of a first article is provided.

In step S242, a second three-dimensional model of a second item is provided, wherein the first three-dimensional model includes a first size for receiving the second item, and the second three-dimensional model includes a second size of the second item.

In step S242, at least one first item and at least two second items to be displayed are received.

In step S242, a storage status of the at least one first article for storing the at least two second articles is generated based on the received first size of the first three-dimensional model of the at least one first article and the received second size of the second three-dimensional model of the at least two second articles.

In step S242, the storage status is provided to the terminal electronic device.

The above method may be performed by a network platform or a provider that provides the article. For example, at least one first item and at least two second items to be displayed may be selected by a user. The network platform or the provider receives the first article and the second article, and provides the storage condition of the first article for storing the second article based on the three-dimensional models of the first article and the second article. The provided accommodation condition can be transmitted to the terminal electronic equipment through the network so as to be displayed to the user.

FIG. 5 shows a schematic block diagram of an apparatus for displaying an item according to one embodiment.

As shown in fig. 5, the apparatus 300 for displaying an article includes: a first obtaining module 302 that obtains a first three-dimensional model of a first item; a second obtaining module 304 for obtaining a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item, and the second three-dimensional model comprises a second size of the second item; a determination module 306 that determines at least one first item and at least two second items to be displayed; a third obtaining module 308 for obtaining a receiving status of the at least one first article receiving the at least two second articles, wherein the receiving status is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and a display module 310 for displaying the storage status.

The display apparatus 300 of fig. 5 may implement the scheme of the embodiment of fig. 2, and repeated portions are omitted here.

The present specification also provides an electronic device. Fig. 6 shows an electronic device 400.

The electronic device 400 is, for example, a terminal electronic device shown in fig. 1, and may also be a server. The user may design the first three-dimensional model and the second three-dimensional model using the electronic device 400, and the electronic device 400 may also show the storage status.

As shown in fig. 6, the electronic device 400 includes a processor 402, a memory 404. Electronic device 400 may also include a display screen 410, a user interface 412, a camera 414, an audio/video interface 416, a sensor 418, and a communications component 420, among other things. In addition, the electronic device 400 may further include a power management chip 406, a battery 408, and the like. The electronic device 400 may be a smartphone, tablet, laptop, desktop, server, or the like.

The processor 402 may be various processors.

The memory 404 may store the underlying software, system software, application software, data, etc. needed for the computing device 400 to operate. The memory 404 may include various forms of memory, such as ROM, RAM, Flash, etc.

The display screen 410 may be a liquid crystal display screen, an OLED display screen, or the like. In one example, the display screen 410 may be a touch screen. The user can perform an input operation through the display screen 210. In addition, the user can also perform fingerprint identification and the like through the touch screen.

The user interface 412 may include a USB interface, a lightning interface, a keyboard, and the like.

The camera 414 may be a single camera or multiple cameras. In addition, camera 414 may be used for face recognition by the administrator.

The audio/video interface 416 may include, for example, a speaker interface, a microphone interface, a video transmission interface such as HDMI, and the like.

The sensors 418 may include, for example, gyroscopes, accelerometers, temperature sensors, humidity sensors, pressure sensors, and the like. For example, the environment around the computing device may be determined by sensors, and so on.

The communication component 420 may include, for example, a WiFi communication component, a bluetooth communication component, a 3G, 4G, and 5G communication component, and the like. Through communications component 420, computing device 400 can be arranged in a network.

The power management chip 406 may be used to manage the input computing device 400 power and may also manage the battery 408 to ensure greater utilization efficiency. The battery 408 is, for example, a lithium ion battery or the like.

The electronic device shown in fig. 6 is merely illustrative and is in no way intended to limit the present invention, its application, or uses.

The memory 404 of the electronic device 400 may store executable instructions. The executable instructions, when executed by the processor 402, implement the methods illustrated in fig. 2 or fig. 3 above.

Here, a storage medium may also be provided that stores executable instructions that, when executed, implement the method illustrated in fig. 2 or fig. 3 above.

Fig. 7 shows a schematic diagram of a practical application according to an embodiment. In this practical application, furniture in a house is taken as an example for explanation. The actual application shown in fig. 7 can be divided into three parts, data preparation, algorithmic processing and user experience. In the data preparation section, various models for displaying furniture can be prepared. In the arithmetic processing section, information to be output to the user may be calculated based on the prepared model. In the user experience part, an interface with the user is formed, so that the input of the user is received and various models and processing results are shown to the user.

Specifically, in the data preparation section, the type of house, for example, a bedroom, a kitchen, a bathroom, and the like, is first determined. Next, a furniture cabinet and an article are selected. A three-dimensional model of the cabinet and a three-dimensional model of the item are created. The three-dimensional model of the cabinet and the three-dimensional model of the article are adjustable by parameters. The external dimensions of the cabinet, the internal space division and the dimensions of the cabinet can be set. Next, spatial parameters of the interior space are obtained and appended to the three-dimensional model of the article. Physical impact parameters of the article may also be set.

In the algorithm processing part, based on the parameterized cabinet three-dimensional model (containing data parameter) and the article three-dimensional model (physical data parameter), a proper article placing mode can be obtained, and the corresponding containing condition of the first article and the second article can be obtained. The condition is output to the user. The user can confirm whether the design of the cabinet meets the requirements according to the output condition. The user may then modify the cabinet parameters and obtain corresponding condition results. Therefore, the user can intuitively determine the design meeting the requirement.

For example, after the user determines that the design meets the requirements, the user may modify the house and proceed to the design process for the next first item.

FIG. 8 shows a diagram illustrating results according to one embodiment. Fig. 8 shows 3 wardrobe designs 62, 64, 66. In each design, the status 621, 641, 661 of the items that can be accommodated is displayed. The user can intuitively determine the design meeting the needs of the user according to the condition.

Fig. 9 shows a schematic diagram illustrating results according to another embodiment. On the left side of fig. 9, the accommodation condition is shown and the arrangement of the articles is also shown. On the right side of fig. 9, only the accommodation condition is shown, and the arrangement of the articles is not shown. By displaying the accommodating conditions and the placing modes at the same time, more intuitive design reference can be provided for users.

FIG. 10 illustrates a schematic diagram of an online design platform architecture, according to one embodiment.

In fig. 10, the online design platform may include a furniture design page and an offer page.

When the user opens the platform web page, the default design space, e.g., bedroom, is entered. Here, the user can also switch spaces, for example to a kitchen or to a bathroom. Accordingly, the user can also switch the cabinet type within the space.

On this page, the user can switch/select the cabinet. Accordingly, an interior space of the cabinet, e.g., an interior space layout, may be provided. For example, as shown in fig. 8, a user may select different cabinet space layouts. As shown in FIG. 8, when a user clicks on the icon navigation 623, 624, 626 below the electronic device interface shown in FIG. 8, three cabinet spatial layouts 622, 642, 662 are shown in FIG. 8 of the interface. The user may also select whether to display the stored items as shown in fig. 9. As shown in the left side of fig. 9, when the user checks the storage mark 721, the cabinet 72 containing the laundry is displayed. As shown on the right side of fig. 9, when the user cancels the accommodation flag 741, the laundry in the cabinet 74 is emptied.

Here, the user may also select the appearance of the cabinet, for example, change the cabinet style, change the cabinet material, and the like.

After the user selects the space and the cabinet, the system automatically calculates the article placement mode and condition and displays the article placement mode and condition to the user, for example, as shown in the interfaces of fig. 8 and 9.

After the user selects the proper cabinet design, quotation can be carried out, and the quotation page is switched to. For example, the user clicks or double-clicks on any of the cabinet spatial layouts 622, 642, 662 in fig. 8, switching to the offer page. The components and materials required for the cabinet may be determined from the displayed cabinet spatial layout, thereby calculating the price.

In addition to displaying prices, the quotation page can also display cabinet design layout results, storage condition data and the like. A "reservation" button may be set, and the user may click on the "reservation" button to reserve the installation, etc. When the user clicks the "subscribe" button, a member page may be displayed prompting the user to enter a user name and password to log in to the member for purchase.

Further, here, a "back" button may also be provided. The user returns to the furniture design page by clicking the "back" button to continue to view more content to design additional furniture.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, and for related matters, reference may be made to some descriptions of method embodiments

The foregoing description has been directed to specific embodiments of this disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

Claims (15)

1. A method of displaying an item through a terminal electronic device, comprising:

obtaining a first three-dimensional model of a first article;

obtaining a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size for the second item;

determining at least one first item and at least two second items to be displayed;

obtaining a storage condition of the at least one first article for storing the at least two second articles, wherein the storage condition is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and

and displaying the storage condition.

2. The method of claim 1, the first dimension comprising an inner dimension and an outer dimension.

3. The method of claim 1, further comprising:

determining space parameters of the first three-dimensional model, wherein the space parameters comprise the internal available space and the purpose of the first three-dimensional model; and

associating the spatial parameters to respective second three-dimensional models;

wherein determining the storage condition of the at least one first article in which the at least two second articles are stored further comprises:

and determining the storage mode of the second three-dimensional model in the first three-dimensional model based on the matching of the space parameters associated with the second three-dimensional model and the space parameters of the first three-dimensional model, thereby obtaining the condition.

4. The method of claim 1, obtaining a storage status of the at least one first item storing the at least two second items further comprising:

determining at least two storage modes of the first article for storing the second article based on the first size and the second size;

determining the space filling rate of each storage mode;

selecting the storage mode with the highest space filling rate as a selected storage mode; and

and acquiring the storage condition based on the selected storage mode.

5. The method of claim 4, each second three-dimensional model being set with a minimum fill quantity and fill weight, and determining at least two recipients for the first item to receive the second item comprises:

determining at least two storage modes under the condition that the minimum filling quantity of each second three-dimensional model is met,

wherein, confirm the space filling rate of each kind of mode of accomodating includes:

and obtaining the space filling rate based on the actual filling quantity of the second three-dimensional model and the weighted value of the filling weight.

6. The method of claim 1, each second three-dimensional model being set with a minimum fill quantity and a fill priority, and acquiring a storage status of the at least one first item in which the at least two second items are stored comprises:

under the condition that the minimum filling quantity of each second three-dimensional model is met, filling the second three-dimensional models into the first three-dimensional models according to the filling priority order, and thus obtaining at least one storage mode; and

and acquiring the storage condition of the storage mode.

7. The method of claim 1, obtaining a storage status of the at least one first item storing the at least two second items further comprising:

determining a boundary range of the first article and/or the second article based on the first three-dimensional model and/or the second three-dimensional model;

obtaining at least one storage mode by placing the first three-dimensional model and/or the second three-dimensional model outside the boundary range of each other to avoid physical collision between the first article and/or the second article; and

and acquiring the storage condition of the storage mode.

8. The method of claim 1, at least one of the first and second three-dimensional models being a parameterized three-dimensional model that is adjustable by adjusting parameters.

9. The method of claim 1, further comprising:

a put null mode option and a put mode option are provided,

wherein when the blanking mode option is activated, a second three-dimensional model received in the first three-dimensional model is blanked, an

When the mode option is placed, the second three-dimensional model is presented in the first three-dimensional model.

10. The method of claim 1, further comprising:

determining an offer associated with the stowage status; and

and displaying the quote.

11. A method of generating an item storage status by a server, comprising:

creating a first three-dimensional model of a first article;

creating a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size for the second item;

acquiring at least one first article and at least two second articles to be displayed;

generating a storage condition for the at least one first article to store the at least two second articles based on the acquired first size of the first three-dimensional model of the at least one first article and the acquired second size of the second three-dimensional model of the at least two second articles; and

and sending the storage condition to the terminal electronic equipment.

12. A method of providing an item receiving condition, comprising:

providing a first three-dimensional model of a first article;

providing a second three-dimensional model of a second item, wherein the first three-dimensional model comprises a first size for receiving the second item and the second three-dimensional model comprises a second size for the second item;

receiving at least one first item and at least two second items to be displayed;

generating a storage condition for the at least one first article to store the at least two second articles based on the received first size of the first three-dimensional model of the at least one first article and the received second size of the second three-dimensional model of the at least two second articles; and

and providing the containing condition for the terminal electronic equipment.

13. An apparatus for displaying an article, comprising:

a first obtaining module for obtaining a first three-dimensional model of a first article;

a second obtaining module for obtaining a second three-dimensional model of a second article, wherein the first three-dimensional model comprises a first size for accommodating the second article, and the second three-dimensional model comprises a second size of the second article;

a determining module that determines at least one first item and at least two second items to be displayed;

a third obtaining module, configured to obtain a receiving condition of the at least one first article receiving the at least two second articles, wherein the receiving condition is determined based on the determined first size of the first three-dimensional model of the at least one first article and the determined second size of the second three-dimensional model of the at least two second articles; and

and the display module displays the storage condition.

14. An electronic device comprising a processor and a memory, the memory storing executable instructions that, when executed, control the processor to perform the method of any of claims 1-12.

15. A storage medium storing executable instructions that, when executed, implement a method according to any one of claims 1-12.

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