CN112135164A - Method and system for on-line content stereo display - Google Patents

Abstract

A method and system for on-line content stereo display provides a stereo image server and a stereo image display device arranged at a user end. When a user browses a content website, a general plane image of a user end device can be provided, a related content server further generates a request for displaying an object in a three-dimensional mode, the three-dimensional image server generates three-dimensional image data corresponding to a certain object according to the request, the three-dimensional image data can be obtained by inquiring an image database directly or obtained by calculation according to a three-dimensional image resource file, and then the three-dimensional image data is provided for a three-dimensional image display device of the user end to display. Or in another scheme, the stereoscopic image resource file is provided to the stereoscopic image display device by the stereoscopic image server, and the stereoscopic image is calculated in real time by the stereoscopic image display device.

Description

Method and system for on-line content stereo display

Technical Field

The present invention relates to a technology for displaying online content, and more particularly, to a display method and system for converting online content into a stereoscopic display image.

Background

The on-line content is usually displayed on the terminal device through a web browser, and the terminal is generally configured as a flat panel display, so the on-line content is displayed in a flat panel manner, if the on-line content needs to be viewed in a stereoscopic viewing manner, for example, a commodity, an artwork or a building needs to be viewed at various angles, the common manner is to take various angles of an article in advance with a camera, and then generate a stereoscopic image of the article in a splicing manner, so that a user can operate the viewing angle to obtain stereoscopic image information.

In another way, a three-dimensional model is established for the article in advance, then a three-dimensional image of the article is formed in a mapping mode, and then a user can browse the image of each angle of the article by a corresponding software program.

Disclosure of Invention

The invention discloses a method and a system for displaying online contents, and provides a new method for displaying online contents, wherein the method can display the stereoscopic images of specific objects in a content website, such as the stereoscopic images of commodity objects on a certain electronic commerce platform, or the stereoscopic images of advertisement objects, or the stereoscopic images of the contents can be displayed through a stereoscopic image display device when a user browses the contents of a general content website.

According to the embodiment of the online content three-dimensional display method, the system provides a three-dimensional image server, when the three-dimensional image server receives a request for three-dimensional display of an object from a content server, including a request for a dynamic object or a static object, a request source can be obtained, then three-dimensional image data is generated aiming at the object in the three-dimensional image server, and according to the request source, the three-dimensional image server transmits the three-dimensional image data to a three-dimensional image display device so as to display the three-dimensional image of the object.

In an embodiment, when the stereoscopic image server receives a request for displaying an object stereoscopically, the image database may be queried according to the object identification information carried in the request to obtain stereoscopic image data corresponding to the object.

In an embodiment, when the stereoscopic image server receives the request for displaying the object stereoscopically from the content server, the image resource database may be queried according to the identification information of the object, in which case, the obtained stereoscopic image data is a stereoscopic image resource file corresponding to the object, and the stereoscopic image resource file may be provided to the stereoscopic image display device to calculate the stereoscopic image of the object.

In another embodiment, when the stereoscopic image server receives the request for displaying the object stereoscopically, the stereoscopic image resource file corresponding to the object can be received from the content server at the same time, and the processor in the stereoscopic image server calculates the stereoscopic image data in real time according to the stereoscopic image resource file, wherein the stereoscopic image data is data for providing the stereoscopic image display device to directly display the stereoscopic image.

In an embodiment, the object is a commodity on a browsing page, and after triggering the object connection, the content server can send a request for displaying the object stereoscopically to the stereoscopic image server.

In one embodiment, the object is an advertisement on a browsing page, and the object link is triggered while the browsing page is displayed, so that the content server sends a request for stereoscopic display of the object to the stereoscopic image server.

In one embodiment, in the stereoscopic image server, when a request for displaying an object in a stereoscopic manner is received, an image database is queried according to identification information of the object to obtain stereoscopic image data corresponding to the object, and the stereoscopic image data is data for providing a stereoscopic image display device to directly display a stereoscopic image.

In one embodiment, in the stereoscopic image server, when a request for displaying an object in a stereoscopic manner is received, an image database is queried according to identification information of the object, the obtained stereoscopic image data is a stereoscopic image resource file corresponding to the object, the stereoscopic image resource file is transmitted to the stereoscopic image display device, and the stereoscopic image of the object is calculated by the stereoscopic image display device.

In an embodiment, when the stereoscopic image server receives the request for displaying the object stereoscopically, it receives a stereoscopic image resource file corresponding to the object, and a processor in the stereoscopic image server calculates stereoscopic image data in real time according to the stereoscopic image resource file, wherein the stereoscopic image data is data for providing the stereoscopic image display device to directly display the stereoscopic image.

In one embodiment, the stereoscopic image resource file includes a stereoscopic image description file and an environment data file for describing a static object or a dynamic object.

In one embodiment, after the stereoscopic image display device displays the stereoscopic image of the object, the stereoscopic image server receives an interaction instruction generated by the stereoscopic image display device, and the stereoscopic image server determines another display mode of the object according to the interaction instruction, generates another corresponding stereoscopic image data, and transmits the another stereoscopic image data to the stereoscopic image display device to display the stereoscopic image corresponding to the interaction instruction.

In one embodiment, the content server provides text, graphics, or video content, including services that provide stereoscopic display of objects.

In one embodiment, the object is a commodity on a browsing page, and after triggering a link of the object, the content server sends a request for stereoscopic display of the object to the stereoscopic image server.

In one embodiment, the object is an advertisement on a browsing page, a link of the object is triggered while the browsing page is displayed, and the content server sends a request for stereoscopic display of the object to the stereoscopic image server.

Still further, an online content stereoscopic display system is provided, comprising: the stereoscopic image server is provided with an image database, is connected with a content server and provides corresponding stereoscopic image data according to a request of a stereoscopic display object generated by the content server; a stereoscopic image display device for receiving stereoscopic image data and displaying a stereoscopic image; the method for performing online content three-dimensional display by using a three-dimensional image server comprises the following steps: in the stereoscopic image server, receiving a request of a stereoscopic display object from a content server, and obtaining a request source corresponding to the request of the stereoscopic display object; generating corresponding stereoscopic image data for an object in a stereoscopic image server; and according to the request source, the stereoscopic image server transmits the stereoscopic image data to the stereoscopic image display device so as to display the stereoscopic image of the object.

In one embodiment, in the stereoscopic image server, when a request for displaying an object in a stereoscopic manner is received, the image database is queried according to the identification information of the object to obtain stereoscopic image data corresponding to the object, and the stereoscopic image data is data for providing a stereoscopic image display device to directly display a stereoscopic image.

In one embodiment, in the stereoscopic image server, when a request for displaying an object in a stereoscopic manner is received, the image database is queried according to the identification information of the object, the obtained stereoscopic image data is a stereoscopic image resource file corresponding to the object, and the stereoscopic image resource file is transmitted to the stereoscopic image display device, so that the stereoscopic image of the object is calculated by the stereoscopic image display device.

In an embodiment, when the stereoscopic image server receives the request for displaying the object stereoscopically, the stereoscopic image resource file corresponding to the object is received at the same time, and a processor in the stereoscopic image server calculates stereoscopic image data in real time according to the stereoscopic image resource file, wherein the stereoscopic image data is data for providing the stereoscopic image display device to directly display the stereoscopic image.

In one embodiment, the object is a commodity on a browsing page, and after triggering a link of the object, the content server sends a request for stereoscopic display of the object to the stereoscopic image server.

In one embodiment, the object is an advertisement on a browsing page, a link of the object is triggered while the browsing page is displayed, and the content server sends a request for stereoscopic display of the object to the stereoscopic image server.

In an embodiment, after the stereoscopic image display device displays the stereoscopic image of the object, the stereoscopic image server receives an interaction instruction generated by the stereoscopic image display device, and the stereoscopic image server determines another display mode of the object according to the interaction instruction, generates another corresponding stereoscopic image data, and transmits the another stereoscopic image data to the stereoscopic image display device to display the stereoscopic image corresponding to the interaction instruction.

In one embodiment, when the stereoscopic image display device displays the stereoscopic image of the object, a sensor of the stereoscopic image display device senses a gesture, a voice control command or a touch control command to generate an interaction command.

In one embodiment, in the stereoscopic image display device, an interaction instruction is generated by sensing one or a combination of movement, rotation and zooming of a gesture; in the stereoscopic image server, a stereoscopic coordinate and a vector corresponding to a display space are obtained according to the interaction instruction, and new stereoscopic image data are obtained.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

FIG. 1 is a schematic diagram of a network architecture of an online stereoscopic display system;

FIG. 2 is a flowchart of an embodiment of a method for stereoscopic display of online content;

FIG. 3 shows a flow chart of an embodiment of a method for stereoscopic display of online content;

FIG. 4 shows a three-flow diagram of an embodiment of a method for stereoscopic display of online content;

fig. 5 to 8 are flowcharts illustrating embodiments of an online content stereoscopic display method operating among a plurality of flat panel display devices, a stereoscopic image display device, a content server, and a stereoscopic image server.

Detailed Description

The following is a description of embodiments of the present invention with reference to specific embodiments, and those skilled in the art will understand the advantages and effects of the present invention from the disclosure of the present specification. The invention is capable of other and different embodiments and its several details are capable of modification and various other changes, which can be made in various details within the specification and without departing from the spirit and scope of the invention. The drawings of the present invention are for illustrative purposes only and are not intended to be drawn to scale. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements or signals, these elements or signals should not be limited by these terms. These terms are used primarily to distinguish one element from another element or from one signal to another signal. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.

The invention discloses a method and a system for displaying online contents in a three-dimensional mode.

Fig. 1 shows a network architecture diagram of an online content stereoscopic display system, which mainly provides a stereoscopic image server 103 according to an embodiment, capable of providing or generating a stereoscopic image corresponding to an object according to a requirement of a user terminal or a content terminal, where the stereoscopic image may be a stereoscopic image of a static object or a continuous stereoscopic image of a dynamic object. The stereoscopic image server 103 has an image database 104, and the storage system establishes an object stereoscopic image conforming to a specific format in advance, so as to provide a stereoscopic image in real time, particularly to provide a stereoscopic image display device 106 at a user end for displaying the stereoscopic image.

In another embodiment, the stereoscopic image server 103 has a capability of calculating a stereoscopic image in real time, and can calculate a stereoscopic image of an object in real time according to stereoscopic image information (a stereoscopic image resource file, such as color information and three-dimensional space information of the stereoscopic image) provided by a demand end, which can be a static stereoscopic image or a stereoscopic film formed by continuous images, and then provide the stereoscopic image to the stereoscopic image display device 106 for display.

The stereoscopic image server 103 provided by the online content stereoscopic display system may provide stereoscopic images in cooperation with a content server 101, and the content server 101 may be, for example, an e-commerce platform, a knowledge base, a search engine, a social media, a news website, and the like, and is provided with a content database 102 for recording data of various objects, and the content server 101 provides text, graphics, or audio-visual content, including a service for stereoscopically displaying a certain object. Taking an e-commerce platform as an example, the content database 102 records images and text information of various commodities published in a shopping website; taking the knowledge base as an example, the content database 102 records the text, graphics and video content of various web pages, tribal cases and news; taking the social media as an example, the content database 102 records various text, graphics and video information shared and posted by the user in the social media.

The content server 101 is connected to the stereoscopic image server 103 through the network 10, and when there is a need to display a stereoscopic image of a specific object, the content server 101 transmits a request to the stereoscopic image server 103 according to a user's request, and the stereoscopic image server 103 provides the stereoscopic image in the image database 104 according to the request, or performs the stereoscopic image in real time.

In this illustration, the user end further includes a general computer device, such as the user device 105, and the stereoscopic image display device 106 is configured, so that the user can browse the content of the content server 101 through the user device 105, and when the stereoscopic image needs to be displayed, the stereoscopic image can be obtained through the stereoscopic image server 103 and then displayed on the stereoscopic image display device 106. Alternatively, in another embodiment, the user only needs to use one stereoscopic display device 106, and the user can operate the stereoscopic display device 106 to browse the content of the content server 101 directly, and can display the content in the flat-image mode or the stereoscopic image mode.

According to the embodiment, the stereoscopic image display device 106 disposed at the user end can be a computer device that operates independently and can browse the content server 101, and the computer device is simultaneously matched with the stereoscopic display module and a general flat display module, such as a dual-screen; or the computer device can be a personal computer, a mobile device and the like; or a display device capable of displaying a planar image and a stereoscopic image by using a screen cutting method, or the display device can be the same display panel but the planar display and the stereoscopic display can be switched. According to another embodiment, the user device on the user side or the stereoscopic image display device 106 may be configured with an input device, such as a mouse, a keyboard, or a sensor capable of sensing gestures, so that the user can control browsing contents in a gesture manner.

It is noted that the stereoscopic display technology adopted by the on-line content stereoscopic image display system may be a stereoscopic image that is conventionally viewed through special glasses (such as red and blue glasses, polarized glasses, or shutter glasses), or may be a floating stereoscopic image display technology that displays a distance from a flat panel display using a lens matrix.

Furthermore, in one embodiment, fig. 1 shows the content server 101 and the stereoscopic image server 103 connected to each other by the network 10, but in another embodiment, the content server 101 itself may provide stereoscopic images, that is, the stereoscopic image processing technology in the stereoscopic image server 103 may be built in a modular manner.

According to another embodiment, the stereoscopic image server 103 runs a cloud server to provide a cloud service, connects multiple servers providing content, and can provide stereoscopic image data according to the requirements of each end, where the stereoscopic image data may include a static stereoscopic image or a stereoscopic film formed by continuous images, and includes the stereoscopic image data provided by the image database 104 of the stereoscopic image server 103 itself, or may be provided with a stereoscopic image resource file for calculating a stereoscopic image by another server, and then calculates the stereoscopic image data in real time by a processor in the stereoscopic image server 103 to provide the stereoscopic image display device 106 of each end to display the stereoscopic image. In addition, it is not excluded that the stereoscopic image resource file is directly received by the stereoscopic image display device 106, and the stereoscopic image is calculated by the stereoscopic image display device 106 itself.

The following process embodiments describe an on-line content stereoscopic display method applied to the above system, in which a user device (e.g., a personal computer, a mobile device) is used to browse a specific content website, and the stereoscopic image can be displayed by a stereoscopic image display device through the method, the user device and the stereoscopic image display device can be two independent electronic devices, or one device can integrate a circuit module for general flat panel display and stereoscopic display, or a display process is used to manufacture a flat panel display and a stereoscopic display panel on one display panel, or the flat panel display and the stereoscopic display can be switched.

However, the following embodiments respectively show two functions of the flat display device and the stereoscopic display device, including two independent devices and integrated in one device.

According to the embodiment of the on-line content stereoscopic display method, the main process can refer to the flowchart shown in fig. 1.

The process begins in step S201, where the user operates the flat panel display device to browse a content website, such as searching data on a search engine website, browsing and shopping on an e-commerce platform, or viewing text, graphics and video content on a content (text, graphics and video) website.

At this time, in step S203, the software program embedded in the content website triggers a request for a stereoscopic display object according to the content browsed by the user, and in step S205, the request for the stereoscopic display object is transmitted to the stereoscopic image server, and the server receives the request to generate stereoscopic image data corresponding to a certain object.

Since the request may include user information, such as a network address (IP), a Media Access Control (MAC) or a user identification code (user ID), for identifying the location of the user as a request source, when the request source corresponding to the object for stereoscopic display is obtained, the stereoscopic image server may transmit the stereoscopic image data to the stereoscopic image display device of the user end through the network or a specific transmission path according to the request source in step S207, and after receiving the stereoscopic image data, the stereoscopic image display device may display the stereoscopic image of the object in step S209.

Fig. 3 is a flowchart illustrating a method for displaying online content in a stereoscopic manner.

In this case, step S301 shows that the user can browse a content website through the flat display device of the computer device, in step S303, the user operates the computer device to click one of the objects, such as a product on a browsing page of an e-commerce platform, and then the connection of the product object is triggered, except that the shopping program can be executed directly (step S311), in another path of the flow, in step S305, the related content server will generate a request for three-dimensional display corresponding to the product, and the request is received by the three-dimensional image server, and then the image database is queried according to the information of the product object, so as to generate the three-dimensional image data directly, or the three-dimensional image data needs to be generated through calculation.

In step S307, the stereoscopic image server transmits stereoscopic image data to the corresponding client-side stereoscopic image display device according to the request source described in the request, and in step S309, the stereoscopic image display device is used to display the stereoscopic image of the object.

In one embodiment, after the user views the stereoscopic image of the merchandise item, the user can execute a shopping program through the computer device to purchase the merchandise (step S311). In another embodiment, the stereoscopic image display device may be an independently operating computer device, so that a user can connect to the content server through the device and execute a subsequent shopping program.

FIG. 4 is a flow chart illustrating an embodiment of a method for stereoscopic display of content on yet another line.

In step S401, the user can browse the content web site (content server) through the flat panel display device, except for watching the content, in step S403, the software program executed behind the related browsing page will simultaneously trigger an object connection, such as an advertisement connection embedded in the page, at this time, in step S405, the content server transmits the stereoscopic display request of the advertisement object to the stereoscopic image server, and the stereoscopic image server generates stereoscopic image data, and can transmit the stereoscopic image data to the stereoscopic image display device of the user end according to the request source recorded in the request.

In step S407, the stereoscopic image display device receives the stereoscopic image data, in step S409, and then displays the stereoscopic image of the object. At this time, in step S411, the user may further operate the displayed stereoscopic image through the interaction function in the stereoscopic image display device, in step S413, the stereoscopic image display device may generate an interaction instruction according to information generated by the interaction, such as gesture information, the interaction instruction may record image changes generated corresponding to the sensed interaction gesture, and the interaction instruction is transmitted to the stereoscopic image server.

At this time, the process repeats steps S405 to S409, and the stereoscopic image server determines another display mode of the advertisement object according to the image information recorded by the interaction instruction, and generates stereoscopic image data accordingly, including querying the image database to obtain stereoscopic image data, or obtaining another corresponding stereoscopic image data through real-time calculation, and similarly transmitting the other stereoscopic image data to the stereoscopic image display element of the user end, so as to display a new stereoscopic image corresponding to the interaction instruction after interaction.

When the stereoscopic image display device displays a stereoscopic image corresponding to an object, a user may perform interaction by using a gesture or a specific input device, for example, a sensor (a gesture sensor) of the stereoscopic image display device senses the gesture of the user, including movement, rotation and zooming actions (one or a combination thereof) of the gesture, and generates an interaction instruction, and the interaction instruction is transmitted to the stereoscopic image server, so that the software tool can obtain a stereoscopic coordinate and a vector corresponding to a display space according to the interaction instruction to obtain new stereoscopic image data.

Further, when the stereoscopic image of the object is displayed as the stereoscopic image, it may be a floating stereoscopic image presented in space, therefore, the stereoscopic display device will know every position (light spot, stereoscopic coordinate) in the stereoscopic image, and thus, when the gesture is sensed in the form of light, sound wave, image, etc., the interaction between the gesture and the three-dimensional image can be obtained, the gesture position obtained by fingers, palm positions and finger joints corresponds to the space position of the three-dimensional image, so that the software program operated in the three-dimensional image display element can judge the actions of moving, rotating, zooming and the like, and then the corresponding three-dimensional image data is provided by the three-dimensional image server, under the high-speed transmission and calculation, the user can feel the response image generated by the three-dimensional interaction, so that the user can watch the object (commodity or advertisement) from various angles.

Furthermore, the interaction mode may mainly be implemented by sensing gestures, voice control commands or touch commands through various sensors, without excluding other input technologies capable of generating interaction, such as gestures generated on a planar touch panel, human face tracking, human eye sight tracking, remote process control, and the like, and may be implemented by matching with input devices including various sensors (such as light sensors, gyroscopes) and other communication technologies (such as bluetooth, RFID, and the like).

Next, fig. 5 to 8 show flowcharts of an embodiment of the on-line content stereoscopic display method operating between the flat panel display device 51, the stereoscopic image display device 52, the content server 53 and the stereoscopic image server 54. The flat panel display element 51 described in each embodiment may be a flat panel display module in a user terminal device or a computer device operating independently; the stereoscopic image display element 52 may be a stereoscopic display module in the user terminal device, or may be an independently operating stereoscopic image display device; the content server 53 may be a general web server, a video content server, an e-commerce platform, a search engine, or the like according to various embodiments; the stereoscopic image server 54 may be a server operating independently, or may be a software program or a hardware circuit in the content server 53 for processing stereoscopic image data, and the stereoscopic image server 54 may also operate a content platform or an e-commerce platform by itself.

[ example one ]

According to the process embodiment described in fig. 5, the content server 53 can be a general web server or a video platform.

Initially, a user operates the flat display device 51 of the computer device to send a content request to the content server 53, to browse the contents in the content server 53 (S501), and when browsing the contents, click on an object of interest, or execute a play instruction for a specific content, after generating an object information, such as identification Information (ID), in the content server 53, the content server 53 generates a request for displaying the object stereoscopically, and transmits the object information to the stereoscopic image server 54(S503), the software program in the stereoscopic image server 54 queries the image database according to the identification information of the object (S505), so as to obtain the three-dimensional image data corresponding to the object, the three-dimensional image data can be the three-dimensional image data which is calculated and converted in advance, that is, the decoded stereoscopic image is transmitted to the stereoscopic image display device 52 of the terminal (S507), and the stereoscopic image is played back after the specific format is decoded by the stereoscopic image display device 52 of the terminal.

[ example two ]

In fig. 6, the content server 53 may be a website for providing text, graphics and/or video content.

Similarly, the user operates the terminal device to send a content request (S601) from the flat panel display 51 to the content server 53, for example, to request browsing of the content, thereby obtaining the object of interest. At this time, on the one hand, the content server 53 transmits a request for forming a stereoscopic display object to the stereoscopic image server 54 along with identification information of the object (S603), and on the other hand, provides corresponding content in response to a content request issued by the user, in which the source of the user is described (S605), and this portion may still be flat content, which is received and displayed by the flat display element 51.

In the stereoscopic image server 54, the image database is queried according to the received object information (S607) to obtain corresponding stereoscopic image data, and the data is forwarded to the stereoscopic image display device 52 of the user end after some pre-operations (such as encryption and encoding) (S609), at this time, the stereoscopic image can be displayed after being decoded by the stereoscopic image display device 52.

In this case, on the user side, the flat content transmitted from the content server 53 is displayed on the flat display device 51, and the related stereoscopic image is simultaneously displayed on the stereoscopic image display device 52, thereby providing different content viewing experiences.

The user can operate the flat panel display device 51, perform interaction on the content provided by the content server 53 by using some input peripherals (such as a mouse, a keyboard, a touch panel, voice, etc.), generate a flat content interaction command to the content server 53(S611), and allow the content server 53 to respond the corresponding flat content to the flat panel display device 51 according to the interaction command (S613).

The user can also operate the stereoscopic image display element 52, generate a stereoscopic content interaction command by using the above input modes or by interacting with the displayed stereoscopic image in a gesture mode, and transmit the stereoscopic content interaction command to the stereoscopic image server 54(S615), the software program in the stereoscopic image server 54 determines another display mode of the object according to the interaction command, after searching the image database (S617), another stereoscopic image data can be directly obtained, or another stereoscopic image data is formed after calculation and then immediately transmitted back to the stereoscopic image display element 52(S619), and the stereoscopic image display element 52 displays the interacted stereoscopic image. The interaction can be performed continuously and the interactive stereoscopic image data can be continuously obtained from the stereoscopic image server 54, providing a special browsing experience.

[ third example ]

Fig. 7 shows yet another embodiment, in which the content server 53 is a general content website, which may be an e-commerce platform, and the objects may be interested goods, advertisement objects placed in web pages, or content objects generated by the stereoscopic image server 54. The image database of the stereoscopic image server 54 records stereoscopic image resource files of various objects, the stereoscopic image resource files record necessary information calculated into stereoscopic images, such as a stereoscopic image description file and an environment data file, the stereoscopic image description file may be a description file describing the stereoscopic coordinates, vectors and dimensions of the object, and the environment data file may be a file describing the ambient light, viewing angle, material and color of the object, and may be used to describe a static object or a dynamic object.

First, the user operates the flat panel display device 51 to send a content request to the content server 53 (S701), browse the page content therein, and select an interested object, or automatically trigger specific object information from the browsed page, and transmit the information to the stereoscopic image server 54(S703), the software program in the stereoscopic image server 54 queries the image database according to the object information (S705), obtains a stereoscopic image resource file of the object therefrom, directly transmits the stereoscopic image resource file to the stereoscopic image display device 52 of the terminal (S707), and calculates a stereoscopic image from the data in the stereoscopic image resource file in real time by the processor in the stereoscopic image display device 52 or in the specific terminal device (S709), and immediately displays the stereoscopic image.

The user can also operate the displayed stereoscopic image by gestures through the stereoscopic image display device 52 to generate an interaction command in the same way, and provide the interaction command to the stereoscopic image server 54(S711), and then the software program in the stereoscopic image server 54 determines another display mode of the object according to the interaction command, and queries the image database (S713) to obtain a new stereoscopic image resource file, and transmits the new stereoscopic image resource file to the stereoscopic image display device 52 in the same way (S715), and the stereoscopic image display device 52 calculates the stereoscopic image in real time (S717).

If there is a continuous interaction process, an interaction instruction is continuously generated and transmitted to the stereoscopic image server 54, the stereoscopic image server 54 queries the database to continuously obtain a stereoscopic image resource file, and then the stereoscopic image resource file is transmitted to the stereoscopic image display element 52 of the terminal to calculate and display a stereoscopic image.

When the user performs interaction by using the stereoscopic image display element 52 to generate an interaction instruction, the user can query whether another display mode corresponding to the interaction instruction is included in the stereoscopic image resource file received by the stereoscopic image display element 52 according to the interaction instruction, and if a new display mode is included, the stereoscopic image display element 52 can generate stereoscopic image data after performing self-operation and display the stereoscopic image data; if the other display mode generated by the interaction is not included, in step S711, a request for a new stereoscopic image resource file is sent to the stereoscopic image server 54, and then calculation is performed according to the received stereoscopic image resource file.

[ example four ]

The content server 53 shown in fig. 8 may be a website for selling commodities, the objects may be commodity objects, or advertisement objects embedded in related contents, and in this example, the stereoscopic image server 54 generates stereoscopic image data of the objects according to real-time calculation of stereoscopic image resource files of the objects, and the stereoscopic image resource files may be provided to the stereoscopic image server 54 by the content server 53 or obtained from an image database in the stereoscopic image server 54.

Initially, the user operates the flat panel display device 51 of the terminal to send a content request to the content server 53 (S801), and during browsing, the connection of the object is triggered, and the request for stereoscopic display of the object is transmitted to the stereoscopic image server 54 along with the object information (S803), or the content server 53 can provide a stereoscopic image resource file of a certain object and transmit the stereoscopic image resource file to the stereoscopic image server 54 along with the request for stereoscopic display of the object. On the other hand, the content server 53 may provide the corresponding content to the flat display device 51 in response to the content request of the user (S805).

When the stereoscopic image server 54 obtains the stereoscopic image resource file provided by the content server 53, the processor in the stereoscopic image server 54 calculates the stereoscopic image in real time (S807), and then transmits the formed stereoscopic image data to the stereoscopic image display device 52(S809), and the stereoscopic image data is displayed by the stereoscopic image display device 52 and is provided for the user to perform interaction, and the interaction can generate a change in the spatial coordinates of the corresponding stereoscopic image to obtain a state of the change in the stereoscopic image, and generate an interaction instruction from the stereoscopic image interaction, and then transmit the interaction instruction to the stereoscopic image server 54 again (S811), and the stereoscopic image server 54 calculates the stereoscopic image in real time (S813), and similarly, provides the stereoscopic image data to the stereoscopic image display device 52(S815), and the stereoscopic image data is data capable of directly displaying the stereoscopic image.

According to the embodiments of the above-mentioned various online content stereoscopic display methods, it can be seen that the feature is that the user can obtain the stereoscopic image data while obtaining the planar content, and if browsing the e-commerce platform, in which various goods are displayed, the user can select the goods to trigger the connection of the goods in addition to providing the traditional planar information, and the stereoscopic image server provides the stereoscopic image data of the related goods or the stereoscopic image resource file, so that the user can use the stereoscopic image obtained in real time to view the goods or obtain the stereoscopic image of the related advertisement, thereby generating a novel content viewing experience.

The disclosure above is only a preferred embodiment of the present invention and is not intended to limit the claims, so that all the equivalent technical changes made by using the contents of the present specification and the drawings are included in the claims.

Claims (18)

1. An online content stereoscopic display method, comprising:

in a stereoscopic image server, receiving a request of a stereoscopic display object from a content server, and obtaining a request source corresponding to the request of the stereoscopic display object;

generating a stereoscopic image data for the object in the stereoscopic image server; and

according to the request source, the stereoscopic image server transmits the stereoscopic image data to a stereoscopic image display device to display the stereoscopic image of the object.

2. The method as claimed in claim 1, wherein when receiving the request for displaying the object, the server queries an image database according to the identification information of the object to obtain the stereoscopic image data corresponding to the object, wherein the stereoscopic image data is data for providing the stereoscopic image display device to directly display the stereoscopic image.

3. The method as claimed in claim 1, wherein in the stereoscopic image server, when receiving the request for displaying the object, the server queries an image database according to the identification information of the object, obtains the stereoscopic image data as a stereoscopic image resource file corresponding to the object, and transmits the stereoscopic image resource file to the stereoscopic image display device, so that the stereoscopic image display device can calculate the stereoscopic image of the object.

4. The method as claimed in claim 1, wherein when the stereoscopic image server receives the request for displaying the object stereoscopically, it receives a stereoscopic image resource file corresponding to the object, and a processor in the stereoscopic image server calculates the stereoscopic image data in real time according to the stereoscopic image resource file, wherein the stereoscopic image data is data for the stereoscopic image display device to directly display the stereoscopic image.

5. The method as claimed in claim 3 or 4, wherein the stereoscopic image resource file comprises a stereoscopic image description file and an environment data file for describing a static object or a dynamic object.

6. The method as claimed in any one of claims 1 to 4, wherein after the stereoscopic image display device displays the stereoscopic image of the object, the stereoscopic image server receives an interaction instruction generated by the stereoscopic image display device, and the stereoscopic image server determines another display mode of the object according to the interaction instruction, and then generates another corresponding stereoscopic image data, and transmits the another stereoscopic image data to the stereoscopic image display device to display the stereoscopic image corresponding to the interaction instruction.

7. The method as claimed in claim 6, wherein the content server provides text, graphics or video content, including a service for displaying the object stereoscopically.

8. The method as claimed in claim 7, wherein the object is a product on a browsing page, and the content server sends the request for displaying the object to the stereoscopic image server after triggering a link of the object.

9. The method as claimed in claim 7, wherein the object is an advertisement on a browsing page, and the content server sends the request for displaying the object to the stereoscopic image server when the browsing page is displayed and a link of the object is triggered.

10. An online content stereoscopic display system, comprising:

the stereoscopic image server is provided with an image database, is connected with a content server, and provides corresponding stereoscopic image data according to a request of a stereoscopic display object generated by the content server;

a stereoscopic image display device for receiving the stereoscopic image data and displaying a stereoscopic image;

the method for performing online content three-dimensional display by using the three-dimensional image server comprises the following steps:

in the stereoscopic image server, receiving the request of the stereoscopic display object from the content server, and obtaining a request source corresponding to the request of the stereoscopic display object;

generating corresponding stereoscopic image data for the object in the stereoscopic image server; and

according to the request source, the stereoscopic image server transmits the stereoscopic image data to the stereoscopic image display device to display the stereoscopic image of the object.

11. The system of claim 10, wherein when receiving the request for displaying the object, the server queries the image database according to the identification information of the object to obtain the stereoscopic image data corresponding to the object, and the stereoscopic image data is data for providing the stereoscopic image display device to directly display the stereoscopic image.

12. The system of claim 10, wherein when receiving the request for displaying the object, the server queries the image database according to the identification information of the object to obtain the stereoscopic image data as a stereoscopic image resource file corresponding to the object, and transmits the stereoscopic image resource file to the stereoscopic image display device, so that the stereoscopic image display device can calculate the stereoscopic image of the object.

13. The system of claim 10, wherein when the stereoscopic image server receives the request for displaying the object stereoscopically, the stereoscopic image resource file corresponding to the object is received at the same time, and a processor in the stereoscopic image server calculates the stereoscopic image data in real time according to the stereoscopic image resource file, wherein the stereoscopic image data is data for the stereoscopic image display device to directly display the stereoscopic image.

14. The system of claim 10, wherein the object is a product on a browsing page, and the content server sends the request for displaying the object to the stereoscopic image server after triggering a link of the object.

15. The system of claim 10, wherein the object is an advertisement on a browsing page, and the content server sends the request for displaying the object to the stereoscopic image server when the browsing page is displayed and a link of the object is triggered.

16. The system according to any of claims 10-15, wherein after the stereoscopic display device displays the stereoscopic image of the object, the stereoscopic server receives an interaction command generated by the stereoscopic display device, and the stereoscopic server determines another display mode of the object according to the interaction command, generates another corresponding stereoscopic image data, and transmits the another stereoscopic image data to the stereoscopic display device to display the stereoscopic image corresponding to the interaction command.

17. The system of claim 16, wherein the interaction command is generated by a sensor of the stereoscopic display device sensing a gesture, a voice control command, or a touch command when the stereoscopic display device displays the stereoscopic image of the object.

18. The system of claim 17, wherein the interactive command is generated by sensing one or a combination of movement, rotation and zooming of the gesture in the stereoscopic display device; in the stereoscopic image server, a stereoscopic coordinate and a vector corresponding to a display space are obtained according to the interaction instruction, and new stereoscopic image data are obtained.

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