CN106339189B - Content loading method and device based on curved display screen and user equipment - Google Patents

Abstract

The embodiment of the application discloses a content loading method, a content loading device and user equipment based on a curved display screen, wherein the method comprises the following steps: determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; determining content loading parameters of the plurality of display areas according to the plurality of gaze angle threshold ranges; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area. According to the method and the device, the content loading of the display area is determined according to the gazing angle of the user, so that the utilization of content loading resources is optimized on the premise that the watching experience of the user is not influenced basically.

Description

Content loading method and device based on curved display screen and user equipment

Technical Field

The present application relates to the field of content loading technologies, and in particular, to a content loading method, a content loading apparatus, and a user equipment based on a curved display screen.

Background

The functions of mobile devices in processing, displaying and the like are more and more powerful, and become an indispensable part of people's lives, the data volume transmitted between devices and servers is also greatly increased, and the problem that people are concerned about how to more reasonably utilize data transmission resources is always.

Disclosure of Invention

The possible purposes of the embodiment of the application are as follows: a curved display based content loading scheme is provided.

In a first aspect, a possible embodiment of the present application provides a content loading method based on a curved display screen, including:

determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

determining a plurality of content loading parameters respectively corresponding to the plurality of display areas according to the plurality of gazing angle threshold ranges; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

With reference to the first aspect, in a second possible implementation manner, the determining the plurality of display areas includes:

determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen and a shape of the curved display screen.

With reference to any one of the foregoing possible implementation manners of the first aspect, in a third possible implementation manner, the determining the plurality of display areas includes:

determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen, a shape of the curved display screen, and the plurality of gaze angle threshold ranges.

With reference to any one of the above possible embodiments of the first aspect, in a fourth possible embodiment, the relative position is set by default.

With reference to any one of the above possible implementations of the first aspect, in a fifth possible implementation, the relative position is obtained.

With reference to any one of the foregoing possible implementation manners of the first aspect, in a sixth possible implementation manner, the content loading parameter includes at least one of:

content loading priority and quality of loaded content.

With reference to any one of the above possible embodiments of the first aspect, in a seventh possible embodiment, the method further includes: and loading the media contents of the plurality of display areas according to the content loading parameters.

In a second aspect, a possible embodiment of the present application provides a curved display screen-based content loading apparatus, including:

the area determining module is used for determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

a loading parameter determining module, configured to determine, according to the multiple gaze angle threshold ranges, multiple content loading parameters corresponding to the multiple display areas, respectively; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

With reference to the second aspect, in a second possible implementation manner, the region determining module includes:

a first area determination unit for determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen and a shape of the curved display screen.

With reference to any one of the above possible implementation manners of the second aspect, in a third possible implementation manner, the region determining module includes:

a second area determination unit to determine the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen, a shape of the curved display screen, and the plurality of gaze angle threshold ranges.

With reference to any one of the above possible embodiments of the second aspect, in a fourth possible embodiment, the relative position is set by default.

In combination with any one of the above possible embodiments of the second aspect, in a fifth possible embodiment, the apparatus further comprises:

and the relative position acquisition module is used for acquiring the relative position.

With reference to any one of the above possible implementation manners of the second aspect, in a sixth possible implementation manner, the content loading parameter includes at least one of:

content loading priority and quality of loaded content.

In combination with any one of the above possible embodiments of the second aspect, in a seventh possible embodiment, the apparatus comprises:

and the content loading module is used for loading the media contents of the plurality of display areas according to the content loading parameters.

In a third aspect, a possible embodiment of the present application provides a user equipment, including:

a memory for storing a program;

a processor for executing the memory-stored program, the program causing the processor to:

determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

determining a plurality of content loading parameters respectively corresponding to the plurality of display areas according to the plurality of gazing angle threshold ranges; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

At least one implementation of the embodiments of the present application determines content loading parameters of a plurality of display areas on a curved display screen according to the gazing angles of users to the display areas, so that the content loading of the display areas with better viewing angles is better than the content loading of the display areas with poor viewing angles, thereby optimizing the utilization of content loading resources and reducing the energy consumption of the curved display screen on the premise of not substantially influencing the viewing experience of the users.

Drawings

Fig. 1 is a flowchart of a content loading method according to an embodiment of the present application;

fig. 2 is a schematic view of an application scenario of a content loading method according to an embodiment of the present application;

fig. 3 is a block diagram schematically illustrating a structure of a content loading apparatus according to an embodiment of the present application;

FIGS. 4a to 4c are schematic block diagrams illustrating structures of three content loading devices according to an embodiment of the present application;

fig. 5 is a block diagram illustrating a structure of a user equipment according to an embodiment of the present application.

Detailed Description

The following detailed description of the present application will be made in conjunction with the accompanying drawings (like numerals represent like elements throughout the several figures) and examples. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

It will be understood by those within the art that the terms "first", "second", etc. in this application are used only to distinguish one step, device or module from another, and do not denote any particular technical meaning or necessarily logical order therebetween.

The inventor of the present application has found that due to the curved shape of the curved display screen, the user has poor viewing angles in some areas of the curved display screen, and therefore, high-quality image display in these areas does not provide a high-quality viewing experience for the user. Therefore, as shown in fig. 1, an embodiment of the present application provides a content loading method, including:

s110, determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area;

s120, determining a plurality of content loading parameters respectively corresponding to the plurality of display areas according to the plurality of gazing angle threshold ranges; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

As shown in fig. 2, in the present embodiment, the gaze angle of the user with respect to a point 211 on the curved display screen 210 is a first included angle a1 between a first line of sight 221 of the user gazing at the point 211 and a normal 231 of the curved display screen 210 at the point 211.

For example, the content loading apparatus provided in the present application executes S110 to S120 as the execution main body of the present embodiment. Specifically, the content loading apparatus may be disposed in a user device in a manner of software, hardware, or a combination of software and hardware, or the content loading apparatus itself is the user device; the user equipment includes but is not limited to: portable mobile devices such as smart phones, tablet computers, smart bracelets, smart rings.

According to the implementation mode of the embodiment of the application, the content loading parameters of the display areas are determined according to the watching angles of the user to the display areas on the curved display screen, so that the content loading of the display areas with better watching angles is better than the content loading of the display areas with poor watching angles, the utilization of content loading resources is optimized on the premise that the watching experience of the user is not influenced basically, and the energy consumption of the curved display screen is reduced.

The steps of the embodiments of the present application are further illustrated by the following means:

s110, a plurality of display areas are determined on a curved display screen.

In the embodiment of the present application, the curved display screen is a display screen including a curved display area, and in one possible implementation, the entirety of the curved display screen is curved, as shown in fig. 2; in other possible embodiments, only a portion of the curved display screen may be curved. In one possible embodiment, the shape of the curved display screen may be fixed; in other possible embodiments, the shape of the curved display screen may be variable.

In a possible embodiment, optionally, the plurality of display areas is two display areas. For example: and the gazing angles of all points in the area are larger than a display area of a gazing angle threshold value and the display area of the gazing angle of all points in the area is not larger than the gazing angle threshold value. In the embodiment shown in fig. 2, the first angle a1 corresponding to the first line of sight 221 and the second angle a3 corresponding to the third line of sight 223 are equal, for example, both are a degrees, in this embodiment, a degrees is the gaze angle threshold, and the curved display screen 210 may be divided into a first display region R1 (e.g., the region between the first line of sight 221 and the third line of sight 223 in fig. 2) corresponding to the gaze angle threshold range of [0, a ] and a second display region R2 (e.g., the region between the first line of sight 221 and the second line of sight 222 and the region between the third line of sight 223 and the fourth line of sight 224 in fig. 2) corresponding to the gaze angle threshold range of (a, 180).

Of course, in other possible embodiments, the plurality of display areas may be three or more display areas, as needed. In particular, in one possible implementation, the value of each gaze angle may correspond to one display region.

In a possible implementation manner, optionally, the determining S110 may include:

determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen and a shape of the curved display screen.

In this embodiment, the gaze angle of each point on the curved display screen may be determined based on the relative position and the shape, and the plurality of display regions may be determined based on the gaze angle of each point.

In a possible embodiment, optionally, the plurality of gazing angle threshold ranges are preset, and therefore, in this embodiment, the S110 may include:

determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen, a shape of the curved display screen, and the plurality of gaze angle threshold ranges. Namely: in this embodiment, the gaze angle of each point on the curved display screen may be determined based on the relative position and the shape, and the plurality of display areas may be determined based on the gaze angle of each point and the plurality of gaze angle threshold ranges.

In a possible embodiment, the relative position may optionally be set by default. For example, in one possible implementation, the relative position of the default user's eyes with respect to the curved display screen may be set according to the user's usual usage habits (gaze distance, gaze direction, etc.) for the curved display screen.

In another possible embodiment, the relative position may optionally be acquired in real time. For example, in one possible implementation, the content loading device may include an eye tracking module (e.g., a camera that faces the face of the user) for tracking the position of the user's eyes. In another possible embodiment, the relative position may also be obtained by using eye position information obtained by an eye tracking module provided in another device or an external apparatus.

S120, determining a plurality of content loading parameters respectively corresponding to the plurality of display areas according to the plurality of gazing angle threshold ranges; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

In the embodiment of the present application, a content loading parameter is a parameter related to media content loading of a corresponding display area, in particular remote media content. Those skilled in the art will appreciate that loading of media content can occupy various resources, such as: bandwidth resources, storage resources, processing resources, and the like, and therefore, in the present embodiment, the content loading parameters are determined according to the gaze angle threshold ranges, and the various resources can be more effectively utilized.

For example, in one possible implementation, the content loading parameter includes a content loading priority. On the premise of limited bandwidth resources, improving the content loading priority of an area with a better user viewing angle generally brings better experience to the user. Therefore, in this embodiment, it can be determined that the content loading priority of the display area with the lower gazing angle of each point in the area is higher than the content loading priority of the display area with the higher gazing angle of each point in the area according to the plurality of gazing angle threshold ranges.

In a possible implementation manner, optionally, the content loading parameter includes: the quality of the loaded content. High quality content generally corresponds to a larger data volume, and therefore, more bandwidth resources are occupied during transmission, more storage resources are occupied when the content is acquired locally, and more processing resources are occupied when the content is processed. For the display area with a higher gazing angle of each point in the area, due to poor viewing angle, high-quality content display often cannot bring corresponding viewing experience to users, and the cost performance of resource utilization is not high. Therefore, in this embodiment, the quality of the loaded content in the plurality of display areas may be determined according to the plurality of gaze angle threshold ranges, where the quality of the loaded content in a display area with a lower gaze angle at each point in the area is higher than the quality of the loaded content in a display area with a higher gaze angle at each point in the area. Therefore, for a display area with a poor viewing angle, only low-quality loading content needs to be requested from the content server, the use of transmission, storage, processing and display resources is reduced, the resource utilization is optimized, and the energy consumption is reduced.

In one possible embodiment, the method further comprises: and loading the media contents of the plurality of display areas according to the content loading parameters.

As can be seen from the embodiment shown in fig. 2, the gaze angle of each point in the first display region R1 is relatively low, and the gaze angle is relatively good when the user's line of sight falls in the first display region R1, so that the sub-display parameters of the region can correspond to a higher priority for loading content and/or a higher quality of loading content, thereby providing a better visual experience for the user; the gaze angle corresponding to each point in the second display region R2 is high, and when the user's gaze falls on the second display region R2, the gaze angle is not good, and even if the region is displayed with high-quality images, the user cannot be provided with a corresponding visual experience, so the sub-display parameters that can be in the second display region R2 can correspond to a lower priority for loading content and/or quality of loading content.

In one possible implementation, particularly when the gaze angle of each point in a display area is greater than 90 degrees, the display area is substantially at a position where the user cannot view the point, and at this time, for example, the media content corresponding to the display area may not be loaded, thereby further reducing the resource occupation.

It is understood by those skilled in the art that, in the method according to the embodiments of the present application, the sequence numbers of the steps do not mean the execution sequence, and the execution sequence of the steps should be determined by their functions and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

As shown in fig. 3, one possible implementation manner of the embodiment of the present application provides a content loading apparatus 300 based on a curved display screen, including:

a region determining module 310 for determining a plurality of display regions on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

a loading parameter determining module 320, configured to determine, according to the plurality of gaze angle threshold ranges, a plurality of content loading parameters corresponding to the plurality of display areas, respectively; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

According to the implementation mode of the embodiment of the application, the content loading of the display area with the better viewing angle of the user is better than the content loading of the display area with the poor viewing angle, so that the utilization of content loading resources is optimized on the premise that the viewing experience of the user is not influenced basically, and the energy consumption of the curved display screen is reduced.

The modules and units of the embodiments of the present application are further described by the following embodiments:

in the embodiment of the present application, the curved display screen is a display screen including a curved display area, and in one possible implementation, the entirety of the curved display screen is curved, as shown in fig. 2; in other possible embodiments, only a portion of the curved display screen may be curved. In one possible embodiment, the shape of the curved display screen may be fixed; in other possible embodiments, the shape of the curved display screen may be variable.

In one possible implementation, optionally, as shown in fig. 4a, the region determining module 310 may include:

a first area determination unit 311 for determining the plurality of display areas according to the relative position of the user's eyes with respect to the curved display screen and the shape of the curved display screen.

In this embodiment, the first area determining unit 311 may determine the gaze angle of each point on the curved display screen according to the relative position and the shape, and determine the plurality of display areas according to the gaze angle of each point.

In a possible embodiment, optionally, the plurality of gazing angle threshold ranges are preset, so as shown in fig. 4b, in this embodiment, the region determining module 310 includes:

a second area determining unit 312, configured to determine the plurality of display areas according to the relative position of the user's eyes with respect to the curved display screen, the shape of the curved display screen, and the plurality of gaze angle threshold ranges. Namely: in this embodiment, the second area determining unit 312 may determine the gaze angle of each point on the curved display screen according to the relative position and the shape, and then determine the plurality of display areas according to the gaze angle of each point and the plurality of gaze angle threshold ranges.

In a possible embodiment, the relative position may optionally be set by default. For example, in one possible implementation, the relative position of the default user's eyes with respect to the curved display screen may be set according to the user's usual usage habits (gaze distance, gaze direction, etc.) for the curved display screen.

In another possible embodiment, as shown in fig. 4a, optionally, the apparatus 300 further includes:

a relative position obtaining module 330, configured to obtain the relative position.

In a possible implementation, the relative position obtaining module 330 may include, for example, a camera for obtaining an image of the face of the user and obtaining the relative position through image processing. In other possible embodiments, the relative position acquiring module 330 may further include a position sensor such as a depth sensor.

In another possible embodiment, the relative position obtaining module 330 may obtain the relative position from an external device or apparatus by means of communication.

In an embodiment of the present application, a content loading parameter is a parameter related to media content loading of a corresponding display area.

In one possible embodiment, the display parameters include at least one of:

content loading priority and quality of loaded content.

In a possible embodiment, optionally, as shown in fig. 4c, the device 300 comprises:

a content loading module 340, configured to load the media content in the multiple display areas according to the content loading parameter.

Further implementation of functions of each module and unit in the embodiment of the present application refers to corresponding descriptions in the embodiments shown in fig. 1 and fig. 2.

Fig. 5 is a schematic structural diagram of another user equipment 500 provided in an embodiment of the present application, and a specific embodiment of the present application does not limit a specific implementation of the user equipment 500. As shown in fig. 5, the user equipment 500 may include:

a processor (processor)510, a Communications Interface 520, a memory 530, and a communication bus 540. Wherein:

processor 510, communication interface 520, and memory 530 communicate with one another via a communication bus 540.

A communication interface 520 for communicating with network elements such as clients and the like.

The processor 510 is configured to execute the program 532, and may specifically perform the relevant steps in the above method embodiments.

In particular, the program 532 may include program code comprising computer operating instructions.

The processor 510 may be a central processing unit CPU, or an application specific Integrated circuit asic, or one or more Integrated circuits configured to implement embodiments of the present application.

A memory 530 for storing a program 532. Memory 530 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory. The program 532 may specifically be configured to cause the user equipment 500 to perform the following steps:

determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

determining a plurality of content loading parameters respectively corresponding to the plurality of display areas according to the plurality of gazing angle threshold ranges; the content loading parameters of a display area with lower gazing angle of each point in the area are better than the content loading parameters of a display area with higher gazing angle of each point in the area.

In a possible embodiment, the user device is a mobile device, and the curved display screen is a display screen of the mobile device.

For specific implementation of each step in the program 532, reference may be made to corresponding steps and corresponding descriptions in units in the foregoing embodiments, which are not described herein again. It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described devices and modules may refer to the corresponding process descriptions in the foregoing method embodiments, and are not described herein again.

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

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above embodiments are merely illustrative, and not restrictive, and those skilled in the relevant art can make various changes and modifications without departing from the spirit and scope of the present application, and therefore all equivalent technical solutions also fall within the scope of the present application, and the scope of the present application is defined by the appended claims.

Claims (10)

1. A content loading method based on a curved display screen is applied to user equipment and is characterized by comprising the following steps:

determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

determining remote content loading parameters for the plurality of display areas according to the plurality of gaze angle threshold ranges; the remote content loading parameters of a display area with lower gazing angles of all points in the area are better than the remote content loading parameters of a display area with higher gazing angles of all points in the area;

and requesting a content server to load the remote media contents of the plurality of display areas according to the remote content loading parameters, wherein the remote content loading parameters are at least related to the occupation of bandwidth resources between the content server and the user equipment.

2. The method of claim 1, wherein the determining the plurality of display regions comprises:

determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen and a shape of the curved display screen.

3. The method of claim 1, wherein the determining the plurality of display regions comprises:

determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen, a shape of the curved display screen, and the plurality of gaze angle threshold ranges.

4. The method of claim 1, wherein the content loading parameters include at least one of:

content loading priority and quality of loaded content.

5. The method of claim 1, wherein the method further comprises: and loading the media contents of the plurality of display areas according to the content loading parameters.

6. A curved display screen based content loading apparatus, comprising:

the area determining module is used for determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

a loading parameter determining module, configured to determine, according to the multiple gaze angle threshold ranges, multiple remote content loading parameters corresponding to the multiple display areas, respectively; the remote content loading parameters of a display area with lower gazing angles of all points in the area are better than the remote content loading parameters of a display area with higher gazing angles of all points in the area;

and the content loading module is used for requesting a content server to load the remote media contents of the plurality of display areas according to the remote content loading parameters, wherein the remote content loading parameters are at least related to the occupation of bandwidth resources between the content server and the content loading device.

7. The apparatus of claim 6, wherein the region determination module comprises:

a first area determination unit for determining the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen and a shape of the curved display screen.

8. The apparatus of claim 6, wherein the region determination module comprises:

a second area determination unit to determine the plurality of display areas according to a relative position of the user's eyes with respect to the curved display screen, a shape of the curved display screen, and the plurality of gaze angle threshold ranges.

9. The apparatus of claim 6, wherein content loading parameters comprise at least one of:

content loading priority and quality of loaded content.

10. A user equipment, the user equipment comprising:

a memory for storing a program;

a processor for executing the memory-stored program, the program causing the processor to:

determining a plurality of display areas on a curved display screen; the plurality of display areas respectively correspond to a plurality of gaze angle threshold ranges which are not mutually overlapped, and the gaze angle of a user to each point in one display area in the plurality of display areas is within the gaze angle threshold range corresponding to the display area; the gazing angle of the user to one point on the curved display screen is an included angle between a sight line of the user gazing at the point and a normal line of the curved display screen at the point;

determining a plurality of remote content loading parameters respectively corresponding to the plurality of display areas according to the plurality of gazing angle threshold ranges; the remote content loading parameters of a display area with lower gazing angles of all points in the area are better than the remote content loading parameters of a display area with higher gazing angles of all points in the area;

and requesting a content server to load the remote media contents of the plurality of display areas according to the remote content loading parameters, wherein the remote content loading parameters are at least related to the occupation of bandwidth resources between the content server and the user equipment.

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