CN105159641B - Information processing method and flexible electronic equipment - Google Patents

Abstract

The application provides an information processing method and flexible electronic equipment, a current deformation state of the flexible electronic equipment and relative position information between the flexible electronic equipment and a user in the current deformation state are obtained, adjustment information is generated based on the relative position information and the current deformation state, and the adjustment information is used for adjusting the flexible electronic equipment, so that the adjusted user obtains better viewing experience compared with that before adjustment.

Description

Information processing method and flexible electronic equipment

Technical Field

The present application relates to the field of electronic information, and in particular, to an information processing method and a flexible electronic device.

Background

With the development of display technology, flexible screens are increasingly being applied to electronic devices. The user can adjust the flexible screen into various shapes according to the preference.

How to enable the flexible screen to provide better viewing experience for users becomes a problem to be solved urgently at present.

Disclosure of Invention

The application provides an information processing method and a flexible electronic device, and aims to solve the problem of how to enable a flexible screen to provide better viewing experience for a user.

In order to achieve the above object, the present application provides the following technical solutions:

an information processing method comprising:

obtaining a current deformation state of the flexible electronic equipment;

obtaining relative position information between the flexible electronic equipment and a user in a current deformation state;

and generating adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic equipment, so that the user obtains better viewing experience after adjustment compared with that before adjustment.

Optionally, the generating adjustment information based on the relative position information and the current deformation state includes:

if the distance between the user and the flexible electronic equipment is larger than a first numerical value, and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating first adjustment information, wherein the first adjustment information is used for indicating that the flexible electronic equipment is adjusted to be in a concave deformation;

and if the distance between the user and the flexible electronic equipment is smaller than a second numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating second adjustment information, wherein the second adjustment information is used for indicating that the flexible electronic equipment is changed into a convex deformation.

Optionally, the generating adjustment information based on the relative position information and the current deformation state includes:

if the user is located outside the central area of the flexible electronic device in the current deformation state and is biased to the first side of the central area of the flexible electronic device, third adjustment information is generated, the third adjustment information is used for indicating that the second side is concave-deformed towards the user, and the second side is symmetrical to the first side relative to the central area.

Optionally, the generating adjustment information based on the relative position information and the current deformation state includes:

and if the user is located outside the central area of the flexible electronic equipment in the current deformation state, generating fourth adjustment information, wherein the fourth adjustment information is used for indicating that the current display content is moved to a target area, and the target area is determined according to the relative position of the user and the flexible electronic equipment in the current deformation state.

Optionally, the generating adjustment information based on the relative position information and the current deformation state includes:

if the distance between the user and the flexible electronic equipment is larger than a third numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating fifth adjustment information, wherein the fifth adjustment information is used for indicating to amplify the current display content of the flexible electronic equipment;

and if the distance between the user and the flexible electronic equipment is smaller than a fourth numerical value and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating sixth adjustment information, wherein the sixth adjustment information is used for indicating that the current display content of the flexible electronic equipment is reduced.

Optionally, the method further comprises:

and generating an adjusting instruction according to the adjusting information, wherein the adjusting instruction is used for indicating a user to implement the adjusting information.

Optionally, the method further comprises:

and adjusting the deformation of the flexible electronic equipment and/or adjusting the current display content of the flexible electronic equipment according to the adjustment information.

A flexible electronic device comprising:

the controller is used for obtaining the current deformation state of the flexible electronic equipment; obtaining relative position information between the flexible electronic equipment and a user in a current deformation state; and generating adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic equipment, so that the user obtains better viewing experience after adjustment compared with that before adjustment.

Optionally, the controller is configured to generate adjustment information based on the relative position information and the current deformation state, including:

the controller is specifically configured to generate first adjustment information if the distance between the user and the flexible electronic device is greater than a first numerical value and the flexible electronic device is currently in a convex deformation or non-deformation state, where the first adjustment information is used to indicate that the flexible electronic device is adjusted to a concave deformation; and if the distance between the user and the flexible electronic equipment is smaller than a second numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating second adjustment information, wherein the second adjustment information is used for indicating that the flexible electronic equipment is changed into a convex deformation.

Optionally, the controller is configured to generate adjustment information based on the relative position information and the current deformation state, including:

the controller is specifically configured to generate third adjustment information if the user is located outside a center area of the flexible electronic device in the current deformation state and is biased to a first side of the center area of the flexible electronic device, where the third adjustment information is used to indicate that a second side is concavely deformed toward the user, and the second side is symmetric to the first side with respect to the center area.

Optionally, the controller is configured to generate adjustment information based on the relative position information and the current deformation state, including:

the controller is specifically configured to generate fourth adjustment information if the user is located outside a center area of the flexible electronic device in the current deformation state, where the fourth adjustment information is used to indicate that the currently displayed content is moved to a target area, and the target area is determined according to a relative position of the user and the flexible electronic device in the current deformation state.

Optionally, the controller is configured to generate adjustment information based on the relative position information and the current deformation state, including:

the controller is specifically configured to generate fifth adjustment information if the distance between the user and the flexible electronic device is greater than a third numerical value and the flexible electronic device is currently in a concave deformation or non-deformation state, where the fifth adjustment information is used to instruct to enlarge current display content of the flexible electronic device; and if the distance between the user and the flexible electronic equipment is smaller than a fourth numerical value and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating sixth adjustment information, wherein the sixth adjustment information is used for indicating that the current display content of the flexible electronic equipment is reduced.

Optionally, the controller is further configured to:

and generating an adjusting instruction according to the adjusting information, wherein the adjusting instruction is used for indicating a user to implement the adjusting information.

Optionally, the controller is further configured to adjust the deformation of the flexible electronic device according to the adjustment information, and/or adjust the current display content of the flexible electronic device.

The information processing method and the flexible electronic device obtain the current deformation state of the flexible electronic device and the relative position information between the flexible electronic device and a user in the current deformation state, and generate the adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic device, so that the adjusted user obtains a better viewing experience compared with that before adjustment.

Drawings

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

Fig. 1 is a flowchart of an information processing method disclosed in an embodiment of the present application;

FIG. 2 is a flow chart of another information processing method disclosed in the embodiments of the present application;

FIG. 3 is a schematic diagram of convex and concave deformed states of a flexible electronic device;

FIG. 4 is a top view of both ends of a flexible display screen bent (concavely deformed) toward a user;

FIG. 5 is a top view of the flexible display screen with both ends bent away from the user (convex deformation);

FIG. 6 is a flowchart of another information processing method disclosed in the embodiments of the present application;

FIG. 7 is a schematic view of a center region and first and second sides of a flexible display screen;

FIG. 8 is a top view of the end of the flexible display that is farther from the user bending toward the user (concave deformation);

FIG. 9 is a flowchart of another information processing method disclosed in an embodiment of the present application;

FIG. 10 is a schematic diagram of the positional relationship between a user and a center area of a flexible display screen;

FIG. 11 is a flowchart of another information processing method disclosed in an embodiment of the present application;

FIG. 12 is a top view of one manner in which the ends of the flexible display are bent (concave shape change) toward two users;

FIG. 13 is a top view of yet another way in which the ends of the flexible display are flexed (concave deformation) towards two users;

FIG. 14 is a top view of one manner in which a flexible display adjusts deformation based on the position of two users;

FIG. 15 is a top view of one manner in which a dual-sided flexible display adjusts distortion based on the position of two users;

fig. 16 is a schematic structural diagram of a flexible electronic device disclosed in an embodiment of the present application.

Detailed Description

The embodiment of the application discloses an information processing method and flexible electronic equipment, which can be applied to electronic equipment, wherein the electronic equipment is the flexible electronic equipment, and specifically, the electronic equipment is provided with a flexible display screen.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

An information processing method disclosed in an embodiment of the present application, as shown in fig. 1, includes the following steps:

s101: obtaining a current deformation state of the flexible electronic equipment;

s102: obtaining relative position information between the flexible electronic equipment and a user in a current deformation state;

in this embodiment, the relative position information may include a distance between the flexible electronic device and the user and a position relationship between the user and a central area of the flexible electronic device.

S103: and generating adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic equipment, so that a user obtains better viewing experience compared with that before adjustment after adjustment.

Taking the flexible display screen as an example, the flexible display screen can deform according to an external force of a user, and the deformed flexible display screen is not necessarily suitable for the user to watch display content.

The information processing method shown in fig. 1 will be described in detail below from a different perspective in which the adjustment information indicates adjustment of the flexible screen and the currently displayed content.

As shown in fig. 2, another information processing method disclosed in the embodiment of the present application includes the following steps:

s201: obtaining the current deformation state of the flexible display screen;

s202: obtaining the distance between the flexible display screen and a user in the current deformation state;

s203: if the distance between the user and the flexible display screen is larger than a first numerical value and the flexible display screen is in a convex deformation or non-deformation state at present, generating first adjustment information, wherein the first adjustment information is used for indicating that the flexible display screen is adjusted to be in a concave deformation;

in this embodiment, as shown in fig. 3, the convex deformation refers to that the flexible display screen protrudes outward (into the electronic device) relative to the non-deformed state, and the concave deformation refers to that the flexible display screen is recessed inward (into the electronic device) relative to the non-deformed state.

The first value can be preset according to actual requirements and the size of the flexible display screen. The distance of user and flexible display screen is greater than first numerical value, explains that the user is far away from flexible display screen, and under this condition, adjustment information suggestion is adjusted flexible display screen for concave deformation, promptly: the flexible display screen is enabled to be concave inwards (electronic equipment), so that two ends of the flexible display screen are bent towards a user (as shown in fig. 4), and compared with a convex deformation or non-deformation state, the state shown in fig. 4 is more beneficial for the user to obtain better viewing experience.

S204: and if the distance between the user and the flexible display screen is smaller than a second numerical value and the flexible display screen is in a concave deformation or non-deformation state at present, generating second adjustment information, wherein the second adjustment information is used for indicating that the flexible display screen is adjusted to be in convex deformation.

The second value can be preset according to actual requirements and the size of the flexible display screen. The user is less than the second numerical value with the distance of flexible display screen, and it is nearer to explain the user apart from flexible display screen, compares far away from flexible display screen, and the distance is then difficult to guarantee that whole display screen all is located user's field of vision within range, and under this condition, the second adjustment information suggestion is adjusted flexible display screen into convex deformation, promptly: make flexible display screen outwards go out to (electronic equipment) to make the both ends of flexible display screen keep away from (as shown in fig. 5), compare in the display screen of concave shape deformation or non-deformation state, the state of the flexible display screen shown in fig. 5 more is favorable to appearing the display screen in user's field of vision range completely, is favorable to the user to obtain better viewing experience.

S205: and generating an adjusting instruction according to the first adjusting information or the second adjusting information, wherein the adjusting instruction is used for indicating a user to implement the adjusting information.

That is, in this embodiment, the user can manually adjust the flexible display screen according to the adjustment instruction.

According to the method in the embodiment, if the user is close to the flexible display screen, the two ends of the flexible display screen are bent towards the direction far away from the user by adjusting the information prompt, and if the user is far away from the flexible display screen, the two ends of the flexible display screen are bent towards the user by adjusting the information prompt, so that the purpose of prompting the user to dynamically adjust the flexible display screen according to the display distance between the user and the flexible display screen is achieved, and the user can obtain better viewing experience.

As shown in fig. 6, another information processing method disclosed in the embodiment of the present application includes the following steps:

s601: obtaining the current deformation state of the flexible display screen;

s602: obtaining relative position information between a user and a central area of the flexible display screen when the flexible display screen is in a current deformation state;

s603: if the user is located outside the central area of the flexible display screen in the current deformation state and is inclined to the first side of the central area of the flexible display screen, generating third adjustment information, wherein the third adjustment information is used for indicating that the second side is concavely deformed towards the user;

as shown in fig. 7, on the flexible display, the second side is symmetrical to the first side with respect to the central region, for example, the first side is a region near a left end of the flexible display, and the second side is a region near a right end of the flexible display.

As shown in fig. 8, when the user approaches to either side, the other side symmetrical to the user is concavely deformed toward the user, that is, the other side is bent toward the direction of the user, that is, the user is closer to one end of the flexible display screen, and the other end is bent toward the user by adjusting the message prompt in order to make the user clearly see the other end.

S604: and adjusting the deformation of the flexible display screen according to the third adjustment information.

Different from the above embodiments, in the present embodiment, the deformation of the flexible display screen can be automatically adjusted, and obviously, the manual adjustment manner shown in fig. 2 and the automatic adjustment method shown in fig. 3 can be referred to each other.

According to the information processing method in the embodiment, one end of the flexible display screen far away from the user can be bent towards the user, so that the user can obtain better viewing experience.

As shown in fig. 9, another information processing method disclosed in the embodiment of the present application includes the following steps:

s901: obtaining the current deformation state of the flexible display screen;

s902: obtaining relative position information between a user and a central area of the flexible display screen when the flexible display screen is in a current deformation state;

s903: if the user is located outside the central area of the flexible display screen in the current deformation state, generating fourth adjustment information, wherein the fourth adjustment information is used for indicating that the current display content is moved to the target area;

as shown in fig. 10, in the current deformation state of the flexible display screen, the central area is a circular area, and the user is close to one end of the flexible display screen and is not located in the central area, in this case, the viewing experience of the user is not good, and therefore, the adjustment information may be sent to instruct to move the current display content to the target area, in this example, the target area is a square area, and in practical application, the target area may be determined according to the relative position of the user and the flexible electronic device in the current deformation state, for example, if the user is close to the other end of the flexible display screen, the target area may be a triangular area. (Note that the circles, squares, and triangles in this example are only used to distinguish between different regions, not the actual shape of the regions.)

S904: and adjusting the current display content of the flexible display screen according to the fourth adjustment information.

As can be seen from the above steps, according to the information processing method of this embodiment, when the user is not located in the center area of the display screen, the display content can be moved to the optimal viewing area of the user, which is beneficial to improving the viewing experience of the user.

As shown in fig. 11, another information processing method disclosed in the embodiment of the present application includes the following steps:

s1101: obtaining the current deformation state of the flexible display screen;

s1102: obtaining the distance between the flexible display screen and a user in the current deformation state;

s1103: if the distance between the user and the flexible display screen is larger than a third numerical value and the flexible display screen is in a concave deformation or non-deformation state at present, generating fifth adjustment information, wherein the fifth adjustment information is used for indicating the current display content of the flexible display screen to be amplified;

s1104: and if the distance between the user and the flexible display screen is smaller than the fourth numerical value and the flexible display screen is in a convex deformation or non-deformation state at present, generating sixth adjustment information, wherein the sixth adjustment information is used for indicating to reduce the current display content of the flexible display screen.

It should be noted that, in this embodiment, the purpose of determining which deformation state the flexible display screen is currently in before generating the adjustment information is to detect whether the flexible display screen has a condition for enlarging or reducing the display content, for example, if the flexible display screen is currently in a concave deformation state or a non-deformation state, after enlarging the display content, the display content may be completely located in the visual field range of the user, and if the flexible display screen is currently in a convex deformation state, that is, two ends of the display screen are bent in a direction away from the user, the user may not see the complete display content after enlarging the display content.

S1105: and generating an adjusting instruction according to the fifth or sixth adjusting information so as to instruct a user to adjust the display content according to the adjusting instruction.

According to the information processing method, if the user is close to the display screen, the user is prompted to reduce the display content, and conversely, the user is prompted to display the content by a method, so that the user can obtain better viewing experience.

It should be emphasized that the method for adjusting from the angle of the flexible display screen and the method for adjusting from the angle of the display content described in the above embodiments may be used in whole or in part in one adjustment process, that is: the flexible electronic device is adjusted, and the display content is adjusted at the same time, which is not limited in the embodiment of the application.

In practical use, there may be a case where a plurality of users watch the flexible display screen at the same time, and this case is described below.

Another information processing method disclosed in the present application example includes the steps of:

a: obtaining the current deformation state of the flexible display screen;

b: obtaining the relative position relation between the flexible display screen and at least two users in the current deformation state;

in this embodiment, the relative positional relationship may be, as described in the above embodiment, specifically, a distance between each user and the flexible display screen and a relative position between each user and the central area of the flexible display screen.

C: determining the adjustment information according to the relative position relationship, specifically, taking two users as an example, the following cases may be included:

1. as shown in fig. 12, if the distances between the user 1 and the user 2 and the flexible display screen are both greater than a first value, and the user 1 and the user 2 are both located within the range of the central area of the flexible display screen, a first adjustment message is sent out to prompt the flexible display screen to be adjusted to the deformation state shown in fig. 4.

Similarly, if the distances between the user 1 and the user 2 and the flexible display screen are both smaller than the second value, and the user 1 and the user 2 are both located within the range of the central area of the flexible display screen, second adjustment information is sent out to prompt the flexible display screen to be adjusted to the deformation state shown in fig. 5.

2. As shown in fig. 13, if the distances between the user 1 and the user 2 and the flexible display screen are both greater than the first value, the user 1 is located on one side of the central area of the flexible display screen, and the user 2 is located on the other side of the central area of the flexible display screen, the seventh adjustment information is sent out to adjust the target area 1 to the concave deformation state and to adjust the target area 2 to the concave deformation state, where the target area 1 is the optimal viewing area of the user 1, the target area 2 is the optimal viewing area of the user 2, and the target area 1 and the target area 2 may be determined according to the positions of the users, respectively;

similarly, if the distances between the user 1 and the user 2 and the flexible display screen are both smaller than the second value, and the user 1 is located on one side of the central area of the flexible display screen, and the user 2 is located on the other side of the central area of the flexible display screen, eighth adjustment information is sent for adjusting the target area 1 to a convex deformation state, and for adjusting the target area 2 to a convex deformation state.

It should be noted that fig. 13 only illustrates that two users are respectively located at the left and right sides of the central area of the flexible display screen, and the method described in this embodiment is also applicable to the case where two users are respectively located in different other areas.

3. As shown in fig. 14, if the distance between the user 1 and the flexible display screen is greater than a first value, the distance between the user 2 and the flexible display screen is less than a second value, the user 1 is located on one side of the central area of the flexible display screen, and the users 2 are located on the other side of the central area of the flexible display screen, ninth adjustment information is sent to adjust the deformation of the respective target areas corresponding to the users, that is, the target area corresponding to the user 1 is adjusted to be in a concave deformation state, and the target area corresponding to the user 2 is adjusted to be in a convex deformation state.

It should be emphasized that, in this embodiment, the deformation state of the flexible display screen is adjusted for illustration, and obviously, the current display content may also be adjusted for different positions of the user, for example, the current display content is respectively displayed in the target areas corresponding to the user 1 and the user 2, and for the adjustment of the display content in each target area, reference may be made to the foregoing embodiments, and details are not described here.

From another perspective, the flexible display may be a double-sided display or a transparent display.

For a double-sided flexible display screen, different users can be respectively located on two sides of the display screen, and the display screen displays contents to the different users on the display surfaces on the two sides. In this case, the adjustment information may be generated according to a relative position relationship between the double-sided flexible display screen in the current deformation state and a user located on a different display side of the display screen, specifically, as shown in fig. 15, the user 1 and the user 2 are located on different display sides respectively, and the adjustment information may be generated according to a distance from the user to the display side, so as to adjust the concave or convex deformation of the double-sided flexible display screen; alternatively, the adjustment information for adjusting the display content may be generated according to the relative position between the user and the central area of the display side, and the specific adjustment process may refer to the above embodiment.

For the transparent flexible display screen, different users may also be respectively located at two sides of the display screen, and in addition to the adjustment information for adjusting the deformation of the transparent flexible display screen and the size of the currently displayed content, tenth adjustment information may be generated, where the tenth adjustment information is used to adjust the display parameters of different display sides of the transparent flexible display screen, for example, the tenth adjustment information indicates that the transparency of the background layer of one display side is X1, and the transparency of the background layer of the other display side is X2.

In addition to the above, the flexible display screen may be foldable, that is, the generated adjustment information may be used to indicate that the flexible display screen is to be folded, specifically, if the user is in a certain relative orientation of the flexible display screen, the optimal viewing area of the relative orientation may be reserved, and other areas of the flexible display screen may be folded to the optimal viewing area, so as to save space.

Correspondingly to the above method embodiment, the embodiment of the present application further discloses a flexible electronic device, and in this embodiment, specifically, the flexible electronic device may be an electronic device with a flexible display screen.

As shown in fig. 16, the flexible electronic device includes:

the controller is used for obtaining the current deformation state of the flexible electronic equipment; obtaining relative position information between the flexible electronic equipment and a user in a current deformation state; and generating adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic equipment, so that the user obtains better viewing experience after adjustment compared with that before adjustment.

And the memory is used for storing programs operated in the controller and data generated in the process of operating the programs.

The memory and the controller can communicate with each other through a communication bus.

Optionally, the controller may be further configured to at least one of:

and generating an adjusting instruction according to the adjusting information, wherein the adjusting instruction is used for indicating a user to implement the adjusting information.

And adjusting the deformation of the flexible electronic equipment and/or adjusting the current display content of the flexible electronic equipment according to the adjustment information.

Specifically, a specific implementation manner of the controller generating the adjustment information based on the relative position information and the current deformation state may include at least one of the following:

a: if the distance between the user and the flexible electronic equipment is larger than a first numerical value, and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating first adjustment information, wherein the first adjustment information is used for indicating that the flexible electronic equipment is adjusted to be in a concave deformation; and if the distance between the user and the flexible electronic equipment is smaller than a second numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating second adjustment information, wherein the second adjustment information is used for indicating that the flexible electronic equipment is changed into a convex deformation.

B: if the user is located outside the central area of the flexible electronic device in the current deformation state and is biased to the first side of the central area of the flexible electronic device, third adjustment information is generated, the third adjustment information is used for indicating that the second side is concave-deformed towards the user, and the second side is symmetrical to the first side relative to the central area.

C: and if the user is located outside the central area of the flexible electronic equipment in the current deformation state, generating fourth adjustment information, wherein the fourth adjustment information is used for indicating that the current display content is moved to a target area, and the target area is determined according to the relative position of the user and the flexible electronic equipment in the current deformation state.

D: if the distance between the user and the flexible electronic equipment is larger than a third numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating fifth adjustment information, wherein the fifth adjustment information is used for indicating to amplify the current display content of the flexible electronic equipment; and if the distance between the user and the flexible electronic equipment is smaller than a fourth numerical value and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating sixth adjustment information, wherein the sixth adjustment information is used for indicating that the current display content of the flexible electronic equipment is reduced.

The information processing flexible electronic device described in this embodiment can generate an adjustment instruction according to the current deformation state of the flexible electronic device and the relative position information between the flexible electronic device and the user, so as to adjust the deformation state of the flexible electronic device or the current display content, so that the user obtains better viewing experience.

The functions described in the method of the embodiment of the present application, if implemented in the form of software functional units and sold or used as independent products, may be stored in a storage medium readable by a computing device. Based on such understanding, part of the contribution to the prior art of the embodiments of the present application or part of the technical solution may be embodied in the form of a software product stored in a storage medium and including several instructions for causing a computing device (which may be a personal computer, a server, a mobile computing device or a network device) to execute all or part of the steps of the method described in 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 embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (14)

1. An information processing method characterized by comprising:

obtaining a current deformation state of the flexible electronic equipment; the deformation state of the flexible electronic equipment comprises a convex deformation state, a concave deformation state or a non-deformation state; the convex deformation means that the flexible electronic device protrudes outwards relative to the non-deformed state, so that two ends of the flexible electronic device bend towards a direction away from a user; the concave deformation refers to that the flexible electronic equipment is inwards concave relative to the non-deformation state, so that two ends of the flexible electronic equipment bend towards the user;

obtaining relative position information between the flexible electronic equipment and at least two users in a current deformation state;

generating adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic equipment, so that the user obtains better viewing experience after adjustment compared with that before adjustment;

wherein the generating adjustment information based on the relative position information and the current deformation state comprises:

if the at least two users are not located in the central area of the flexible electronic device, adjusting the target area corresponding to the user whose distance from the flexible electronic device is greater than a first value to be in a concave deformation state, and adjusting the target area corresponding to the user whose distance from the flexible electronic device is less than a second value to be in a convex deformation state.

2. The method of claim 1, wherein the generating adjustment information based on the relative position information and the current deformation state comprises:

if the distance between the user and the flexible electronic equipment is larger than a first numerical value, and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating first adjustment information, wherein the first adjustment information is used for indicating that the flexible electronic equipment is adjusted to be in a concave deformation;

and if the distance between the user and the flexible electronic equipment is smaller than a second numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating second adjustment information, wherein the second adjustment information is used for indicating that the flexible electronic equipment is changed into a convex deformation.

3. The method according to claim 1 or 2, wherein the generating adjustment information based on the relative position information and the current deformation state comprises:

if the user is located outside the central area of the flexible electronic device in the current deformation state and is biased to the first side of the central area of the flexible electronic device, third adjustment information is generated, the third adjustment information is used for indicating that the second side is concave-deformed towards the user, and the second side is symmetrical to the first side relative to the central area.

4. The method of claim 1, wherein the generating adjustment information based on the relative position information and the current deformation state comprises:

and if the user is located outside the central area of the flexible electronic equipment in the current deformation state, generating fourth adjustment information, wherein the fourth adjustment information is used for indicating that the current display content is moved to a target area, and the target area is determined according to the relative position of the user and the flexible electronic equipment in the current deformation state.

5. The method according to claim 1 or 4, wherein the generating adjustment information based on the relative position information and the current deformation state comprises:

if the distance between the user and the flexible electronic equipment is larger than a third numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating fifth adjustment information, wherein the fifth adjustment information is used for indicating to amplify the current display content of the flexible electronic equipment;

and if the distance between the user and the flexible electronic equipment is smaller than a fourth numerical value and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating sixth adjustment information, wherein the sixth adjustment information is used for indicating that the current display content of the flexible electronic equipment is reduced.

6. The method of claim 1, further comprising:

and generating an adjusting instruction according to the adjusting information, wherein the adjusting instruction is used for indicating a user to implement the adjusting information.

7. The method of claim 1, further comprising:

and adjusting the deformation of the flexible electronic equipment and/or adjusting the current display content of the flexible electronic equipment according to the adjustment information.

8. A flexible electronic device, comprising:

the controller is used for obtaining the current deformation state of the flexible electronic equipment; obtaining relative position information between the flexible electronic equipment and at least two users in the current deformation state; generating adjustment information based on the relative position information and the current deformation state, wherein the adjustment information is used for adjusting the flexible electronic equipment, so that the user obtains better viewing experience after adjustment compared with that before adjustment;

the deformation state of the flexible electronic equipment comprises a convex deformation state, a concave deformation state or a non-deformation state; the convex deformation means that the flexible electronic device protrudes outwards relative to the non-deformed state, so that two ends of the flexible electronic device bend towards a direction away from the user; the concave deformation refers to that the flexible electronic equipment is inwards concave relative to the non-deformation state, so that two ends of the flexible electronic equipment bend towards the user;

wherein the controller is configured to generate adjustment information based on the relative position information and the current deformation state, and the adjustment information includes:

the controller is specifically configured to, if none of the at least two users is located in the central area of the flexible electronic device, adjust a target area corresponding to a user whose distance from the flexible electronic device is greater than a first value to a concave deformation, and adjust a target area corresponding to a user whose distance from the flexible electronic device is less than a second value to a convex deformation.

9. The flexible electronic device of claim 8, wherein the controller configured to generate adjustment information based on the relative position information and the current deformation state comprises:

the controller is specifically configured to generate first adjustment information if the distance between the user and the flexible electronic device is greater than a first numerical value and the flexible electronic device is currently in a convex deformation or non-deformation state, where the first adjustment information is used to indicate that the flexible electronic device is adjusted to a concave deformation; and if the distance between the user and the flexible electronic equipment is smaller than a second numerical value and the flexible electronic equipment is in a concave deformation or non-deformation state currently, generating second adjustment information, wherein the second adjustment information is used for indicating that the flexible electronic equipment is changed into a convex deformation.

10. The flexible electronic device of claim 8 or 9, wherein the controller configured to generate adjustment information based on the relative position information and the current deformation state comprises:

the controller is specifically configured to generate third adjustment information if the user is located outside a center area of the flexible electronic device in the current deformation state and is biased to a first side of the center area of the flexible electronic device, where the third adjustment information is used to indicate that a second side is concavely deformed toward the user, and the second side is symmetric to the first side with respect to the center area.

11. The flexible electronic device of claim 8, wherein the controller configured to generate adjustment information based on the relative position information and the current deformation state comprises:

the controller is specifically configured to generate fourth adjustment information if the user is located outside a center area of the flexible electronic device in the current deformation state, where the fourth adjustment information is used to indicate that the currently displayed content is moved to a target area, and the target area is determined according to a relative position of the user and the flexible electronic device in the current deformation state.

12. The flexible electronic device of claim 8 or 11, wherein the controller configured to generate adjustment information based on the relative position information and the current deformation state comprises:

the controller is specifically configured to generate fifth adjustment information if the distance between the user and the flexible electronic device is greater than a third numerical value and the flexible electronic device is currently in a concave deformation or non-deformation state, where the fifth adjustment information is used to instruct to enlarge current display content of the flexible electronic device; and if the distance between the user and the flexible electronic equipment is smaller than a fourth numerical value and the flexible electronic equipment is in a convex deformation or non-deformation state currently, generating sixth adjustment information, wherein the sixth adjustment information is used for indicating that the current display content of the flexible electronic equipment is reduced.

13. The flexible electronic device of claim 8, wherein the controller is further configured to:

and generating an adjusting instruction according to the adjusting information, wherein the adjusting instruction is used for indicating a user to implement the adjusting information.

14. The flexible electronic device of claim 8, wherein the controller is further configured to:

and adjusting the deformation of the flexible electronic equipment and/or adjusting the current display content of the flexible electronic equipment according to the adjustment information.

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