CN107179861B - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method, which is used for solving the technical problems of more effect times and larger power consumption of electronic equipment with a bendable screen. The method comprises the following steps: monitoring a first variation of a first parameter of an electronic device, wherein the first parameter is related to a degree of bending of a flexible display unit of the electronic device; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit; if the first variable quantity meets a preset condition, generating a first control instruction corresponding to the first variable quantity; and executing the first control instruction to complete the function corresponding to the first control instruction. The invention also discloses corresponding electronic equipment.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to the field of computer technologies, and in particular, to an information processing method and an electronic device.

Background

At present, with the progress of science and technology, the application of the flexible screen is more and more extensive, and although the aesthetic feeling of the electronic device can be improved by the flexible screen, the flexible screen is not a plane, so that the user is inconvenient to use, for example, slide or click the flexible screen, and is easy to generate misoperation, so that the user has to operate the electronic device for many times, the operation efficiency is reduced, and the use experience of the user is influenced. Meanwhile, the electronic equipment can correspondingly increase the response times, and the power consumption of the electronic equipment is increased.

Therefore, the technical problems that the electronic equipment with the bendable screen has more effect times and larger power consumption exist in the prior art.

Disclosure of Invention

The application provides an information processing method which is used for solving the technical problems that electronic equipment with a bendable screen is high in effect times and high in power consumption.

In a first aspect, an information processing method is provided, including:

monitoring a first variation of a first parameter of an electronic device, wherein the first parameter is related to a degree of bending of a flexible display unit of the electronic device; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

if the first variable quantity meets a preset condition, generating a first control instruction corresponding to the first variable quantity;

and executing the first control instruction to complete the function corresponding to the first control instruction.

Optionally, the first parameter includes a parameter generated by a touch operation performed on at least two positions of the flexible display unit that satisfy a preset relationship.

Optionally, executing the first control instruction to complete a function corresponding to the first control instruction includes:

executing the first control instruction, and displaying first information in a first display mode in the flexible display unit; wherein the first display mode is used for indicating the effect of the first information presented in the flexible display unit.

Optionally, if the first information includes N pieces of first sub information, N is an integer greater than 1; wherein, any sub information in the N pieces of first sub information is a display interface of an application installed in the electronic device, and displaying the first information in the flexible display unit in a first display manner includes:

dividing the display area of the flexible display unit into N adjacent sub-display areas according to the first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

Optionally, if N is 2, before monitoring a first variation of a first parameter of the electronic device, the method further includes:

monitoring a deformation position of the electronic equipment, wherein the deformation position is deformed;

dividing a display area of the flexible display unit into N adjacent sub-display areas, including:

and dividing the display area of the flexible display unit into the N sub-display areas according to the monitored deformation position.

Optionally, after the first information is displayed in the flexible display unit in the first display manner, the method further includes:

monitoring a second amount of change in the first parameter;

generating a second control instruction corresponding to the second variable quantity;

executing the second control instruction, and combining the N sub-display areas into the display area;

displaying second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

Optionally, if the first variation satisfies a preset condition, generating a first control instruction corresponding to the first variation includes:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variation is larger than or equal to the preset variation, it is indicated that the first variation meets the preset condition, and the first control instruction is generated.

In a second aspect, an electronic device is provided, comprising:

a sensor, a processor, and a flexible display unit;

the sensor is used for monitoring a first variation of a first parameter of the electronic equipment, wherein the first parameter is related to the bending degree of a flexible display unit of the electronic equipment; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

the processor is used for generating a first control instruction corresponding to the first variable quantity if the first variable quantity meets a preset condition; and executing the first control instruction to complete the function corresponding to the first control instruction.

Optionally, the first parameter includes a parameter generated by a touch operation performed on at least two positions of the flexible display unit that satisfy a preset relationship.

Optionally, the processor is configured to execute the first control instruction, and display first information in the flexible display unit in a first display manner; wherein the first display mode is used for indicating the effect of the first information presented in the flexible display unit.

Optionally, if the first information includes N pieces of first sub information, N is an integer greater than 1; wherein, if any sub information in the N pieces of first sub information is a display interface of an application installed in the electronic device, the processor is configured to:

dividing the display area of the flexible display unit into N adjacent sub-display areas according to the first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

Alternatively, if N is 2,

the sensor is used for monitoring a deformation position of the electronic equipment when the electronic equipment deforms before monitoring a first variable quantity of a first parameter of the electronic equipment;

the processor is used for dividing the display area of the flexible display unit into the N sub-display areas according to the monitored deformation position.

Alternatively to this, the first and second parts may,

the sensor is used for monitoring a second variable quantity of the first parameter after first information is displayed in a first display mode in the flexible display unit;

the processor is used for generating a second control instruction corresponding to the second variable quantity; executing the second control instruction, and combining the N sub-display areas into the display area; displaying second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

Optionally, the processor is configured to:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variation is larger than or equal to the preset variation, it is indicated that the first variation meets the preset condition, and the first control instruction is generated.

In a third aspect, another electronic device is provided, including:

the display device comprises a monitoring module, a display module and a display module, wherein the monitoring module is used for monitoring a first variable quantity of a first parameter of the electronic device, and the first parameter is related to the bending degree of a flexible display unit of the electronic device; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

the generating module is used for generating a first control instruction corresponding to the first variable quantity if the first variable quantity meets a preset condition;

and the execution module is used for executing the first control instruction and finishing the function corresponding to the first control instruction.

One or more technical solutions in the present application at least have one or more of the following technical effects and advantages:

in this application, because the flexible display unit is easily deformed and the click operation is difficult to respond, through the variable quantity of monitoring the deformation of flexible display unit, can effectively avoid the produced maloperation of direct operation flexible display unit, strengthened the accuracy of user operation, also improved electronic equipment's response efficiency, electronic equipment's response number of times reduces simultaneously, the corresponding consumption that has reduced electronic equipment, extension electronic equipment's life.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a flow chart of an information processing method according to an embodiment of the present invention;

FIGS. 2A-2B are schematic diagrams of an electronic device having a flexible display unit according to an embodiment of the invention;

FIGS. 3A-3B are schematic diagrams of a split-screen display in an embodiment of the invention;

FIG. 4 is a diagram of an electronic device in an embodiment of the invention;

fig. 5 is a schematic structural diagram of an electronic device in an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention. The embodiments and features of the embodiments of the present invention may be arbitrarily combined with each other without conflict. Also, while a logical order is shown in the flow diagrams, in some cases, the steps shown or described may be performed in an order different than here.

Optionally, in the embodiment of the present invention, the electronic Device may include different electronic devices such as a Personal Computer (PC), a tablet Device (PAD), a mobile phone, and the like, which is not limited in the embodiment of the present invention.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" in this document generally indicates that the preceding and following related objects are in an "or" relationship unless otherwise specified.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of the invention provides an information processing method, and a main flow of the method is described as follows.

S101: monitoring a first variation of a first parameter of the electronic device, wherein the first parameter is related to a degree of bending of a flexible display unit of the electronic device; the first amount of change may be used to indicate an amount of change in a degree of bending of the flexible display unit.

Optionally, the first parameter is related to a bending degree of the flexible display unit of the electronic device, for example, the first parameter may include a bending degree parameter of the flexible display unit, or the first parameter may also include a pressure parameter to which the flexible display unit is subjected when being bent, or the first parameter may also include a concavity degree parameter when the flexible display unit is bent, such as a concavity depth parameter, and the like. Of course, the foregoing is merely an example, and the embodiment of the present invention does not limit which parameters the first parameter may specifically include.

Alternatively, the first parameter may include a parameter generated by a touch operation performed for at least two positions of the flexible display unit satisfying a preset relationship.

Optionally, the electronic device is a wearable device, such as a deformable smart phone, the smart phone may be rectangular, and referring to fig. 2A specifically, the smart phone includes a flexible housing and a flexible display unit, when the user wears the smart phone on the body of the user, one possible wearing manner is as follows: referring to fig. 2B, the user may bend the smart phone into a C shape and wear the smart phone on the wrist of the user, with the flexible display unit facing outward and the flexible housing clinging to the wrist of the user. Meanwhile, sensors are arranged on the flexible display unit, and the sensors can monitor user operations, for example, the user operations can be operations of touching the flexible display unit or pressing the flexible display unit, for example, two parts of the flexible display unit are respectively pressed by an index finger and a thumb, for example, after the electronic device is bent into a C shape, a part of the C-shaped electronic device close to the upper end and a part close to the lower end can naturally attach to a wrist of the user, so that the detection areas can be arranged on the two parts, and thus, when the user presses the two areas with the other hand, the gesture is very natural, the user does not need to adopt some complex gestures, and only needs to naturally 'pinch' the electronic device, namely, the index finger of the user presses the part close to the upper end of the electronic device; meanwhile, the user's thumb presses a portion of the electronic device near the lower end. Therefore, the operation of the user is very convenient, and the operation also accords with the operation habit of the user. In addition, besides the above operations, the user can directly hold the electronic device, that is, the user's tiger's mouth is tightly attached to the flexible display unit. In this case, the two regions, for example, a portion near the upper end of the electronic device may capture more than one contact point (a portion of the four fingers of the user), and a portion near the lower end of the electronic device may capture one contact point (the thumb of the user). Alternatively, when the user continuously touches the two areas, the electronic device may recognize the operation. According to the above operation, the bending degree of the electronic device is changed, and the previously installed sensor can monitor the change amount of the bending degree.

Alternatively, the electronic device may also be a wearable device, such as a smart watch, which includes a dial and a watchband, and the user may fix the smart watch on the wrist of the user via the watchband. A flexible display unit is mounted on the dial. Install the sensor around the dial plate, can acquire the operation that the user carried out to intelligent wrist-watch through the sensor of installation. For example, the operation of the user on the electronic device may be a touch operation on a flexible display unit on the dial, or a touch operation on a bezel of the dial, or may also be a press operation on the bezel of the dial, or the like. It should be noted that the bezel of the watch face can be connected to the watch band, and the bezel of the watch face is used to fix the flexible display unit to the watch face. For example, sensors may be provided at 6 o 'clock and 12 o' clock positions on the frame of the dial of the smart watch, so that the user may perform pressing operations on the two positions, the sensors may acquire pressure information on the two positions, or the sensors may acquire deformation amounts (e.g., depth of depression) generated after the smart watch is pressed and deformed when the user presses the two positions, and the like.

S102: and if the first variable quantity meets a preset condition, generating a first control instruction corresponding to the first variable quantity.

For example, after the first variation is monitored, whether the first variation is greater than or equal to a preset variation may be determined, and if the first variation is greater than or equal to the preset variation, it may be determined that the first variation satisfies a preset condition.

Alternatively, the preset condition may be different according to the first parameter. For example, the first parameter includes a bending parameter of the flexible display unit, and the preset condition may include a preset variation, where the preset variation may include a preset bending amount. For example, in an initial state, the electronic device is not pressed, the curvature of the flexible display unit is an initial curvature, for example, 4 mm per meter, and when the flexible display unit is pressed, the curvature of the flexible display unit may become 6 mm per meter. Then the first amount of change is 2 millimeters per meter. If the preset bending amount is 1 mm per meter, it is determined that the first variation is greater than the preset bending amount, and the first variation satisfies a preset condition, the electronic device may generate a first control instruction.

Alternatively, the first parameter may include a pressure parameter required for the flexible display unit to generate the depression, and the preset condition may include a preset variation, where the preset variation may include a preset pressure. For example, if the first variation is 10 newtons and the preset pressure is 8 newtons, it is determined that the first variation is greater than the preset pressure, and the first variation satisfies the preset condition, the electronic device may generate the first control command.

Optionally, the first control instruction may correspond to the first variation, and when the first variation is different, the first control instruction may also be different. For example, the electronic device may include an audio output unit, and the first control instruction is used to adjust the volume of the audio output unit, and for example, taking the first variation as the pressure, if the first variation is 10 newtons, the first control instruction may be used to adjust the volume of the audio output unit to 40 db, and if the first variation is 20 newtons, the first control instruction may be used to adjust the volume of the audio output unit to 50 db. Or for example, continuing to take the first variation as the pressure, if the first variation is 10 newtons, the first control command may be used to adjust the brightness of the flexible display unit, if the first variation is 20 newtons, the first control command may be used to adjust the volume of the audio output unit of the electronic device, and so on.

S103: and executing the first control instruction to complete the function corresponding to the first control instruction.

Optionally, the first control instruction may be used to adjust the brightness of the display unit, or the first control instruction may be used to look over a current display interface displayed on the display unit, or the first control instruction may also be used to implement other functions. For example, continuing with the example of a smart watch, the smart watch may automatically adjust the display brightness of the smart watch by the user pressing 6 o 'clock and 12 o' clock positions on the watch face. For example, the smart watch has three kinds of brightness, which are darker, normal and brighter, respectively, and after the user presses the corresponding position of the dial, the smart watch can automatically cycle between the three kinds of brightness. For example, the luminance of present intelligent wrist-watch is darker, and after the corresponding position of dial plate was pressed to the user, the intelligent wrist-watch can be normal with luminance adjustment, if the corresponding position of dial plate was pressed once more to the user, the intelligent wrist-watch can be with luminance adjustment for brighter.

Or for example, the electronic device may further adjust the content displayed by the flexible display unit according to the first control instruction, for example, a certain picture is being displayed on the flexible display unit, and after the user presses the flexible display unit, the flexible display unit may display the next picture.

Or, for example, according to the first control instruction, the electronic device may enlarge the font size of the text currently displayed by the flexible display unit, for example, adjust the font size of the text displayed by the flexible display unit from 12 to 16, and so on. Of course, the above description is only an example and is not a limitation to the embodiment of the present invention, and the embodiment of the present invention does not limit the function that can be performed by the first control instruction.

Optionally, the first control instruction is executed to complete a function corresponding to the first control instruction, and one possible implementation manner may include: and executing the first control instruction, and displaying the first information in the flexible display unit in a first display mode. The first display mode may be used to indicate an effect of the first information presented in the flexible display unit.

For example, the first display mode is a display mode in which the background in the flexible display unit is closed, and the background of the flexible display unit may be displayed contents of non-key areas in the flexible display unit, such as certain advertisements. For example, when a user is watching a picture, all the areas of the flexible display unit that are not displaying the picture may be turned into black, that is, the backlight of the display areas of the flexible display unit that are not displaying the picture is turned off, so as to highlight the content being watched by the user and improve the user experience.

Optionally, the first display mode may also be a split-screen display mode. For example, the first information may include N pieces of first sub information, and any piece of sub information in the N pieces of first sub information is a display interface of an application installed in the electronic device, so that the electronic device may divide the display area of the flexible display unit into N adjacent sub display areas according to the first display mode, and display the N pieces of first sub information through the N sub display areas. Wherein N is an integer greater than 1.

Optionally, the first sub-information may be display interface information of an instant messaging program installed in the electronic device, or the first sub-information may be display interface information of a browser program installed in the electronic device, and the like, which is not limited in this embodiment of the present invention.

For example, the 3 pieces of first sub information included in the first information are display interface information of the instant messaging program, display interface information of the browser program, and display interface information of the game program, for example, the display interface of the instant messaging program is referred to as a display interface 1, the display interface of the browser program is referred to as a display interface 2, and the display interface of the game program is referred to as a display interface 3. The electronic device may determine 3 adjacent sub-display regions in the display region of the flexible display unit, for example, determine display region 1, display region 2, and display region 3, and then may display 3 display interfaces through the 3 adjacent sub-display regions, respectively. For example, the display interface 1 is displayed in the display area 1, the display interface 2 is displayed in the display area 2, and the display interface 3 is displayed in the display area 3.

Optionally, if N is 2, before monitoring the first variation of the first parameter of the electronic device, a deformation position at which the electronic device deforms may be monitored, and the display area of the flexible display unit is divided into N sub-display areas according to the monitored deformation position.

Optionally, when the first information includes 2 pieces of first sub information, the display area may be determined according to a position where the electronic device is deformed. For example, referring to fig. 3A-3B, taking the electronic device as an example of a smart watch, if the electronic device detects that the 6 o 'clock position and the 12 o' clock position of the dial of the smart watch are deformed, if the user can press the two positions with the thumb and the forefinger, the electronic device can determine the two display areas according to the detected positions (i.e., the 6 o 'clock position of the smart watch and the 12 o' clock position of the smart watch). For example, one possible method of determination is: the electronic device can determine a dividing line for dividing the flexible display unit according to the two positions, and determine two sub-display areas by taking the dividing line as a boundary. Of course, the dividing line may be virtual, and the flexible display unit may display the dividing line or may not display the dividing line. For example, the electronic device takes the 6 o 'clock position as the start point of the dividing line and the 12 o' clock position as the end point of the dividing line. Two sub-display areas for displaying 2 first sub-information may be determined according to the dividing line.

Optionally, after the first information is displayed in the flexible display unit in the first display manner, a second variation of the first parameter may be monitored, a second control instruction corresponding to the second variation is generated, the second control instruction is executed, the N sub-display areas are combined into the display area, and the second information is displayed through the display area. The second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

Optionally, when the first information is displayed in a split-screen display manner, the electronic device may further merge the plurality of sub-display regions through an operation of a user. For example, the electronic device continues to monitor the second amount of change of the first parameter, e.g., the user may press the flexible display unit of the electronic device, at which point the first parameter may be a parameter characterizing the sag of the flexible display unit. The electronic device can determine a second variation of the first parameter and generate a second instruction for merging the display areas. For example, in the case of split screen display, the number of sub display regions is 3. The electronic device may merge the different sub-display regions into a display region before the split screen, that is, the entire display region of the flexible display unit, according to the second instruction. At this time, the displayed content may be randomly determined, for example, the electronic device randomly determines one first sub information from the 3 first sub information as the display content of the current flexible display unit.

Alternatively, the electronic device may use specific sub information in the first sub information as the display content of the current flexible display unit. Of course, the above is merely an example, and the present embodiment does not limit the display content of the flexible display unit.

Referring to fig. 4, based on the same inventive concept, an embodiment of the invention provides an electronic device, including:

a sensor 301, a processor 302 and a flexible display unit 303;

a sensor 301 for monitoring a first variation of a first parameter of the electronic device, wherein the first parameter is related to a degree of bending of a flexible display unit 303 of the electronic device; the first variation amount may be used to indicate a variation amount of the degree of bending of the flexible display unit 303;

the processor 302 is configured to generate a first control instruction corresponding to the first variation if the first variation satisfies a preset condition; and executing the first control instruction to complete the function corresponding to the first control instruction.

Optionally, the first parameter includes a parameter generated by a touch operation performed on at least two positions of the flexible display unit 303 that satisfy a preset relationship.

Optionally, the processor 302 is configured to execute a first control instruction, and display first information in the flexible display unit 303 in a first display manner; wherein the first display mode is used for indicating the effect of the first information presented in the flexible display unit 303.

Optionally, if the first information includes N first sub information, N is an integer greater than 1; wherein, if any sub information in the N first sub information is a display interface of an application installed in the electronic device, the processor 302 is configured to:

dividing the display area of the flexible display unit 303 into N adjacent sub-display areas according to a first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

Alternatively, if N is 2,

the sensor 301 is used for monitoring a deformation position of the electronic equipment, wherein the deformation position is deformed before monitoring a first variable quantity of a first parameter of the electronic equipment;

a processor 302 for dividing the display area of the flexible display unit 303 into N sub-display areas according to the monitored deformation position.

Alternatively to this, the first and second parts may,

a sensor 301 for monitoring a second variation of the first parameter after the first information is displayed in the flexible display unit 303 in the first display manner;

a processor 302 for generating a second control instruction corresponding to the second variation; executing a second control instruction, and combining the N sub-display areas into a display area; displaying the second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

Optionally, the processor 302 is configured to:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variable quantity is larger than or equal to the preset variable quantity, the first variable quantity is indicated to meet the preset condition, and a first control instruction is generated.

Referring to fig. 5, based on the same inventive concept, an embodiment of the present invention further provides another electronic device, including:

a monitoring module 401, configured to monitor a first variation of a first parameter of an electronic device, where the first parameter is related to a degree of bending of a flexible display unit of the electronic device; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

a generating module 402, configured to generate a first control instruction corresponding to the first variation if the first variation meets a preset condition;

the execution module 403 is configured to execute the first control instruction and complete a function corresponding to the first control instruction.

Optionally, the first parameter includes a parameter generated by a touch operation performed on at least two positions of the flexible display unit that satisfy a preset relationship.

Optionally, the executing module 403 is configured to:

executing a first control instruction, and displaying first information in a first display mode in the flexible display unit; the first display mode is used for indicating the effect of the first information presented in the flexible display unit.

Optionally, if the first information includes N first sub information, N is an integer greater than 1; wherein, if any sub information in the N first sub information is a display interface of an application installed in the electronic device, the execution module 403 is configured to:

dividing a display area of the flexible display unit into N adjacent sub-display areas according to a first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

Alternatively, if N is 2,

the monitoring module 401 is configured to monitor a deformation position where the electronic device deforms before monitoring a first variation of a first parameter of the electronic device;

and an executing module 403, configured to divide the display area of the flexible display unit into N sub-display areas according to the monitored deformation position.

Optionally, the method further includes:

the monitoring module 401 is configured to monitor a second variation of the first parameter after the first information is displayed in the flexible display unit in the first display manner;

a generating module 402, configured to generate a second control instruction corresponding to the second variation;

an executing module 403, configured to execute a second control instruction, and merge the N sub-display areas into a display area; displaying the second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

Optionally, the generating module 402 is configured to:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variable quantity is larger than or equal to the preset variable quantity, the first variable quantity is indicated to meet the preset condition, and a first control instruction is generated.

Optionally, the electronic device shown in fig. 4 and 5 in the embodiment of the present invention corresponds to the information processing method shown in fig. 1, and the implementation manners may be mutually referred to, so that repeated content parts are not repeated in the electronic device.

One or more technical solutions in the embodiments of the present invention at least have one or more of the following technical effects and advantages:

in the embodiment of the invention, because the flexible display unit is easy to deform and not easy to respond to click operation, by monitoring the deformation variable quantity of the flexible display unit, misoperation caused by directly operating the flexible display unit can be effectively avoided, the accuracy of user operation is enhanced, the response efficiency of the electronic equipment is also improved, meanwhile, the response times of the electronic equipment are reduced, the power consumption of the electronic equipment is correspondingly reduced, and the service life of the electronic equipment is prolonged.

It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional units according to needs, that is, the internal structure of the device is divided into different functional units to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules or units is only one logical division, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

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

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit 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 invention may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

Specifically, the computer program instructions corresponding to an information processing method in the embodiment of the present invention may be stored on a storage medium such as an optical disc, a hard disc, a usb disk, or the like, and when the computer program instructions corresponding to an information processing method in the storage medium are read or executed by an electronic device, the method includes the steps of:

monitoring a first variation of a first parameter of an electronic device, wherein the first parameter is related to a degree of bending of a flexible display unit of the electronic device; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

if the first variable quantity meets a preset condition, generating a first control instruction corresponding to the first variable quantity;

and executing the first control instruction to complete the function corresponding to the first control instruction.

Optionally, the step of storing in the storage medium: executing the first control instruction to complete the function corresponding to the first control instruction, wherein the corresponding computer instruction comprises the following steps in the executed process:

executing the first control instruction, and displaying first information in a first display mode in the flexible display unit; wherein the first display mode is used for indicating the effect of the first information presented in the flexible display unit.

Optionally, if the first information includes N pieces of first sub information, N is an integer greater than 1; wherein, any sub information in the N first sub information is a display interface of an application installed in the electronic device, and the storage medium stores and the step of: displaying first information in a first display mode in the flexible display unit, wherein the corresponding computer instructions comprise the following steps in the executed process:

dividing the display area of the flexible display unit into N adjacent sub-display areas according to the first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

Optionally, if N is 2, the storage medium stores the following steps: monitoring a first variation of a first parameter of an electronic device, the corresponding computer instructions, before being executed, comprising the steps of:

monitoring a deformation position of the electronic equipment, wherein the deformation position is deformed;

dividing a display area of the flexible display unit into N adjacent sub-display areas, including:

and dividing the display area of the flexible display unit into the N sub-display areas according to the monitored deformation position.

Optionally, the step of storing in the storage medium: the flexible display unit displays first information in a first display mode, and the corresponding computer instructions, after being executed, comprise the following steps:

monitoring a second amount of change in the first parameter;

generating a second control instruction corresponding to the second variable quantity;

executing the second control instruction, and combining the N sub-display areas into the display area;

displaying second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

Optionally, the step of storing in the storage medium: if the first variation meets a preset condition, generating a first control instruction corresponding to the first variation, wherein the corresponding computer instruction comprises the following steps in the executed process:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variation is larger than or equal to the preset variation, it is indicated that the first variation meets the preset condition, and the first control instruction is generated.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (13)

1. An information processing method is applied to an intelligent watch, the intelligent watch comprises a dial plate and a watchband, and a flexible display unit on the dial plate is fixed on the dial plate through a frame; the method comprises the following steps:

monitoring pressing positions for pressing at least two positions of a frame, and monitoring a first variable quantity of a first parameter of electronic equipment, wherein the first parameter is related to the bending degree of a flexible display unit of the electronic equipment; the first parameters comprise pressure parameters generated by pressing operations on at least two positions of the frame; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

if the first variation meets a preset condition and at least two pressing positions meet a preset relationship, generating a first control instruction corresponding to the first variation and the preset relationship;

executing the first control instruction to complete the function corresponding to the first control instruction;

wherein the executing the first control instruction to complete the function corresponding to the first control instruction includes:

and determining a dividing line for dividing the flexible display unit by the user according to the at least two detected pressing positions, and determining at least two sub-display areas by taking the dividing line as a boundary.

2. The method of claim 1, wherein executing the first control instruction to perform a function corresponding to the first control instruction comprises:

executing the first control instruction, and displaying first information in a first display mode in the flexible display unit; wherein the first display mode is used for indicating the effect of the first information presented in the flexible display unit.

3. The method of claim 2, wherein if the first information includes N first sub information, N is an integer greater than 1; wherein, any sub information in the N pieces of first sub information is a display interface of an application installed in the electronic device, and displaying the first information in the flexible display unit in a first display manner includes:

dividing the display area of the flexible display unit into N adjacent sub-display areas according to the first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

4. The method of claim 3, wherein if N is 2, prior to monitoring the first amount of change in the first parameter of the electronic device, further comprising:

monitoring a deformation position of the electronic equipment, wherein the deformation position is deformed;

dividing a display area of the flexible display unit into N adjacent sub-display areas, including:

and dividing the display area of the flexible display unit into the N sub-display areas according to the monitored deformation position.

5. The method of claim 3, further comprising, after displaying the first information in the flexible display unit in the first display mode:

monitoring a second amount of change in the first parameter;

generating a second control instruction corresponding to the second variable quantity;

executing the second control instruction, and combining the N sub-display areas into the display area;

displaying second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

6. The method according to any one of claims 1 to 5, wherein generating a first control command corresponding to the first variation if the first variation satisfies a predetermined condition includes:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variation is larger than or equal to the preset variation, it is indicated that the first variation meets the preset condition, and the first control instruction is generated.

7. An electronic device is an intelligent watch, the intelligent watch comprises a watch plate and a watch band, and a flexible display unit on the watch plate is fixed on the watch plate through a frame; the electronic device includes:

a sensor, a processor, and a flexible display unit;

the sensor is used for monitoring pressing positions of at least two positions of a frame and monitoring a first variable quantity of a first parameter of the electronic equipment, wherein the first parameter is related to the bending degree of the flexible display unit, and the first parameter comprises a pressure parameter generated by the pressing operation of at least two positions of the frame; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

the processor is used for generating a first control instruction corresponding to the first variable quantity and a preset relation if the first variable quantity meets a preset condition and at least two pressing positions meet the preset relation; executing the first control instruction to complete the function corresponding to the first control instruction;

the processor is used for determining a dividing line for dividing the flexible display unit by a user according to the detected at least two pressing positions, determining at least two sub-display areas by taking the dividing line as a boundary, and displaying first sub-information through the sub-display areas.

8. The electronic device of claim 7,

the processor is used for executing the first control instruction and displaying first information in a first display mode in the flexible display unit; wherein the first display mode is used for indicating the effect of the first information presented in the flexible display unit.

9. The electronic device of claim 8,

if the first information comprises N pieces of first sub information, N is an integer larger than 1; wherein, if any sub information in the N pieces of first sub information is a display interface of an application installed in the electronic device, the processor is configured to:

dividing the display area of the flexible display unit into N adjacent sub-display areas according to the first display mode;

and displaying the N pieces of first sub information through the N pieces of sub display areas.

10. The electronic device of claim 9, wherein if N is 2,

the sensor is used for monitoring a deformation position of the electronic equipment when the electronic equipment deforms before monitoring a first variable quantity of a first parameter of the electronic equipment;

the processor is used for dividing the display area of the flexible display unit into the N sub-display areas according to the monitored deformation position.

11. The electronic device of claim 9,

the sensor is used for monitoring a second variable quantity of the first parameter after first information is displayed in a first display mode in the flexible display unit;

the processor is used for generating a second control instruction corresponding to the second variable quantity; executing the second control instruction, and combining the N sub-display areas into the display area; displaying second information through the display area; the second information is any sub information in the N first sub information before merging, or the second information is content displayed in a preset sub display area in the N sub display areas before merging.

12. The electronic device of any of claims 7-11, wherein the processor is to:

judging whether the first variable quantity is larger than or equal to a preset variable quantity or not; if the first variation is larger than or equal to the preset variation, it is indicated that the first variation meets the preset condition, and the first control instruction is generated.

13. An electronic device is an intelligent watch, the intelligent watch comprises a watch plate and a watch band, and a flexible display unit on the watch plate is fixed on the watch plate through a frame; the electronic device includes:

the display device comprises a monitoring module, a display module and a control module, wherein the monitoring module is used for monitoring pressing positions for pressing at least two positions of a frame and monitoring a first variable quantity of a first parameter of electronic equipment, the first parameter is related to the bending degree of a flexible display unit of the electronic equipment, and the first parameter comprises a pressure parameter generated by the pressing operation on the at least two positions of the frame; the first variation may be used to indicate a variation of a degree of bending of the flexible display unit;

the generating module is used for generating a first control instruction corresponding to the first variable quantity and a preset relation if the first variable quantity meets a preset condition and at least two pressing positions meet the preset relation;

the execution module is used for executing the first control instruction and completing the function corresponding to the first control instruction;

wherein the execution module is specifically configured to:

determining a dividing line for dividing the flexible display unit by a user according to the detected at least two pressing positions, determining at least two sub-display areas by taking the dividing line as a boundary, and displaying first sub-information through the sub-display areas.

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