CN104423538A - Information processing method and device - Google Patents

Abstract

The invention discloses an information processing method and device. The information processing method is applied to electronic equipment which is provided with a sensing unit. The information processing method comprises the following steps: utilizing the sensing unit to detect the multiple form changes of the electronic equipment to obtain a plurality of form change parameters, and converting the form change parameters into a first control command on the basis of a first preset rule; and executing the first control command. According to the technical scheme provided by the method, the method fully utilizes the characteristic of the changeable form of a flexible screen, the control of applications in a mobile terminal can be quickly and conveniently realized, and better user experience is brought for a mobile terminal user. Furthermore, the control command subjected to form change parameter conversion is combined with traditional key signals, handwriting input signals, touch input signals, speech input signals and the like so as to simply provide a confidential mode for controlling application realization for the internal debugging of a mobile terminal production manufacturer.

Description

Information processing method and device

Technical Field

The present invention relates to mobile technologies, and in particular, to an information processing method and apparatus.

Background

The flexible display screen is a latest ultrathin flexible LED display screen system and comprises an LED display unit, a signal processing unit and a power supply unit, wherein the signal processing unit and the power supply unit are connected with the LED display unit through a circuit board. The circuit board is flexible, and can give dynamic aesthetic feeling to people under the change of colors by virtue of beautiful convex lines and various changed unique models. The development of the current LED display screen is developed from the traditional LED display screen to the flexible display screen, and the flexible display screen completely overcomes the limitation of the installation of the traditional display screen.

Although the timeline of flexible displays has been long-lasting, the current level of activity shows a strong interest in this technology and a continuing technological innovation. The development of flexible screens is a trend, and the application of flexible screens is becoming more and more extensive.

At present, the implementation of applications in a mobile terminal is mainly implemented by a keyboard, handwriting, a touch screen, and the like, for example, by touching an application icon in the mobile terminal, starting a QQ application, and the like. If a more convenient and faster mode is available, better user experience can be brought, and eyeballs of the mobile user terminal can be attracted better.

Disclosure of Invention

In order to solve the technical problem, the invention provides an information processing method and an information processing device, which can conveniently and quickly realize control on applications in a mobile terminal.

In order to achieve the object of the present invention, the present invention provides an information processing method applied to an electronic device having a sensing unit, including: detecting multiple morphological changes of the electronic equipment by using the sensing unit to acquire multiple morphological change parameters;

converting the plurality of morphological change parameters into a first control instruction based on a first preset rule;

and executing the first control instruction.

The electronic device has a flexible display unit.

The electronic device has a flexible backplane.

One or more of the morphological change parameters are changed according to a change in the direction of the morphological change.

One or more of the morphological change parameters are changed according to a change in the degree of the morphological change.

One or more of the morphological change parameters are changed according to a change in the number of morphological changes.

The form change parameter is a flexible screen bending signal;

presetting flexible screen bending signals in two different directions of the flexible display unit, wherein the flexible screen bending signal in one direction is a first control signal, and the flexible screen bending signal in the other direction is a second control signal;

the conversion of the flexible screen bending signal into a control signal is: and corresponding the detected flexible screen bending signals in different directions to corresponding control signals.

And when the number of the flexible screen bending signals is two or more, detecting that the time interval between the flexible screen bending signals is within a preset time interval.

The method further comprises the following steps: the preset rule is a corresponding relation between a control instruction and a control action; the executing the first control instruction comprises:

and searching the corresponding control action according to the obtained first control instruction and controlling the application.

The invention also provides an information processing device, which is applied to electronic equipment, wherein the electronic equipment is provided with a sensing unit and at least comprises an acquisition module, a processing module and an execution module,

the acquisition module is used for detecting multiple morphological changes of the electronic equipment by using the sensing unit so as to acquire multiple morphological change parameters;

the processing module is used for converting the plurality of morphological change parameters into a first control instruction based on a first preset rule;

and the execution module is used for executing the first control instruction.

One or more of the morphological change parameters changes according to a change in the direction of the morphological change; or, one or more of the morphological change parameters changes according to a change in the degree of the morphological change; alternatively, one or more of the morphological change parameters may be changed according to a change in the number of morphological changes.

Presetting a preset rule in the execution module, wherein the preset rule is a corresponding relation between a control instruction and a control action;

the execution module is specifically configured to: and searching the corresponding control action according to the obtained first control instruction and controlling the application.

Compared with the prior art, the invention is applied to the electronic equipment with the sensing unit, and comprises the following components: detecting multiple morphological changes of the electronic equipment by using a sensing unit to obtain multiple morphological change parameters, and converting the multiple morphological change parameters into a first control instruction based on a first preset rule; and executing the first control instruction. According to the technical scheme provided by the invention, the characteristic that the flexible screen is changeable is fully utilized, the control on the application in the mobile terminal is conveniently and quickly realized, and better user experience is brought to a mobile terminal user. Furthermore, a secret control application implementation mode is simply provided for the internal debugging of mobile terminal manufacturers by utilizing the combination of the control instruction after the form change parameter conversion and the existing key signal, handwriting input signal, touch input signal, voice input signal and the like.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a flowchart of a method of implementing an application in a mobile terminal according to the present invention;

FIG. 2 is a schematic diagram of deformation of a flexible screen;

fig. 3 is a schematic diagram of a structure of an apparatus for implementing an application in a mobile terminal according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

The steps illustrated in the flow charts of the figures may be performed in a computer system such as a set of computer-executable instructions. 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.

At present, the control of applications in the mobile terminal can be realized through key pressing, handwriting, touch, voice and other modes. With the development of the application of the flexible screen in the mobile terminal, the invention provides a method for realizing the control of the application in the mobile terminal by utilizing the bendable characteristic of the flexible screen, on one hand, a more convenient mode can be provided, and on the other hand, a plurality of confidential control application realization modes can be provided for the internal debugging of mobile terminal manufacturers.

Fig. 1 is a flowchart of a method for implementing an application in a mobile terminal according to the present invention, which is applied to an electronic device having a sensing unit, as shown in fig. 1, and includes:

step 100: the sensing unit is used for detecting multiple morphological changes of the electronic equipment to obtain multiple morphological change parameters, and the multiple morphological change parameters are converted into a first control instruction based on a first preset rule.

Wherein one or more of the morphology change parameters changes according to a change in the direction of the morphology change; or, one or more of the morphological change parameters are changed according to a change in the degree of the morphological change; alternatively, one or more of the morphological change parameters are changed according to a change in the number of morphological changes.

Fig. 2 is a schematic diagram of deformation of a flexible screen, where the deformation of the flexible screen can be represented by parameters such as a bending degree, a bending direction, and a bending number, and these deformation parameters can be detected by sensors, such as a tension sensor, an acceleration sensor, and the like. The specific detection method does not belong to the protection scope of the present application, and is not used to limit the protection scope of the present application, and is not described herein again. The present application emphasizes the use of detected morphological change parameters.

The change of the degree of the form change, such as the bending degree of the flexible screen, specifically includes obtaining the bending degree of the flexible screen by using an acceleration sensor, and specific implementation may be referred to in related applications of the present applicant, such as an acceleration sensor, and the specific detection method is not intended to be protected by the present invention, and the specific implementation thereof is not intended to limit the scope of the present invention. The present invention emphasizes the use of a detected degree of bending signal of the flexible screen. In the embodiment of the present invention, the corresponding relationship between different bending degrees and the control signal may be preset, for example, when the bending degree is greater than a preset threshold, the corresponding control signal is "1", and when the bending degree is less than the preset threshold, the corresponding control signal is "0".

In terms of the change of the number of the form changes, such as the number of times that the flexible screen deforms, those skilled in the art know that the deformation, i.e., the bending, of the flexible screen can be detected by a sensor, such as a tension sensor, and the specific detection method is not intended to be protected by the present invention, and the specific implementation thereof is not intended to limit the protection scope of the present invention. The invention emphasizes the statistics and utilization of the times of deformation of the flexible screen. In the embodiment of the present invention, a corresponding relationship between the number of times and the control signal may be preset, for example, when the number of times of deformation of the flexible screen is greater than a preset threshold, the corresponding control signal is "1", and when the number of times of deformation of the flexible screen is less than the preset threshold, the corresponding control signal is "0".

The change in the direction of the form change, such as the bending of the flexible screen, is described as an example.

Those skilled in the art will appreciate that the bending of the flexible screen includes bending in both inward and outward directions, and that the bending signals for different directions can be detected by sensors, such as tension sensors, etc., and the specific detection method is not intended to be covered by the present invention, and the specific implementation thereof is not intended to limit the scope of the present invention. The present invention emphasizes the use of the detected flexible screen bending signal.

In the step, for the detected flexible screen bending signals in two different directions, one direction is represented by a first control signal such as '0', and the other opposite direction is represented by a second control signal such as '1'.

In this step, the detection of the two successive flexible screen bending signals as a control signal is in a preset time interval, that is, if the successive bending operations are in the time interval, the successive bending operations are represented as a continuous operation and are processed as a control signal; if the successive bending operation exceeds the time interval, the next bending operation of the flexible screen is another operation and is to be processed as a next control signal.

In this step, the first control command may be obtained by arbitrarily combining the change in the degree of the form change, the change in the number of times of the form change, and the change in the direction of the form change. For example, when the bending degree and the bending direction of the flexible screen are the same, different control instructions are obtained according to different bending times of the flexible screen, for example, a control signal corresponding to 1 inward bending time within 1 second is "0", and a control signal corresponding to 2 inward bending times within 1 second is "1", and the like.

Step 101: and executing the first control instruction.

For simplicity of description, the following description will be made taking the change in the direction of the form change, such as the bending of the flexible screen, as an example.

In this step, the control signal obtained by converting the flexible screen bending signal, or the flexible screen bending degree signal, or the flexible screen bending frequency can be used alone to control the application in the mobile terminal.

Taking the control signal obtained by converting the flexible screen bending signal as an example, the specific implementation may include: and presetting the corresponding relation between the control signal and the control action, and then searching the corresponding control action according to the control signal and controlling the application.

For example, assume that the inward bow is represented by control signal "0" and the outward bow is represented by control signal "1". When the preset control signal is '0101', the QQ application is started correspondingly. In step 100, if the detected flexible screen is continuously subjected to the inward bending, outward bending, inward bending and outward bending operations, the control signal corresponding to the operation performed on the flexible screen is 0101. Thus, in this step, the mobile terminal finds the corresponding control operation to open the QQ application according to the obtained control signal 0101.

In this step, the control signal obtained by converting the flexible screen bending signal may be used in combination with the existing key signal, handwriting input signal, touch input signal, voice input signal, and the like. The combination mode simply provides a plurality of secret control application implementation modes for the internal debugging of mobile terminal manufacturers. The specific implementation can include: and presetting the corresponding relation between the control signal and the control action, and then finding out the corresponding control action according to the control signal to control the application.

For example, assume that the inward bow is represented by control signal "0" and the outward bow is represented by control signal "1". And when the preset control signal is 'pressing the number keys 5+0101+ pressing the number key 6', correspondingly starting the unlocking application of the mobile terminal. In step 100, if it is detected that the user presses the number key 5 in the numeric keypad, the flexible screen is continuously subjected to the inward bending, outward bending, inward bending and outward bending operations, and then presses the number key 6 in the numeric keypad, then the operation corresponds to a control signal of "press the number key 5+0101+ press the number key 6". In this way, in this step, the mobile terminal finds the corresponding control operation according to the obtained control signal to unlock the mobile terminal.

For another example, assume that the inward bow is represented by control signal "0" and the outward bow is represented by control signal "1". And when the preset control signal is 'handwriting input A + 011', correspondingly starting the WeChat application of the mobile terminal. In step 100, if after detecting the user handwriting input a, the flexible screen is continuously subjected to inward bending, outward bending and outward bending operations, then the control signal corresponding to the operation is "handwriting input a + 011". Thus, in this step, the mobile terminal finds the corresponding control operation start WeChat according to the obtained control signal.

As another example, assume that the inward bow is represented by control signal "0" and the outward bow is represented by control signal "1". And when the preset control signal is '0 + touch screen input number 9', correspondingly starting the QQ application of the mobile terminal. In step 100, if the user is detected to continuously bend the flexible screen inwards and then input the number 9 through the touch screen, the control signal corresponding to the operation is "0 + the touch screen input number 9". Thus, in this step, the mobile terminal will find the corresponding control operation to turn on the QQ application according to the obtained control signal.

It should be noted that the detection of the key operation of the numeric keys, the operation of the handwritten information, the operation of the touch screen, the operation of the voice input eraser, etc. belongs to the mature prior art, and the specific implementation thereof does not belong to the protection scope of the present invention.

Similarly, the detection of the signal (whether between key operations, handwriting operations, touch screen operations, or voice input operations; or between key operations, handwriting operations, touch screen operations, or voice input operations, and bending flexible screen operations) is performed in a preset time interval, that is, if the detection of the signal is performed in the time interval, the signal is a continuous operation and is processed as a control signal; if the successive detection operation exceeds the time interval, the subsequent detection operation indicates another operation and should be processed as the next control signal. The time interval between different detection operations may be different, and this may be set according to practical application, and the specific implementation thereof belongs to the conventional technical means of those skilled in the art, and will not be described herein again.

Aiming at the method of the present invention, there is also provided an apparatus for implementing an application in a mobile terminal, which is applied to an electronic device having a sensing unit, as shown in fig. 3, and at least includes a control signal acquiring module, a processing module, and an executing module, wherein,

the acquisition module is used for detecting multiple morphological changes of the electronic equipment by using the sensing unit so as to acquire multiple morphological change parameters;

further, the obtaining module is further configured to obtain an existing control signal, including but not limited to a key, handwriting, a touch screen, a voice input, and the like.

And the processing module is used for converting the plurality of form change parameters into a first control instruction based on a first preset rule.

And the execution module is used for controlling the application in the mobile terminal by using the control instruction obtained after conversion.

Presetting a preset rule in an execution module, wherein the preset rule is a corresponding relation between a control instruction and a control action; the execution module is specifically configured to: and searching the corresponding control action according to the obtained first control instruction and controlling the application.

Wherein, the control command includes: a control instruction after the form change parameter conversion; or,

the control instructions include: the control instruction after the form change parameter conversion and the following control signals: any combination of key signals, handwriting input signals, touch input signals, voice input signals, and the like.

It will be appreciated by those skilled in the art that the components of the apparatus and steps of the method provided in the embodiments of the present application described above may be centralized on a single computing device or distributed across a network of multiple computing devices. Alternatively, they may be implemented in program code executable by a computing device. Thus, they may be stored in a memory device for execution by a computing device, or they may be separately fabricated as individual integrated circuit modules, or multiple modules or steps thereof may be fabricated as a single integrated circuit module for implementation. Thus, the present invention is not limited to any specific combination of hardware and software.

Although the embodiments of the present invention have been described above, the above description is only for the convenience of understanding the present invention, and is not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (12)

1. An information processing method is applied to an electronic device, the electronic device is provided with a sensing unit, and the information processing method comprises the following steps: detecting multiple morphological changes of the electronic equipment by using the sensing unit to acquire multiple morphological change parameters;

converting the plurality of morphological change parameters into a first control instruction based on a first preset rule;

and executing the first control instruction.

2. The information processing method according to claim 1, wherein the electronic device has a flexible display unit.

3. The information processing method according to claim 1, wherein the electronic device has a flexible backplane.

4. The information processing method according to claim 1, wherein one or more of the morphological change parameters are changed in accordance with a change in a direction of the morphological change.

5. The information processing method according to claim 1, wherein one or more of the morphological change parameters are changed in accordance with a change in a degree of the morphological change.

6. The information processing method according to claim 1, wherein one or more of the morphological change parameters are changed in accordance with a change in the number of morphological changes.

7. The method of claim 2, wherein the form-change parameter is a flexible screen bending signal;

presetting flexible screen bending signals in two different directions of the flexible display unit, wherein the flexible screen bending signal in one direction is a first control signal, and the flexible screen bending signal in the other direction is a second control signal;

the conversion of the flexible screen bending signal into a control signal is: and corresponding the detected flexible screen bending signals in different directions to corresponding control signals.

8. The information processing method according to claim 7, wherein when the number of the flexible panel bending signals is two or more, a time interval between the flexible panel bending signals is detected within a preset time interval.

9. The method of claim 1, further comprising: the preset rule is a corresponding relation between a control instruction and a control action; the executing the first control instruction comprises:

and searching the corresponding control action according to the obtained first control instruction and controlling the application.

10. An information processing device is applied to an electronic device, the electronic device is provided with a sensing unit and is characterized by at least comprising an acquisition module, a processing module and an execution module, wherein,

the acquisition module is used for detecting multiple morphological changes of the electronic equipment by using the sensing unit so as to acquire multiple morphological change parameters;

the processing module is used for converting the plurality of morphological change parameters into a first control instruction based on a first preset rule;

and the execution module is used for executing the first control instruction.

11. The information processing apparatus according to claim 10,

one or more of the morphological change parameters changes according to a change in the direction of the morphological change; or, one or more of the morphological change parameters changes according to a change in the degree of the morphological change; alternatively, one or more of the morphological change parameters may be changed according to a change in the number of morphological changes.

12. The information processing apparatus according to claim 10, wherein a preset rule is preset in the execution module as a correspondence relationship between a control instruction and a control action;

the execution module is specifically configured to: and searching the corresponding control action according to the obtained first control instruction and controlling the application.