CN104020868A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The electronic equipment comprises a touch unit. The method comprises the following steps: detecting whether first touch operation executed by a first operation body exists on the touch unit or not; when the first touch operation exists, obtaining K pressure values of K touch points in N touch points on the touch unit for the first touch operation, wherein N is an integer more than one, and K is an integral more than one or less than or equal to N; and on the basis of the corresponding relationship among a touch point number, the pressure values and a control command, generating and executing a command corresponding to the N touch points and the K pressure values as a first control command.

Description

A kind of method of information processing and electronic equipment

Technical field

The application relates to electronic technology field, particularly a kind of method of information processing and electronic equipment.

Background technology

Along with the fast development of electronic technology, the function of mobile phone from strength to strength, various application programs emerge in an endless stream, internal memory and the processor of smart mobile phone can support a large amount of programs to move in mobile phone at present, for the display screen that makes mobile phone does more as far as possible, smart mobile phone substantially all tends to design becomes control mode touch mode, be that display unit and input block combine, user directly carries out input operation on display unit, compared with keyboard input, touch-screen input has improved the experience sense of interactive mode, in current touch-control mobile phone, can realize the control that application programs is different by the touch control manner on touching display screen according to user, such as, click, double-click, slide left, slide to the right, even can realize the trigger action that can respond to multiple fingers and generate steering order.

But present inventor realizing in the process of invention technical scheme in the embodiment of the present application, finds that above-mentioned technology at least exists following technical matters:

In current touch-control electronic equipment, exist can not be according to operating body the force value of the touch control operation in touch-display unit generate the technical matters of the steering order of accordingly electronic equipment being controlled.

Summary of the invention

The embodiment of the present application is by a kind of method and electronic equipment of information processing are provided, in order to solve in existing touch-control electronic equipment, exist can not be according to operating body the force value of the touch control operation in touch-display unit generate the technical matters of the steering order of accordingly electronic equipment being controlled.

On the one hand, the embodiment of the present application provides a kind of method of information processing, is applied in an electronic equipment, and described electronic equipment comprises a touch control unit, and described method comprises:

Detect the first touch control operation that whether has the first operating body to carry out on described touch control unit;

In the time having described the first touch control operation, obtain K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, wherein, N is greater than 1 integer, and K is greater than 1 and be less than or equal to the integer of N;

Count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Optionally, K force value of K touch point in N the touch point of described the first touch control operation of described acquisition on described touch control unit, specifically comprises:

Detect and obtain N the touch point of described the first touch control operation on described touch control unit by the touch-control sensing unit in described touch control unit;

Obtain in a described N touch point K the force value of K touch point on described touch control unit by the pressure transducer in described electronic equipment.

Optionally, describedly obtain in a described N touch point K the force value of K touch point on described touch control unit by the pressure transducer in described electronic equipment and specifically comprise:

Detect described electronic equipment and whether open the first application program;

In the time that the first application program is opened, adjust the induction range of described pressure transducer according to the application window of described the first application program;

In described application window, obtain in a described N touch point K the force value of K touch point on described touch control unit by described pressure transducer.

Optionally, describedly count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order, specifically comprises:

Judge in a described K force value, whether each force value is more than or equal to a preset pressure value;

Obtain M the force value that is more than or equal to described preset pressure value in a described K force value, wherein, M is less than or equal to K;

In the time that M equals K, count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Optionally, describedly count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order, specifically comprises:

Judge in a described K force value, whether each force value is more than or equal to a preset pressure value;

Obtain M the force value that is more than or equal to described preset pressure value in a described K force value, wherein, M is less than or equal to K;

In the time that M is less than K and M and is not 0, count based on touch-control, the corresponding relation between force value and steering order, instruction corresponding to generation execution and a described N touch point and a described M force value is second steering order different with described the first steering order.

Optionally, be more than or equal to M force value of described preset pressure value in the described K of a described acquisition force value after, and in the time that M equals 0, described method also comprises:

Detect the second touch control operation that whether has described the first operating body to carry out on described touch control unit;

In the time having described the second touch control operation, obtain Q force value of Q touch point in P the touch point of described the second touch control operation on described touch control unit, wherein, P is greater than 1 integer, and Q is greater than 1 and be less than or equal to the integer of P;

Count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described P touch point and a described Q force value is the 3rd steering order.

Optionally, M the force value that is more than or equal to described preset pressure value in the described K of a described acquisition force value is specially:

Obtain each touch point in described K touch point corresponding to a described K force value and contact the touch-control duration of described touch control unit, and then obtain K touch-control duration;

Obtain J the touch-control duration that is more than or equal to a Preset Time section in described K touch-control duration, wherein, J is the integer that is more than or equal to M and is less than or equal to K;

From described J touch-control force value corresponding to described J touch-control duration, obtain M the force value that is more than or equal to described preset pressure value.

On the other hand, the embodiment of the present application also provides a kind of electronic equipment, and described electronic equipment comprises a touch control unit, and described electronic equipment also comprises:

The first detecting unit, for detection of the first touch control operation that whether has the first operating body to carry out on described touch control unit;

First obtains unit, in the time having described the first touch control operation, obtains K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, and wherein, N is greater than 1 integer, and K is greater than 1 and be less than or equal to the integer of N;

The first generation unit, for counting based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Optionally, described first obtain unit specifically comprise:

Touch-control sensing unit, for detection of obtaining N the touch point of described the first touch control operation on described touch control unit;

Pressure transducer, for obtaining K the force value of a described N touch point K touch point on described touch control unit.

Optionally, described pressure transducer specifically comprises:

Whether detecting unit, open the first application program for detection of described electronic equipment;

Adjustment unit, in the time that the first application program is opened, adjusts the induction range of described pressure transducer according to the application window of described the first application program;

Force value obtains unit, for obtain K the force value of a described N touch point K touch point on described touch control unit by described pressure transducer in described application window.

Optionally, described the first generation unit specifically comprises:

The first judgment sub-unit, for judging whether each force value of a described K force value is more than or equal to a preset pressure value;

First obtains subelement, is more than or equal to M force value of described preset pressure value for obtaining a described K force value, and wherein, M is less than or equal to K;

First generates subelement, in the time that M equals K, count based on touch-control, and the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Optionally, described the first generation unit specifically comprises:

The second judgment sub-unit, for judging whether each force value of a described K force value is more than or equal to a preset pressure value;

Second obtains subelement, is more than or equal to M force value of described preset pressure value for obtaining a described K force value, and wherein, M is less than or equal to K;

Second generates subelement, while being not 0 for be less than K and M as M, count based on touch-control, the corresponding relation between force value and steering order, instruction corresponding to generation execution and a described K touch point and a described M force value is second steering order different with described the first steering order.

Optionally, described electronic equipment also comprises:

The second detecting unit, for detection of the second touch control operation that whether has described the first operating body to carry out on described touch control unit;

Second obtains unit, in the time having described the second touch control operation, obtains Q force value of Q touch point in P the touch point of described the second touch control operation on described touch control unit, and wherein, P is greater than 1 integer, and Q is greater than 1 and be less than or equal to the integer of P;

The second generation unit, for counting based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described P touch point and a described Q force value is the 3rd steering order.

Optionally, described second obtain subelement specifically comprise:

The 3rd obtains subelement, contacts the touch-control duration of described touch control unit for obtaining described K the each touch point of touch point corresponding to a described K force value, and then obtains K touch-control duration;

The 4th obtains subelement, is more than or equal to J the touch-control duration of a Preset Time section for obtaining described K touch-control duration, and wherein, J is the integer that is more than or equal to M and is less than or equal to K;

The 5th obtains subelement, for obtaining from described J described J touch-control force value corresponding to touch-control duration M the force value that is more than or equal to described preset pressure value.

The one or more technical schemes that provide in the embodiment of the present application, at least have following technique effect or advantage:

(1) due in the embodiment of the present application, adopt and detected touch-control count and touch-control count the force value of operating body at the touch control operation of touch control unit surface execution, obtain the touch point that is more than or equal to preset pressure value, then count based on touch-control, relation between force value and steering order generates and carries out the corresponding technological means that can control the steering order of application program in electronic equipment, solved in existing touch-control electronic equipment, exist can not be according to operating body the force value of the touch control operation in touch-display unit generate the technical matters of the steering order of accordingly electronic equipment being controlled, realize and can count and count corresponding force value of touch-control realizes the technique effect of the steering order that generates control program according to the touch-control of touch control operation.

(2) due in the embodiment of the present application, adopt in the time that detection has obtained multiple touch point, whether the force value that not only judges each touch point reaches preset pressure value, also to judge whether the touch-control duration of each touch point on touch screen reaches the technological means of Preset Time section, in generating different steering orders according to different touch points, also realize the technique effect that prevents user misoperation.

Brief description of the drawings

The method flow diagram of a kind of information processing that Fig. 1 provides for the embodiment of the present application;

The structural drawing of a kind of electronic equipment that Fig. 2 provides for the embodiment of the present application.

Embodiment

The embodiment of the present application is by providing a kind of method and electronic equipment of information processing, solved in existing touch-control electronic equipment, exist can not be according to operating body the force value of the touch control operation in touch-display unit generate the technical matters of the steering order of accordingly electronic equipment being controlled.

Technical scheme in the embodiment of the present application is for addressing the above problem, and general thought is as follows:

A kind of method of information processing is provided, is applied to an electronic equipment, described electronic equipment comprises a touch control unit, and described method comprises:

Detect the first touch control operation that whether has the first operating body to carry out on described touch control unit;

In the time having described the first touch control operation, obtain K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, wherein, N is greater than 1 integer, and K is greater than 1 and be less than or equal to the integer of N;

Count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Visible, the embodiment of the present application detects touch-control count and touch-control count the force value of operating body at the touch control operation of touch control unit surface execution owing to adopting, obtain the touch point that is more than or equal to preset pressure value, then count based on touch-control, relation between force value and steering order generates and carries out the corresponding technological means that can control the steering order of application program in electronic equipment, solved in existing touch-control electronic equipment, exist can not be according to operating body the force value of the touch control operation in touch-display unit generate the technical matters of the steering order of accordingly electronic equipment being controlled, realize and can count and count corresponding force value of touch-control realizes the technique effect of the steering order that generates control program according to the touch-control of touch control operation.

In order better to understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail, be to be understood that the specific features in the embodiment of the present application and embodiment is the detailed explanation to present techniques scheme, instead of restriction to present techniques scheme, in the situation that not conflicting, the technical characterictic in the embodiment of the present application and embodiment can combine mutually.

The electronic equipment that the method for a kind of information processing providing in the embodiment of the present application is mainly used in refers to the electronic equipment with touch control unit, and such as touch screen smart mobile phone, panel computer etc., illustrate as an example of touch screen smart mobile phone example below.

As shown in Figure 1, the method for the information processing that the embodiment of the present application provides, specifically comprises step:

S1: detect the first touch control operation that whether has the first operating body to carry out on described touch control unit;

In specific implementation process, in the time carrying out touch control operation on the touch-screen of cellphone subscriber at mobile phone, mobile phone can detect whether there is executable the first touch control operation.

S2: in the time having described the first touch control operation, obtain K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, wherein, N is greater than 1 integer, K is greater than 1 and be less than or equal to the integer of N;

Further, step S2 specifically comprises:

Detect and obtain N the touch point of described the first touch control operation on described touch control unit by the touch-control sensing unit in described touch control unit;

Obtain in a described N touch point K the force value of K touch point on described touch control unit by the pressure transducer in described electronic equipment.

In specific implementation process, in the time that mobile phone has detected executable the first touch control operation, just obtain the N of the first touch control operation on a touch screen touch point by the touch-control sensor on touch screen, and obtain force value corresponding to each touch point in this N touch point by pressure transducer in mobile phone, wherein, N is more than or equal to 1 integer.

Further, describedly obtain in a described N touch point K the force value of K touch point on described touch control unit by the pressure transducer in described electronic equipment and specifically comprise:

Detect described electronic equipment and whether open the first application program;

In the time that the first application program is opened, adjust the induction range of described pressure transducer according to the application window of described the first application program;

In described application window, obtain in a described N touch point K the force value of K touch point on described touch control unit by described pressure transducer.

In specific implementation process, under touch control unit in the embodiment of the present application, there is the pressure that one deck is combined to form by pressure transducer to shield, when after first application program that mobile phone open detected, system can be adjusted according to the application window of the first application program the induction range of pressure screen, only obtain the force value of touch point at the scope internal induction of application window, such as, the application window of first application program of opening on the mobile phone of 5 cun of display screens is 3 cun, in the time that user has a touch control operation on display screen, capacitance plate under display screen can detect that user's touch control operation has produced 3 touch points on the display screen of whole 5 cun, wherein, 2 touch points drop in the application window of 3 cun, on the display screen that 1 is dropped on outside application window, because now the induction range of pressure screen is adjusted into the scope of application window, so pressure screen only detects 2 force value that obtain 2 touch points in the application window of 3 cun.

S3: count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

In specific implementation process, through step S2 obtained that N executable touch-control counted and N touch point in after K touch point K touch-control force value on touch screen, system is just counted based on touch-control, corresponding relation between force value and steering order, generation execution and a described N touch point and a described K force value are to being applied to the first steering order of first program of control.Touch-control is counted, corresponding relation between force value and steering order specifically refers to the application program that the touch point number when reaching preset pressure value in a touch control operation that sets in advance in cell phone system can be controlled, such as, set forth touch-control below by a form and count, the corresponding relation between force value and steering order:

can find out according to the corresponding relation of giving an example above, when the touch control operation of user on Mobile phone touch control screen has 5 touch points and 3 contact force values that drop in picture application window to reach after 1N, will start browsing pictures function.

Further, step S3 specifically comprises:

Judge in a described K force value, whether each force value is more than or equal to a preset pressure value;

Obtain M the force value that is more than or equal to described preset pressure value in a described K force value, wherein, M is less than or equal to K;

In the time that M equals K, count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

In specific implementation process, comprise according to the detailed process that touch-control is counted and the force value of touch point generates steering order: when detecting by touch-control sensor after N the touch point having obtained on touch screen, and obtain wherein after K touch-control force value of K touch point on touch screen by pressure transducer, just judge whether K K force value corresponding to touch point has all reached the pressure threshold setting in advance on pressure transducer, obtain M the force value that is wherein more than or equal to preset pressure value, M is less than or equal to K, in the time that M equals K, the force value that namely pressure shields all touch points that detect has all reached default force value, now, cell phone system just can be counted based on touch-control, corresponding relation between force value and steering order, the first steering order of the first program in generation execution control corresponding to a described N touch point and described K force value mobile phone.

Further, step S3 specifically comprises:

Judge in a described K force value, whether each force value is more than or equal to a preset pressure value;

Obtain M the force value that is more than or equal to described preset pressure value in a described K force value, wherein, M is less than or equal to K;

In the time that M is less than K and M and is not 0, count based on touch-control, the corresponding relation between force value and steering order, instruction corresponding to generation execution and a described N touch point and a described M force value is second steering order different with described the first steering order.

In specific implementation process, generate the process of the steering order to application program of mobile phone accordingly for what further Optimization Steps S3 provided according to number of contacts and force value, also provide in the embodiment of the present application further Optimization Steps: be more than or equal to after M force value of preset pressure value when obtain force value from K touch point, if M is less than K and M is not 0, just count based on touch-control, corresponding relation between force value and steering order, the second steering order of the second application program is controlled in generation execution and a described N touch point and corresponding being used for of a described M force value.The system that is to say is counted based on touch-control, the steering order that corresponding relation between force value and steering order generates, wherein the number of touch point specifically refers to that those touch-controls that force value in all number of contacts that detect is more than or equal to preset pressure value count, such as known according to the correspondence table in above-mentioned steps S3, if the number of contacts detecting by touch-control sensor is 5, and wherein pressure shields touch-control that the force value detecting is more than or equal to preset pressure value and counts and only have 2, system will based on predefined 5 touch-controls count and 2 force value and steering order between relation generate the steering order of corresponding startup camera function, and system is to generate steering order according to the maximum touch-control number that can meet preset pressure value, detect while having the force value of 3 touch points to satisfy condition in 5 touch points when actual, obviously the force value that meets 2 touch points reaches the condition of preset pressure value, but system remains according to the touch point numerical value that satisfies condition maximum and generates and carry out corresponding steering order, so can generate based on 5 touch points and 3 force value the steering order of browsing pictures, instead of generation starts the steering order of camera function.

Further, M the force value that is more than or equal to described preset pressure value in the described K of a described acquisition force value is specially:

Obtain each touch point in described K touch point corresponding to a described K force value and contact the touch-control duration of described touch control unit, and then obtain K touch-control duration;

Obtain J the touch-control duration that is more than or equal to a Preset Time section in described K touch-control duration, wherein, J is the integer that is more than or equal to M and is less than or equal to K;

From described J touch-control force value corresponding to described J touch-control duration, obtain M the force value that is more than or equal to described preset pressure value.

In specific implementation process, M this step of force value that is more than or equal in the embodiment of the present application described preset pressure value to obtaining in a described K force value also proposes progressive prioritization scheme: when pressure screen detects K touch point of acquisition, also obtain the touch-control duration of K touch point on touch screen, and therefrom obtain out J the touch point that the touch-control duration is more than or equal to Preset Time section, wherein, J is the integer that is more than or equal to M and is less than or equal to K, obtaining that force value is more than or equal to preset pressure value and touch-control time and reach J the touch point corresponding to J force value of Preset Time section from K touch point.That is to say, the pre-conditioned force value that is not only arranged on touch point will be reached to preset pressure value, also require the touch-control duration of touch point on screen also will reach Preset Time section.Like this, while not reaching Preset Time section, system can not generate corresponding steering order yet, can prevent the maloperation of user's touch screen the duration of the touch point producing when user's touch screen operation on touch screen.

Visible, in the embodiment of the present application owing to adopting in the time that detection has obtained multiple touch point, whether the force value that not only judges each touch point reaches preset pressure value, also to judge whether the touch-control duration of each touch point on touch screen reaches the technological means of Preset Time section, in generating different steering orders according to different touch points, also realize the technique effect that prevents user misoperation.

Further, be more than or equal to M force value of described preset pressure value in the described K of a described acquisition force value after, and in the time that M equals 0, described method also comprises:

Detect the second touch control operation that whether has described the first operating body to carry out on described touch control unit;

In the time having described the second touch control operation, obtain Q force value of Q touch point in P the touch point of described the second touch control operation on described touch control unit, wherein, P is greater than 1 integer;

Count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described P touch point and a described Q force value is the 3rd steering order.

In specific implementation process, in the time that M equals 0, in the time that system does not get force value and is more than or equal to the touch point of preset pressure value from N force value, system can directly detect next time, obtain the second touch control operation that whether has user, in the time having the second touch control operation, just detect and obtain P the touch point of the second touch control operation on touch screen and Q Q the force value that touch point is corresponding wherein, then count based on touch-control, corresponding relation between force value and steering order, the 3rd steering order of generation execution control three application program corresponding with a described P touch point and a described Q force value.

Based on same inventive concept, the embodiment of the present application also provides a kind of electronic equipment, as shown in Figure 2, specifically comprises:

The first detecting unit 10, for detection of the first touch control operation that whether has the first operating body to carry out on described touch control unit;

First obtains unit 20, for in the time having described the first touch control operation, obtain K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, wherein, N is greater than 1 integer, and K is greater than 1 and be less than or equal to the integer of N;

Further, described the first acquisition unit 20 specifically comprises:

Touch-control sensing unit, for detection of obtaining N the touch point of described the first touch control operation on described touch control unit;

Pressure transducer, for obtaining K the force value of a described N touch point K touch point on described touch control unit.

Further, described pressure transducer specifically comprises:

Whether detecting unit, open the first application program for detection of described electronic equipment;

Adjustment unit, in the time that the first application program is opened, adjusts the induction range of described pressure transducer according to the application window of described the first application program;

Force value obtains unit, for obtain K the force value of a described N touch point K touch point on described touch control unit by described pressure transducer in described application window.

The first generation unit 30, for counting based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Further, described the first generation unit 30 specifically comprises:

The first judgment sub-unit, for judging whether each force value of a described K force value is more than or equal to a preset pressure value;

First obtains subelement, is more than or equal to M force value of described preset pressure value for obtaining a described K force value, and wherein, M is less than or equal to K;

First generates subelement, in the time that M equals K, count based on touch-control, and the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

Further, described the first generation unit 30 specifically comprises:

The second judgment sub-unit, for judging whether each force value of a described K force value is more than or equal to a preset pressure value;

Second obtains subelement, is more than or equal to M force value of described preset pressure value for obtaining a described K force value, and wherein, M is less than or equal to K;

Second generates subelement, while being not 0 for be less than K and M as M, count based on touch-control, the corresponding relation between force value and steering order, instruction corresponding to generation execution and a described N touch point and a described M force value is second steering order different with described the first steering order.

Further, described the second acquisition subelement specifically comprises:

The 3rd obtains subelement, contacts the touch-control duration of described touch control unit for obtaining described K the each touch point of touch point corresponding to a described K force value, and then obtains K touch-control duration;

The 4th obtains subelement, is more than or equal to J the touch-control duration of a Preset Time section for obtaining described K touch-control duration, and wherein, J is the integer that is more than or equal to M and is less than or equal to K;

The 5th obtains subelement, for obtaining from described J described J touch-control force value corresponding to touch-control duration M the force value that is more than or equal to described preset pressure value.

Further, described electronic equipment also comprises:

The second detecting unit, for detection of the second touch control operation that whether has described the first operating body to carry out on described touch control unit;

Second obtains unit, in the time having described the second touch control operation, obtains Q force value of Q touch point in P the touch point of described the second touch control operation on described touch control unit, and wherein, P is greater than 1 integer;

The second generation unit, for counting based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described P touch point and a described Q force value is the 3rd steering order.

For the clearer those of ordinary skill in the art of allowing understand the method in the embodiment of the present application, introduce in conjunction with a concrete application scenarios:

Suppose that user A has an intelligent touch mobile phone, wherein, in this smart mobile phone, be provided with touch-control sensor and pressure transducer, the preset pressure value of the touch point that system sets in advance is 2N, the default touch-control time period is 2S, and touch-control is counted, the force value that corresponding relation between force value and steering order is preset as 4 touch points all reaches 2N and touch-control time while all reaching 2S, with regard to the camera function of starting hand-set, there is the force value of 3 touch points all to reach 2N and touch-control time while all reaching 2S, with regard to the music playback function of starting hand-set, in the time that mobile phone detects first touch control operation of user A on touch screen, obtaining by touch-control sensor touch-control that touch-control duration wherein reaches 2S counts while being 5, detect again the force value of each touch point by pressure transducer, if detect that the force value that 4 touch-controls are counted all reaches 2N, just generate and carry out the steering order of opening camera, starting hand-set camera mode.

The one or more technical schemes that provide in the embodiment of the present application, at least have following technique effect or advantage:

(1) due in the embodiment of the present application, adopt and detected touch-control count and each touch-control count the force value of operating body at the touch control operation of touch control unit surface execution, obtain the touch point that is more than or equal to preset pressure value, then count based on touch-control, relation between force value and steering order generates and carries out the corresponding technological means that can control the steering order of application program in electronic equipment, solved in existing touch-control electronic equipment exist can not be according to operating body the force value of the touch control operation in touch-display unit generate the technical matters of the steering order of accordingly electronic equipment being controlled, realize and can count and count corresponding force value of touch-control realizes the technique effect of the steering order that generates control program according to the touch-control of touch control operation.

(2) due in the embodiment of the present application, adopt in the time that detection has obtained multiple touch point, whether the force value that not only judges each touch point reaches preset pressure value, also to judge whether the touch-control duration of each touch point on touch screen reaches the technological means of Preset Time section, in generating different steering orders according to different touch points, also realize the technique effect that prevents user misoperation.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if these amendments of the present invention and within modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (14)

1. a method for information processing, is applied to an electronic equipment, it is characterized in that, described electronic equipment comprises a touch control unit, and described method comprises:

Detect the first touch control operation that whether has the first operating body to carry out on described touch control unit;

In the time having described the first touch control operation, obtain K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, wherein, N is greater than 1 integer, and K is greater than 1 and be less than or equal to the integer of N;

Count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

2. the method for claim 1, is characterized in that, K force value of K touch point in N the touch point of described the first touch control operation of described acquisition on described touch control unit, specifically comprises:

Detect and obtain N the touch point of described the first touch control operation on described touch control unit by the touch-control sensing unit in described touch control unit;

Obtain in a described N touch point K the force value of K touch point on described touch control unit by the pressure transducer in described electronic equipment.

3. method as claimed in claim 2, is characterized in that, describedly obtains in a described N touch point K the force value of K touch point on described touch control unit by the pressure transducer in described electronic equipment and specifically comprises:

Detect described electronic equipment and whether open the first application program;

In the time that the first application program is opened, adjust the induction range of described pressure transducer according to the application window of described the first application program;

In described application window, obtain in a described N touch point K the force value of K touch point on described touch control unit by described pressure transducer.

4. the method for claim 1, is characterized in that, describedly counts based on touch-control, and the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order, specifically comprises:

Judge in a described K force value, whether each force value is more than or equal to a preset pressure value;

Obtain M the force value that is more than or equal to described preset pressure value in a described K force value, wherein, M is less than or equal to K;

In the time that M equals K, count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

5. method as claimed in claim 4, is characterized in that, describedly count based on touch-control, and the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order, specifically comprises:

Judge in a described K force value, whether each force value is more than or equal to a preset pressure value;

Obtain M the force value that is more than or equal to described preset pressure value in a described K force value, wherein, M is less than or equal to K;

In the time that M is less than K and M and is not 0, count based on touch-control, the corresponding relation between force value and steering order, instruction corresponding to generation execution and a described N touch point and a described M force value is second steering order different with described the first steering order.

6. the method as described in claim 4 or 5, is characterized in that, be more than or equal to M force value of described preset pressure value in the described K of a described acquisition force value after, and in the time that M equals 0, described method also comprises:

Detect the second touch control operation that whether has described the first operating body to carry out on described touch control unit;

In the time having described the second touch control operation, obtain Q force value of Q touch point in P the touch point of described the second touch control operation on described touch control unit, wherein, P is greater than 1 integer;

Count based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described P touch point and a described Q force value is the 3rd steering order.

7. the method as described in claim 4 or 5, is characterized in that, M the force value that is more than or equal to described preset pressure value in the described K of a described acquisition force value is specially:

Obtain each touch point in described K touch point corresponding to a described K force value and contact the touch-control duration of described touch control unit, and then obtain K touch-control duration;

Obtain J the touch-control duration that is more than or equal to a Preset Time section in described K touch-control duration, wherein, J is the integer that is more than or equal to M and is less than or equal to K;

From described J touch-control force value corresponding to described J touch-control duration, obtain M the force value that is more than or equal to described preset pressure value.

8. an electronic equipment, described electronic equipment comprises a touch control unit, it is characterized in that, described electronic equipment also comprises:

The first detecting unit, for detection of the first touch control operation that whether has the first operating body to carry out on described touch control unit;

First obtains unit, in the time having described the first touch control operation, obtains K force value of K touch point in N the touch point of described the first touch control operation on described touch control unit, and wherein, N is greater than 1 integer, and K is greater than 1 and be less than or equal to the integer of N;

The first generation unit, for counting based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

9. electronic equipment as claimed in claim 8, is characterized in that, described first obtains unit specifically comprises:

Touch-control sensing unit, for detection of obtaining N the touch point of described the first touch control operation on described touch control unit;

Pressure transducer, for obtaining K the force value of a described N touch point K touch point on described touch control unit.

10. electronic equipment as claimed in claim 9, is characterized in that, described pressure transducer specifically comprises:

Whether detecting unit, open the first application program for detection of described electronic equipment;

Adjustment unit, in the time that the first application program is opened, adjusts the induction range of described pressure transducer according to the application window of described the first application program;

Force value obtains unit, for obtain K the force value of a described N touch point K touch point on described touch control unit by described pressure transducer in described application window.

11. electronic equipments as claimed in claim 8, is characterized in that, described the first generation unit specifically comprises:

The first judgment sub-unit, for judging whether each force value of a described K force value is more than or equal to a preset pressure value;

First obtains subelement, is more than or equal to M force value of described preset pressure value for obtaining a described K force value, and wherein, M is less than or equal to K;

First generates subelement, in the time that M equals K, count based on touch-control, and the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described N touch point and a described K force value is the first steering order.

12. electronic equipments as claimed in claim 10, is characterized in that, described the first generation unit specifically comprises:

The second judgment sub-unit, for judging whether each force value of a described K force value is more than or equal to a preset pressure value;

Second obtains subelement, is more than or equal to M force value of described preset pressure value for obtaining a described K force value, and wherein, M is less than or equal to K;

Second generates subelement, while being not 0 for be less than K and M as M, count based on touch-control, the corresponding relation between force value and steering order, instruction corresponding to generation execution and a described N touch point and a described M force value is second steering order different with described the first steering order.

13. electronic equipments as described in claim 11 or 12, is characterized in that, described electronic equipment also comprises:

The second detecting unit, for detection of the second touch control operation that whether has described the first operating body to carry out on described touch control unit;

Second obtains unit, in the time having described the second touch control operation, obtains Q force value of Q touch point in P the touch point of described the second touch control operation on described touch control unit, and wherein, P is greater than 1 integer;

The second generation unit, for counting based on touch-control, the corresponding relation between force value and steering order, generation the execution instruction corresponding with a described P touch point and a described Q force value is the 3rd steering order.

14. electronic equipments as described in claim 11 or 12, is characterized in that, described second obtains subelement specifically comprises:

The 3rd obtains subelement, contacts the touch-control duration of described touch control unit for obtaining described K the each touch point of touch point corresponding to a described K force value, and then obtains K touch-control duration;

The 4th obtains subelement, is more than or equal to J the touch-control duration of a Preset Time section for obtaining described K touch-control duration, and wherein, J is the integer that is more than or equal to M and is less than or equal to K;

The 5th obtains subelement, for obtaining from described J described J touch-control force value corresponding to touch-control duration M the force value that is more than or equal to described preset pressure value.