CN104423545A - Information processing method and device - Google Patents

Abstract

The application provides an information processing method and an information processing device. The information processing method and the information processing device are applied to an electronic device. The information processing method includes: obtaining M images through a collection unit, wherein the M images are corresponding to operation gestures corresponding to an operation body, and M is larger than or equal to 1; confirming the operation gestures to be rotation operation and confirming the rotation axis of the rotation operation; confirming whether the rotation operation is of a first type or a second type according to the rotation axis of the rotation operation; when confirming that the rotation operation is of the first type, executing a first instruction for a display object corresponding to the rotation operation; when confirming that the rotation operation is of the second type, executing a second instruction for the display object corresponding to the rotation operation. The second instruction is different from the first instruction. The information processing method and the information processing device are simple to operate and timely in information processing.

Description

A kind of information processing method and device

Technical field

The application relates to electronic technology field, relates to a kind of information processing method and device in particular.

Background technology

Along with the development of electronic technology, electronic equipment is widely used in different field, and the attainable feature operation of electronic equipment also gets more and more.

Electronic equipment has display screen usually, the different information contents can be exported by display screen, to the process of the information content, in prior art, normally realized by the specific control knob of user operation electronic equipment, but this mode of operation, particularly when user easily can not touch the situation of the specific button of electronic equipment, operation is inconvenience, and information processing not in time.

Summary of the invention

In view of this, this application provides a kind of information processing method and device, solve information processing operation inconvenience, information processing technical matters not in time in prior art.

For achieving the above object, the application provides following technical scheme:

A kind of information processing method, be applied in electronic equipment, described electronic equipment comprises collecting unit, and described method comprises:

M image is obtained by described collecting unit; The operating gesture of described M the corresponding operating body of image, M is more than or equal to 1;

Determine that described operating gesture is the turning axle of rotation process and described rotation process;

Determine that described rotation process is first kind rotation process or Equations of The Second Kind rotation process according to described turning axle;

When determining that described rotation process is first kind rotation process, perform the first instruction for the display object corresponding to described rotation process;

When determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process, described second instruction is different from described first instruction.

Preferably, describedly determine that the turning axle of described rotation process comprises:

Determine the turning axle pointing to parallel described rotation process with the Toe Transplantation for Segmental Finger of described operating gesture;

The described turning axle according to described rotation process determines that described rotation process comprises as first kind rotation process or Equations of The Second Kind rotation process:

According to the axis of the turning axle of described rotation process, determine that described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

Preferably, the turning axle of described first kind rotation process and the turning axle of described Equations of The Second Kind rotation process have certain angle in space.

Preferably, described first instruction is used to indicate display object and rotates according to the first rotation mode, described second instruction is used to indicate display object and rotates according to the second rotation mode, described first rotation mode is different from described second rotation mode, wherein, described rotation mode comprises object turning axle and object sense of rotation.

Preferably, when determining that described rotation process is first kind rotation process, performing the first instruction for the display object corresponding to described rotation process and comprising:

When determining that described rotation process is first kind rotation process, determine and the first instruction that the turning axle of described first kind rotation process and sense of rotation mate;

Described first instruction is performed for the display object corresponding to described rotation process;

When determining that described rotation process is Equations of The Second Kind rotation process, performing the second instruction for the display object corresponding to described Equations of The Second Kind rotation process and comprising:

When determining that described rotation process is Equations of The Second Kind rotation process, determine and the second instruction that the turning axle of described Equations of The Second Kind rotation process and sense of rotation mate;

Described second instruction is performed for the display object corresponding to described rotation process.

Preferably, described electronic equipment is Wearable electronic equipment, and the display unit of described Wearable electronic equipment is by display object output display in the eye imaging space of user of wearing described Wearable; Pickup area and the described eyes of user imaging space of described collecting unit have overlapping region.

Preferably, described when determining that described rotation process is first kind rotation process, perform the first instruction for the display object corresponding to described rotation process and comprise:

When determining that described rotation process is first kind rotation process, determine the first position of rotation in described first kind rotation process and the second position of rotation;

For the display object at the operating position place of described operating gesture in described imaging space, perform the first instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation;

Described when determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process and comprise:

When determining that described rotation process is Equations of The Second Kind rotation process, determine the 5th position of rotation and the 6th position of rotation of described Equations of The Second Kind rotation process;

For the display object at the operating position place of described operating gesture in described imaging space, perform the second instruction, described display object is rotated to the 8th position of rotation from the 7th position of rotation.

Preferably, the display object corresponding to described rotation process is the operating position according to described operating gesture, the display object determined.

A kind of signal conditioning package, be applied in electronic equipment, described electronic equipment comprises collecting unit, and described device comprises:

Image collection module, for obtaining M image by described collecting unit; The operating gesture of described M the corresponding operating body of image, M is more than or equal to 1;

Operation identification module, for determining that described operating gesture is the turning axle of rotation process and described rotation process;

Determination type module, for determining that according to described turning axle described rotation process is first kind rotation process or Equations of The Second Kind rotation process;

First processing module, for when determining that described rotation process is first kind rotation process, performs the first instruction for the display object corresponding to described rotation process;

Second processing module, for when determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process, described second instruction is different from described first instruction.

Preferably, described operation identification module determines that the turning axle of described rotation process specifically determines to point to the Toe Transplantation for Segmental Finger of described operating gesture the turning axle of parallel described rotation process;

Then described determination type module is specifically for the axis of the turning axle according to described rotation process, determines that described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

Preferably, the turning axle of described first kind rotation process and the turning axle of described Equations of The Second Kind rotation process have certain angle in space.

Preferably, described first instruction is used to indicate display object and rotates according to the first rotation mode, described second instruction is used to indicate display object and rotates according to the second rotation mode, described first rotation mode is different from described second rotation mode, wherein, described rotation mode comprises object turning axle and object sense of rotation.

Preferably, described first processing module comprises:

First instruction determination module, for when determining that described rotation process is first kind rotation process, determines and the first instruction that the turning axle of described first kind rotation process and sense of rotation mate;

First instruct execution module, for performing described first instruction for the display object corresponding to described rotation process;

Described second processing module comprises:

Second instruction determination module, for when determining that described rotation process is Equations of The Second Kind rotation process, determines and the second instruction that the turning axle of described Equations of The Second Kind rotation process and sense of rotation mate;

Second instruct execution module, for performing described second instruction for the display object corresponding to described rotation process.

Preferably, described electronic equipment is Wearable electronic equipment, and the display unit of described Wearable electronic equipment is by display object output display in the eye imaging space of user of wearing described Wearable; Pickup area and the described eyes of user imaging space of described collecting unit have overlapping region.

Preferably, described first processing module comprises:

Primary importance determination module, for when determining that described rotation process is first kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation;

First Object Operations module, for the display object for the operating position place of described operating gesture in described imaging space, performs the first instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation;

Described second processing module comprises:

Second place determination module, for when determining that described rotation process is Equations of The Second Kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation;

Second Object Operations module, for for the display object corresponding to described rotation process, performs the second instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation.Known via above-mentioned technical scheme, compared with prior art, this application provides a kind of information processing method and device, be applied in electronic equipment, the image of operating body operating gesture is comprised by the collecting unit collection of electronic equipment, thus therefrom can identify operating gesture, when operating gesture is rotation process, according to inhomogeneous rotation process, when rotation process is first kind rotation process, the display object corresponding to rotation process can perform the first instruction, when rotation process is Equations of The Second Kind rotation process, display object corresponding to object rotation process can perform the second instruction, first instruction is different with the second instruction, thus make operating body by inhomogeneous rotation process, can realize controlling the difference of electronic equipment output display object, control operation is simple, user is when being not easy touching electronic equipment, can process information in time.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only the embodiment of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 is the process flow diagram of a kind of information processing method of the application embodiment;

Fig. 1 a is a kind of schematic diagram of operating body rotation process in the embodiment of the present application;

Fig. 1 b is the another kind of schematic diagram of operating body rotation process in the embodiment of the present application;

Fig. 2 is the process flow diagram of a kind of another embodiment of information processing method of the application;

Fig. 3 is the structural representation of a kind of signal conditioning package of the application embodiment;

Fig. 4 is the structural representation of a kind of another embodiment of signal conditioning package of the application.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, be clearly and completely described the technical scheme in the embodiment of the present application, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

One of main thought of the application can comprise:

The image of the operating gesture of operating body is comprised by the collecting unit collection of electronic equipment, thus therefrom can identify operating gesture, when operating gesture is rotation process, according to inhomogeneous rotation process, when rotation process is first kind rotation process, the display object corresponding to rotation process can perform the first instruction, when rotation process is Equations of The Second Kind rotation process, display object corresponding to object rotation process can perform the second instruction, first instruction is different with the second instruction, thus make operating body by inhomogeneous rotation process, can realize controlling the difference of electronic equipment output display object, control operation is simple, user is when being not easy touching electronic equipment, can process information in time.

Below in conjunction with accompanying drawing, the application's embodiment is described in detail.

The process flow diagram of a kind of information processing method embodiment that Fig. 1 provides for the application, technical scheme described in the embodiment of the present application is mainly used in electronic equipment, this electronic equipment comprises collecting unit, has image collecting function, such as, can be the first-class parts of shooting in electronic equipment.

The method can comprise:

Step 101: obtain M image by described collecting unit.

Wherein, the operating gesture of this M the corresponding operating body of image, M is more than or equal to 1.

The collecting unit of electronic equipment can gather the image in certain pickup area, and when operating body performs gesture operation in pickup area, collecting unit can gather the multiple images comprising this operating gesture.Based on image recognition technology, this gesture operation can be identified.Operating body can be the hand of user.

Step 102: determine that described operating gesture is the turning axle of rotation process and described rotation process.

By image recognition, can determine whether this gesture operation is rotation process, and then when gesture operation is rotation process, the turning axle of this rotation process can be determined further.

When the turning axle of rotation process refers to that operating body performs rotation process, the axis that gesture rotates around it.

Information processing when the embodiment of the present application is only rotation process for gesture operation, if detect, gesture operation is not rotation process, then can terminate the present embodiment flow process.

As shown in Figure 1a, be a kind of schematic diagram of rotation process.Fig. 1 b is depicted as the another kind of schematic diagram of rotation process.

Composition graphs 1a and Fig. 1 b is known, and rotation process can comprise dissimilar, and the difference according to turning axle can be distinguished rotation process.

This turning axle one determines that mode is: determine to point to parallel turning axle with operating gesture Toe Transplantation for Segmental Finger, namely the axis of turning axle is pointed to parallel with operating gesture Toe Transplantation for Segmental Finger.Also the line namely passing user's palm of the hand can be similar to thinks turning axle.

Can certainly determine according to the relative direction of operating body and electronic equipment display screen.The pickup area of collecting unit generally includes the viewing area of display screen, and user at execution rotation process is, the axis of the turning axle of this rotation process can be parallel with display screen or vertical etc.

Step 103: determine that described rotation behaviour is for first kind rotation process or Equations of The Second Kind rotation process according to described turning axle.

According to the turning axle determined, can identify inhomogeneous rotation process, this inhomogeneous rotation process comprises first kind rotation process and Equations of The Second Kind rotation process.

First kind rotation process is different with the turning axle of Equations of The Second Kind rotation process, and therefore according to the axis of turning axle, i.e. the direction of parallel rotary axes, determines whether rotation process is first kind rotation process or Equations of The Second Kind rotation process.

Other modes can certainly be adopted to determine.

The turning axle of this first kind rotation process and Equations of The Second Kind rotation process has certain angle in space.Namely the axis of the turning axle of first kind rotation process and Equations of The Second Kind rotation process is different.A possible implementation, the turning axle of this first kind rotation process and the turning axle of Equations of The Second Kind rotation process perpendicular in space.Now, the turning axle of this first kind rotation process and the turning axle of Equations of The Second Kind rotation process can all be arranged in same reference planes.

Step 104: when determining that described rotation process is first kind rotation process, performs the first instruction for the display object corresponding to described rotation process.

Step 105: when determining that described rotation process is Equations of The Second Kind rotation process, performs the second instruction for the display object corresponding to described rotation process, and described second instruction is different from described first instruction.

Rotary operating type is different, and the executable operations for display object is also different.

When rotation process is first kind rotation process, the first instruction of corresponding first kind rotation process can be obtained, thus for display object corresponding to first kind rotation process, perform the first instruction.

When rotation process is Equations of The Second Kind rotation process, the second instruction of corresponding Equations of The Second Kind rotation process can be obtained, thus for display object corresponding to Equations of The Second Kind rotation process, perform the second instruction.

First instruction is different with the second instruction.

This first execution can rotate according to the first rotation mode specifically for instruction display object.

This second instruction can rotate according to the second rotation mode specifically for instruction display object, and described first rotation mode is different from described second rotation mode, and wherein, described rotation mode comprises object turning axle and object sense of rotation.

Wherein, object sense of rotation comprise around turning axle dextrorotation veer and be rotated counterclockwise direction.

System can set different instructions for dissimilar rotation process, thus when can determine that different rotary operates again, corresponding can determine the instruction that rotation process is corresponding.

Certainly, when instruction being for controlling display object execution rotation process, corresponding instruction can being determined according to the turning axle of rotation process and sense of rotation, can specifically comprise:

When determining that described rotation process is first kind rotation process, determine and the first instruction that the turning axle of described first kind rotation process and sense of rotation mate;

Described first instruction is performed for the display object corresponding to described rotation process.

When determining that described rotation process is Equations of The Second Kind rotation process, determine and the second instruction that the turning axle of described Equations of The Second Kind rotation process and sense of rotation mate;

Described second instruction is performed for the display object corresponding to described rotation process.

Now, namely the object turning axle of the first rotation mode in the first instruction and object sense of rotation are match with the turning axle of first kind rotation process and sense of rotation respectively, can be identical, or mirror image are identical, or on the contrary.

Namely the object turning axle of the second rotation mode in the second instruction and object rotation mode are match with the turning axle of Equations of The Second Kind rotation process and sense of rotation respectively.Therefore, by the gesture operation of operating body, the corresponding rotation process of display object can be realized.

Wherein, the display object of the current output of electronic equipment may comprise multiple, therefore first can determine the display object that rotation process is corresponding.

The display object that rotation process is corresponding can be determined according to the operating position of operating gesture, first the correspondence position of operating gesture at electronic equipment display screen can be determined, using corresponding for the display shown by this corresponding position as the display object being used for executable operations.

Certainly, also can adopt other modes to determine, such as system can according to present displayed content, determine the display object for executable operations, such as can be corresponding as the display being used for executable operations using mobilizable for displaying contents display object, as displaying contents comprise sea, sandy beach and vollyball time, according to the feature of display object, obvious vollyball is the display object for executable operations.

The display object that this first kind rotation process the is corresponding display object corresponding with this Equations of The Second Kind rotation process can be identical, also can be different.

When display object corresponding to dissimilar rotation process is different, can according to the correspondence position of dissimilar rotation process in display screen, or the feature of dissimilar rotation process and display object feature etc. are determined.

In the present embodiment, M the image obtained by collecting unit, the rotation process and the rotation process that identify operating body are first kind rotation process or Equations of The Second Kind rotation process, thus when can to work as rotation process be first kind rotation process, perform the first instruction for the display object that rotation process is corresponding; When rotation process is Equations of The Second Kind rotation process, the second instruction can be performed for the display object that rotation process is corresponding.Thus by processing the image information gathered, making the control operation of electronic equipment more convenient, can realize processing in time the information of electronic equipment.

The embodiment of the present application technical scheme can be applied in distinct electronic apparatuses, such as intelligent television, mobile phone, panel computer etc., wherein as a kind of possible implementation, this electronic equipment can be specially Wearable electronic equipment, and the display unit of this Wearable electronic equipment can by display object output display in the eye imaging space of user of wearing this Wearable electronic equipment.Now, the pickup area of this collecting unit and described eyes of user imaging space have overlapping region.Because user wears Wearable, inconvenient opertaing device, causes blind operation, therefore user can be facilitated to control the display object that electronic equipment exports by the embodiment of the present application technical scheme.

Fig. 2 is the process flow diagram of a kind of another embodiment of information processing method of the application, technical scheme described in the embodiment of the present application is mainly used in electronic equipment, this electronic equipment comprises collecting unit, has image collecting function, such as, can be the first-class parts of shooting in electronic equipment.

Wherein, in the present embodiment, this electronic equipment is specially Wearable electronic equipment, and this Wearable electronic equipment can be worn on head by user, and eyes of user imaging space is contained in the space, viewing area of this Wearable electronic equipment.Wearable electronic equipment can by display object output display in eyes of user imaging space.

Now, the pickup area of this collecting unit and eyes of user imaging space have overlapping region.

The method can comprise:

Step 201: obtain M image by described collecting unit; The operating gesture of described M the corresponding operating body of image, M is more than or equal to 1.

Step 202: determine that described operating gesture is the turning axle of rotation process and described rotation process.

Step 203: determine that described rotation process is first kind rotation process or Equations of The Second Kind rotation process according to described turning axle.

The operation of step 201 ~ step 203 can see the corresponding operating of step 101 ~ step 103 in above-described embodiment, and this is no longer going to repeat them.

Step 204: when determining that described rotation process is first kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation.

Wherein, the first position of rotation and the second position of rotation can be any two different position of rotation in the position of rotation of first kind rotation process.

Step 205: for the display object at the operating position place of described operating gesture in described imaging space, perform the first instruction, described display object rotated, rotates to the 4th position of rotation from the 3rd position of rotation.

This first instruction may be used for instruction display object and rotates according to the first rotation mode.

In the present embodiment, the display object of executable operations is specially the display object at the operating position place of operating gesture in imaging space, thus perform the first instruction, display object can be rotated, display object is rotated to the 4th position of rotation from the 3rd position of rotation.Wherein, the 3rd position of rotation is corresponding with the first position of rotation, and the 4th position of rotation is corresponding with the second position of rotation.

First rotation mode of the first instruction comprises object turning axle and corresponding rotation direction, is respectively to match with the turning axle of first kind rotation process and sense of rotation.In the present embodiment, owing to being the display object at operating gesture operating position place for the display correspondence of executable operations, therefore the object turning axle of display object can be the turning axle of first kind rotation process, and object sense of rotation can be the sense of rotation of Equations of The Second Kind rotation process.

Therefore this execution first instruction, described display object is rotated, rotate to the 4th position of rotation from the 3rd position of rotation and be specifically turning axle according to first kind rotation process and sense of rotation, display object is rotated to the 4th position of rotation from the 3rd position of rotation, now the 3rd position of rotation can be identical with the first position of rotation, and the 4th position of rotation can be identical with the second position of rotation.

Step 206: when determining that described rotation process is Equations of The Second Kind rotation process, determines the 5th position of rotation and the 6th position of rotation of described Equations of The Second Kind rotation process.

Wherein, the first position of rotation and the second position of rotation can be any two different position of rotation in the position of rotation of first kind rotation process.

Step 207: for the display object at the operating position place of described operating gesture in described imaging space, perform the second instruction, described display object rotated, rotates to the 8th position of rotation from the 7th position of rotation.

This second instruction may be used for instruction display object and rotates according to the second rotation mode.This second rotation mode is different from this first rotation mode.

The display object of executable operations is specially the display object at the operating position place of operating gesture in imaging space, thus performs the second instruction, display object can be rotated, and display object is rotated to the 8th position of rotation from the 7th position of rotation.Wherein, the 7th position of rotation is corresponding with the 5th position of rotation, and the 8th position of rotation is corresponding with the 6th position of rotation.

First rotation mode of the second instruction comprises object turning axle and corresponding rotation direction, is respectively to match with the turning axle of Equations of The Second Kind rotation process and sense of rotation.Owing to being the display object at operating gesture operating position place for the display correspondence of executable operations, therefore the object turning axle of display object can be the turning axle of first kind rotation process, and object sense of rotation can be the sense of rotation of Equations of The Second Kind rotation process.

Therefore this execution second instruction, described display object is rotated, rotate to the 8th position of rotation from the 7th position of rotation and be specifically turning axle according to Equations of The Second Kind rotation process and sense of rotation, display object is rotated to the 8th position of rotation from the 7th position of rotation, now the 7th position of rotation can be identical with the 5th position of rotation, and the 8th position of rotation can be identical with the 6th position of rotation.

In actual applications, user is when eyes of user imaging space performs gesture operation, it can be a certain display object that operating electronic equipment exports at eyes of user imaging space, when user performs rotation process, pass through the present embodiment, the display object of user operation can be realized to perform corresponding rotation process, the rotation process that user performs is different, the rotation process that display object is different can also be realized, thus the actual situation achieving image combines, make the information processing variation to electronic equipment, and improve Consumer's Experience.

In the present embodiment, M the image obtained by collecting unit, the rotation process and the rotation process that identify operating body are first kind rotation process or Equations of The Second Kind rotation process, by different rotation process, can realize in eyes of user imaging space, the display object at user operation hand gesture location place performs corresponding different rotary.Not only facilitate the control to electronic equipment by gesture operation, the information that achieves processes in time, and adds the diversity of information processing, improves Consumer's Experience.

Fig. 3 is the structural representation of a kind of signal conditioning package of the application embodiment, and this device is applied particularly in electronic equipment, and namely electronic equipment can dispose this signal conditioning package, and wherein, this electronic equipment comprises collecting unit.

This device can comprise:

Image collection module 301, for obtaining M image by described collecting unit.

Wherein, the operating gesture of this M the corresponding operating body of image, M is more than or equal to 1.

Operation identification module 302, for determining that described operating gesture is the turning axle of rotation process and described rotation process.

Determination type module 303, for determining that according to described turning axle described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

Wherein, wherein, this operation identification module determines that the turning axle of described rotation process can be the turning axle determining to point to the Toe Transplantation for Segmental Finger of described operating gesture parallel described rotation process.

Then the type determination module can be the axis of the turning axle according to described rotation process, determines that described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

Wherein, the turning axle of this first kind rotation process and the turning axle of this Equations of The Second Kind rotation process have certain angle in space.

First processing module 304, for when determining that described rotation process is first kind rotation process, performs the first instruction for the display object corresponding to described rotation process.

This first instruction is used to indicate display object and rotates according to the first rotation mode, and rotation mode comprises object turning axle and object sense of rotation.

As a kind of possible implementation, this first processing module can comprise:

First instruction determination module 3041, for when determining that described rotation process is first kind rotation process, determines and the first instruction that the turning axle of described first kind rotation process and sense of rotation mate;

First instruct execution module, for performing described first instruction for the display object corresponding to described rotation process.

Now, namely the object turning axle of the first rotation mode in the first instruction and object sense of rotation are match with the turning axle of first kind rotation process and sense of rotation respectively, can be identical, or mirror image are identical, or on the contrary.

Second processing module 305, for when determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process, described second instruction is different from described first instruction.

This second instruction is used to indicate display object and rotates according to the second rotation mode, this first instruction is different from the second instruction, the first concrete rotation mode is different from this second rotation mode, namely the object turning axle of the object turning axle of the first rotation mode and sense of rotation and the second rotation mode and sense of rotation all different.

As a kind of possible implementation, this second processing module 305 can comprise:

Second instruction determination module 3051, for when determining that described rotation process is Equations of The Second Kind rotation process, determines and the second instruction that the turning axle of described Equations of The Second Kind rotation process and sense of rotation mate;

Second instruct execution module 3052, for performing described second instruction for the display object corresponding to described rotation process.

Namely the object turning axle of the second rotation mode in the second instruction and object rotation mode are match with the turning axle of Equations of The Second Kind rotation process and sense of rotation respectively.Therefore, by the gesture operation of operating body, the corresponding rotation process of display object can be realized.

Wherein, the display object of the current output of electronic equipment may comprise multiple, therefore first can determine the display object that rotation process is corresponding.

The display object that rotation process is corresponding can be determined according to the operating position of operating gesture, first the correspondence position of operating gesture at electronic equipment display screen can be determined, using corresponding for the display shown by this corresponding position as the display object being used for executable operations.

Certainly, also can adopt other modes to determine, such as system according to present displayed content, can determine the display object for executable operations, such as can be corresponding as the display being used for executable operations using mobilizable for displaying contents display object.

In the present embodiment, M the image obtained by collecting unit, the rotation process and the rotation process that identify operating body are first kind rotation process or Equations of The Second Kind rotation process, thus when can to work as rotation process be first kind rotation process, perform the first instruction for the display object that rotation process is corresponding; When rotation process is Equations of The Second Kind rotation process, the second instruction can be performed for the display object that rotation process is corresponding.Thus by processing the image information gathered, making the control operation of electronic equipment more convenient, can realize processing in time the information of electronic equipment.

Fig. 4 is the structural representation of a kind of another embodiment of signal conditioning package of the application, this device is applied particularly in Wearable electronic equipment, and the display unit of this Wearable electronic equipment is by display object output display in the eye imaging space of user of wearing described Wearable.

This Wearable electronic equipment comprises collecting unit, and pickup area and the described eyes of user imaging space of this collecting unit have overlapping region.

This device can comprise:

Image collection module 401, for obtaining M image by described collecting unit; The operating gesture of described M the corresponding operating body of image, M is more than or equal to 1.

Operation identification module 402, for determining that described operating gesture is the turning axle of rotation process and described rotation process.

Determination type module 403, for determining that according to described turning axle described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

First processing module 404, for when determining that described rotation process is first kind rotation process, performs the first instruction for the display object corresponding to described rotation process.

Wherein, in the present embodiment, this first processing module 404 can comprise:

Primary importance determination module 4041, for when determining that described rotation process is first kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation.

First Object Operations module 4042, for the display object for the operating position place of described operating gesture in described imaging space, performs the first instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation.

This first position of rotation and this second position of rotation can be any two different position of rotation in the position of rotation of first kind rotation process.

This first instruction may be used for instruction display object and rotates according to the first rotation mode.

First rotation mode of the first instruction comprises object turning axle and corresponding rotation direction, is respectively to match with the turning axle of first kind rotation process and sense of rotation.

Therefore this execution first instruction, described display object is rotated, from the 3rd position of rotation rotate to the 4th position of rotation can be object turning axle according to mating with turning axle and the sense of rotation of described first kind rotation process respectively and object sense of rotation, to show that display object rotates, rotate to the 4th position of rotation from the 3rd position of rotation.

Wherein, the object turning axle of display object can be the turning axle of first kind rotation process, and object sense of rotation can be the sense of rotation of Equations of The Second Kind rotation process.

Second processing module 405, for when determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process, described second instruction is different from described first instruction.

In the present embodiment, this second processing module 405 can comprise:

Second place determination module 4051, for when determining that described rotation process is Equations of The Second Kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation.

Second Object Operations module 4052, for for the display object corresponding to described rotation process, performs the second instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation.

This second instruction may be used for instruction display object and rotates according to the second rotation mode.

First rotation mode of the second instruction comprises object turning axle and corresponding rotation direction, is respectively to match with the turning axle of Equations of The Second Kind rotation process and sense of rotation.

Therefore this execution second instruction, described display object is rotated, from the 7th position of rotation rotate to the 8th position of rotation can be object turning axle according to mating with turning axle and the sense of rotation of described Equations of The Second Kind rotation process respectively and object sense of rotation, to show that display object rotates, rotate to the 8th position of rotation from the 7th position of rotation.

In the present embodiment, M the image obtained by collecting unit, the rotation process and the rotation process that identify operating body are first kind rotation process or Equations of The Second Kind rotation process, by different rotation process, can realize in eyes of user imaging space, the display object at user operation hand gesture location place performs corresponding different rotary.Not only facilitate the control to electronic equipment by gesture operation, the information that achieves processes in time, and adds the diversity of information processing, improves Consumer's Experience.

Signal conditioning package described in the embodiment of the present application, can be applied particularly in electronic equipment, this electronic equipment is a kind of implementation may be specially Wearable electronic equipment, conveniently can realize control to electronic equipment output information and process by the electronic equipment disposing the embodiment of the present application signal conditioning package, make information processing timely.And without the need to the control knob of user's repeatable operation electronic equipment, electronic equipment serviceable life can also be extended, and the diversity that can also increase the process of electronics output information and interest, improve Consumer's Experience.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.For device disclosed in embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates see method part.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the application.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (15)

1. an information processing method, is characterized in that, is applied in electronic equipment, and described electronic equipment comprises collecting unit, and described method comprises:

M image is obtained by described collecting unit; The operating gesture of described M the corresponding operating body of image, M is more than or equal to 1;

Determine that described operating gesture is the turning axle of rotation process and described rotation process;

Determine that described rotation process is first kind rotation process or Equations of The Second Kind rotation process according to described turning axle;

When determining that described rotation process is first kind rotation process, perform the first instruction for the display object corresponding to described rotation process;

When determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process, described second instruction is different from described first instruction.

2. method according to claim 1, is characterized in that, describedly determines that the turning axle of described rotation process comprises:

Determine the turning axle pointing to parallel described rotation process with the Toe Transplantation for Segmental Finger of described operating gesture;

The described turning axle according to described rotation process determines that described rotation process comprises as first kind rotation process or Equations of The Second Kind rotation process:

According to the axis of the turning axle of described rotation process, determine that described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

3. method according to claim 1, is characterized in that, the turning axle of described first kind rotation process and the turning axle of described Equations of The Second Kind rotation process have certain angle in space.

4. method according to claim 1, it is characterized in that, described first instruction is used to indicate display object and rotates according to the first rotation mode, described second instruction is used to indicate display object and rotates according to the second rotation mode, described first rotation mode is different from described second rotation mode, wherein, described rotation mode comprises object turning axle and object sense of rotation.

5. method according to claim 1, is characterized in that, when determining that described rotation process is first kind rotation process, performing the first instruction comprise for the display object corresponding to described rotation process:

When determining that described rotation process is first kind rotation process, determine and the first instruction that the turning axle of described first kind rotation process and sense of rotation mate;

Described first instruction is performed for the display object corresponding to described rotation process;

When determining that described rotation process is Equations of The Second Kind rotation process, performing the second instruction for the display object corresponding to described Equations of The Second Kind rotation process and comprising:

When determining that described rotation process is Equations of The Second Kind rotation process, determine and the second instruction that the turning axle of described Equations of The Second Kind rotation process and sense of rotation mate;

Described second instruction is performed for the display object corresponding to described rotation process.

6. the method according to any one of Claims 1 to 5, it is characterized in that, described electronic equipment is Wearable electronic equipment, and the display unit of described Wearable electronic equipment is by display object output display in the eye imaging space of user of wearing described Wearable; Pickup area and the described eyes of user imaging space of described collecting unit have overlapping region.

7. method according to claim 6, is characterized in that, described when determining that described rotation process is first kind rotation process, performs the first instruction comprise for the display object corresponding to described rotation process:

When determining that described rotation process is first kind rotation process, determine the first position of rotation in described first kind rotation process and the second position of rotation;

For the display object at the operating position place of described operating gesture in described imaging space, perform the first instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation;

Described when determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process and comprise:

When determining that described rotation process is Equations of The Second Kind rotation process, determine the 5th position of rotation and the 6th position of rotation of described Equations of The Second Kind rotation process;

For the display object at the operating position place of described operating gesture in described imaging space, perform the second instruction, described display object is rotated to the 8th position of rotation from the 7th position of rotation.

8. method according to claim 1, is characterized in that, the display object corresponding to described rotation process is the operating position according to described operating gesture, the display object determined.

9. a signal conditioning package, is characterized in that, is applied in electronic equipment, and described electronic equipment comprises collecting unit, and described device comprises:

Image collection module, for obtaining M image by described collecting unit; The operating gesture of described M the corresponding operating body of image, M is more than or equal to 1;

Operation identification module, for determining that described operating gesture is the turning axle of rotation process and described rotation process;

Determination type module, for determining that according to described turning axle described rotation process is first kind rotation process or Equations of The Second Kind rotation process;

First processing module, for when determining that described rotation process is first kind rotation process, performs the first instruction for the display object corresponding to described rotation process;

Second processing module, for when determining that described rotation process is Equations of The Second Kind rotation process, perform the second instruction for the display object corresponding to described rotation process, described second instruction is different from described first instruction.

10. device according to claim 9, is characterized in that, described operation identification module determines that the turning axle of described rotation process specifically determines to point to the Toe Transplantation for Segmental Finger of described operating gesture the turning axle of parallel described rotation process;

Then described determination type module is specifically for the axis of the turning axle according to described rotation process, determines that described rotation process is first kind rotation process or Equations of The Second Kind rotation process.

11. devices according to claim 9, is characterized in that, the turning axle of described first kind rotation process and the turning axle of described Equations of The Second Kind rotation process have certain angle in space.

12. devices according to claim 9, it is characterized in that, described first instruction is used to indicate display object and rotates according to the first rotation mode, described second instruction is used to indicate display object and rotates according to the second rotation mode, described first rotation mode is different from described second rotation mode, wherein, described rotation mode comprises object turning axle and object sense of rotation.

13. devices according to claim 9, is characterized in that, described first processing module comprises:

First instruction determination module, for when determining that described rotation process is first kind rotation process, determines and the first instruction that the turning axle of described first kind rotation process and sense of rotation mate;

First instruct execution module, for performing described first instruction for the display object corresponding to described rotation process;

Described second processing module comprises:

Second instruction determination module, for when determining that described rotation process is Equations of The Second Kind rotation process, determines and the second instruction that the turning axle of described Equations of The Second Kind rotation process and sense of rotation mate;

Second instruct execution module, for performing described second instruction for the display object corresponding to described rotation process.

14. devices according to any one of claim 9 ~ 13, it is characterized in that, described electronic equipment is Wearable electronic equipment, and the display unit of described Wearable electronic equipment is by display object output display in the eye imaging space of user of wearing described Wearable; Pickup area and the described eyes of user imaging space of described collecting unit have overlapping region.

15. devices according to claim 14, is characterized in that, described first processing module comprises:

Primary importance determination module, for when determining that described rotation process is first kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation;

First Object Operations module, for the display object for the operating position place of described operating gesture in described imaging space, performs the first instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation;

Described second processing module comprises:

Second place determination module, for when determining that described rotation process is Equations of The Second Kind rotation process, determines the first position of rotation in described first kind rotation process and the second position of rotation;

Second Object Operations module, for for the display object corresponding to described rotation process, performs the second instruction, described display object is rotated to the 4th position of rotation from the 3rd position of rotation.