CN104656257A

CN104656257A - Information processing method and electronic equipment

Info

Publication number: CN104656257A
Application number: CN201510036578.7A
Authority: CN
Inventors: 武永贵
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-01-23
Filing date: 2015-01-23
Publication date: 2015-05-27

Abstract

The invention discloses an information processing method and electronic equipment. The method is applied to wearable devices, and comprises the following steps: gathering human body eye motion state information on a second side of a lens module when a projecting unit projects a first projecting content on a first side of the lens module; ensuring that the lens module is positioned between the first side and the second side; determining a first adjustment parameter according to the human body eye motion state information; displaying the first projecting content according to the first adjustment parameter.

Description

Information processing method and electronic equipment

Technical field

The present invention relates to field of information processing, particularly relate to a kind of information processing method and electronic equipment.

Background technology

Along with the development of electronic technology, it is also more and more extensive that the Wearable device such as intelligent glasses are employed, and specifically utilizes intelligent glasses to see a film, gather scenery and play with intelligent glasses; But may produced problem be in use: the content of intelligent glasses projection, user's reflection see the not good problem of the viewing effects such as Chu.

Summary of the invention

In view of this, the embodiment of the present invention is expected to provide a kind of information processing method and electronic equipment, intelligent not and the not good problem of user's user satisfaction to solve electronic equipment.

For achieving the above object, technical scheme of the present invention is achieved in that

Embodiment of the present invention first aspect provides a kind of information processing method, and the method is applied in wearable electronic equipment, and described electronic equipment comprises a support, arranges projecting cell on the bracket and eyeglass module; Described electronic equipment can maintain the relative position relation with electronic equipment user head by described support, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed; Wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module and user; Described method comprises: when described projecting cell is in described lens module first lateral projection's the first project content, gathers the human body eye motion status information being positioned at described lens module second side; Described lens module is between described first side and described second side; According to described human body eye motion status information, determine the first adjustment parameter; According to described first adjustment parameter, described first project content of display projection.

Preferably, described human body eye motion comprises pupil movement; Described when described projecting cell is in described lens module first lateral projection's the first project content, gather the human body eye motion status information being positioned at described lens module second side, comprising: the first aperture information gathering pupil in the first moment; The second aperture information of pupil is gathered in the second moment; More described first aperture information and the second aperture information, determine described human body eye motion status information; Wherein, described first moment is early than described second moment.

Preferably, described human body eye motion comprises eyelid movement status information; It is described when described projecting cell is in described lens module first lateral projection's the first project content, gather the human body eye motion status information being positioned at described lens module second side, comprising: gather eyelid and the primary importance relation of eyeball in first orientation in the first moment; Described eyelid is gathered relative to the second place relation of described eyeball in described first orientation in the second moment; More described primary importance relation and described second place relation, determine described human body eye motion status information.

Preferably, it is described when described projecting cell is in described lens module first lateral projection's the first project content, gather the human body eye motion status information being positioned at described lens module second side, comprising: measure the duration that eyeball remains on same position, form the first duration; Judge whether described first duration reaches duration threshold value, form judged result; According to described judged result, determine described human body eye motion status information.

Preferably, described according to described human body eye motion status information, determine the first adjustment parameter, comprising: according to described human body eye motion status information, determine the Content adaptation parameter of described first project content; Described according to described first adjustment parameter, described first project content of display projection, comprising: according to described Content adaptation parameter, adjusts the projected area that described first project content is formed at described visual focus place.

Preferably, described according to described human body eye motion status information, determine the first adjustment parameter, comprising: according to described human body eye motion status information, determine the position adjustment parameter adjusting visual focus corresponding to described first project content; Described according to described first adjustment parameter, described first project content of display projection, comprising: according to described position adjustment parameter, visual focus corresponding for described first project content is adjusted to the second place by primary importance; In described second position, projection forms described first project content.

Preferably, described according to described position adjustment parameter, visual focus corresponding for described first project content is adjusted to the second place by primary importance, comprising: by the position of visual focus corresponding to the first project content described in the Focussing of the distance that controls between the projection source of described projecting cell and the lens of eyeglass module and/or the lens that control described eyeglass module.

Preferably, described method also comprises: the first input receiving user; Described first input is used to indicate adjusting range; Described according to described human body eye motion status information, determine the first adjustment parameter, comprising: according to described first input, determine adjusting range parameter; According to described human body eye motion status information and described adjusting range parameter information, determine described first adjustment parameter.

Preferably, before described first project content of projection, described method also comprises: obtain described first project content.

Preferably, described first project content comprises the first collection image; Described first project content of described acquisition, comprising: gather target area, forms first and gathers image.

Preferably, described first project content of described acquisition, comprising: the second input receiving user's input; Described second input is used to indicate described first project content; Described first project content is determined according to described second input.

Embodiment of the present invention second aspect provides a kind of electronic equipment, and this electronic equipment is in wearable electronic equipment, and described electronic equipment comprises a support, arranges projecting cell on the bracket and eyeglass module; Described electronic equipment can maintain the relative position relation with electronic equipment user head by described support, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed; Wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module and user; Described electronic equipment also comprises collecting unit and determining unit: described collecting unit, for when described projecting cell is in described lens module first lateral projection's the first project content, gathers the human body eye motion status information being positioned at described lens module second side; Described lens module is between described first side and described second side; Described determining unit, for according to described human body eye motion status information, determines the first adjustment parameter; Described projecting cell, for according to described first adjustment parameter, shows described first project content of projection.

Preferably, described human body eye motion comprises pupil movement; Described collecting unit, specifically for gathering the first aperture information of pupil in the first moment; The second aperture information of pupil is gathered in the second moment; And more described first aperture information and the second aperture information, determine described human body eye motion status information; Wherein, described first moment is early than described second moment.

Preferably, described human body eye motion comprises eyelid movement status information; Described collecting unit, specifically for gathering eyelid and the primary importance relation of eyeball in first orientation in the first moment; Described eyelid is gathered relative to the second place relation of described eyeball in described first orientation in the second moment; And more described primary importance relation and described second place relation, determine described human body eye motion status information.

Preferably, described collecting unit, remaining on the duration of same position, forming the first duration specifically for measuring eyeball; Judge whether described first duration reaches duration threshold value, form judged result; And according to described judged result, determine described human body eye motion status information.

Preferably, described determining unit, specifically for according to described human body eye motion status information, determines the Content adaptation parameter of described first project content; Described projecting cell, specifically for according to described Content adaptation parameter, adjusts the projected area that described first project content is formed at described visual focus place.

Preferably, described determining unit, specifically for according to described human body eye motion status information, determines the position adjustment parameter adjusting visual focus corresponding to described first project content; Described projecting cell, specifically for according to described position adjustment parameter, adjusts to the second place by visual focus corresponding for described first project content by primary importance; And in described second position, projection forms described first project content.

Preferably, described projecting cell, specifically for the distance by controlling between the projection source of described projecting cell and the lens of eyeglass module and/or control described eyeglass module lens Focussing described in the position of visual focus corresponding to the first project content.

Preferably, described electronic equipment also comprises: receiving element, for receiving first input of user; Described first input is used to indicate adjusting range; Described determining unit, also for according to described first input, determines adjusting range parameter; And according to described human body eye motion status information and described adjusting range parameter information, determine described first adjustment parameter.

Preferably, described electronic equipment also comprises: acquiring unit, for before described first project content of projection, obtains described first project content.

Preferably, described first project content comprises the first collection image; Described acquiring unit, specifically for gathering target area, forming first and gathering image.

Preferably, described acquiring unit, specifically for receiving the second input of user's input; Described second input is used to indicate described first project content; And determine described first project content according to described second input.

Information processing method described in the embodiment of the present invention and electronic equipment, when electronic equipment projects, detect the human body eye motion status information of user or user, human body eye motion status information can reflect current user viewing effect information when watching, particular user is not when seeing Chu, may the information such as blink be there is, according to Suo Chong tiger human body eye motion status information, determine the first adjustment parameter; Electronic equipment is according to the project content of the first adjustment parameter Projection Display, and user can see more clearly or watch more comfortable, thus improves the intelligent of electronic equipment and drop shadow effect.

Accompanying drawing explanation

One of structural representation that Fig. 1 is the electronic equipment described in the embodiment of the present invention;

One of schematic flow sheet that Fig. 2 is the information processing method described in the embodiment of the present invention;

The structural representation two that Fig. 3 is the electronic equipment described in the embodiment of the present invention;

The structural representation three that Fig. 4 is the electronic equipment described in the embodiment of the present invention.

Embodiment

Below in conjunction with Figure of description and specific embodiment technical scheme of the present invention done and further elaborate.

Embodiment of the method one:

The present embodiment provides a kind of information processing method, and the method can be applicable in wearable electronic equipment as shown in Figure 1, and described electronic equipment comprises a support 101, be arranged on projecting cell 102 on described support 101 and eyeglass module 103, described electronic equipment can maintain the relative position relation with electronic equipment user head by described support 101, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support 101, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell 102, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module 103, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed, wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module 103 and user,

As shown in Figure 2, described method comprises:

Step S110: when described projecting cell 102 is in described lens module first lateral projection's the first project content, gathers the human body eye motion status information being positioned at described lens module second side; Described lens module is between described first side and described second side;

Step S120: according to described human body eye motion status information, determine the first adjustment parameter;

Step S130: according to described first adjustment parameter, described first project content of display projection.

Wearable described in the present embodiment can comprise intelligent glasses for can be worn at the smart machine of user's (described user is user) head, can project.

Below in conjunction with Fig. 1 and Fig. 3, in the present embodiment, described intelligent glasses, with reference to Fig. 1, this electronic equipment has support 101, utilizes this support 101 electronic equipment can be worn on the head of user, also namely utilizes support to be fixed on the head of user; Electronic equipment also has setting projecting cell 102 on the bracket and eyeglass module 103; Wherein, projecting cell 102 can be realized by micro projector, projection source in projecting cell 102 can send the light of form first display interface, and here, the first display interface can be the content of the multimedia form such as image content, video content, document content.The optical path direction that eyeglass module 103 emits beam for changing projection source, with by the eyes of the ray cast of formation first display interface to described electronic equipment user, makes user watch the first display interface.

In the embodiment of the present invention, eyeglass module 103 at least has convex lens 105, with reference to Fig. 3, these convex lens can converge the light sent from projection source, alternatively, eyeglass module 103 also has reflecting prism 104, this reflecting prism 104 can by from convex lens through light reflection to the human eye of user, make the retina of human eye can experience the light reflected by reflecting prism, the virtual representation that the reverse extending line of this reflection ray is formed is positioned at A point position, the embodiment of the present invention claims this position to be visual focus position, so, user is in the visual focus position through eyeglass module, the first display interface can be watched.As shown in Figure 3, described visual focus is positioned on the straight line at the eyes place of described eyeglass module and user, and the eyes of described visual focus and described user are positioned at the both sides of described eyeglass module.

In the present embodiment at projecting cell 102, gather the human body eye motion status information of user, so just can determine according to human eye eye motion status information the adjustment how carrying out the first project content, described first project content can be seen with more comfortable state to facilitate user or clearly watch described first project content with careful.

When specific implementation, periodically can gather the human body eye motion status information of user in described step S120, also can be with not constant duration timing acquiring, can also be human body eye motion status information described in adaptive dynamic acquisition.Described periodicity collection or with not constant duration timing acquiring, the mode of prior preset time interval all can be adopted to determine the time interval, and described adaptive dynamic acquisition, the information such as the frequency or amplitude of the motion state of human body eye motion status information then can be collected according to this, determine the time next time gathered, usually when human body eye motion status information shows that the eye motion frequency of user is higher or amplitude is larger like this, this time gathered of the time gap next time gathered is nearer, can adjust the projection of the first project content so timely.

The projection of the first project content described in dynamic conditioning in information processing method described in the present embodiment, can be used for that there is vision disorder crowd, if for A nearsighted person, farsighted person wear eyesight correcting glasses and be not configured with eyesight correcting glasses different scenes under watch described Wearable device projection formed the first project content.

Embodiment of the method two:

As shown in Figure 2, described method comprises:

Described human body eye motion bag pupil movement;

Can comprise in described step S110:

The first aperture information of pupil is gathered in the first moment;

The second aperture information of pupil is gathered in the second moment;

More described first aperture information and the second aperture information, determine described human body eye motion status information;

Wherein, described first moment is early than described second moment.

Pupil is the small sircle hole at iris center in animal or human's eyes, for light enters the passage of eyes.On iris, smooth muscle is flexible, and the bore of pupil can be made to reduce or amplify, and controls the light quantity entering pupil.A contractile hole in iris is all circular when usual human body expands or reduces.When user think clearly watch jobbie time, may automaticly open eyes wide or amplify pupil, more light is made to enter human body, certain user is seeing a destination object, time sensation is not very comfortable, also can narrow eyes or reduce pupil, human eye is entered to reduce light, utilize this characteristic of pupil in the present embodiment, the size of not pupil aperture in the same time will be detected in step S110, aperture herein can the diameter of pupil also can be the radius of pupil, pass through the human body eye motion status information relatively again, to determine the comfort level of the current viewing of user, to adjust the projection of described first project content.

When specific implementation, described human body eye motion status information can also be determined by the area information gathering pupil, be not limited to described aperture.

Embodiment of the method three:

As shown in Figure 2, described method comprises:

Described human body eye motion comprises eyelid movement status information;

Described step S110 can comprise:

Eyelid and the primary importance relation of eyeball in first orientation is gathered in the first moment;

Described eyelid is gathered relative to the second place relation of described eyeball in described first orientation in the second moment;

More described primary importance relation and described second place relation, determine described human body eye motion status information.

User, when a viewing object, in order to adjust viewed status, may occur blinking or popping glasses or narrowed the movement of glasses, utilizing characteristic in this to carry out human body eye priming state in the present embodiment.、

Described first orientation can be the line direction of human body upper eyelid and palpebra inferior position in the present embodiment, the blink of user and stare can thus can by described primary importance relation or second place relation clear and definite show out.

Provide a kind of information being different from the human body eye motion state of embodiment of the method two described in the present embodiment, have and realize easy and accurately can embody the advantage of user's current demand.

Obviously, in specific implementation process, obvious human body eye motion state, is not only confined to the state of eye itself, and can thinks the state at human body eye position place; Concrete as, when user is when watching described first project content, discovery is seen not clear, the action rubbed one's eyes may be there is, and this action indicates equally, and user is current is in a uncomfortable viewed status, may need the projection adjusting described first project content, the action now rubbed one's eyes also can be considered described human body eye motion state.

Embodiment of the method four:

As shown in Figure 2, described method comprises:

Described step S110 also can comprise:

Measure the duration that eyeball remains on same position, form the first duration;

Judge whether described first duration reaches duration threshold value, form judged result;

According to described judged result, determine described human body eye motion status information.

When specific implementation, user may stare a certain destination object, sees this destination object clearly exactly in order to want, specifically how to represent and stares, and can be the duration that user's eyeball remains on same position to reach the first duration preset.

Measuring eyeball in the present embodiment and remain on same position duration, can be specifically the duration that pupil remains on same position.

Obvious the present embodiment is on the basis of embodiment of the method one, provide a kind of method being different from embodiment of the method one and the human body eye motion status information described in embodiment of the method two, it is dynamic according to detecting that the human body eye motion status information of user adjusts the projection of the first project content that the method can be applicable to intelligent glasses equally.

Embodiment of the method five:

As shown in Figure 2, described method comprises:

Described step S120 can comprise:

According to described human body eye motion status information, determine the Content adaptation parameter of described first project content;

Described step S130 can comprise:

According to described Content adaptation parameter, adjust the projected area that described first project content is formed at described visual focus place.

The the first adjustment parameter determined in described step S120 is in the present embodiment the Content adaptation parameter of adjustment displaying contents.In step s 130, which when not adjusting the hardware parameter of Wearable device, can reach that user is watched is more comfortable, object clearly by adjusting the Content adaptation parameter of described first project content.

Find especially by described human body eye motion, the pupil of user amplifies, glasses have been narrowed, currently may not see the content shown in Chu first project content, now, described first project content can be amplified according to described Content adaptation parameter in step s 130, which, thus make described first project content in human eye, form larger visual impact, thus make user more comfortable and clearerly see this image.

Method implements six:

As shown in Figure 2, described method comprises:

Described step S120 can comprise:

Described step S130 can comprise:

Described step S120 can comprise:

According to described human body eye motion status information, determine the position adjustment parameter adjusting visual focus corresponding to described first project content;

Described step S130 comprises:

According to described position adjustment parameter, visual focus corresponding for described first project content is adjusted to the second place by primary importance; And in described second position, projection forms described first project content.

Information processing method described in the present embodiment, relative to embodiment of the method five, formation first adjustment parameter be position adjustment parameter, this position adjustment parameter be have any different with embodiment of the method five in zoom in or out the adjustment parameter of described first project content.Described position adjusts parameter for adjusting visual focus corresponding to described first project content, the concrete visual focus as formed in Fig. 3.Visual focus changes, the image that then the first project content is formed in user's eye also can change accordingly, thus change drop shadow effect, final utilization family can be comfortable watch the first project content, and the whole and details of the content of clear the watch it to want to see first careful projection.

Embodiment of the method seven:

As shown in Figure 2, described method comprises:

Described step S120 can comprise:

Described step S130 can comprise:

Described step S120 can comprise:

Described step S130 comprises:

Described according to described position adjustment parameter, visual focus corresponding for described first project content is adjusted to the second place by primary importance, comprising: by the position of visual focus corresponding to the first project content described in the Focussing of the distance that controls between the projection source of described projecting cell and the lens of eyeglass module and/or the lens that control described eyeglass module.

The present embodiment, on the basis of a upper embodiment, improves the mode that at least three kinds of described first project content degree of adjustment kick the visual focus position of promise.Obvious mode one is: directly adjust the distance between the projection source of described projecting cell 102 and the lens of eyeglass module 130, lens herein can be the convex lens shown in Fig. 3.Mode two is: control the focal length of the lens of described eyeglass module to adjust described visual focus., adjust the focal length of the lens of described eyeglass module herein, the data of lens can be placed by adjustment superposition, change the adjustment that the modes such as the different lens of focus realize the focal length of lens; In addition, can also by adjust described operation can optical material realize the adjustment etc. of the focal length of lens, concrete as, change the lens etc. that different optical materials is formed.Mode three is: combination one and mode two realize the adjustment of visual focus jointly.The mode of these three kinds adjustment visual focuses is all the drop shadow effect being reached expection by adjustment Wearable for the formation of the parameter of the hardware configuration of the first project content.

A upper embodiment of the method and the method described in the present embodiment, all can in the projected area size of described first project content of adjustment, on the basis of the parameter that the Content adaptation such as projected resolution and projection brightness parameter relates to, reaching the projected image of expection by adjusting visual focus corresponding to the first project content, making the image zoom sense organ of user reaching the first project content or the effect etc. reduced.

Embodiment of the method eight:

As shown in Figure 2, described method comprises:

Described step S120 can comprise:

Described step S130 can comprise:

Described method also comprises:

Receive first input of user; Described first input is used to indicate adjusting range;

According to described first input, determine adjusting range parameter;

Described step S130 comprises: according to described human body eye motion status information and described adjusting range parameter information, determines described first adjustment parameter.

When specific implementation, electronic equipment can by the acquisition of human body eye motion status information, may know that current needs adjust, but concrete adjusting range is much, can be calculated voluntarily by the algorithm prestored, the obvious electronic equipment of this method is more intelligent, but the power consumption of electronic equipment and structure may relative complex.Also provide a kind of method determining adjusting range based on user's instruction in the present embodiment, the method obviously simplifies structure and the operand of electronic equipment, obviously adjusts according to first input of user, also may can have the advantage that adjustment degree of accuracy is higher.

Concrete as, user watches described first project content, and simultaneously to be carried out the adjustment of amplitude by described first input, now, user can stop adjustment timely according to the impression of current viewing, thus realizes accurate adjustment control.

Embodiment of the method nine:

As shown in Figure 2, described method comprises:

Described step S120 can comprise:

Described step S130 specifically can comprise:

Before described first project content of projection, described method also comprises:

Obtain described first project content.

Obvious the first project content herein can for being stored in advance in described Wearable, concrete video, picture or document as being stored in Wearable.Described first project content also can be that described wearable device receives from other electronic equipments, specifically as user utilize as described in Wearable watch film etc. online.In addition, described first project content can also generate by described wearable electronic equipment in real time voluntarily.

No matter adopt which kind of method above-mentioned in a word, the wearable electronic equipment described in the present embodiment, before the projection carrying out project content, just obtain the first project content.

Embodiment of the method ten:

As shown in Figure 2, described method comprises:

Described step S130 specifically can comprise:

Obtain described first project content.

Described first project content comprises the first collection image;

Described acquisition first project content comprises: gather target area, forms first and gathers image.

Described first project content can be the information that described Wearable gathers in the present embodiment, specifically as picture and the video of Real-time Collection.

Described target area can be the region that the current solid line of user is invested.Concrete as user's head is considered as a spheroid, namely the region in the tangent plane front of the spheroid at human body two eyes places can be the target area described in the present embodiment.

For another example, described Wearable, by the eyeball tracking of user and the mode of Pupil diameter, determines the region that user is current watched, specifically the natural scene in user which region at the moment, as the scenery such as house, river.

Described eyeball tracking can send infrared grade for detection signal by Wearable to human body glasses, and detect feedback signal, thus determine position and the direction of visual lines of eyeball, simulate the region that human eye is current paid close attention to again, then the collecting unit of described Wearable is aimed at this region, realize the collection to target area.

The region that current region in a word described in the present embodiment is paid close attention to for user's glasses, determines that the mode of target area has a lot, just describes in detail no longer one by one at this.

Embodiment of the method 11:

As shown in Figure 2, described method comprises:

Described step S120 can comprise:

Described step S130 specifically can comprise:

Obtain described first project content.

Described first project content of described acquisition, comprising:

Receive the second input of user's input; Described second input is used to indicate described first project content;

Described first project content is determined according to described second input.

Described user is equivalent to the meaning of user in this application, in the present embodiment, how to obtain the first project content, obviously can also be determine according to the instruction of user, concrete as the second input retrieval first project content according to user, also can be the second input based on user, determine target area, and then the image gathering target area obtains described first project content.

Obtain described first project content according to second data of user in the present embodiment, which increase the controllability of user to electronic equipment.

Concrete as, often occur such scene in life, when tourism or mountain-climbing, user can wear telescope, for watching scenery at a distance, the details of scenery especially at a distance.But usually the telescopical volume of twin-lens is comparatively large, the high definition telescope of high configuration not only volume is large and quality is large, and carry with the burden that can increase the weight of people's trip, it is convenient not obviously to carry; Single-lens telescope, though volume is little, but the effect of configuration low viewing distant place scenery is good not usually, and it is also convenient not obviously to use.

Along with the proposition of the information processing method described in the embodiment of the present invention, user can wear the intelligent glasses described in the present embodiment, intelligent glasses described in the present embodiment, will when user watches a target area, gather the human body eye motion status information of user, if find the very effort that user sees, the image then automatically gathering target area projects, form described first project content, user now then can by watching the first project content to realize the viewing to target area, when user carries out viewing the first project content, continue the human body eye motion status information gathering user, again according to human body eye motion status information, the Projection Display of described first project content of further adjustment, repeatedly adjust, its viewing effect wanted is obtained in the most comfortable state to make user.

If obviously user has vision disorder problem, the mode of this dynamic conditioning first project content projection, goes for user when having and do not wear eyesight correcting glasses, can user comfortable, clearly watch the first project content.

Apparatus embodiments one:

The present embodiment provides a kind of electronic equipment, and this electronic equipment is in wearable electronic equipment, and as shown in Figure 1, described electronic equipment comprises a support 101, be arranged on projecting cell 102 on described support 101 and eyeglass module 103, described electronic equipment can maintain the relative position relation with electronic equipment user head by described support 101, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support 101, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell 102, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module 103, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed, wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module 103 and user,

As shown in Figure 4, described electronic equipment also comprises collecting unit 110 and determining unit 120:

Described collecting unit 110, for when described projecting cell is in described lens module first lateral projection's the first project content, gathers the human body eye motion status information being positioned at described lens module second side; Described lens module is between described first side and described second side;

Described determining unit 120, for according to described human body eye motion status information, determines the first adjustment parameter;

Described projecting cell 102, for according to described first adjustment parameter, shows described first project content of projection.

Collecting unit 110 described in the present embodiment can be image acquisition units, for being obtained the human body eye motion status information of described user by the mode of image acquisition.Described image acquisition units can comprise the image acquisition such as camera or camera structure.

The concrete structure of described determining unit 120 can be comprised described in processor and storage medium and being connected by bus between processor and storage medium.Described storage medium stores executable code; Described processor is by reading and running the function that described executable code can perform determining unit 120 correspondence.Described processor can have the process structure of signal capabilities for application processor AP, digital signal processor DSP, programmable array PLC, Micro-processor MCV or sincere advice processor CUP etc.

Determining unit 120 described in the present embodiment can be the structures such as the process chip in described Wearable.Described process chip is formed with electric structures such as described projecting cell 102, collecting units 110 respectively and is electrically connected, and can carry out the transmission of electric signal.

Described collecting unit 110 is positioned at the side that user's face pressed close to by described electronic equipment in the present embodiment, and described collecting unit 110 can be facilitated like this to carry out the collection of human body eye motion status information when the least possible obstacle and determine.

Electronic equipment described in the present embodiment, can be the electronic equipment being worn on human body eye locations place, may be used for the information processing method described in implementation method embodiment one, the information such as the viewing comfort level of the user that can embody according to human body eye motion status information and clear degree, the projection of dynamic adjustment first project content, thus change the change of the drop shadow effect that the first project content is formed in user's eye, thus promote the user satisfaction of the intelligent and user of electronic equipment.

Apparatus embodiments two:

Described human body eye motion comprises pupil movement;

Described collecting unit 110, specifically for gathering the first aperture information of pupil in the first moment; The second aperture information of pupil is gathered in the second moment; And more described first aperture information and the second aperture information, determine described human body eye motion status information; Wherein, described first moment is early than described second moment.

Make the change information that counting collection unit 110 gathers the pupil aperture of user in the present embodiment, aperture herein can refer to pupil diameter, also can be radius, can also be area according to first gathering pupil, again according to pupil area by computation structures such as counters, obtain the aperture of described pupil.

Described collecting unit 110 also comprises comparer or has the process structure of comparing function, can determine the human body eye motion status information of user according to comparative result.

Electronic equipment described in the present embodiment for the information processing method described in embodiment of the method two, can provide and realize hardware, can any technical scheme of information processing method described in implementation method embodiment two, has the simple and intelligent high advantage of structure.

Apparatus embodiments three:

Described human body eye motion comprises eyelid movement status information;

Described collecting unit 110, specifically for gathering eyelid and the primary importance relation of eyeball in first orientation in the first moment; Described eyelid is gathered relative to the second place relation of described eyeball in described first orientation in the second moment; And more described primary importance relation and described second place relation, determine described human body eye motion status information.

With the similar of the collecting unit 110 in the structure of sample embodiment 110 and a upper apparatus embodiments, different is, the change of the eyelid of human body eye that the present embodiment gathers and the position relationship of eyeball, and is the change of the position relationship in first orientation.Herein, first orientation can be on the direction at human body upper eyelid and palpebra inferior line place.

Electronic equipment described in the present embodiment for the information processing method described in embodiment of the method three, can provide and realize hardware, can any technical scheme of information processing method described in implementation method embodiment three, has the simple and intelligent high advantage of structure.

Apparatus embodiments four:

Described collecting unit 110, remaining on the duration of same position, forming the first duration specifically for measuring eyeball; Judge whether described first duration reaches duration threshold value, form judged result; And according to described judged result, determine described human body eye motion status information.

Collecting unit 110 described in the present embodiment can comprise structures such as gathering the camera of image or video camera, and described collecting unit 110 also comprises the structures such as timer for determining described first duration.In addition, described collecting unit 110 also can comprise the structures such as comparer, judges to form described judged result for carrying out.

Comprehensively above-mentioned, different above-mentioned two apparatus embodiments of collecting unit 110 described in the present embodiment fixed structure really, the human body eye motion status information of the intelligent acquisition user that the electronic equipment described in the present embodiment can realize equally, also has the simple advantage of structure simultaneously.

Apparatus embodiments five:

Described determining unit 120, specifically for according to described human body eye motion status information, determines the Content adaptation parameter of described first project content;

Described projecting cell 102, specifically for according to described Content adaptation parameter, adjusts the projected area that described first project content is formed at described visual focus place.

What described determining unit 120 was finally determined in the present embodiment is Content adaptation parameter for adjusting the first project content relative to the first adjustment parameter of the drop shadow effect of user, this Content adaptation parameter can be used for the projected area that adjustment first project content is formed in the position of Current vision focus, the phenomenons such as the concrete mitigation and amplification as realized the first project content, so just can meet user and amplify the first project content with the described project content of clearer viewing, or for farsighted person, reduce described first project content, the content such as entirety and details of described first project content is seen clearly so that clearer.

It should be noted that the projected area of the first project content herein, can be the area of projected picture corresponding to formation first project content; Also the particular content in the first project content is amplified when individual, the first project content originally only needing a projected picture to show may be caused, need now two projected pictures to show.In the first form, may while the area of adjustment first project content, can the area of synchronous adjustment projected picture.

Comprehensively above-mentioned, present embodiments provide a kind of electronic equipment, the information processing method that can be in embodiment of the method five provides and realizes hardware, technical scheme that can be described arbitrarily in implementation method embodiment five, has simple, the intelligent height of structure and the high advantage of user's user satisfaction.

Apparatus embodiments six:

The present embodiment provides a kind of electronic equipment, and this electronic equipment is in wearable electronic equipment, and as shown in Fig. 1, described electronic equipment comprises a support 101, be arranged on projecting cell 102 on described support 101 and eyeglass module 103, described electronic equipment can maintain the relative position relation with electronic equipment user head by described support 101, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support 101, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell 102, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module 103, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed, wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module 103 and user,

Described determining unit 120, specifically for according to described human body eye motion status information, determines the position adjustment parameter adjusting visual focus corresponding to described first project content;

Described projecting cell 102, specifically for according to described position adjustment parameter, adjusts to the second place by visual focus corresponding for described first project content by primary importance; And in described second position, projection forms described first project content.

The present embodiment provides a kind of different and upper embodiment of the method by adjusting the electronic equipment of the area of the projection of described first project content, projecting cell 102 described in electronic equipment described in the present embodiment is by adjusting the position of described visual focus, adjust the drop shadow effect that described first project content is formed in human eye, to reach the object of expection drop shadow effect and raising user user satisfaction.

The position of described visual focus A, can be as shown in Figure 3.The distance of the position of described visual focus A and human eye realizes by the position adjusting visual focus A, thus makes people produce the change of the distance relative to the first project content, thus changes the drop shadow effect of human eye viewing.

Apparatus embodiments seven:

Described projecting cell 102, specifically for the distance by controlling between the projection source of described projecting cell and the lens of eyeglass module and/or control described eyeglass module lens Focussing described in the position of visual focus corresponding to the first project content.

130 comprise projection source in the present embodiment, and projection source herein can comprise projection light source.Described projecting cell 102 is by the adjustment of the spacing of projection source and eyeglass module 103 in the present embodiment, or the position adjustment of visual focus is carried out in the adjustment of focal length controlling lens.Lens herein can comprise convex lens as shown in Figure 3.

In concrete implementation procedure, described electronic equipment also may comprise the structure of this spacing for adjusting described projection source and eyeglass module 103 of linear motor, can also comprise the rotational structure etc. replaced for different focal lens.

Comprehensively above-mentioned, present embodiments provide a kind of electronic equipment, can provide for the information processing method described in embodiment of the method seven and realize hardware, can be used in the technical scheme that implementation method embodiment seven is described arbitrarily, there is the simple and intelligent high advantage of structure.

Apparatus embodiments eight:

Described electronic equipment also comprises:

Receiving element 130, for receiving first input of user; Described first input is used to indicate adjusting range;

Described determining unit 120, also for according to described first input, determines adjusting range parameter; And according to described human body eye motion status information and described adjusting range parameter information, determine described first adjustment parameter.

Receiving element 130 described in the present embodiment can various types of Man Machine Interface, concrete as, Man Machine Interfaces such as control, touch screen or voice operating structure.

Described first input is different according to the difference of the Man Machine Interface of electronic equipment reception, determining unit 120 described in the present embodiment can comprise counter or have the processor of computing function, according to described human body eye motion status information and adjusting range parameter, determine the first adjustment parameter, specifically in this way visual focus be the migration amount of position, the zooming in or out coefficient or amplify area or reduce area etc. of the first project content.

Electronic equipment described in the present embodiment information processing method that can be used in described in embodiment of the method eight provides and realizes hardware, can be used in the technical scheme that implementation method embodiment seven is described arbitrarily, has the simple and intelligent high advantage of structure.

Apparatus embodiments 20:

Described electronic equipment also comprises:

Acquiring unit, for before described first project content of projection, obtains described first project content.

Described electronic equipment also comprises acquiring unit in the present embodiment, the concrete structure of described acquiring unit is different according to the difference of the mode of described first project content of acquisition, specifically as when as described in the first project content for as described in being stored in advance in during electronic equipment internal information, described acquiring unit can comprise the structure such as processor or process chip with information reading capability.When described first project content is the content received from the second electronic equipment, during the information such as the concrete video as downloaded from the webserver, described acquiring unit can comprise communication interface, as Internet interface, for connecting and obtaining information with other electronic equipments.When described first project content is the content of described electronic equipment self collection, described first projecting cell can comprise collection structure, and concrete as image acquisition structure, described image acquisition structure can comprise the structure such as camera and camera.

Comprehensively above-mentioned, the electronic equipment described in the present embodiment also comprises acquiring unit, and this acquiring unit can obtain described first project content before projection first project content, has the simple and intelligent high advantage of structure.

Apparatus embodiments 21:

Described electronic equipment also comprises:

Described first project content comprises the first collection image;

Described acquiring unit, specifically for gathering target area, forming first and gathering image.

The present embodiment specify that on the basis of a upper embodiment described acquiring unit can comprise image acquisition units, can be used in the image gathering target area, forms described first project content.Project described first project content, is projection described first and gathers image.

Electronic equipment described in the present embodiment can project on collection limit, limit, like this when user does not see a certain destination object of Chu target area, electronic equipment gathers the projection of image to first by dynamic conditioning, user is seen clearly by project content, thus improves the user satisfaction of the intelligent of electronic equipment and user.

Described acquiring unit can also be used for determining described target area in the present embodiment, specifically how to determine that described target area see the description of corresponding part in embodiment of the method, just no longer can be repeated at this.

Apparatus embodiments 22:

Described acquiring unit, specifically for receiving the second input of user's input; Described second input is used to indicate described first project content; And determine described first project content according to described second input.

Described acquiring unit can comprise Man Machine Interface in the present embodiment, this Man Machine Interface is for receiving the input of user, current the first project content needing Projection Display is determined in the second input according to described user, being the project content that user wants to see with regard to achieving the content of projection like this, this enhancing the controlling to electronic equipment of user.

In a word, electronic equipment described in the embodiment of the present invention can be wearable electronic equipment, projection and acquisition function can be realized, like this can according to the human body eye motion status information of user, the Content adaptation parameter or the position that adjust project content timely adjust the information such as parameter, to make drop shadow effect meet consumers' demand, for user provides the service of better projecting, the better like this software and hardware resources that make use of electronic equipment, improves the user satisfaction of the intelligent of electronic equipment and user.

In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in various embodiments of the present invention can all be integrated in a processing module, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CD etc. various can be program code stored medium.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims

1. an information processing method, the method is applied in wearable electronic equipment, and described electronic equipment comprises a support, arranges projecting cell on the bracket and eyeglass module; Described electronic equipment can maintain the relative position relation with electronic equipment user head by described support, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed; Wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module and user;

Described method comprises:

When described projecting cell is in described lens module first lateral projection's the first project content, gather the human body eye motion status information being positioned at described lens module second side; Described lens module is between described first side and described second side;

According to described human body eye motion status information, determine the first adjustment parameter;

According to described first adjustment parameter, described first project content of display projection.

2. method according to claim 1, is characterized in that,

Described human body eye motion comprises pupil movement;

Described when described projecting cell is in described lens module first lateral projection's the first project content, gather the human body eye motion status information being positioned at described lens module second side, comprising:

The first aperture information of pupil is gathered in the first moment;

The second aperture information of pupil is gathered in the second moment;

Wherein, described first moment is early than described second moment.

3. method according to claim 1, is characterized in that,

Described human body eye motion comprises eyelid movement status information;

4. method according to claim 1, is characterized in that,

5. method according to claim 1, is characterized in that,

Described according to described human body eye motion status information, determine the first adjustment parameter, comprising:

Described according to described first adjustment parameter, described first project content of display projection, comprising:

6. method according to claim 1, is characterized in that,

According to described position adjustment parameter, visual focus corresponding for described first project content is adjusted to the second place by primary importance;

In described second position, projection forms described first project content.

7. method according to claim 6, is characterized in that,

Described according to described position adjustment parameter, visual focus corresponding for described first project content is adjusted to the second place by primary importance, comprising:

By the position of visual focus corresponding to the first project content described in the Focussing of the distance that controls between the projection source of described projecting cell and the lens of eyeglass module and/or the lens that control described eyeglass module.

8. method according to claim 1, is characterized in that,

Described method also comprises:

According to described first input, determine adjusting range parameter;

According to described human body eye motion status information and described adjusting range parameter information, determine described first adjustment parameter.

9. method according to claim 1, is characterized in that,

Obtain described first project content.

10. method according to claim 9, is characterized in that,

Described first project content comprises the first collection image;

Described first project content of described acquisition, comprising:

Gather target area, form first and gather image.

11. methods according to claim 9, is characterized in that,

Described first project content of described acquisition, comprising:

12. 1 kinds of electronic equipments, this electronic equipment is in wearable electronic equipment, and described electronic equipment comprises a support, arranges projecting cell on the bracket and eyeglass module; Described electronic equipment can maintain the relative position relation with electronic equipment user head by described support, when described electronic equipment maintains the first relative position relation with electronic equipment user head by described support, control described electronic equipment the light for the formation of the first image is sent from the projection source of described projecting cell, and the eyes of described electronic equipment user are projected through the lens unit of described eyeglass module, make user in the visual focus position through eyeglass module, watch the project content that described projecting cell is formed; Wherein, described visual focus is positioned on the determined straight line of eyes of described eyeglass module and user;

Described electronic equipment also comprises collecting unit and determining unit:

Described collecting unit, for when described projecting cell is in described lens module first lateral projection's the first project content, gathers the human body eye motion status information being positioned at described lens module second side; Described lens module is between described first side and described second side;

Described determining unit, for according to described human body eye motion status information, determines the first adjustment parameter;

Described projecting cell, for according to described first adjustment parameter, shows described first project content of projection.

13. electronic equipments according to claim 12, is characterized in that,

Described human body eye motion comprises pupil movement;

Described collecting unit, specifically for gathering the first aperture information of pupil in the first moment; The second aperture information of pupil is gathered in the second moment; And more described first aperture information and the second aperture information, determine described human body eye motion status information;

Wherein, described first moment is early than described second moment.

14. electronic equipments according to claim 12, is characterized in that,

Described human body eye motion comprises eyelid movement status information;

Described collecting unit, specifically for gathering eyelid and the primary importance relation of eyeball in first orientation in the first moment; Described eyelid is gathered relative to the second place relation of described eyeball in described first orientation in the second moment; And more described primary importance relation and described second place relation, determine described human body eye motion status information.

15. electronic equipments according to claim 12, is characterized in that,

Described collecting unit, remaining on the duration of same position, forming the first duration specifically for measuring eyeball; Judge whether described first duration reaches duration threshold value, form judged result; And according to described judged result, determine described human body eye motion status information.

16. electronic equipments according to claim 12, is characterized in that,

Described determining unit, specifically for according to described human body eye motion status information, determines the Content adaptation parameter of described first project content;

Described projecting cell, specifically for according to described Content adaptation parameter, adjusts the projected area that described first project content is formed at described visual focus place.

17. electronic equipments according to claim 12, is characterized in that,

Described determining unit, specifically for according to described human body eye motion status information, determines the position adjustment parameter adjusting visual focus corresponding to described first project content;

Described projecting cell, specifically for according to described position adjustment parameter, adjusts to the second place by visual focus corresponding for described first project content by primary importance; And in described second position, projection forms described first project content.

18. electronic equipments according to claim 17, is characterized in that,

Described projecting cell, specifically for the distance by controlling between the projection source of described projecting cell and the lens of eyeglass module and/or control described eyeglass module lens Focussing described in the position of visual focus corresponding to the first project content.

19. electronic equipments according to claim 12, is characterized in that,

Described electronic equipment also comprises:

Receiving element, for receiving first input of user; Described first input is used to indicate adjusting range;

Described determining unit, also for according to described first input, determines adjusting range parameter; And according to described human body eye motion status information and described adjusting range parameter information, determine described first adjustment parameter.

20. electronic equipments according to claim 12, is characterized in that,

Described electronic equipment also comprises:

21. electronic equipments according to claim 19, is characterized in that,

Described first project content comprises the first collection image;

22. electronic equipments according to claim 19, is characterized in that,