CN104052981A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method for improving authenticity of 3D displaying. The method comprises the following steps that: when a three-dimensional image is displayed at a display unit and a human eye enters a predetermined collection zone, an image acquisition device carries out collection to obtain a first motion image of the human eye and a first motion parameter of the human eye is also obtained based on the first motion image; according to the first motion parameter, a first sight focus of the human eye is determined; on the basis of the first sight focus, a first object is determined in the three-dimensional image; and fuzzy processing is carried out on other zones except the first zone where the first object is located in the three-dimensional image. In addition, the invention also discloses electronic equipment for realizing the method.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to 3D Display Technique, particularly a kind of information processing method and electronic equipment.

Background technology

3D is the abbreviation of English " Three Dimensions ", and Chinese refers to three-dimensional, three dimensions, three coordinates, has length.The 3D of today, mainly refering in particular to is the digitized 3D/ three-dimensional/stereo technology based on computer/the Internet, namely three-dimensional digital.

Along with the fast development of computer technology in the last few years, the research and development of 3D technology and the stage of fumbling in early stage of applying the decades of having passed by, the maturity of technology, sophistication, ease for use, hommization, economy etc., all obtained huge breakthrough.Along with popularizing fast of computer network application, with regard to 3D application, become especially the basic computer instrument that common junior college student easily controls, as computer typewriter.The consumption of 3D and use, as the game of working it out by 3D technology, film, mansion, automobile, mobile phone, clothes etc., more become the part in ordinary populace work and life.

Presenting of present 3D rendering is all to utilize the parallax of two, and two pictures are combined, and each region after combining in two pictures presents with clear state.

But in actual life, when human eye is kept a close watch on an object and seen in space, position beyond focus is actually virtualization.

Visible, 3D display effect validity of the prior art is poor, comparatively stiff for user, hommization not.

Summary of the invention

The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving the lower technical problem of prior art 3D display effect validity, has realized and has improved the technique effect that 3D shows validity.

An information processing method, is applied to have the electronic equipment of display unit, and described electronic equipment has or is connected with image collecting device, and described image collecting device has predetermined pickup area, said method comprising the steps of:

By described display unit, showing in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye;

According to described the first kinematic parameter, determine the first sight line focus of described human eye;

According to described the first sight line focus, in described 3-D view, determine the first object;

Fuzzy Processing is carried out in other regions except the first area at described the first object place in described 3-D view.

Preferably, described image collector is set to camera.

Preferably, by described image collecting device collection, obtaining the first moving image of described human eye, and also comprise step before obtaining the first kinematic parameter of described human eye based on described the first moving image: when described electronic equipment comprises a described image collecting device, determine and gather described the first moving image by described image collecting device, obtain described first kinematic parameter of human eye; When described electronic equipment comprises two described image collecting devices, according to the eyelid movement of human eye or according to the angle of the sight line of human eye and described display unit place plane determine concrete by wherein described in which image collecting device gather described first moving image of human eye, obtain described first kinematic parameter of human eye.

Preferably, the step of determining the first sight line focus of described human eye according to described the first kinematic parameter comprises: according to described the first kinematic parameter, determine the first sight line of described human eye, according to the intersection point of described the first sight line and described predetermined image pickup area, determine described the first sight line focus.

Preferably, the step of determining the first object according to described the first sight line focus in described 3-D view comprises: according to described the first sight line focus, in forming the first image of described 3-D view and/or the second image, determine described the first object.

Preferably, the step of other regions except the first area at described the first object place in described 3-D view being carried out to Fuzzy Processing comprises: Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the second image.

Preferably, the step of other regions except the first area at described the first object place in described 3-D view being carried out to Fuzzy Processing comprises: Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the second image.

An electronic equipment, described electronic equipment has display unit, and described electronic equipment has or is connected with image collecting device, and described image collecting device has predetermined pickup area, and described electronic equipment comprises:

Acquisition module, for showing the process of 3-D view by described display unit, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye;

The first determination module, for determining the first sight line focus of described human eye according to described the first kinematic parameter;

The second determination module, for determining the first object according to described the first sight line focus at described 3-D view;

Processing module, for to described 3-D view other regions except the first area at described the first object place carry out Fuzzy Processing.

Preferably, described image collector is set to camera.

Preferably, described electronic equipment also comprises the 3rd determination module, for when described electronic equipment comprises a described image collecting device, determines and gathers described the first moving image by described image collecting device, obtains described first kinematic parameter of human eye; When described electronic equipment comprises two described image collecting devices, according to the eyelid movement of human eye or according to the angle of the sight line of human eye and described display unit place plane determine concrete by wherein described in which image collecting device gather described first moving image of human eye, obtain described first kinematic parameter of human eye.

Preferably, described the first determination module specifically for: according to described the first kinematic parameter, determine the first sight line of described human eye, according to the intersection point of described the first sight line and described predetermined image pickup area, determine described the first sight line focus.

Preferably, described the second determination module specifically for: according to described the first sight line focus, in forming the first image of described 3-D view and/or the second image, determine described the first object.

Preferably, described processing module specifically for: Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the second image.

Preferably, described processing module specifically for: Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the second image.

Information processing method in the embodiment of the present invention can be applied to have the electronic equipment of display unit, described electronic equipment can have image collecting device, or described electronic equipment can be connected with described image collecting device, described image acquisition units has predetermined pickup area, described method can comprise: by described display unit, showing in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye, according to described the first kinematic parameter, determine the first sight line focus of described human eye, according to described the first sight line focus, in described 3-D view, determine the first object, Fuzzy Processing is done in other regions except the first area at described the first object place in described 3-D view.

In the embodiment of the present invention, in showing the process of 3-D view, described electronic equipment can obtain by described image collecting device collection described first moving image of human eye, can determine according to described the first moving image described first kinematic parameter of human eye, thereby can determine according to described the first kinematic parameter the described first sight line focus of human eye, after determining described the first sight line focus, can carry out Fuzzy Processing to other regions except described the first sight line focus, thereby make 3D show the true effect of watching closer to human eye, improved the validity that 3D shows, for user, 3D shows more natural, also humanized, the custom of watching that more meets user.

Accompanying drawing explanation

Fig. 1 is the main flow chart of information processing method in the embodiment of the present invention;

Fig. 2 is the structure chart of the glasses type electronic equipment in the embodiment of the present invention;

Fig. 3 is the functional block diagram of glasses type electronic equipment in the embodiment of the present invention;

Fig. 4 is the schematic diagram of enlarged image in the embodiment of the present invention;

Fig. 5 is the schematic diagram of enlarged image in the embodiment of the present invention;

Fig. 6 is the detailed structure view of electronic equipment in the embodiment of the present invention.

Embodiment

Information processing method in the embodiment of the present invention can be applied to have the electronic equipment of display unit, described electronic equipment can have image collecting device, or described electronic equipment can be connected with described image collecting device, described image acquisition units has predetermined pickup area, described method can comprise: by described display unit, showing in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye, according to described the first kinematic parameter, determine the first sight line focus of described human eye, according to described the first sight line focus, in described 3-D view, determine the first object, Fuzzy Processing is done in other regions except the first area at described the first object place in described 3-D view.

In the embodiment of the present invention, in showing the process of 3-D view, described electronic equipment can obtain by described image collecting device collection described first moving image of human eye, can determine according to described the first moving image described first kinematic parameter of human eye, thereby can determine according to described the first kinematic parameter the described first sight line focus of human eye, after determining described the first sight line focus, can carry out Fuzzy Processing to other regions except described the first sight line focus, thereby make 3D show the true effect of watching closer to human eye, improved the validity that 3D shows, for user, 3D shows more natural, also humanized, the custom of watching that more meets user.

Referring to Fig. 1, the embodiment of the present invention provides a kind of information processing method, described method can be applied to have the electronic equipment of display unit, described electronic equipment can have image collecting device, or described image collecting device can not be a part for described electronic equipment, described electronic equipment just can and described image collecting device between communicate, the main flow process of described method is as follows:

Step 101: showing by described display unit in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye.

In the embodiment of the present invention, described electronic equipment can be the electronic equipments such as PC (personal computer), PAD (panel computer), or can be also the electronic equipments such as intelligent glasses, 3D glasses, or can be also other electronic equipments.

Showing in the process of three-dimensional (3D) image by described display unit, when human eye enters into the described predetermined pickup area of described image collecting device, can obtain by described image collecting device collection described first moving image of described human eye.

Wherein, if described image collector is set to a part for described electronic equipment, described electronic equipment directly can obtain described the first moving image that described image collecting device collection obtains, if described image collecting device is not a part for described electronic equipment, and just can communicate with described electronic equipment, described image collecting device can initiatively transfer to described electronic equipment by described the first moving image after gathering, or described electronic equipment can be real-time, regularly or described image collecting device is detected while being triggered, to obtain described the first moving image from described image collecting device.

Described electronic equipment, after obtaining described the first moving image, can be analyzed described the first moving image, thereby can obtain according to described the first moving image described first kinematic parameter of described human eye.

In the embodiment of the present invention, described harvester can be camera.Described harvester can have default pickup area, i.e. described predetermined pickup area.

In the embodiment of the present invention, described electronic equipment can include a described image collecting device, or also can include two or more described image collecting devices.Preferably, described electronic equipment can include a described image collecting device, or also can include two described image collecting devices.If described electronic equipment includes a described image collecting device, the pickup area of described image collecting device at least comprises described electronic equipment, if described electronic equipment includes two described image collecting devices, described in one of them, the pickup area of image collecting device can be the viewing area of the described display unit of described electronic equipment, and described in another, the pickup area of image collecting device can be described electronic equipment other region except described viewing area.

If described electronic equipment includes two described image collecting devices, wherein the pickup area of the first image collecting device can be the described viewing area of described electronic equipment, and wherein the pickup area of the second image collecting device can be described electronic equipment other region except described viewing area.Described electronic equipment can be by human eye the motion conditions of eyelid determine the motion of actually using which image collecting device to gather human eye.

For example, can determine that there is a primary importance at human eye eyeball middle part, when the eyelid movement of human eye is between the top of the eyeball from human eye is down to the primary importance of the eyeball at human eye, can determine the motion that gathers human eye with described the second image collecting device, if the eyelid movement of human eye is positioned at from the bottom of the eyeball of human eye upward to described primary importance, can determine the motion that gathers human eye with described the first image collecting device.Wherein, when the eyelid of human eye is positioned at described primary importance, can determine the sight line focus of human eye now corresponding can be the line of demarcation in described viewing area and other region of described electronic equipment except described viewing area.; when the eyelid of human eye is positioned at the top region of described primary importance; can determine the motion that gathers human eye with described the first image collecting device; when the eyelid of human eye is positioned at region on the lower of described primary importance, can determine the motion that gathers human eye with described the second image collecting device.

Or, if described electronic equipment includes two described image collecting devices, wherein the pickup area of the first image collecting device can be the described viewing area of described electronic equipment, wherein the pickup area of the second image collecting device can be described electronic equipment other region except described viewing area, and described electronic equipment can also be determined concrete which image collecting device that uses by sight line and the angle between described display unit of human eye.

For example, when the angle of the angle between the sight line of human eye and the extended surface at the top edge place of described viewing area in the first angle between the second angle time, can determine the motion that gathers human eye with described the first image collecting device, wherein, described the first angle can be acute angle, and described the second angle can be obtuse angle.When the angle of the angle between the sight line of human eye and the extended surface at the top edge place of described viewing area is described the first angle, can determine the sight line focus of human eye now corresponding can be the line of demarcation in described viewing area and other region of described electronic equipment except described viewing area; When the angle of the angle between the sight line of human eye and the extended surface at the top edge place of described viewing area is described the second angle, can determine the sight line focus of human eye now corresponding can be described electronic equipment and the line of demarcation in other region except described electronic equipment.

Step 102: the first sight line focus of determining described human eye according to described the first kinematic parameter.

After obtaining described the first kinematic parameter, can determine according to described the first kinematic parameter the described first sight line focus of human eye.

In the embodiment of the present invention, for example, can determine according to described the first kinematic parameter the first sight line of human eye, thereby can determine described the first sight line focus according to described the first sight line.

Step 103: determine the first object according to described the first sight line focus in described 3-D view.

In the embodiment of the present invention, a kind ofly possible according to described the first sight line focus, determine that the mode of described the first object is: if an object in described the first sight line and described 3-D view intersects, can determine that this intersection point is described the first sight line focus, meanwhile, can determine that this object is described the first object according to described the first sight line focus.

Being equivalent to, is to determine described the first sight line focus according to the intersection point of described the first sight line and described predetermined image pickup area in the embodiment of the present invention.

In the embodiment of the present invention, in the described predetermined image pickup area of described image acquisition units, described the first sight line Focus Club is positioned on an object, and for example this object is a water tumbler, can determine that this water tumbler is described the first object.

In the embodiment of the present invention, because there is the depth of field when taking, therefore, in the described predetermined image pickup area of described image acquisition units, with the reference object that described the first sight line is crossing may be not only one.For example, in the described predetermined image pickup area of described image acquisition units, have a chair nearby, have a desk at a distance, Cain and Abel is on same line.

In the embodiment of the present invention, near and far is all for described electronic equipment, refers to the position close to from described electronic equipment nearby, refers to the position away from from described electronic equipment at a distance.

In the described predetermined image pickup area of described image acquisition units, this first sight line may all intersect with this Cain and Abel.In the embodiment of the present invention, if in the predetermined image pickup area of described image acquisition units with not only one of the crossing reference object of described the first sight line, can choose therein an intersection point as described the first sight line focus, according to described the first sight line focus, determine that corresponding object is as described the first object.

For example, the mode of choosing can be to choose arbitrarily a reference object as described first object a plurality of reference objects from intersecting with described the first sight line, or the another kind of mode of choosing can be also to choose the reference object the shortest with described electronic equipment distance as described the first object a plurality of reference objects from intersecting with described the first sight line.

Concrete, in the described predetermined image pickup area of described image acquisition units, determine with described the first object before, can first determine described the first sight line, after determining described the first sight line, can determine in described image acquisition region the quantity of the reference object crossing with described the first sight line, if determine that in described predetermined image pickup area the quantity of the reference object crossing with described the first sight line is 1, can determine that this reference object is described the first object, if determine that in described predetermined image pickup area the quantity of the reference object crossing with described the first sight line is not less than 2, can choose therein one as described the first object.

Optionally, a kind of mode of choosing can be to choose arbitrarily a reference object as described the first object a plurality of reference objects from intersecting with described the first sight line.

For example, in the described predetermined image pickup area of described image acquisition units, have a chair nearby, have a desk at a distance, Cain and Abel is on same line, and Cain and Abel all intersects with described the first sight line.Can be therefrom optional one as described the first object, for example can select chair as described the first object, or also can select desk as described the first object.

Optionally, to choose mode can be also to choose the reference object the shortest with described electronic equipment distance as described the first object a plurality of reference objects from intersecting with described the first sight line to another kind.

For example, in the described predetermined image pickup area of described image acquisition units, have a chair nearby, have a desk at a distance, Cain and Abel is on same line, and Cain and Abel all intersects with described the first sight line.And distance between chair and described electronic equipment is obviously less than the distance between desk and described electronic equipment, therefore can therefrom select chair as described the first object.

In the embodiment of the present invention, be generally by two width image construction one width 3D renderings, this two width image could be regarded as 3D rendering after remarkable brain is processed.Therefore, be for example by the first image and the second image construction described 3-D view,, when determining described the first object according to described the first sight line focus, can be specifically according to described the first sight line focus, in described the first image and/or described the second image, to determine described the first object.That is, described the first object can only be arranged in described the first image, or described the first object can only be arranged in described the second image, or described the first object can both be arranged in described the first image and is also arranged in described the second image.

Step 104: Fuzzy Processing is carried out in other regions except the first area at described the first object place in described 3-D view.

In the embodiment of the present invention, after determining described the first object, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described 3-D view.

In the embodiment of the present invention, concrete, after determining described the first object, if described the first object is only arranged in described the first image, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described the first image, and described the second image is all carried out to Fuzzy Processing.

In the embodiment of the present invention, concrete, after determining described the first object, if described the first object is only arranged in described the second image, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described the second image, and described the first image is all carried out to Fuzzy Processing.

In the embodiment of the present invention, concrete, after determining described the first object, if described the first object had both been arranged in described the first image and has also been arranged in described the second image, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described the first image and described the second image.

In the embodiment of the present invention, the mode of Fuzzy Processing can have multiple, for example, can be Gaussian Blur processing, mirror image Fuzzy Processing, surface blur processing, etc.

For example, with Gaussian Blur, be treated to example.Gaussian Blur is widely used technology during image is processed, conventionally with it, carrys out noise decrease and reduce level of detail.The visual effect of the image that this fuzzy technology is produced is to seem through a translucent screen viewing image.Gaussian Blur also the pretreatment stage in term computer vision algorithms make to strengthen the image effect of image under different size.

So-called " fuzzy ", can be understood as the mean value that each pixel is got neighboring pixel.

" intermediate point " gets the mean value of " point around ", numerically, this be a kind of " smoothing ".On figure, be just equivalent to produce " fuzzy " effect, " intermediate point " loses details.

Obviously, during calculating mean value, span is maximum, and " blur effect " is stronger.

Ensuing problem is exactly, since each point will be got the mean value of neighboring pixel, should how to assign weight so.

If use simple average, is not obviously quite reasonable because image is all continuous, the closer to some relation closer, more away from some relation more become estranged.Therefore, weighted average is more reasonable, larger apart from nearer some weight, and the some weight that distance is far away is less.

Normal distribution is obviously a kind of desirable weight allocation pattern.

Normal distribution is a kind of bell curve, more approaches center, and value is larger, and more away from center, value is less.

In the time of calculating mean value, we only need using " central point " as initial point, and other are position on normal curve according to it, assign weight, and just can obtain a weighted average, thereby can obtain weight matrix.After obtaining weight matrix, just can corresponding acquisition Gaussian Blur image.

By several specific embodiments, introduce the information processing method in the present invention below, the following examples article several possible application scenarios of described method.It should be noted that; embodiment in the present invention is only for explaining the present invention; and can not be for limiting the present invention, every embodiment that meets inventive concept is all within protection scope of the present invention, and those skilled in the art know how according to thought of the present invention, to carry out modification naturally.

Embodiment mono-:

Described electronic equipment is for example glasses type electronic equipment, and referring to Fig. 2, glasses type electronic equipment comprises structure member 200, and structure member comprises nose support 201 and ear frame 203, for this glasses type electronic equipment being worn on to user's health; Eye movement monitoring component 202 can be positioned in structural portion 300, for example, be positioned at nose support 301 places, also can be positioned on display unit 210, as long as can monitor user's eye movement.For example eye movement monitoring component 202 can be camera, and the eye movement detection part in the present embodiment is described image collecting device.When electronic equipment is worn on user's health, by the eye movement of eye movement monitoring component 202 monitor user ', further, headwork identification component 204 also can be positioned on structure member 200, for example on ear frame 203, headwork identification component 204 can certainly be positioned in nose support 201, as long as can touch user's head and can identify headwork; Head identification component 204 is for example gravity sensor, can identify user's headwork by gravity sensor.Therefore, when user is worn on health by electronic equipment, can by eye movement and headwork, to electronic equipment, control easily, control efficiency is high, is not easy misoperation.

In the present embodiment, display unit 210 is for example the eyeglass of glasses type electronic equipment itself, so user can watch the content on the eyeglass of glasses type electronic equipment, but user also can watch the content being presented in virtual display space, like this, the content of demonstration has with a certain distance from eyes of user, so seem can be more comfortable for user, hereinafter, with reference to accompanying drawing, describe the preferred embodiments of the present invention in detail.Note, in this specification and accompanying drawing, there is substantially the same step and represent with identical Reference numeral with element, and will be omitted the repetition of explanation of these steps and element.

As shown in Figure 3, glasses type electronic equipment can also comprise graphics processing unit 310, the first optical system 330 and the first form 340.Graphics processing unit 310 can provide described multimedia file.Graphics processing unit 310 can be the CPU (for example CPU) of glasses type electronic equipment, alternatively, can be also at physics or the independent graphics processing unit arranging in logic.In the present embodiment, graphics processing unit 310 can provide described multimedia file with 3D form.

The described multimedia file that display unit 210 displayable image processing units 310 provide.According to an example of the present invention, display unit 210 can be the miniature display unit of the size of the size of its screen screen that is less than existing electronic equipment.In an embodiment of the present invention, display unit 210 is of a size of consistent with the lens dimension of this glasses type electronic equipment.This eyeglass conforms to the standard size of human eye.In addition, according to another embodiment of the present invention, display unit 210 has higher resolution.Particularly, the resolution of the screen of display unit 210 can be higher than the resolution of the screen of existing electronic equipment.For example, display unit 210 can adopt the resolution that meets high definition or full HD standard.

The first optical system 330 can receive the light sending from display unit 210, and the light sending from display unit 210 is carried out to light path converting, to form the first amplification virtual image, wherein the length of the light path between the first optical system 430 and display unit 210 is less than the focal length of the first optical system.That is to say, the first optical system 430 has positive refractive power.Can preset the multiplication factor of the first optical system 430.Alternatively, the first optical system 430 can comprise that the first adjusting parts, to adjust the multiplication factor of the first optical system 430, will be described in detail this after a while.The first area that amplifies the virtual image is greater than the area of the viewing area of the first display unit.

According to an example of the present invention, the first optical system 330 at least comprises the lens subassembly with positive refractive power.Fig. 4 is the schematic diagram illustrating according to the lens subassembly of an example of the present invention.As shown in Figure 4, lens subassembly can comprise convex lens 410.Convex lens 410 can receive from display unit and send out 210 light that go out, and the light sending from display unit 210 is carried out to light path converting, to form the first amplification virtual image 420.

Although the light of take in Fig. 4 has been described the light path converting that the light to sending from display unit 210 carries out as example, but one group of light that many light of serving as reasons that should note in fact sending from display unit 210 form, and this group light carries out light path converting by convex lens 410, to form the first amplification virtual image 420.

In addition, the interference in order to reduce aberration, to avoid dispersion etc. to cause imaging, brings user better visual experience, also can form lens subassembly by a plurality of lens that comprise convex lens and concavees lens.As mentioned above, the plurality of lens form lens subassembly and have positive refractive power,, can be equivalent to convex lens that is.Fig. 5 is the schematic diagram illustrating according to the lens subassembly of another example of the present invention.As shown in Figure 5, lens subassembly can comprise single convex lens 520, single convex lens 530 and concave and convex lenses 540.

Graphics processing unit 310, display unit 210 and the first optical system 330 can be arranged on the inside of glasses type electronic equipment.The first form 340 can be arranged on the first outer surface of glasses type electronic equipment, and when user wears the above glasses type electronic equipment, the first form 340 faces user's eyes.User can watch the first amplification virtual image 420 by the first optical system 330.According to an example of the present invention, the large I of the first form 340 is corresponding with the size of human eye, and preferred, the first form 340 can be in the same size with the eyeglass of glasses type electronic equipment.

According to an example of the present invention, in glasses type electronic equipment, display unit 210 is arranged on a side of the first optical system 330, and the first optical system 330 allows user at opposite side relative with display unit 210, this first optical system 330, watches the first amplification virtual image 420.

The glasses type electronic equipment providing by the invention described above embodiment, the picture size that user can watch is not subject to the restriction of glasses type electronic equipment self eyeglass (being screen) size, and user can watch the demonstration image with large-size by this glasses type electronic equipment.In other words, when user wears this glasses type electronic equipment, see the size of demonstration image than the eyeglass of described glasses type electronic equipment (, screen) size is large, and the distance of the demonstration image of simultaneously seeing is greater than human eye to the distance of eyeglass (wearing this glasses type electronic equipment).

Display unit 210 shows 3-D view, when human eye enters in the described predetermined pickup area of eye movement monitoring component 202, can gather the first moving image that obtains human eye by eye movement monitoring component 202, described electronic equipment can obtain according to described the first moving image the first kinematic parameter of human eye.

After obtaining described the first kinematic parameter, can determine according to described the first kinematic parameter the first sight line of human eye.

After determining described the first sight line, can in described predetermined image pickup area, determine the object crossing with described the first sight line.

In the present embodiment, in described predetermined image pickup area, have two with the crossing object of described the first sight line, for example, in the described predetermined image pickup area of described image acquisition units, there is a chair nearby, have a desk at a distance, Cain and Abel is on same line, and Cain and Abel all intersects with described the first sight line.

In the present embodiment, can from these two objects, select one as the first object arbitrarily, determine that the first sight line focus of user is positioned on described the first object.For example can select chair as described the first object, or also can select desk as described the first object.

After determining described the first object, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described 3-D view.

In the present embodiment, after determining described the first object, determine that described the first object is only arranged in described the first image, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described the first image, and described the second image is all carried out to Fuzzy Processing.The mode of carrying out Fuzzy Processing in the present embodiment can be that Gaussian Blur is processed.

Embodiment bis-:

Described electronic equipment is PC.Described display unit is the display screen of PC.This PC has an image collecting device, and in the present embodiment, for example described image collector is set to camera.

Described display unit shows 3-D view, and when human eye enters in the predetermined pickup area of described image collecting device, described electronic equipment can be by the first moving image of described image collecting device collection acquisition human eye.

After obtaining described the first moving image, can obtain according to described the first moving image the first kinematic parameter of human eye, after obtaining described the first kinematic parameter, can obtain the first sight line of human eye according to described the first kinematic parameter, thereby can determine according to described the first sight line the first sight line focus of human eye.

For example, the mode of determining the first sight line focus of human eye in the present embodiment is: in described predetermined image pickup area, described the first sight line can intersect with the first object, can determine that described the first sight line focus is positioned on described the first object, can determine that in other words described the first object is described the first sight line focus.

In the present embodiment, because there is the depth of field when taking, therefore, in the described predetermined image pickup area of described image acquisition units, with the reference object that described the first sight line is crossing may be not only one.For example, in the described predetermined image pickup area of described image acquisition units, have a chair nearby, have a desk at a distance, Cain and Abel is on same line.

In the present embodiment, near and far is all for described electronic equipment, refers to the position close to from described electronic equipment nearby, refers to the position away from from described electronic equipment at a distance.

In the described predetermined image pickup area of described image acquisition units, this first sight line may all intersect with this Cain and Abel.In the present embodiment, if in the predetermined image pickup area of described image acquisition units with not only one of the crossing reference object of described the first sight line, can choose therein one as described the first object.

For example, the mode of choosing in the present embodiment is to choose arbitrarily a reference object as described the first object a plurality of reference objects from intersecting with described the first sight line.For example can select chair as described the first object, or also can select desk as described the first object.

In the present embodiment, after determining described the first object, can determine described the first object is arranged in which the width image that forms described 3-D view.For example, 3-D view described in the present embodiment is by the first image and the second image construction, determines described the first object and has both been arranged in described the first image and is also arranged in described the second image.

In the present embodiment, concrete, after determining described the first object, if described the first object had both been arranged in described the first image and has also been arranged in described the second image, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described the first image and described the second image.The Fuzzy Processing mode adopting in the present embodiment can be that mirror image is fuzzy.

Embodiment tri-:

Described electronic equipment is PAD.Described display unit is the display screen of PAD.This PAD has an image collecting device, and in the present embodiment, for example described image collector is set to camera.

Described display unit shows 3-D view, and when human eye enters in the predetermined pickup area of described image collecting device, described electronic equipment can be by the first moving image of described image collecting device collection acquisition human eye.

After obtaining described the first moving image, can obtain according to described the first moving image the first kinematic parameter of human eye, after obtaining described the first kinematic parameter, can obtain the first sight line of human eye according to described the first kinematic parameter, thereby can determine according to described the first sight line the first sight line focus of human eye.

For example, the mode of determining the first sight line focus of human eye in the present embodiment is: in described predetermined image pickup area, described the first sight line can intersect with the first object, can determine that described the first sight line focus is positioned on described the first object, can determine that in other words described the first object is described the first sight line focus.

In the present embodiment, because there is the depth of field when taking, therefore, in the described predetermined image pickup area of described image acquisition units, with the reference object that described the first sight line is crossing may be not only one.For example, in the described predetermined image pickup area of described image acquisition units, have a chair nearby, have a desk at a distance, Cain and Abel is on same line.

In the present embodiment, near and far is all for described electronic equipment, refers to the position close to from described electronic equipment nearby, refers to the position away from from described electronic equipment at a distance.

In the described predetermined image pickup area of described image acquisition units, this first sight line may all intersect with this Cain and Abel.In the present embodiment, if in the predetermined image pickup area of described image acquisition units with not only one of the crossing reference object of described the first sight line, can choose therein one as described the first object.

For example, the mode of choosing in the present embodiment is to choose arbitrarily a reference object as described the first object a plurality of reference objects from intersecting with described the first sight line.For example can select chair as described the first object, or also can select desk as described the first object.

In the present embodiment, after determining described the first object, can determine described the first object is arranged in which the width image that forms described 3-D view.For example, 3-D view described in the present embodiment, by the first image and the second image construction, is determined described the first object and is only arranged in described the second image.

In the present embodiment, concrete, after determining described the first object, if described the first object is only arranged in described the second image, can carry out Fuzzy Processing to other regions except the described first area at described the first object place in described the second image, and described the first image is all carried out to Fuzzy Processing.The mode of the Fuzzy Processing adopting in the present embodiment can be surface blur.

Referring to Fig. 6, the embodiment of the present invention provides a kind of electronic equipment, described electronic equipment can have display unit, described electronic equipment can have image collecting device, or described image collecting device can not be a part for described electronic equipment, described electronic equipment just can and described image collecting device between communicate.Described electronic equipment can also comprise acquisition module 601, the first determination module 602, the second determination module 603 and processing module 604.

Preferably, described electronic equipment can also comprise the 3rd determination module 605.

Acquisition module 601 can be for showing by described display unit in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye.

The first determination module 602 can be for determining the first sight line focus of described human eye according to described the first kinematic parameter.

The first determination module 602 specifically can, for determine the first sight line of described human eye according to described the first kinematic parameter, be determined described the first sight line focus according to the intersection point of described the first sight line and described predetermined image pickup area.

The second determination module 603 can be for determining the first object in described 3-D view according to described the first sight line focus.

The second determination module 603 specifically can be for determining described the first object according to described the first sight line focus in forming the first image of described 3-D view and/or the second image.

Processing module 604 can be for carrying out Fuzzy Processing to other regions except the first area at described the first object place in described 3-D view.

Processing module 604 specifically can be for Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the second image.

Processing module 604 specifically can be for Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the second image.

In the embodiment of the present invention, described image collecting device can be camera.

The 3rd determination module 605 can be determined and be gathered described the first moving image by described image collecting device for when described electronic equipment comprises a described image collecting device, obtains described first kinematic parameter of human eye; When described electronic equipment comprises two described image collecting devices, according to the eyelid movement of human eye or according to the angle of the sight line of human eye and described display unit place plane determine concrete by wherein described in which image collecting device gather described first moving image of human eye, obtain described first kinematic parameter of human eye.

Information processing method in the embodiment of the present invention can be applied to have the electronic equipment of display unit, described electronic equipment can have image collecting device, or described electronic equipment can be connected with described image collecting device, described image acquisition units has predetermined pickup area, described method can comprise: by described display unit, showing in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye, according to described the first kinematic parameter, determine the first sight line focus of described human eye, according to described the first sight line focus, in described 3-D view, determine the first object, Fuzzy Processing is done in other regions except the first area at described the first object place in described 3-D view.

In the embodiment of the present invention, in showing the process of 3-D view, described electronic equipment can obtain by described image collecting device collection described first moving image of human eye, can determine according to described the first moving image described first kinematic parameter of human eye, thereby can determine according to described the first kinematic parameter the described first sight line focus of human eye, after determining described the first sight line focus, can carry out Fuzzy Processing to other regions except described the first sight line focus, thereby make 3D show the true effect of watching closer to human eye, improved the validity that 3D shows, for user, 3D shows more natural, also humanized, the custom of watching that more meets user.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt complete hardware implementation example, implement software example or in conjunction with the form of the embodiment of software and hardware aspect completely.And the present invention can adopt the form that wherein includes the upper computer program of implementing of computer-usable storage medium (including but not limited to magnetic disc store and optical memory etc.) of computer usable program code one or more.

The present invention is with reference to describing according to flow chart and/or the block diagram of the method for the embodiment of the present invention, equipment (system) and computer program.Should understand can be in computer program instructions realization flow figure and/or block diagram each flow process and/or the flow process in square frame and flow chart and/or block diagram and/or the combination of square frame.Can provide these computer program instructions to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, the instruction of carrying out by the processor of computer or other programmable data processing device is produced for realizing the device in the function of flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame appointments.

These computer program instructions also can be stored in energy vectoring computer or the computer-readable memory of other programmable data processing device with ad hoc fashion work, the instruction that makes to be stored in this computer-readable memory produces the manufacture that comprises command device, and this command device is realized the function of appointment in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make to carry out sequence of operations step to produce computer implemented processing on computer or other programmable devices, thereby the instruction of carrying out is provided for realizing the step of the function of appointment in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame on computer or other programmable devices.

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

Claims (14)

1. an information processing method, is applied to have the electronic equipment of display unit, and described electronic equipment has or is connected with image collecting device, and described image collecting device has predetermined pickup area, it is characterized in that, said method comprising the steps of:

By described display unit, showing in the process of 3-D view, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye;

According to described the first kinematic parameter, determine the first sight line focus of described human eye;

According to described the first sight line focus, in described 3-D view, determine the first object;

Fuzzy Processing is carried out in other regions except the first area at described the first object place in described 3-D view.

2. the method for claim 1, is characterized in that, described image collector is set to camera.

3. the method for claim 1, it is characterized in that, by described image collecting device collection, obtaining the first moving image of described human eye, and also comprise step before obtaining the first kinematic parameter of described human eye based on described the first moving image: when described electronic equipment comprises a described image collecting device, determine and gather described the first moving image by described image collecting device, obtain described first kinematic parameter of human eye; When described electronic equipment comprises two described image collecting devices, according to the eyelid movement of human eye or according to the angle of the sight line of human eye and described display unit place plane determine concrete by wherein described in which image collecting device gather described first moving image of human eye, obtain described first kinematic parameter of human eye.

4. the method for claim 1, it is characterized in that, the step of determining the first sight line focus of described human eye according to described the first kinematic parameter comprises: according to described the first kinematic parameter, determine the first sight line of described human eye, according to the intersection point of described the first sight line and described predetermined image pickup area, determine described the first sight line focus.

5. the method for claim 1, it is characterized in that, according to described the first sight line focus, in described 3-D view, determine that the step of the first object comprises: according to described the first sight line focus, in forming the first image of described 3-D view and/or the second image, determine described the first object.

6. method as claimed in claim 5, it is characterized in that, the step of other regions except the first area at described the first object place in described 3-D view being carried out to Fuzzy Processing comprises: Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the second image.

7. the method for claim 1, it is characterized in that, the step of other regions except the first area at described the first object place in described 3-D view being carried out to Fuzzy Processing comprises: Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the second image.

8. an electronic equipment, described electronic equipment has display unit, and described electronic equipment has or is connected with image collecting device, and described image collecting device has predetermined pickup area, it is characterized in that, and described electronic equipment comprises:

Acquisition module, for showing the process of 3-D view by described display unit, in the time of in human eye enters into described predetermined pickup area, by described image collecting device collection, obtain the first moving image of described human eye, and based on described the first moving image, obtain the first kinematic parameter of described human eye;

The first determination module, for determining the first sight line focus of described human eye according to described the first kinematic parameter;

The second determination module, for determining the first object according to described the first sight line focus at described 3-D view;

Processing module, for to described 3-D view other regions except the first area at described the first object place carry out Fuzzy Processing.

9. electronic equipment as claimed in claim 8, is characterized in that, described image collector is set to camera.

10. electronic equipment as claimed in claim 8, it is characterized in that, described electronic equipment also comprises the 3rd determination module, for when described electronic equipment comprises a described image collecting device, determine and gather described the first moving image by described image collecting device, obtain described first kinematic parameter of human eye; When described electronic equipment comprises two described image collecting devices, according to the eyelid movement of human eye or according to the angle of the sight line of human eye and described display unit place plane determine concrete by wherein described in which image collecting device gather described first moving image of human eye, obtain described first kinematic parameter of human eye.

11. electronic equipments as claimed in claim 8, it is characterized in that, described the first determination module specifically for: according to described the first kinematic parameter, determine the first sight line of described human eye, according to the intersection point of described the first sight line and described predetermined image pickup area, determine described the first sight line focus.

12. electronic equipments as claimed in claim 8, is characterized in that, described the second determination module specifically for: according to described the first sight line focus, in forming the first image of described 3-D view and/or the second image, determine described the first object.

13. electronic equipments as claimed in claim 12, it is characterized in that, described processing module specifically for: Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Fuzzy Processing is carried out in other regions except the first area at described the first object place in described the second image.

14. electronic equipments as claimed in claim 8, it is characterized in that, described processing module specifically for: Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the first image, and/or Gaussian Blur processing is carried out in other regions except the first area at described the first object place in described the second image.