CN104469152A - Automatic shooting method and system of wearable device - Google Patents

Abstract

The invention discloses an automatic shooting method and system of a wearable device. The system comprises an eyeball movement detection module, a calculation module, a shooting module and a storage module. The eyeball movement detection module is used for detecting eyeball movement and outputting eyeball movement data; the calculation module is used for identifying eyeball pauses according to the eyeball movement data and outputting the line-of-sight direction formed during eyeball pausing and a shooting instruction; after receiving the shooting instruction, the shooting module conducts focusing according to the line-of-sight direction formed during eyeball pausing and then starts to shoot, and a picture is output; the storage module is used for storing the picture. When a person sees a thing with eyes, a picture can be seen clearly after the eyes are turned to fixed positions first, pause and then are focused. The method and system simulate the process, pauses in eye movement are detected, the line-of-sight direction formed during eyeball pausing is identified, automatic focusing is carried out, automatic shooting is conducted for recording, the real view field of a user can be recorded more truly and efficiently, and pictures seen by human eyes can be restored in real time.

Description

The automatic camera method and system of Wearable

[technical field]

The present invention relates to technical field of intelligent equipment, particularly a kind of automatic camera method and system of Wearable.

[background technology]

Along with sending out of science and technology is opened, intelligent artifact has incorporated in daily life, and smart mobile phone, Intelligent flat are comparatively common intelligent artifacts, for the Working Life of people brings great convenience.But the individual demand of user also increases day by day, in this situation, the Wearable such as intelligent glasses are arisen at the historic moment, Google's intelligent glasses that such as Google issued in 2012, this intelligent glasses is equipped with a projection display, the camera of an energy capture video, picture frame has Trackpad, can be completed take pictures by action nictation of user.But current Wearable, especially intelligent glasses, although its automatic camera record method is a lot, such as timing is taken pictures, is blinked and take pictures, all can not the true image seen of the eyes of recorder automatically efficiently.

[summary of the invention]

Based on this, the present invention, for solving Problems existing in existing Wearable, provides a kind of automatic camera method and system of Wearable, imitates the biological function of human eye, truly the image seen of automatic reduction eyes efficiently, the real visual field of recording user.

The content of the embodiment of the present invention is specific as follows:

An automatic camera system for Wearable, comprises eye movement detection module, computing module, photographing module and memory module;

Described eye movement detection module detects eye movement, exports eye movement data;

Described computing module pauses according to described eye movement data identification eyeball, exports direction of visual lines when eyeball pauses and shooting instruction;

After described photographing module receives described shooting instruction, direction of visual lines when pausing according to described eyeball carries out starting shooting to defocused, exports photo;

Described memory module is for storing described photo.

Accordingly, the embodiment of the present invention also provides a kind of automatic camera method of Wearable, comprises the steps:

Drive eye movement detection module to detect eye movement, export eye movement data;

Pause according to described eye movement data identification eyeball, calculate direction of visual lines when eyeball pauses;

Direction of visual lines when driving photographing module to pause according to described eyeball is focused, and then starts shooting, exports photo and stores.

The present invention imitates the biological function of human eye, because people is when seeing certain thing with eyes, is all by first forwarding eyes to fixed position, pauses, then focuses on, see image clearly.The present invention imitates this process, detects the pause in eye motion, identifies direction of visual lines when eyeball pauses and auto-focusing, automatic camera record, can the truer real visual field of recording user efficiently, in real time the image seen of reduction human eye.

[accompanying drawing explanation]

Fig. 1 is the structural representation of the automatic camera system of Wearable in the embodiment of the present invention one;

Fig. 2 is the structural representation of the automatic camera system of Wearable in the embodiment of the present invention two;

Fig. 3 is the schematic flow sheet of the automatic camera method of a kind of Wearable in the embodiment of the present invention;

Fig. 4 is a kind of schematic flow sheet screening the method for photo in the embodiment of the present invention.

[embodiment]

Below in conjunction with accompanying drawing, content of the present invention is further described.It should be noted that, in description below, for ease of illustrating, Wearable only for intelligent glasses, but can not limit protection scope of the present invention with this.

Embodiment one

As shown in Figure 1, the automatic camera system of intelligent glasses in the present embodiment one, comprises eye movement detection module 1, computing module 2, photographing module 3 and memory module 4.Wherein, eye movement detection module 1 can be arranged on the picture frame of intelligent glasses, the eye movement of real-time detection user, as with pupil center for dynamic point, with canthus point for reference point, react as an oculomotor side using the relative position of pupil center and canthus point, export eye movement data, these data include the relative position of above-mentioned pupil center and canthus point, Rotation of eyeball angle etc.Computing module 2 is by analyzing eye movement data, identify eyeball to pause, because people is when seeing certain object with eyes, the course of action of eyeball is all first rotate, then pause, keep eyeball motionless, focus on again, see image clearly, therefore, computing module 2 needs to find out eyeball pause point by oculomotor situation, identifies that eyeball pauses, and calculate direction of visual lines when eyeball pauses according to the eye movement data such as relative position, Rotation of eyeball angle of pupil center and canthus point, and send shooting instruction to photographing module 3.

After photographing module 3 receives the shooting instruction that computing module 2 sends, then direction of visual lines when pausing according to eyeball is focused, and starts shooting, and export photo after having focused.According to the difference of camera in photographing module 3, this process can be divided into following two schemes:

When camera selects rotating camera, rotating camera rotates direction of visual lines when pausing to eyeball, carries out center-spot, and start shooting after having focused, this shooting mode is partial to the shooting of object.

When camera selects wide-angle camera, in the finding a view of wide-angle camera, determine its corresponding scene location according to direction of visual lines, and focused in this position, start shooting after having focused, this shooting mode angle is large, visual field is large, can hold more object in current scene.

After photographing module 3 completes and takes pictures, export photo, and be stored in memory module 4, user friendlyly to check.

In sum, in the present embodiment, the automatic camera system of Wearable is a kind of bionic system, is paused by the eyeball in equipment eye movement, automatic camera, truly automatically records the image that eyes are seen efficiently, the real visual field of recording user.

Embodiment two

As shown in Figure 2, the automatic camera system of Wearable in the present embodiment two, comprises eye movement detection module 1, computing module 2, photographing module 3, memory module 4, mark module 5 and timing module 6.Wherein, eye movement detection module 1 detects the eye movement of user in real time, and exports eye movement data, comprises oculogyral angle, orientation etc.Computing module 2, by analyzing eye movement data, identifies eyeball and pauses, and calculates direction of visual lines when eyeball pauses according to eye movement data such as oculogyral angle, orientation, and sends shooting instruction to photographing module 3.

After photographing module 3 receives the shooting instruction that computing module 2 sends, then direction of visual lines when pausing according to eyeball is focused, and starts shooting, and exports photo, be stored in memory module 4 after having focused, and user friendlyly checks.

User can screen photo at any time, and by mark module 5 for photo arranges mark, described mark comprises important and inessential, if user is interested for certain photo, then can be set to important, when not arranging, system default is inessential; Be set to important photo can longer-term storage in memory module 4.

The shooting time that photo has its correspondence is often opened in memory module 4, the residue retention time of photo is often opened in the calculating of the retention time threshold period that timing module 6 pre-sets according to system, if be masked as unessential photo when expiring, namely, when its residue retention time is zero, this photo is deleted from memory module 4.Certainly in another embodiment, if certain photo be set to important after, timing module 6 just no longer calculates the residue retention time of this photo, make it be kept in memory module 4 always, and reduce the amount of calculation of timing module 6, when this photo be again labeled as inessential time, timing module 6 continues the residue retention time calculating this photo, but zequin is now no longer the shooting time of this photo, but mark changes to the unessential time, such as, the shooting date of photo P is point 11 days 10 November in 2014, retention time threshold value is set to 7 days, then at point 12 days 10 November in 2014, the residue retention time that timing module 6 calculates photo P with shooting time on November 11st, 2,014 10 for start time is 6 days.Suppose that photo P is labeled as important on November 13rd, 2,014 10 by user, then timing module 6 no longer calculates the remaining time of photo P; Suppose that photo P is labeled as inessential on November 14th, 2,014 10 by user, then timing module 6 recalculates the residue retention time of photo P, such as, at point 15 days 10 November in 2014, timing module 6 is labeled as November 14 10 2014 unessential time for starting point with amendment, and the residue retention time calculating photo P is 6 days.

By said method, regularly can clear up the unconcerned photo of user, save the memory space of memory module 4, ensure the continuous service of automatic camera system.

In sum, in the present embodiment, the automatic camera system of Wearable is paused by the eyeball in equipment eye movement, automatic camera, the true image automatically recording eyes efficiently and see, the real visual field of recording user, by arranging mark for photo, and calculate the residue retention time of photo, the unconcerned photo of timing cleaning user, saves memory space, ensure that the continuation of system.

Accordingly, the present invention also provides a kind of automatic camera method of Wearable, as shown in Figure 3, comprises the steps:

S11 drives eye movement detection module to detect eye movement, exports eye movement data;

S12 pauses according to described eye movement data identification eyeball, calculates direction of visual lines when eyeball pauses;

Direction of visual lines when S13 drives photographing module to pause according to described eyeball is focused, and then starts shooting;

S14 exports photo and stores.

Concrete, the eye movement of user is detected in real time by eye movement detection module, as with pupil center for dynamic point, with canthus point for reference point, react using the relative position of pupil center and canthus point as an oculomotor side, export eye movement data, these data include the relative position of above-mentioned pupil center and canthus point, Rotation of eyeball angle etc.By analyzing eye movement data, eyeball can be identified pause, because people is when seeing certain object with eyes, the course of action of eyeball is all first rotate, and then pauses, keep eyeball motionless, focus on again, see image clearly, therefore, after identifying that eyeball pauses, calculate direction of visual lines when eyeball pauses according to the eye movement data such as relative position, Rotation of eyeball angle of pupil center and canthus point.

After direction of visual lines when obtaining eyeball and pausing, drive the direction of visual lines of photographing module when pausing according to eyeball to focus, start after having focused to take, and export photo and store.According to the difference of camera in photographing module, this process can be divided into following two schemes:

When photographing module comprises rotating camera, direction of visual lines when driving rotating camera rotation to pause to eyeball, carry out center-spot, start shooting after having focused, this shooting mode is partial to the shooting in single direction, is suitable for taking distant view.

When photographing module comprises wide-angle camera, drive wide-angle camera to determine the scene location of its correspondence according to direction of visual lines, and focused in this position, shooting is started after having focused, this shooting mode angle is large, and visual field is large, can hold more object in current scene.

After the photo that the image seen by said method acquisition eyes of user is corresponding, in a kind of embodiment, also comprise the steps:

S21 arranges mark to described photo, and described mark comprises important and inessential;

The residue retention time of S22 photo according to retention time threshold calculations;

S23 when described in be masked as unessential photo its residue retention time be zero time, delete this photo.

User can screen the photo of shooting at any time, and concrete grammar is: be set to important by interested photo, and uninterested photo is set to inessential, and when user is not arranged, system default is inessential; Being set to important photo can longer-term storage.

Often open the shooting time that photo has its correspondence, the residue retention time of often opening photo can be calculated according to the retention time threshold value that system pre-sets, if be masked as unessential photo when expiring, when namely its residue retention time is zero, this photo is deleted.Certainly in another embodiment, if certain photo be set to important after, just the residue retention time of this photo is no longer calculated, reduce system-computed amount, and this photo is kept in memory space always, when this photo be again labeled as inessential time, then continue the residue retention time calculating this photo, but zequin is now no longer the shooting time of this photo, but mark changes to the unessential time, such as, the shooting date of photo P is point 11 days 10 November in 2014, retention time threshold value is set to 7 days, then at point 12 days 10 November in 2014, the residue retention time that timing module 6 calculates photo P with shooting time on November 11st, 2,014 10 for start time is 6 days.Suppose that photo P is labeled as important on November 13rd, 2,014 10 by user, then timing module 6 no longer calculates the remaining time of photo P; Suppose that photo P is labeled as inessential on November 14th, 2,014 10 by user, then timing module 6 recalculates the residue retention time of photo P, such as, at point 15 days 10 November in 2014, timing module 6 is labeled as November 14 10 2014 unessential time for starting point with amendment, and the residue retention time calculating photo P is 6 days.

By said method, regularly can clear up the unconcerned photo of user, save system memory space, ensure the continuation of system.

The above embodiment only have expressed several execution mode of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection range of patent of the present invention should be as the criterion with claims.

Claims (8)

1. an automatic camera system for Wearable, is characterized in that, comprises eye movement detection module, computing module, photographing module and memory module;

Described eye movement detection module detects eye movement, exports eye movement data;

Described computing module pauses according to described eye movement data identification eyeball, exports direction of visual lines when eyeball pauses and shooting instruction;

After described photographing module receives described shooting instruction, direction of visual lines when pausing according to described eyeball carries out starting shooting to defocused, exports photo;

Described memory module is for storing described photo.

2. the automatic camera system of Wearable according to claim 1, is characterized in that, described photographing module comprises rotating camera, and described rotating camera carries out center-spot after rotating direction of visual lines when pausing to described eyeball, and takes.

3. the automatic camera system of Wearable according to claim 1, it is characterized in that, described photographing module comprises wide-angle camera, direction of visual lines when described wide-angle camera pauses according to described eyeball determine this wide-angle camera find a view in corresponding scene location, and to take after this corresponding scene location focusing.

4. the automatic camera system of Wearable according to any one of claim 1 to 3, is characterized in that, also comprises mark module and timing module, and described mark module is used for arranging mark to described photo, and described mark comprises important and inessential; Described timing module is used for the residue retention time of photo according to retention time threshold calculations, when described to be masked as its residue retention time of unessential photo be zero time, described memory module deletes this photo.

5. an automatic camera method for Wearable, is characterized in that, comprise the steps:

Drive eye movement detection module to detect eye movement, export eye movement data;

Pause according to described eye movement data identification eyeball, calculate direction of visual lines when eyeball pauses;

Direction of visual lines when driving photographing module to pause according to described eyeball is focused, and then starts shooting, exports photo and stores.

6. the automatic camera method of Wearable according to claim 5, it is characterized in that, the process that direction of visual lines when driving photographing module to pause according to described eyeball carries out focusing comprises the steps: that described photographing module comprises rotating camera, drives described rotating camera to rotate and carry out center-spot to direction of visual lines during described eyeball pause.

7. the automatic camera method of Wearable according to claim 5, it is characterized in that, the process that direction of visual lines when driving photographing module to pause according to described eyeball carries out focusing comprises the steps: that described photographing module comprises wide-angle camera, direction of visual lines when driving described wide-angle camera to pause according to described eyeball determine this wide-angle camera find a view in corresponding scene location, and this corresponding scene location to be focused.

8. the automatic camera method of the Wearable according to any one of claim 5 to 7, is characterized in that, also comprise the steps:

Arrange mark to described photo, described mark comprises important and inessential;

The residue retention time of photo according to retention time threshold calculations;

When described be masked as unessential photo its residue retention time be zero time, delete this photo.