CN105100610A - Self-photographing prompting method and device, selfie stick and self-photographing prompting system - Google Patents

Abstract

The invention discloses a self-photographing prompting method and device, a selfie stick and a self-photographing prompting system, and belongs to the field of self-photographing equipment. The self-photographing prompting method comprises: identifying a photographing key point position of a current photographing content; detecting whether the photographing key point position is located in a target area within a photographing framing coverage; if the photographing key point position deviates from the target area within the photographing framing coverage, generating self-photographing prompting information; sending the self-photographing prompting information to user touch equipment, wherein the self-photographing prompting information is used for triggering a vibrating assembly in the user touch equipment to vibrate; when a user uses a motion camera to photograph, the problem that whether an image is located in the target area of the image is hard to obtain is solved; and the user can be prompted to adjust the photographing direction to locate the image in the target area of the image.

Description

Auto heterodyne reminding method and device, self-shooting bar and auto heterodyne prompt system

Technical field

The disclosure relates to auto heterodyne apparatus field, particularly one auto heterodyne reminding method and device, self-shooting bar and auto heterodyne prompt system.

Background technology

Moving camera is a kind of camera that can allow extremist in high-speed motion for oneself recording a video.

For the consideration of robustness, water proofing property and cost, a lot of moving camera does not have display screen.Also namely, user, when using moving camera to autodyne, needs experience on one's own account to allow the portrait of oneself be arranged in the center of picture or other positions, target area of picture.

Summary of the invention

Disclosure embodiment provides a kind of auto heterodyne reminding method and device, self-shooting bar and auto heterodyne prompt system.Described technical scheme is as follows:

According to the first aspect of disclosure embodiment, provide a kind of auto heterodyne reminding method, the method comprises:

Identify the shooting emphasis position of current shooting content;

Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range;

If the target area in shooting emphasis position deviation shooting viewfinder range, then generate auto heterodyne information;

Send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

In one embodiment, generate auto heterodyne information, comprising:

Obtain the departure degree of shooting emphasis position and target area;

Generate the first auto heterodyne information according to departure degree, the first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in user's contact arrangement.

In another embodiment, the vibration component in user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Generate auto heterodyne information, comprising:

Obtain the offset direction of shooting emphasis position and target area;

Generate the second auto heterodyne information according to offset direction, the second auto heterodyne information carries offset direction information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates.

In another embodiment, the vibration component in user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Generate auto heterodyne information, comprising:

Obtain the offset direction of shooting emphasis position and target area;

Obtain the departure degree of shooting emphasis position and target area;

The 3rd auto heterodyne information is generated according to offset direction and departure degree, 3rd auto heterodyne information carries offset direction information and oscillation intensity information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information.

In another embodiment,

Shooting emphasis position is face location;

Target area is the central area in shooting viewfinder range.

In another embodiment,

User's contact arrangement comprises self-shooting bar or wearable device.

In another embodiment, the method also comprises:

If the target area in shooting emphasis position deviation shooting viewfinder range, sends voice message message to user.

According to the second aspect of disclosure embodiment, provide a kind of auto heterodyne suggestion device, this device comprises:

Location identification module, is configured to the shooting emphasis position identifying current shooting content;

Region detection module, is configured to detect the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Information generating module, takes the target area in emphasis position deviation shooting viewfinder range, then generates auto heterodyne information if be configured to;

Information sending module, be configured to send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

In one embodiment, information generating module, comprising:

First obtains submodule, is configured to the departure degree obtaining shooting emphasis position and target area;

First generates submodule, be configured to generate the first auto heterodyne information according to departure degree, first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in user's contact arrangement.

In another embodiment, the vibration component in user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Information generating module, comprising:

Second obtains submodule, is configured to the offset direction obtaining shooting emphasis position and target area;

Second generates submodule, be configured to generate the second auto heterodyne information according to offset direction, second auto heterodyne information carries offset direction information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates.

In another embodiment, the vibration component in user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Information generating module, comprising:

3rd obtains submodule, is configured to the offset direction obtaining shooting emphasis position and target area;

4th obtains submodule, is configured to the departure degree obtaining shooting emphasis position and target area;

3rd generates submodule, be configured to generate the 3rd auto heterodyne information according to offset direction and departure degree, 3rd auto heterodyne information carries offset direction information and oscillation intensity information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information.

In another embodiment,

Shooting emphasis position is face location;

Target area is the central area in shooting viewfinder range.

In another embodiment,

User's contact arrangement comprises self-shooting bar or wearable device.

In another embodiment, this device also comprises:

Voice sending module, is configured to, when taking the target area in emphasis position deviation shooting viewfinder range, send voice message message to user.

According to the third aspect of disclosure embodiment, provide a kind of auto heterodyne suggestion device, this device comprises:

Processor;

For the memory of the executable instruction of storage of processor;

Wherein, processor is configured to:

Identify the shooting emphasis position of current shooting content;

Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range;

If the target area in shooting emphasis position deviation shooting viewfinder range, then generate auto heterodyne information;

Send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

According to the fourth aspect of disclosure embodiment, provide a kind of self-shooting bar, this self-shooting bar comprises:

Handle;

Be arranged at least one vibration component of handle;

The communications component be connected with vibration component.

In one embodiment, vibration component is two or more, and each vibration component is to there being respective direction.

In another embodiment, vibration component is four, and four vibration components are separately positioned on handle relative to the left part position under user's handling attitude, right part position, upper position and lower position.

According to the 5th aspect of disclosure embodiment, provide a kind of auto heterodyne prompt system, this system comprises self-shooting bar and auto heterodyne suggestion device;

Self-shooting bar be the fourth aspect as disclosure embodiment arbitrary as described in self-shooting bar;

Self-shooting bar is connected with auto heterodyne suggestion device by communications component;

Auto heterodyne suggestion device be the second aspect as disclosure embodiment arbitrary as described in auto heterodyne suggestion device.

According to the 6th aspect of disclosure embodiment, provide a kind of auto heterodyne prompt system, this system comprises Wearable device and auto heterodyne suggestion device;

Wearable device involving vibrations assembly and the communications component be connected with vibration component;

Wearable device is connected with auto heterodyne suggestion device by communications component;

Auto heterodyne suggestion device be the second aspect as disclosure embodiment arbitrary as described in auto heterodyne suggestion device.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

By identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then generate auto heterodyne information; Send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates; Solve user when using moving camera to take pictures, be difficult to know whether the portrait of oneself is positioned at the problem in picture target region; Reach and user can be pointed out to adjust shooting direction make portrait be positioned at the effect in picture target region.

Should be understood that, it is only exemplary that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in specification and to form the part of this specification, shows and meets embodiment of the present disclosure, and is used from specification one and explains principle of the present disclosure.

Fig. 1 is the structural representation of a kind of implementation environment involved by the auto heterodyne reminding method shown in disclosure embodiment;

Fig. 2 A is the flow chart of a kind of reminding method of autodyning according to an exemplary embodiment;

Fig. 2 B is the flow chart of a kind of reminding method of autodyning according to another exemplary embodiment;

Fig. 2 C is the flow chart of a kind of reminding method of autodyning according to another exemplary embodiment;

Fig. 2 D is the flow chart of a kind of reminding method of autodyning according to another exemplary embodiment;

Fig. 3 A is the schematic diagram of a kind of self-shooting bar according to an exemplary embodiment;

Fig. 3 B is the schematic diagram of a kind of self-shooting bar according to another exemplary embodiment;

Fig. 4 A is the flow chart of a kind of information processing method according to another exemplary embodiment;

Fig. 4 B is the schematic diagram in the face location offset target region according to another exemplary embodiment;

Fig. 4 C is the flow chart of a kind of information processing method according to another exemplary embodiment;

Fig. 4 D is the schematic diagram in the face location offset target region according to another exemplary embodiment;

Fig. 4 E is the schematic diagram corresponding with vibration component of the offset direction according to another exemplary embodiment;

Fig. 4 F is the flow chart of a kind of information processing method according to another exemplary embodiment;

Fig. 4 G is the schematic diagram in the face location offset target region according to another exemplary embodiment;

Fig. 5 A is the structural representation of the another kind of implementation environment involved by the auto heterodyne reminding method shown in disclosure embodiment;

Fig. 5 B is the flow chart of a kind of reminding method of autodyning according to another exemplary embodiment;

Fig. 6 is the block diagram of a kind of suggestion device of autodyning according to an exemplary embodiment;

Fig. 7 is the block diagram of a kind of suggestion device of autodyning according to another exemplary embodiment;

Fig. 8 is the block diagram of a kind of suggestion device of autodyning according to an exemplary embodiment.

By above-mentioned accompanying drawing, illustrate the embodiment that the disclosure is clear and definite more detailed description will be had hereinafter.These accompanying drawings and text description be not in order to limited by any mode the disclosure design scope, but by reference to specific embodiment for those skilled in the art illustrate concept of the present disclosure.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the present invention.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

Fig. 1 is the structural representation of a kind of implementation environment involved by the auto heterodyne reminding method shown in disclosure embodiment.This implementation environment comprises: moving camera 120 and self-shooting bar 140.

Moving camera 120 has the function of taking pictures or recording a video, and the built-in central processing unit of moving camera 120 can real time processed images.Alternatively, moving camera 120 is not arranged the display screen for preview shooting content.

Moving camera 120 can be fixed on the fixed mount of self-shooting bar 140.Moving camera 120 sends information by communications component to self-shooting bar 140.Self-shooting bar 140 is taken pictures for user's handling or is recorded a video.

Fig. 2 A is the flow chart of a kind of reminding method of autodyning according to an exemplary embodiment.The present embodiment is applied in the moving camera 120 shown in Fig. 1 with this auto heterodyne reminding method and illustrates.The method comprises.

In step 201, the shooting emphasis position of current shooting content is identified;

In step 202., the target area whether shooting emphasis position is arranged in shooting viewfinder range is detected;

In step 203, if the target area in shooting emphasis position deviation shooting viewfinder range, then auto heterodyne information is generated;

In step 204, send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

User's contact arrangement is the electronic equipment that the limbs of user directly contact, such as: self-shooting bar, Wearable device.

In sum, the auto heterodyne reminding method that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then generate auto heterodyne information; Send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates; Solve user when using moving camera to take pictures, be difficult to know whether the portrait of oneself is positioned at the problem in picture target region; Reach and user can be pointed out to adjust shooting direction make portrait be positioned at the effect in picture target region.

As a kind of possible implementation, as shown in Figure 2 B, generate auto heterodyne information in step 203 and replacedly can be embodied as following steps:

In step 203, the departure degree of shooting emphasis position and target area is obtained;

In step 203b, generate the first auto heterodyne information according to departure degree, the first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in user's contact arrangement.

As the implementation that another kind is possible, when the vibration component in user's contact arrangement is at least two, each vibration component is to when should have a respective direction, and as shown in Figure 2 C, generating auto heterodyne information in step 203 replacedly can be embodied as following steps:

In step 203c, obtain the offset direction of shooting emphasis position and target area;

In step 203d, generate the second auto heterodyne information according to offset direction, the second auto heterodyne information carries offset direction information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates.

As the implementation that another kind is possible, when the vibration component in user's contact arrangement is at least two, each vibration component is to when should have a respective direction, and as shown in Figure 2 D, generating auto heterodyne information in step 203 replacedly can be embodied as following steps:

In step 203e, obtain the offset direction of shooting emphasis position and target area;

In step 203f, obtain the departure degree of shooting emphasis position and target area;

In step 203g, the 3rd auto heterodyne information is generated according to offset direction and departure degree, 3rd auto heterodyne information carries offset direction information and oscillation intensity information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information.

As the implementation that another kind is possible, the shooting emphasis position in step 201 is face location; Target area is in step 202. the central area in shooting viewfinder range.

As the implementation that another kind is possible, user's contact arrangement comprises self-shooting bar or wearable device.

As the implementation that another kind is possible, if the target area in shooting emphasis position deviation shooting viewfinder range, send voice message message to user.

Fig. 3 A is a kind of self-shooting bar schematic diagram according to an exemplary embodiment.This self-shooting bar comprises:

Handle 320; Be arranged at least one vibration component 340 of handle 320; The communications component 360 be connected with vibration component 340.

Self-shooting bar mainly comprises fixed mount 310 and handle 320.Fixed mount 310 is for portable electric appts such as fixing mobile phone, moving camera and panel computers.Handle 320 is for user's handling.Fixed mount 310 can be connected with handle 320 by rotary switch.

Vibration component 340 is positioned at one end of handle 320, relative with fixed mount 310.Can contact vibration assembly 340 directly or indirectly when user holds handle 320.Vibration component 340 can be vibrating motor.When vibration component 340 vibrates, the vibration of vibration component 340 during user's handling handle 320, can be experienced.

Communications component 360 is built in self-shooting bar, is electrical connected with vibration component 340.Communications component 360 can received communication information, also the communication information can be sent to vibration component 340.Communications component 360 can be bluetooth module, data wire module.

As a kind of possible implementation, vibration component 340 is two or more, and each vibration component is to there being respective direction.

Handle 320 can arrange multiple vibration component 340, and each vibration component is to there being respective direction.Such as, the left part position of handle 320 arranges vibration component a, and vibration component a corresponds to the left of shooting picture; The right part position of handle 320 arranges vibration component b, and vibration component b corresponds to the right of shooting picture.

As the implementation that another kind is possible, vibration component 340 is four, and four vibration components are separately positioned on handle 320 relative to the left part position under user's handling attitude, right part position, upper position and lower position.

As shown in Figure 3 B, vibration component 341 is set relative to the left part position under user's handling attitude, right part position arranges vibration component 342, upper position arranges vibration component 343 and lower position arranges vibration component 344.Four vibration components optionally vibrate according to the communication information received from communications component 360.Such as, if the vibration component 341 of communication information instruction left part position vibrates, then vibration component 341 vibrates.

In sum, the self-shooting bar that the present embodiment provides, by least one vibration component of being arranged in handle and the communications component be connected with vibration component, and controls the vibration of vibration component to the auto heterodyne information that self-shooting bar sends by moving camera; Solve user when using self-shooting bar to take pictures, be difficult to know whether the portrait of oneself is positioned at the problem in picture target region; Reach and user can be pointed out to adjust shooting direction make portrait be positioned at the effect in picture target region.

Fig. 4 A is the flow chart of a kind of reminding method of autodyning according to an exemplary embodiment.The present embodiment is applied in the implementation environment shown in Fig. 1 with this auto heterodyne reminding method and illustrates.The method comprises.

In step 401, the shooting emphasis position of moving camera identification current shooting content;

Shooting emphasis position refers to the position of keynote message in current shooting content, the such as position of face location, cup and the position etc. of flower.Shooting emphasis position is determined according to current shooting content.

The present embodiment is that face location illustrates to take emphasis position.The built-in central processing unit of moving camera is by the face location in image processing techniques and face recognition technology Real time identification shooting picture.As shown in Figure 4 B, the position of moving camera identification face 01 in shooting viewfinder range 02.

In step 402, moving camera detects the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Target area can be the arbitrary region in shooting viewfinder range, determines according to current shooting content, or arranges according to user and determine, or determines according to default setting.The present embodiment is that the central area taken in viewfinder range illustrates with target area, and non-limiting target area is the central area in viewfinder range.Taking viewfinder range dashed centre line region is as shown in Figure 4 B target area 03.

Moving camera detects the target area whether face location is arranged in shooting viewfinder range.As shown in Figure 4 B, moving camera detects the target area 03 whether face location is arranged in shooting viewfinder range 02.

In step 403, if the target area in shooting emphasis position deviation shooting viewfinder range, moving camera then obtains the departure degree of shooting emphasis position and target area;

Target area in shooting emphasis position deviation shooting viewfinder range refers to that shooting emphasis position is arranged in or is not exclusively positioned at target area.As shown in Figure 4 B, face location is not exclusively arranged in target area 03, deviate from target area 03.

The departure degree of shooting emphasis position and target area refers to the size of the deviation distance taking emphasis position and target area, and deviation distance is larger, then departure degree is larger; Deviation distance is less, and departure degree is less.Deviation distance both can calculating according to the shooting center of emphasis position and the center of target area, obtains departure degree according to deviation distance; Deviation distance both can also calculating according to the shooting marginal position of emphasis position and the center of target area.

Deviation distance threshold value can be preset, such as preset deviation distance threshold X 1, deviation distance threshold X 2 and deviation distance threshold X 3, according to deviation distance threshold value setting departure degree.If deviation distance is less than deviation distance threshold X 1, then ignore shooting emphasis position and the departing from of target area; If deviation distance is greater than deviation distance threshold X 1, be less than deviation distance threshold X 2, be then set as one-level departure degree; If deviation distance is greater than deviation distance threshold X 2, be less than deviation distance threshold X 3, be then set as secondary departure degree; If deviation distance is greater than deviation distance threshold X 3, be then set as three grades of departure degrees.As shown in Figure 4 B, the deviation distance of face location and target area is X, if X is greater than X2 be less than X3, then determines that departure degree is secondary departure degree.

In step 404, moving camera generates the first auto heterodyne information according to departure degree, and the first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in self-shooting bar.

Auto heterodyne information departs from target area for pointing out user to take emphasis position.The identification marking of vibration component can be carried in oscillation intensity information.

Oscillation intensity information is used to indicate the oscillation intensity of the vibration component in self-shooting bar, can preset corresponding oscillation intensity according to departure degree.Such as, the corresponding primary vibration intensity of one-level departure degree, the corresponding secondary vibration intensity of secondary departure degree, three grades of corresponding three grades of oscillation intensitys of departure degree, progression is higher, and oscillation intensity is larger.If the departure degree that moving camera obtains is secondary departure degree, then carry secondary vibration strength information in the first auto heterodyne information generated.

In step 405, moving camera sends the first auto heterodyne information to self-shooting bar;

Moving camera can send the first auto heterodyne information by communications component to self-shooting bar, and communications component can be bluetooth module, has the function sending and receive auto heterodyne information.First auto heterodyne information is vibrated for the vibration component triggered in self-shooting bar.

In a step 406, self-shooting bar receives the first auto heterodyne information that moving camera sends;

Self-shooting bar receives the first auto heterodyne information of moving camera transmission by communications component; Communications component can be bluetooth module, data wire module.

In step 407, the vibration component in self-shooting bar vibrates according to the first auto heterodyne information.

If carry secondary vibration strength information in the first auto heterodyne information, then vibration component generation secondary vibration, prompting user's face location and target area departure degree are comparatively large, and user can adjust shooting direction according to oscillation intensity, reduces the departure degree of face location and target area.

In addition, self-shooting bar can also send voice message message to user.Self-shooting bar can send voice message message according to degrees of offset to user.Such as, " degrees of offset is larger ", " degrees of offset is less " etc.

In sum, the auto heterodyne reminding method that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then obtain the departure degree of shooting emphasis position and target area; Generate the first auto heterodyne information according to departure degree, the first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in self-shooting bar; Send the first auto heterodyne information to self-shooting bar, the first auto heterodyne information is vibrated for the vibration component triggered in self-shooting bar; Solve user when using moving camera, be difficult to know the problem in portrait whether offset target region; Reach user and can know departure degree according to oscillation intensity, adjust the effect of shooting direction accordingly.

In addition, by sending voice message message to user, user can know degrees of offset intuitively.

As the implementation that another kind is possible, as shown in Figure 4 C, if the vibration component in self-shooting bar is at least two, each vibration component is to there being respective direction; Moving camera can obtain the offset direction of shooting emphasis position and target area to generate information, and step is as follows:

In step 410, the shooting emphasis position of moving camera identification current shooting content;

Shooting emphasis position refers to the position of keynote message in current shooting content, and shooting emphasis position is determined according to current shooting content.The present embodiment is that face location illustrates to take emphasis position.

In step 411, moving camera detects the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Target area can be the arbitrary region in shooting viewfinder range, determines according to current shooting content, or arranges according to user and determine, or determines according to default setting.The present embodiment is that the central area taken in viewfinder range illustrates with target area, and non-limiting target area is the central area in viewfinder range.

Step 401 in step 410 in the present embodiment and step 411 and Fig. 4 A illustrated embodiment and step 402 similar, do not repeat them here.

In step 412, if the target area in shooting emphasis position deviation shooting viewfinder range, moving camera then obtains the offset direction of shooting emphasis position and target area;

Target area in shooting emphasis position deviation shooting viewfinder range refers to that shooting emphasis position is arranged in or is not exclusively positioned at target area.

The offset direction taking the photograph emphasis position and target area refer to take the photograph emphasis position deviation in target area which direction, such as: left, right, above or below.As shown in Fig. 4 Da, arrow direction is the offset direction of face location and target area 03, and offset direction is left.As shown in Fig. 4 Db, offset direction is below.

In step 413, moving camera generates the second auto heterodyne information according to offset direction, and the second auto heterodyne information carries offset direction information, and offset direction information is used to indicate vibration component corresponding with offset direction information in self-shooting bar and vibrates.

Auto heterodyne information departs from target area for pointing out user to take emphasis position.

Corresponding vibration component can be preset according to offset direction to vibrate.As shown in Figure 4 E, offset direction is left, then the vibration component 341 of left part position vibrates; Offset direction is right, then the vibration component 342 of right part position vibrates; Offset direction is top, then the vibration component 343 of upper position vibrates; Offset direction is below, then the vibration component 344 of lower position vibrates.

In step 414, moving camera sends the second auto heterodyne information to self-shooting bar;

Moving camera can send the second auto heterodyne information by communications component to self-shooting bar, and communications component can be bluetooth module, has the function sending and receive auto heterodyne information.Second auto heterodyne information is vibrated for the vibration component triggered in self-shooting bar.

In step 415, self-shooting bar receives the second auto heterodyne information that moving camera sends;

Self-shooting bar receives the second auto heterodyne information of moving camera transmission by communications component; Communications component can be bluetooth module, data wire module.

In step 416, the vibration component in self-shooting bar vibrates according to the second auto heterodyne information.

If the offset direction information of carrying in the second auto heterodyne information is left, then the vibration component of left part position vibrates, and prompting user face location departs from the left in target area.User according to the vibration component adjustment shooting direction of vibration, can reduce the departure degree of face location and target area.Such as, user oneself or the certain distance that moved right by camera lens, make face location be arranged in the central area of shooting viewfinder range.

In addition, two or more vibration component can vibrate according to offset direction simultaneously.Such as, if the offset direction information of carrying in the second auto heterodyne information is upper left side, then the vibration component of left part position and the vibration component of upper position can vibrate simultaneously, and prompting user face location departs from the upper left side in target area.

In addition, self-shooting bar can also send voice message message to user.Self-shooting bar can send voice message message according to offset direction to user.Such as, " offseting the left in target area ", " offseting the upper right side in target area " etc.

In sum, the auto heterodyne reminding method that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then obtain the offset direction of shooting emphasis position and target area; Generate the second auto heterodyne information according to offset direction, the second auto heterodyne information carries offset direction information, and offset direction information is used to indicate vibration component corresponding with offset direction information in self-shooting bar and vibrates; Send the second auto heterodyne information to self-shooting bar, the second auto heterodyne information is vibrated for the vibration component triggered in self-shooting bar; Solve user when using moving camera, be difficult to know the problem in portrait whether offset target region and skew which direction in target area; Reach user and can know offset direction according to the vibration component that vibration occurs, adjust the effect of shooting direction accordingly.

In addition, by sending voice message message to user, user can know offset direction intuitively.

As the implementation that another kind is possible, as illustrated in figure 4f, if the vibration component in self-shooting bar is at least two, each vibration component is to there being respective direction; Moving camera can obtain shooting emphasis position and the offset direction of target area and departure degree to generate information, and step is as follows:

At step 420 which, the shooting emphasis position of moving camera identification current shooting content;

Shooting emphasis position refers to the position of keynote message in current shooting content, and shooting emphasis position is determined according to current shooting content.The present embodiment is that face location illustrates to take emphasis position.

In step 421, moving camera detects the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Target area can be the arbitrary region in shooting viewfinder range, determines according to current shooting content, or arranges according to user and determine, or determines according to default setting.The present embodiment is that the central area taken in viewfinder range illustrates with target area, and non-limiting target area is the central area in viewfinder range.

In step 401 in step 420 in the present embodiment and step 421 and Fig. 4 A illustrated embodiment and step 402 and Fig. 4 C illustrated embodiment step 410 and step 411 similar, do not repeat them here.

In step 422, if the target area in shooting emphasis position deviation shooting viewfinder range, moving camera then obtains the offset direction of shooting emphasis position and target area;

Target area in shooting emphasis position deviation shooting viewfinder range refers to that shooting emphasis position is arranged in or is not exclusively positioned at target area.Shooting emphasis position and the offset direction of target area refer to take the photograph emphasis position deviation in target area which direction, such as: left, right, above or below.

Step 422 in the present embodiment is similar with step 412 in Fig. 4 C illustrated embodiment, repeats no more.

In step 423, moving camera obtains the departure degree of shooting emphasis position and target area;

The departure degree of shooting emphasis position and target area refers to the size of the deviation distance taking emphasis position and target area, and deviation distance is larger, then departure degree is larger; Deviation distance is less, and departure degree is less.Deviation distance both can calculating according to the shooting center of emphasis position and the center of target area, obtains departure degree according to deviation distance.

Step 423 in the present embodiment is similar with step 403 in Fig. 4 A illustrated embodiment, repeats no more.

In step 424, the 3rd auto heterodyne information is generated according to offset direction and departure degree, 3rd auto heterodyne information carries offset direction information and oscillation intensity information, and offset direction information is used to indicate vibration component corresponding with offset direction information in self-shooting bar and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information.

Auto heterodyne information departs from target area for pointing out user to take emphasis position.The identification marking of vibration component can be carried in oscillation intensity information.

Corresponding vibration component can be preset according to offset direction to vibrate, similar with step 413 in Fig. 4 C illustrated embodiment, do not repeat them here.Corresponding oscillation intensity can be preset according to departure degree, similar with step 404 in Fig. 4 A illustrated embodiment, do not repeat them here.

3rd auto heterodyne information carries offset direction information and oscillation intensity information simultaneously, and offset direction information is used to indicate vibration component corresponding with offset direction information in self-shooting bar and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information.

As shown in Fig. 4 Ga, offset direction is left, X0 is greater than X1 and is less than X2, and oscillation intensity is primary vibration intensity, then the 3rd auto heterodyne information offset direction information of carrying and oscillation intensity information can indicate the vibration component 341 of left part position in self-shooting bar that primary vibration occurs; As shown in Fig. 4 Gb, offset direction is left, Y is greater than X2 and is less than X3, and oscillation intensity is secondary vibration intensity, then the 3rd auto heterodyne information offset direction information of carrying and oscillation intensity information can indicate the vibration component 341 of left part position in self-shooting bar that two vibrations occur; As shown in Fig. 4 Gc, offset direction is right, Z is greater than X2 and is less than X3, and oscillation intensity is secondary vibration intensity, then the 3rd auto heterodyne information offset direction information of carrying and oscillation intensity information can indicate the vibration component 342 of right part position in self-shooting bar that two vibrations occur.

Oscillation intensity information can carry identification marking and the oscillation intensity of multiple vibration component, such as, the vibration component of the corresponding left part position of identification marking 1, oscillation intensity is primary vibration intensity; The vibration component of the corresponding upper position of identification marking 2, oscillation intensity is three grades of oscillation intensitys, then take emphasis position deviation on the upper left side of target area, and the departure degree of top is large.

In step 425, moving camera sends the 3rd auto heterodyne information to self-shooting bar;

Moving camera sends the 3rd auto heterodyne information by communications component to self-shooting bar, and communications component can be bluetooth module, has the function sending and receive auto heterodyne information.3rd auto heterodyne information is vibrated for the vibration component triggered in self-shooting bar.

In step 426, self-shooting bar receives the 3rd auto heterodyne information that moving camera sends;

Self-shooting bar receives the first auto heterodyne information of moving camera transmission by communications component; Communications component can be bluetooth module, data wire module.

In step 427, the vibration component in self-shooting bar vibrates according to the 3rd auto heterodyne information.

If the offset direction information of carrying in the 3rd auto heterodyne information is left and oscillation intensity information is secondary vibration intensity, the then vibration component generation secondary vibration of left part position, the offset direction of prompting user's face location and target area is left and departure degree is larger, user can adjust shooting direction according to oscillation intensity, reduces the departure degree of face location and target area.User oneself or the certain distance that moved right by camera lens, make face location be arranged in the central area of shooting viewfinder range.

In addition, two or more vibration component can vibrate according to offset direction and oscillation intensity simultaneously.Such as, if the offset direction information of carrying in the 3rd auto heterodyne information is upper left side, departure degree is to the left comparatively large, and oscillation intensity information is secondary vibration intensity, and departure degree is upward less, oscillation intensity information is primary vibration intensity, the then vibration component generation secondary vibration of left part position, the vibration component generation primary vibration of upper position, the offset direction of prompting user's face location and target area is upper left side, left departure degree is comparatively large, and top departure degree is less.

In addition, self-shooting bar can also send voice message message to user.Self-shooting bar can send voice message message according to offset direction and degrees of offset to user.Such as, " offseting the left in target area ", " offset the right in target area, degrees of offset is less " etc.

In sum, the auto heterodyne reminding method that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then obtain the offset direction of shooting emphasis position and target area; Obtain the departure degree of shooting emphasis position and target area; Generate the 3rd auto heterodyne information according to offset direction and departure degree, the 3rd auto heterodyne information carries offset direction information and oscillation intensity information, and offset direction information is used to indicate vibration component corresponding with offset direction information in self-shooting bar and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information; Send the 3rd auto heterodyne information to self-shooting bar, the 3rd auto heterodyne information is vibrated for the vibration component triggered in self-shooting bar; Solve user when using moving camera, be difficult to know the degrees of offset of portrait and target area and offset the problem in which direction in target area; Reach user to know offset direction according to the vibration component that vibration occurs and departure degree can be known according to oscillation intensity, adjust the effect of shooting direction accordingly.

In addition, by sending voice message message to user, user can know offset direction and degrees of offset intuitively.

Fig. 5 A is the structural representation of the another kind of implementation environment involved by the auto heterodyne reminding method shown in disclosure embodiment.This implementation environment comprises: moving camera 120 and Wearable device 160.

Moving camera 120 has the function of taking pictures or recording a video, and the built-in central processing unit of moving camera 120 can real time processed images.Alternatively, moving camera 120 is not arranged the display screen for preview shooting content.

Moving camera 120 is connected by communications component with Wearable device 160.Wearable device 160 can be Intelligent bracelet, intelligent watch and intelligent glasses etc.

Fig. 5 B is the flow chart of a kind of reminding method of autodyning according to an exemplary embodiment.The present embodiment is applied in the implementation environment shown in Fig. 5 A with this auto heterodyne reminding method and illustrates.The method comprises.

In step 501, the shooting emphasis position of moving camera identification current shooting content;

Shooting emphasis position refers to the position of keynote message in current shooting content, and shooting emphasis position is determined according to current shooting content.The present embodiment is that face location illustrates to take emphasis position.

In step 502, moving camera detects the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Target area can be the arbitrary region in shooting viewfinder range, determines according to current shooting content, or arranges according to user and determine, or determines according to default setting.The present embodiment is that the central area taken in viewfinder range illustrates with target area, and non-limiting target area is the central area in viewfinder range.

Step 401 in step 501 in the present embodiment and step 502 and Fig. 4 A illustrated embodiment and step 402 similar, do not repeat them here.

In step 503, if the target area in shooting emphasis position deviation shooting viewfinder range, moving camera then obtains the departure degree of shooting emphasis position and target area;

Target area in shooting emphasis position deviation shooting viewfinder range refers to that shooting emphasis position is arranged in or is not exclusively positioned at target area.The departure degree of shooting emphasis position and target area refers to the size of the deviation distance taking emphasis position and target area, and deviation distance is larger, then departure degree is larger; Deviation distance is less, and departure degree is less.Deviation distance threshold value can be preset, such as preset deviation distance threshold X 1, deviation distance threshold X 2 and deviation distance threshold X 3, according to deviation distance threshold value setting departure degree.

Step 503 in the present embodiment is similar with the step 403 in Fig. 4 A illustrated embodiment, does not repeat them here.

In step 504, moving camera generates the first auto heterodyne information according to departure degree, first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in Wearable device.

Auto heterodyne information departs from target area for pointing out user to take emphasis position.The identification marking of vibration component can be carried in oscillation intensity information.Corresponding oscillation intensity can be preset according to departure degree.Such as, the corresponding primary vibration intensity of one-level departure degree, the corresponding secondary vibration intensity of secondary departure degree, three grades of corresponding three grades of oscillation intensitys of departure degree, progression is higher, and oscillation intensity is larger.If the departure degree that moving camera obtains is secondary departure degree, then the first auto heterodyne information generated carries secondary vibration strength information.

In step 505, moving camera sends the first auto heterodyne information to Wearable device;

Moving camera can send the first auto heterodyne information by communications component to Wearable device, and communications component can be bluetooth module, has the function sending and receive auto heterodyne information.First auto heterodyne information is vibrated for the vibration component triggered in Wearable device.

In step 506, Wearable device receives the first auto heterodyne information that moving camera sends;

Wearable device receives the first auto heterodyne information of moving camera transmission by communications component; Communications component can be bluetooth module.Wearable device can arrange one or more vibration component.

In step 507, the vibration component in Wearable device vibrates according to the first auto heterodyne information.

If carry three grades of oscillation intensity information in the first auto heterodyne information, then there are three grades of vibrations in vibration component, prompting user's face location and target area departure degree are very large, and user can adjust shooting direction according to oscillation intensity, reduces the departure degree of face location and target area.

As the implementation that another kind is possible, if the vibration component in Wearable device is at least two, each vibration component is to there being respective direction; The offset direction that moving camera can obtain shooting emphasis position and target area generates the second information.Similar with Fig. 4 C illustrated embodiment, do not repeat them here.

As the implementation that another kind is possible, if the vibration component in Wearable device is at least two, each vibration component is to there being respective direction; Moving camera can obtain shooting emphasis position and the offset direction of target area and departure degree and generate the 3rd information.

Such as, if Wearable device is Intelligent bracelet, vibration component can be separately positioned on the four sides of Intelligent bracelet inwall.The offset direction supposing to be close to the vibration component of wrist inside corresponding is left, if the offset direction information of carrying in the 3rd auto heterodyne information is left and oscillation intensity information is secondary vibration intensity, then be close to the vibration component generation secondary vibration of wrist inside, the offset direction of prompting user's face location and target area is left and departure degree is larger, user can adjust shooting direction according to oscillation intensity, reduces the departure degree of face location and target area.Similar with Fig. 4 F illustrated embodiment, do not repeat them here.

In addition, Wearable device can also send voice message message to user.Self-shooting bar can send voice message message according to offset direction and degrees of offset to user.Such as, " offseting the left in target area ", " offset the right in target area, degrees of offset is less " etc.

In sum, the auto heterodyne reminding method that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then obtain the departure degree of shooting emphasis position and target area; Generate the first auto heterodyne information according to departure degree, the first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in Wearable device; Send the first auto heterodyne information to Wearable device, the first auto heterodyne information is vibrated for the vibration component triggered in Wearable device; Solve user when using moving camera, be difficult to know the problem in portrait whether offset target region; Reach user and can know departure degree according to oscillation intensity, adjust the effect of shooting direction accordingly.

In addition, also by obtaining the offset direction of shooting emphasis position and target area; The second auto heterodyne information is generated according to offset direction; The second auto heterodyne information is sent to Wearable device; Solve user when using moving camera, be difficult to know the problem in portrait whether offset target region and skew which direction in target area; Reach user and can know offset direction according to the vibration component that vibration occurs, adjust the effect of shooting direction accordingly.

In addition, also by obtaining the offset direction of shooting emphasis position and target area; Obtain the departure degree of shooting emphasis position and target area; The 3rd auto heterodyne information is generated according to offset direction and departure degree; Send the 3rd auto heterodyne information to Wearable device, the 3rd auto heterodyne information is vibrated for the vibration component triggered in Wearable device; Solve user when using moving camera, be difficult to know the degrees of offset of portrait and target area and offset the problem in which direction in target area; Reach user to know offset direction according to the vibration component that vibration occurs and departure degree can be known according to oscillation intensity, adjust the effect of shooting direction accordingly.

The auto heterodyne reminding method that the present embodiment provides is also by sending voice message message to user, and user can know offset direction and degrees of offset intuitively.

Following is disclosure device embodiment, may be used for performing disclosure embodiment of the method.For the details do not disclosed in disclosure device embodiment, please refer to disclosure embodiment of the method.

Fig. 6 is the block diagram of a kind of suggestion device of autodyning according to an exemplary embodiment, and this auto heterodyne suggestion device can realize becoming the some or all of of moving camera 120 in Fig. 1 by software, hardware or both combinations.This auto heterodyne suggestion device can comprise:

Location identification module 620, is configured to the shooting emphasis position identifying current shooting content;

Region detection module 640, is configured to detect the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Information generating module 660, takes the target area in emphasis position deviation shooting viewfinder range, then generates auto heterodyne information if be configured to;

Information sending module 680, be configured to send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

In sum, the auto heterodyne suggestion device that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then generate auto heterodyne information; Send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates; Solve user when using moving camera to take pictures, be difficult to know whether the portrait of oneself is positioned at the problem of target area; Reach and user can be pointed out to adjust shooting direction make portrait be positioned at the effect of target area.

Fig. 7 is the block diagram of the another kind auto heterodyne suggestion device according to an exemplary embodiment, and this auto heterodyne suggestion device can realize becoming the some or all of of moving camera 120 in Fig. 1 by software, hardware or both combinations.This auto heterodyne suggestion device can comprise:

Location identification module 720, is configured to the shooting emphasis position identifying current shooting content;

Region detection module 740, is configured to detect the target area whether shooting emphasis position is arranged in shooting viewfinder range;

Information generating module 760, takes the target area in emphasis position deviation shooting viewfinder range, then generates auto heterodyne information if be configured to;

Information sending module 780, be configured to send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

Alternatively, information generating module 760, comprising:

First obtains submodule 761, is configured to the departure degree obtaining shooting emphasis position and target area;

First generates submodule 762, be configured to generate the first auto heterodyne information according to departure degree, first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in user's contact arrangement.

Alternatively, the vibration component in user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Information generating module 760, comprising:

Second obtains submodule 763, is configured to the offset direction obtaining shooting emphasis position and target area;

Second generates submodule 764, be configured to generate the second auto heterodyne information according to offset direction, second auto heterodyne information carries offset direction information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates.

Alternatively, the vibration component in user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Information generating module 760, comprising:

3rd obtains submodule 765, is configured to the offset direction obtaining shooting emphasis position and target area;

4th obtains submodule 766, is configured to the departure degree obtaining shooting emphasis position and target area;

3rd generates submodule 767, be configured to generate the 3rd auto heterodyne information according to offset direction and departure degree, 3rd auto heterodyne information carries offset direction information and oscillation intensity information, and offset direction information is used to indicate vibration component corresponding with offset direction information in user's contact arrangement and vibrates; Oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with oscillation intensity information.

Alternatively,

Shooting emphasis position is face location;

Target area is the central area in shooting viewfinder range.

Alternatively, user's contact arrangement comprises self-shooting bar or wearable device.

Alternatively, this device also comprises:

Voice sending module 790, is configured to, when taking the target area in emphasis position deviation shooting viewfinder range, send voice message message to user.

In sum, the auto heterodyne suggestion device that the present embodiment provides, by identifying the shooting emphasis position of current shooting content; Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, then obtain the departure degree of shooting emphasis position and target area; Generate the first auto heterodyne information according to departure degree, the first auto heterodyne information carries oscillation intensity information, and oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with oscillation intensity information in user's contact arrangement; Send the first auto heterodyne information to user's contact arrangement, the vibration component that the first auto heterodyne information is used in activated user contact arrangement vibrates; Solve user when using moving camera, be difficult to know the problem in portrait whether offset target region; Reach user and can know departure degree according to oscillation intensity, adjust the effect of shooting direction accordingly.

In addition, also by obtaining the offset direction of shooting emphasis position and target area; Generate the second auto heterodyne information according to offset direction, the second auto heterodyne information carries offset direction information; Send the second auto heterodyne information to user's contact arrangement, the second auto heterodyne information is used for vibrating with the vibration component of offset direction information in activated user contact arrangement; Solve user when using moving camera, be difficult to know the problem in portrait whether offset target region and skew which direction in target area; Reach user and can know offset direction according to the vibration component that vibration occurs, adjust the effect of shooting direction accordingly.

In addition, also by obtaining the offset direction of shooting emphasis position and target area; Obtain the departure degree of shooting emphasis position and target area; The 3rd auto heterodyne information is generated according to offset direction and departure degree; Send the 3rd auto heterodyne information by communications component to user's contact arrangement, the vibration component that the 3rd auto heterodyne information is used in activated user contact arrangement vibrates; Solve user when using moving camera, be difficult to know the degrees of offset of portrait and target area and offset the problem in which direction in target area; Reach user to know offset direction according to the vibration component that vibration occurs and departure degree can be known according to oscillation intensity, adjust the effect of shooting direction accordingly.

The auto heterodyne suggestion device that the present embodiment provides is also by sending voice message message to user, and user can know offset direction and degrees of offset intuitively.

The disclosure one exemplary embodiment provides a kind of auto heterodyne suggestion device, can realize the auto heterodyne reminding method that the disclosure provides, and this auto heterodyne suggestion device comprises: processor, memory for storage of processor executable instruction;

Wherein, processor is configured to:

Identify the shooting emphasis position of current shooting content;

Detect the target area whether shooting emphasis position is arranged in shooting viewfinder range;

If the target area in shooting emphasis position deviation shooting viewfinder range, then generate auto heterodyne information;

Send auto heterodyne information to user's contact arrangement, the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

Fig. 8 is the block diagram of a kind of device 800 for prompting of autodyning according to an exemplary embodiment.Such as, device 800 can be moving camera, flat-panel devices, mobile phone and digital camera etc.

With reference to Fig. 8, device 800 can comprise following one or more assembly: processing components 802, memory 804, power supply module 806, multimedia groupware 808, audio-frequency assembly 810, the interface 812 of I/O (I/O), sensor cluster 814, and communications component 816.

The integrated operation of the usual control device 800 of processing components 802, such as identify the shooting emphasis position of current shooting content, with display, call, data communication, camera operation and record operate the operation be associated.Processing components 802 can comprise one or more processor 820 to perform instruction, to complete all or part of step of above-mentioned method.In addition, processing components 802 can comprise one or more module, and what be convenient between processing components 802 and other assemblies is mutual.Such as, processing components 802 can comprise multi-media module, mutual with what facilitate between multimedia groupware 808 and processing components 802.

Memory 804 is configured to store various types of data to be supported in the operation of device 800.The example of these data comprises for any application program of operation on device 800 or the instruction of method, contact data, telephone book data, message, picture, video etc.Memory 804 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, disk or CD.

The various assemblies that power supply module 806 is device 800 provide electric power.Power supply module 806 can comprise power-supply management system, one or more power supply, and other and the assembly generating, manage and distribute electric power for device 800 and be associated.

Multimedia groupware 808 is included in the screen providing an output interface between described device 800 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises one or more touch sensor with the gesture on sensing touch, slip and touch panel.Described touch sensor can the border of not only sensing touch or sliding action, but also detects the duration relevant to described touch or slide and pressure.In certain embodiments, multimedia groupware 808 comprises a front-facing camera and/or post-positioned pick-up head.When device 800 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 810 is configured to export and/or input audio signal.Such as, audio-frequency assembly 810 comprises a microphone (MIC), and when device 800 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The audio signal received can be stored in memory 804 further or be sent via communications component 816.In certain embodiments, audio-frequency assembly 810 also comprises a loud speaker, for output audio signal.

I/O interface 812 is for providing interface between processing components 802 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor cluster 814 comprises one or more transducer, for providing the state estimation of various aspects for device 800.Such as, sensor cluster 814 can detect the opening/closing state of device 800, the relative positioning of assembly, such as described assembly is display and the keypad of device 800, the position of all right checkout gear 800 of sensor cluster 814 or device 800 1 assemblies changes, the presence or absence that user contacts with device 800, the variations in temperature of device 800 orientation or acceleration/deceleration and device 800.Sensor cluster 814 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor cluster 814 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor cluster 814 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.

Communications component 816 is configured to the communication being convenient to wired or wireless mode between device 800 and other equipment.Device 800 can access the wireless network based on communication standard, as WiFi, 2G or 3G, or their combination.In one exemplary embodiment, communications component 816 can send auto heterodyne information to user's contact arrangement.In one exemplary embodiment, described communications component 816 also comprises near-field communication (NFC) module, to promote junction service.Such as, can based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 800 can be realized, for performing said method by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components.

In the exemplary embodiment, additionally provide a kind of non-transitory computer-readable recording medium comprising instruction, such as, comprise the memory 804 of instruction, above-mentioned instruction can perform said method by the processor 820 of device 800.Such as, described non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc.

A kind of non-transitory computer-readable recording medium, when the instruction in described storage medium is performed by the processor of device 800, make device 800 can perform a kind of auto heterodyne reminding method, method comprises: device 800 identifies the shooting emphasis position of current shooting content; Device 800 detects the target area whether shooting emphasis position is arranged in shooting viewfinder range; If the target area in shooting emphasis position deviation shooting viewfinder range, device 800 generation auto heterodyne informations; Device 800 sends auto heterodyne information to user's contact arrangement, and the vibration component that auto heterodyne information is used in activated user contact arrangement vibrates.

Those skilled in the art, at consideration specification and after putting into practice invention disclosed herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Specification and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (20)

1. an auto heterodyne reminding method, is characterized in that, described method comprises:

Identify the shooting emphasis position of current shooting content;

Detect the target area whether described shooting emphasis position is arranged in shooting viewfinder range;

If take the target area in viewfinder range described in described shooting emphasis position deviation, then generate auto heterodyne information;

Send described auto heterodyne information to user's contact arrangement, described auto heterodyne information is vibrated for the vibration component triggered in described user's contact arrangement.

2. method according to claim 1, is characterized in that, described generation auto heterodyne information, comprising:

Obtain the departure degree of described shooting emphasis position and described target area;

The first auto heterodyne information is generated according to described departure degree, described first auto heterodyne information carries oscillation intensity information, and described oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with described oscillation intensity information in described user's contact arrangement.

3. method according to claim 1, is characterized in that, the vibration component in described user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Described generation auto heterodyne information, comprising:

Obtain the offset direction of described shooting emphasis position and described target area;

The second auto heterodyne information is generated according to described offset direction, described second auto heterodyne information carries described offset direction information, and described offset direction information is used to indicate vibration component corresponding with described offset direction information in described user's contact arrangement and vibrates.

4. method according to claim 1, is characterized in that, the vibration component in described user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Described generation auto heterodyne information, comprising:

Obtain the offset direction of described shooting emphasis position and described target area;

Obtain the departure degree of described shooting emphasis position and described target area;

The 3rd auto heterodyne information is generated according to described offset direction and described departure degree, described 3rd auto heterodyne information carries described offset direction information and oscillation intensity information, and described offset direction information is used to indicate vibration component corresponding with described offset direction information in described user's contact arrangement and vibrates; Described oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with described oscillation intensity information.

5., according to the arbitrary described method of Claims 1-4, it is characterized in that,

Described shooting emphasis position is face location;

Described target area is the central area in shooting viewfinder range.

6., according to the arbitrary described method of Claims 1-4, it is characterized in that,

Described user's contact arrangement comprises self-shooting bar or wearable device.

7., according to the arbitrary described method of Claims 1-4, it is characterized in that, described method also comprises:

If take the target area in viewfinder range described in described shooting emphasis position deviation, send voice message message to user.

8. an auto heterodyne suggestion device, is characterized in that, described device comprises:

Location identification module, is configured to the shooting emphasis position identifying current shooting content;

Region detection module, is configured to detect the target area whether described shooting emphasis position is arranged in shooting viewfinder range;

Information generating module, the target area taken described in described shooting emphasis position deviation in viewfinder range if be configured to, then generate auto heterodyne information;

Information sending module, be configured to send described auto heterodyne information to user's contact arrangement, described auto heterodyne information is vibrated for the vibration component triggered in described user's contact arrangement.

9. device according to claim 8, is characterized in that, described information generating module, comprising:

First obtains submodule, is configured to the departure degree obtaining described shooting emphasis position and described target area;

First generates submodule, be configured to generate the first auto heterodyne information according to described departure degree, described first auto heterodyne information carries oscillation intensity information, and described oscillation intensity information is used to indicate the oscillation intensity of vibration component corresponding with described oscillation intensity information in described user's contact arrangement.

10. device according to claim 8, is characterized in that, the vibration component in described user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Described information generating module, comprising:

Second obtains submodule, is configured to the offset direction obtaining described shooting emphasis position and described target area;

Second generates submodule, be configured to generate the second auto heterodyne information according to described offset direction, described second auto heterodyne information carries described offset direction information, and described offset direction information is used to indicate vibration component corresponding with described offset direction information in described user's contact arrangement and vibrates.

11. devices according to claim 8, is characterized in that, the vibration component in described user's contact arrangement is at least two, and each vibration component is to there being respective direction;

Described information generating module, comprising:

3rd obtains submodule, is configured to the offset direction obtaining described shooting emphasis position and described target area;

4th obtains submodule, is configured to the departure degree obtaining described shooting emphasis position and described target area;

3rd generates submodule, be configured to generate the 3rd auto heterodyne information according to described offset direction and described departure degree, described 3rd auto heterodyne information carries described offset direction information and oscillation intensity information, and described offset direction information is used to indicate vibration component corresponding with described offset direction information in described user's contact arrangement and vibrates; Described oscillation intensity information is used to indicate the oscillation intensity of the vibration component corresponding with described oscillation intensity information.

Device described in 12. according to Claim 8 to 11 are arbitrary, is characterized in that,

Described shooting emphasis position is face location;

Described target area is the central area in shooting viewfinder range.

Device described in 13. according to Claim 8 to 11 are arbitrary, is characterized in that,

Described user's contact arrangement comprises self-shooting bar or wearable device.

Device described in 14. according to Claim 8 to 11 are arbitrary, it is characterized in that, described device also comprises:

Voice sending module, is configured to, when taking the target area in viewfinder range described in described shooting emphasis position deviation, send voice message message to user.

15. 1 kinds of auto heterodyne suggestion devices, is characterized in that, comprising:

Processor;

For storing the memory of the executable instruction of described processor;

Wherein, described processor is configured to:

Identify the shooting emphasis position of current shooting content;

Detect the target area whether described shooting emphasis position is arranged in shooting viewfinder range;

If take the target area in viewfinder range described in described shooting emphasis position deviation, then generate auto heterodyne information;

Send described auto heterodyne information to user's contact arrangement, described auto heterodyne information is vibrated for the vibration component triggered in described user's contact arrangement.

16. 1 kinds of self-shooting bars, is characterized in that, described self-shooting bar comprises:

Handle;

Be arranged at least one vibration component of described handle;

The communications component be connected with described vibration component.

17. self-shooting bars according to claim 16, is characterized in that, described vibration component is two or more, and each vibration component is to there being respective direction.

18. self-shooting bars according to claim 17, is characterized in that, described vibration component is four, and described four vibration components are separately positioned on described handle relative to the left part position under user's handling attitude, right part position, upper position and lower position.

19. 1 kinds of auto heterodyne prompt systems, is characterized in that, described system comprises self-shooting bar and auto heterodyne suggestion device;

Described self-shooting bar be as arbitrary in claim 16 to 18 as described in self-shooting bar;

Described self-shooting bar is connected with described auto heterodyne suggestion device by described communications component;

Described auto heterodyne suggestion device be as arbitrary in claim 8 to 14 as described in auto heterodyne suggestion device.

20. 1 kinds of auto heterodyne prompt systems, is characterized in that, described system comprises Wearable device and auto heterodyne suggestion device;

Described Wearable device involving vibrations assembly and the communications component be connected with described vibration component;

Described Wearable device is connected with described auto heterodyne suggestion device by described communications component

Described auto heterodyne suggestion device be as arbitrary in claim 8 to 14 as described in auto heterodyne suggestion device.