CN105915803A - Shooting method and system based on sensor - Google Patents

Abstract

The invention discloses a shooting method and system based on a sensor. The method comprises the steps of: when entering a shooting mode, starting the sensor and acquiring a distance to an object in the front, which is sensed by the sensor, in real time; and comparing the distance with a preset distance threshold, and when the distance is smaller than the preset threshold, triggering a shutter to carry out shooting. According to the invention, the distance to the object in the front is sensed by the sensor and an intelligent terminal is controlled to carry out shooting according to the distance, so that a user can shot by a method of closing to the shutter, and thus, the condition that in the shooting process, due to pressing on the shooting shutter, the shutter is shaken to cause to shoot a fuzzy photo is effectively prevented, imaging stability of shooting is improved and a visual effect of the photo is improved.

Description

A kind of sensor-based photographic method and system

Technical field

The present invention relates to field of terminal technology, particularly to a kind of sensor-based photographic method and system.

Background technology

Along with the development of intelligent terminal, take pictures and become the requisite function of intelligent terminal.At present, during using intelligent terminal to take pictures, traditional mode needs accurately to click on button of taking pictures and realizes, and this method exists inconvenience: when click force is bigger, mobile phone generation vibration causes image blurring；The position clicked on is limited etc..In order to solve the problems referred to above, also there is the discontiguous mode of employing.At present, commonly used following several discontiguous modes realize mobile phone photograph: (1), gesture identification；(2), speech recognition；(3), the external equipment such as self-shooting bar.Gesture identification method needs user to keep certain posture, and audio recognition method needs clearly to recognize voice messaging, and reliability is the highest；And the external equipments such as self-shooting bar add cost of taking pictures.

Thus prior art could be improved and improve.

Summary of the invention

The technical problem to be solved in the present invention is, for the deficiencies in the prior art, it is provided that a kind of sensor-based photographic method and system, to solve the problem that existing terminal causes taking blurred image by clicking on space shooting shutter and causing the shake of intelligent terminal.

In order to solve above-mentioned technical problem, the technical solution adopted in the present invention is as follows:

A kind of sensor-based photographic method, application is provided with the intelligent terminal of sensor, comprising:

When entering exposal model, start sensor and obtain the distance of its objects in front that sensor detects in real time；

Described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.

Described sensor-based photographic method, wherein, described when entering screening-mode, start sensor and detect the distance of its objects in front in real time and specifically include:

When entering exposal model, start sensor；

Obtain distance and the angle of inclination of intelligent terminal of its objects in front that sensor detects, wherein, described distance and described angle of inclination one_to_one corresponding in real time.

Described sensor-based photographic method, wherein, described compares described distance with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and takes pictures.

Described distance is compared with predeterminable range threshold value；

When described distance is less than predeterminable range threshold value, obtain view data；

It is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

Described sensor-based photographic method, wherein, described view data is adjusted and triggers described shutter taking pictures and specifically including by the described angle of inclination corresponding according to described distance:

Angle of inclination corresponding for described distance is compared with predetermined angle threshold value；

If described angle of inclination is less than predetermined angle threshold value, then it is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

Described sensor-based photographic method, wherein, described view data is adjusted and triggers described shutter taking pictures and also including by the described angle of inclination corresponding according to described distance:

If described angle of inclination is more than or equal to predetermined angle threshold value, then triggers described shutter and take pictures.

A kind of sensor-based camera system, its application has the intelligent terminal of sensor, comprising:

Acquisition module, for when entering exposal model, starts sensor and obtains the distance of its objects in front that sensor detects in real time；

Perform module, for described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.

Described sensor-based camera system, wherein, described acquisition module includes:

Start unit, for when entering exposal model, starts sensor；

First acquiring unit, for obtaining the distance obtaining its objects in front that sensor detects in real time；

Second acquisition unit, for the angle of inclination of acquisition intelligent terminal in real time.

Described sensor-based camera system, wherein, described execution module includes:

Comparing unit, for comparing described distance with predeterminable range threshold value；

3rd acquiring unit, for when described distance is less than predeterminable range threshold value, obtaining view data；

Performance element, is adjusted and triggers described shutter taking pictures to described view data for the angle of inclination corresponding according to described distance.

Described sensor-based camera system, wherein, described performance element specifically includes:

Relatively subelement, for comparing angle of inclination corresponding for described distance with predetermined angle threshold value；

First performs subelement, for when described angle of inclination is less than predetermined angle threshold value, is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

Described sensor-based camera system, wherein, described performance element also includes:

Second performs subelement, for when described angle of inclination is more than or equal to predetermined angle threshold value, triggering described shutter and take pictures.

Beneficial effect: compared with prior art, the invention provides a kind of sensor-based photographic method and system, and described method includes: when entering exposal model, starts sensor and obtains the distance of its objects in front that sensor detects in real time；Described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.The present invention distance by sensor sensing device objects in front, according to distance controlling, intelligent terminal takes pictures, user can be made to be taken pictures by the method close to shutter, it is effectively prevented when taking pictures because causing the shake of shutter to cause taking blurred image by space shooting shutter, add the Iimaging Stability taken pictures, improve the visual effect of photo.

Accompanying drawing explanation

The flow chart that Fig. 1 preferably implements for sensor-based photographic method that the present invention provides.

The structure principle chart of sensor-based camera system that Fig. 2 provides for the present invention.

Detailed description of the invention

The present invention provides a kind of sensor-based photographic method and system, and for making the purpose of the present invention, technical scheme and effect clearer, clear and definite, the present invention is described in more detail for the embodiment that develops simultaneously referring to the drawings.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

Below in conjunction with the accompanying drawings, by the description to embodiment, summary of the invention is described further.

Refer to the flow chart that Fig. 1, Fig. 1 provide the preferred embodiment of a kind of sensor-based photographic method for the present invention.Described method includes:

S100, when entering exposal model, start sensor acquisition sensor detects in real time the distance of its objects in front.

Specifically, the application of described method has the intelligent terminal of sensor, e.g., mobile phone, ipod etc..Described sensor can be that Proximity Sensor, gesture sensor etc. can be with the sensors of Measuring Object distance.Described Proximity Sensor is by launching after infrared ray, Measuring Object reflection light and obtain a kind of sensor of object distance.When perceived distance typically by two ways, the first is that the infrared light intensity reflected by judgment object carrys out perceived distance；The second is from being transmitted into the time being reflected by the object by measurement infrared light pulse, carrys out computed range by time interval.In actual applications, owing to the photographic head of intelligent terminal exists certain visual angle scope, for avoiding occurring during using that blocking object enters in the angle of visual field, the photographic head of described intelligent terminal is put with range sensor disconnected position.

Described exposal model refers to user and starts the photographing unit of intelligent terminal and take pictures, and can be to start front-facing camera, it is also possible to be to start post-positioned pick-up head.Described when enter exposal model time start sensor refer to be to start intelligent terminal as user when, intelligent terminal starts sensor automatically.Further, when entering exposal model, a detection process also can be included before starting sensor, for detection sensor, described detection process controls whether camera function is opened, if described function is opened, then when entering exposal model, start sensor, it is also possible to prompting sensor controls to take pictures to have been switched on.If described function is closed, then when entering exposal model, do not start sensor, and point out user sensor to control to take pictures to have been switched off, user please carry out shooting etc. by key of taking pictures.In actual applications, user is intelligent terminal when accessing self-shooting bar in order to autodyne, and described sensor camera function can be automatically switched off, and so can reduce the energy consumption during taking pictures, and improves the stand-by time of intelligent terminal, brings convenience to the use of user.

Further, take pictures for the convenience of the user, can design in the interface of taking pictures of described intelligent terminal one take pictures instruction icon (e.g., finger shape picture), this take pictures instruction icon for indicating user to take pictures by the way of finger is near this instruction icon.

S200, described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.

Specifically, described distance threshold is effective shooting distance of the photographic head that intelligent terminal is arranged, for starting the condition of photographic head.Described intelligent terminal is at the distance threshold of system default, e.g., 50mm, 80mm etc. of prestoring that dispatch from the factory.Certainly, described distance threshold can also be the distance of effectively taking pictures of the intelligent terminal that User Defined is arranged.In the present embodiment, when user is self-defined distance threshold, use the preset value of acquiescence.It is worth explanation, owing to there is certain distance of reaction close to induction apparatus, thus described predeterminable range threshold value can not be more than the distance of reaction of proximity transducer, when distance threshold is more than the distance of reaction of proximity transducer, so during taking pictures, the distance that inductive transducer senses is necessarily less than distance threshold, then cannot play the function taken pictures according to distance controlling.

Further, owing to different intelligent terminal may use no proximity transducer, and difference proximity sensor can sense the object in different range according to difference of its sensing precision, as when the sensing precision of this proximity sensor is 150mm, then this proximity sensor can sense with this proximity sensor as the centre of sphere, and 150mm is the object of the sphere class of radius.Thus, when user setup distance threshold, can with the span of display distance threshold value, when user arrange value exceed the upper limit (e.g., 150mm) is set time, then be considered as invalid setting, and point out the described distance threshold upper limit.

Further, after proximity transducer senses the distance of its objects in front, described distance is compared with predeterminable range threshold value, and take pictures according to comparative result control photographic head.Distance described here is the distance that sensor sensing arrives its objects in front, and meanwhile, described distance is object distance of sensing when resting on induction apparatus front.So before described distance is compared with distance threshold, also has a Distance Judgment process, it is specifically as follows: when obtaining the distance that sensor sensing arrives, described distance is compared with the front distance once obtained, if described distance is different from the front distance once obtained, then continue to obtain the distance that sensor sensing arrives；If described distance is identical with the front distance once obtained, described distance is being compared with predeterminable range threshold value.So can improve and carry out, according to distance of reaction, the accuracy taken pictures.

Further, due in the present embodiment, obtain the distance that sensor sensing arrives in real time, then the difference between current distance and the front distance once obtained obtained may be the least, it is impossible to accurately judge that the current distance obtained is the most identical with the front distance once obtained.Thus in the variant embodiment of the present embodiment, after getting induction apparatus and sense the distance of its objects in front, Preset Time can be spaced and obtain the distance of its objects in front that induction apparatus senses, and the distance currently obtained is compared with the front distance once obtained, if it is identical, current distance is compared with predeterminable range threshold value, if once distance before using current distance to update, and would continue to obtain the distance of its objects in front that induction apparatus senses.Described Preset Time can be with 1 second, 0.5 second etc..It can be that system default is arranged, it is also possible to is that user is according to oneself needing by arranging interface setting.It is to say, after the object in sensor front stops certain time before sensor, just take pictures.The problem by mistake taken pictures that so can avoid user in use producing owing to other actions such as waving.

In another embodiment of the present invention, when user removes proximity transducer with finger, both hands helping intelligent terminal to become singlehanded and help intelligent terminal, then during user is with finger proximity transducer, intelligent terminal is it may happen that shake.Thus in order to reduce the impact that described shake brings to photo.Described method can include following process:

S10, when enter exposal model time, start sensor.

S20, the distance obtaining its objects in front that sensor detects in real time and the angle of inclination of intelligent terminal, wherein, described distance and described angle of inclination one_to_one corresponding.

Specifically, the angle of inclination of described intelligent terminal can be obtained by acceleration sensor or gravity sensor or gyro sensor etc..When described distance and described angle of inclination one_to_one corresponding refer to the current distance that described angle of inclination is its objects in front that acquisition sensor detects, the angle of inclination of intelligent terminal.In actual applications, the distance of its objects in front that can be detected by synchronization acquisition sensor and the angle of inclination of intelligent terminal realize the one_to_one corresponding of distance and angle of inclination.And when getting the angle of inclination of the distance of its objects in front detected by sensor and intelligent terminal, described distance and angle of inclination are bound.

S30, described distance is compared with predeterminable range threshold value, when described distance is less than predeterminable range threshold value, obtain view data.

Specifically, described acquisition view data refers to obtain the view data that the lens of photographic head obtain.

S40, angle of inclination corresponding for described distance is compared with predetermined angle threshold value.

Specifically, described angle threshold is default settings (e.g., 1 degree, 2 degree etc.), and it is for judging that the inclination of terminal is the shake produced in shooting process.

If the described angle of inclination of S50 is less than predetermined angle threshold value, then it is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

Specifically, when described angle of inclination is less than predetermined angle threshold value, illustrate that the inclination of intelligent terminal is the shake that produces in shooting process of user and causes, then just be adjusted and trigger described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.In actual applications, according to angle of inclination, the view data obtained can be rotated and corrects, thus without using image processing software that photo is carried out secondary editor upon taking a picture, it is to avoid the distortion that image procossing causes, not only efficiency is high, and image effect is good.

If the described angle of inclination of S60 is more than or equal to predetermined angle threshold value, then triggers described shutter and take pictures.

Specifically, when described angle of inclination is less than predetermined angle threshold value, illustrate that the inclination of intelligent terminal is that user uses angled manner to shoot, then take pictures with regard to directly triggering shutter.In actual applications, during taking pictures, when camera focusing completes, the angle of inclination of terminal can be obtained, and store it as judging the initial condition whether intelligent terminal occurs shake.It is to say, when obtaining view data, the absolute value finally obtaining angle of inclination corresponding to distance and the difference at angle of inclination when having focused is compared with predetermined angle threshold value, it is judged that intelligent terminal's whether run-off the straight.Thus view data is adjusted according to determining the need for accurately, improve the accuracy of adjustment.

Present invention also offers a kind of sensor-based camera system, as in figure 2 it is shown, its application has the intelligent terminal of sensor, comprising:

Acquisition module 100, for when entering exposal model, starts sensor and obtains the distance of its objects in front that sensor detects in real time；

Perform module 200, for described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.

Described sensor-based camera system, wherein, described acquisition module 100 includes:

Start unit, for when entering exposal model, starts sensor；

First acquiring unit, for obtaining the distance obtaining its objects in front that sensor detects in real time；

Second acquisition unit, for the angle of inclination of acquisition intelligent terminal in real time.

Described sensor-based camera system, wherein, described execution module 200 includes:

Comparing unit, for comparing described distance with predeterminable range threshold value；

3rd acquiring unit, for when described distance is less than predeterminable range threshold value, obtaining view data；

Performance element, is adjusted and triggers described shutter taking pictures to described view data for the angle of inclination corresponding according to described distance.

Described sensor-based camera system, wherein, described performance element specifically includes:

Relatively subelement, for comparing angle of inclination corresponding for described distance with predetermined angle threshold value；

First performs subelement, for when described angle of inclination is less than predetermined angle threshold value, is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

Described sensor-based camera system, wherein, described performance element also includes:

Second performs subelement, for when described angle of inclination is more than or equal to predetermined angle threshold value, triggering described shutter and take pictures.

In embodiment provided by the present invention, it should be understood that disclosed system and method, can realize by another way.Such as, device embodiment described above is only schematically, such as, the division of described module, be only a kind of logic function to divide, actual can have when realizing other dividing mode, the most multiple unit or assembly can in conjunction with or be desirably integrated into another system, or some features can ignore, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be the INDIRECT COUPLING by some interfaces, device or unit or communication connection, can be electrical, machinery or other form.

The described unit illustrated as separating component can be or may not be physically separate, and the parts shown as unit can be or may not be physical location, i.e. may be located at a place, or can also be distributed on multiple NE.Some or all of unit therein can be selected according to the actual needs to realize the purpose of the present embodiment scheme.

It addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, it is also possible to be that unit is individually physically present, it is also possible to two or more unit are integrated in a unit.Above-mentioned integrated unit both can realize to use the form of hardware, it would however also be possible to employ hardware adds the form of SFU software functional unit and realizes.

The above-mentioned integrated unit realized with the form of SFU software functional unit, can be stored in a computer read/write memory medium.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions with so that a computer equipment (can be personal computer, server, or the network equipment etc.) or processor (processor) perform the part steps of method described in each embodiment of the present invention.And aforesaid storage medium includes: USB flash disk, portable hard drive, read only memory (Read-Only Memory, ROM), the various media that can store program code such as random access memory (Random Access Memory, RAM), magnetic disc or CD.

Last it is noted that above example is only in order to illustrate technical scheme, it is not intended to limit；Although the present invention being described in detail with reference to previous embodiment, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or wherein portion of techniques feature is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a sensor-based photographic method, application is provided with the intelligent terminal of sensor, it is characterised in that comprising:

When entering exposal model, start sensor and obtain the distance of its objects in front that sensor detects in real time；

Described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.

The most sensor-based photographic method, it is characterised in that described when entering screening-mode, starts sensor and detects the distance of its objects in front in real time and specifically include:

When entering exposal model, start sensor；

Obtain distance and the angle of inclination of intelligent terminal of its objects in front that sensor detects in real time；Described distance and described angle of inclination one_to_one corresponding.

The most sensor-based photographic method, it is characterised in that described described distance compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and takes pictures；

Described distance is compared with predeterminable range threshold value；

When described distance is less than predeterminable range threshold value, obtain view data；

It is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

The most sensor-based photographic method, it is characterised in that described view data is adjusted and triggers described shutter taking pictures and specifically including by the described angle of inclination corresponding according to described distance:

Angle of inclination corresponding for described distance is compared with predetermined angle threshold value；

If described angle of inclination is less than predetermined angle threshold value, then it is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

The most sensor-based photographic method, it is characterised in that described view data is adjusted and triggers described shutter taking pictures and also including by the described angle of inclination corresponding according to described distance:

If described angle of inclination is more than or equal to predetermined angle threshold value, then triggers described shutter and take pictures.

6. a sensor-based camera system, its application has the intelligent terminal of sensor, it is characterised in that comprising:

Acquisition module, for when entering exposal model, starts sensor and obtains the distance of its objects in front that sensor detects in real time；

Perform module, for described distance is compared with predeterminable range threshold value, when described distance is less than described predetermined threshold value, triggers shutter and take pictures.

The most sensor-based camera system, it is characterised in that described acquisition module includes:

Start unit, for when entering exposal model, starts sensor；

First acquiring unit, for obtaining the distance obtaining its objects in front that sensor detects in real time；

Second acquisition unit, for the angle of inclination of acquisition intelligent terminal in real time.

The most sensor-based camera system, it is characterised in that described execution module includes:

Comparing unit, for comparing described distance with predeterminable range threshold value；

3rd acquiring unit, for when described distance is less than predeterminable range threshold value, obtaining view data；

Performance element, is adjusted and triggers described shutter taking pictures to described view data for the angle of inclination corresponding according to described distance.

The most sensor-based camera system, it is characterised in that described performance element specifically includes:

Relatively subelement, for comparing angle of inclination corresponding for described distance with predetermined angle threshold value；

First performs subelement, for when described angle of inclination is less than predetermined angle threshold value, is adjusted and triggers described shutter taking pictures to described view data according to the angle of inclination that described distance is corresponding.

The most sensor-based camera system, it is characterised in that described performance element also includes:

Second performs subelement, for when described angle of inclination is more than or equal to predetermined angle threshold value, triggering described shutter and take pictures.