KR101605420B1 - A digital photographing apparatus and a method for controlling the same - Google Patents

Abstract

Embodiments of the present invention are intended to provide a photographing guide to a user at the time of self photographing. A digital photographing apparatus control method according to an embodiment of the present invention includes: detecting a slope of the digital photographing apparatus; Deriving an imaging orientation of the digital photographing apparatus based on the inclination; Determining whether the photographic orientation meets a self-photographing criterion; And providing a photographing guide according to whether or not the self-photographing criteria are met.

Description

[0001] The present invention relates to a digital photographing apparatus and a method for controlling the same,

Embodiments of the present invention relate to a digital photographing apparatus having an image pickup element and a control method thereof.

A digital photographing apparatus converts an optical signal incident through an optical section such as a lens or diaphragm into an electrical signal from an image pickup element to photograph the subject. The photographed images are stored in a storage medium through a series of processes.

With the demand for a device that can easily take a picture anytime and anywhere, digital photographing devices designed to have good portability such as compact cameras and mobile phones have become widespread. Furthermore, there is an increasing number of users who perform self-photographing in which a user directly takes a picture of himself / herself.

Embodiments of the present invention are intended to provide a photographing guide so that the user can photograph the photograph in a proper composition at the time of self photographing.

Furthermore, the embodiments of the present invention are intended to enable a user to directly register a desired shooting composition at the time of self-photographing, and to shoot at a desired composition when self-shooting is performed at a later time.

A digital photographing apparatus control method according to an embodiment of the present invention includes: detecting a slope of the digital photographing apparatus; Deriving an imaging orientation of the digital photographing apparatus based on the inclination; Determining whether the photographic orientation meets a self-photographing criterion; And providing a photographing guide according to whether or not the self-photographing criteria are met.

The photographing orientation may include at least one of the inclination, the height from the user to the digital photographing apparatus, and the horizontal orientation of the digital photographing apparatus.

The digital photographing apparatus control method comprising the steps of: detecting a face from a live view image to calculate the horizontal orientation; And calculating the horizontal orientation based on the position of the detected face. The digital photographing apparatus control method may further include a step of calculating a height from the user to the digital photographing apparatus using the inclination and the arm length information of the user to calculate the height, The information may be a predetermined value or a value entered by the user.

A digital photographing apparatus control method according to another embodiment of the present invention allows a user to register a self photographing reference directly. To this end, the digital photographing apparatus control method includes: detecting the photographing orientation at the time of capturing an image; Providing a user interface that allows a user to select whether to register the imaging orientation at the time of image capture with the self-imaging criteria; And registering the photographing orientation at the time of capturing an image as the self-photographing reference when the user selects to register the photographing orientation as the self-photographing reference. At this time, the photographing orientation includes at least one of the inclination, the height from the user to the digital photographing apparatus, and the horizontal orientation of the digital photographing apparatus, and the digital photographing apparatus controlling method is characterized in that the user inputs arm length information Providing a user interface that can be used by a user; And calculating a height from the user to the digital photographing apparatus using the inclination and the arm length information input by the user.

Further, the digital photographing apparatus control method according to another embodiment of the present invention is characterized in that the self photographing criterion includes at least one self-photographing criterion input by a user, and the digital photographing apparatus control method includes: And providing a user interface capable of selecting at least one of the criteria.

According to an embodiment of the present invention, there is provided a digital photographing apparatus comprising: a tilt detecting unit detecting a tilt of the digital photographing apparatus; An imaging orientation deriving unit for deriving an imaging orientation of the digital photographing apparatus based on the inclination; A self-photographing standard determination unit for determining whether the photographing orientation satisfies a self-photographing standard; And a photographing guide providing unit for providing a photographing guide according to whether the self-photographing standard is met or not.

According to the embodiments of the present invention, a photographing guide for a proper composition is provided to a user at the time of self-photographing, so that the possibility of self-photographing failure of the user is reduced because the composition of the self- The self-photographing can be conveniently performed.

In addition, according to the embodiments of the present invention, there is an effect that a user can directly register a desired shooting composition at the time of self shooting, thereby allowing the user to self-shoot in a desired composition.

Embodiments of the present invention will now be described with reference to the accompanying drawings. The following description and accompanying drawings are for understanding the operation according to the present invention, and parts that can be easily implemented by those skilled in the art can be omitted.

Furthermore, the specification and drawings are not intended to limit the present invention, and the scope of the present invention should be determined by the claims. The terms used in the present specification should be construed to mean the meanings and concepts consistent with the technical idea of the present invention so as to best express the present invention.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

1 is a diagram showing an exemplary structure of a digital photographing apparatus according to an embodiment of the present invention.

The digital photographing apparatus 100 according to an embodiment of the present invention includes a diaphragm 111, a diaphragm driving unit 112, a lens 113, a lens driving unit 115, an image pickup device 118, an image pickup device control unit 119, A digital signal processor 130, a memory 140, a storage / read controller 150, a storage medium 152, a CPU 160, a tilt detector 170, an operation unit 180, A control unit 190, and a display unit 192.

The overall operation of the digital photographing apparatus 100 is governed by the CPU 100. [ The CPU 100 provides a control signal for operation of each component to the diaphragm driving unit 112, the lens driving unit 115, and the imaging device control unit 119, for example.

The diaphragm 111 is controlled by the diaphragm driving unit 112 so as to adjust the amount of light incident on the imaging element 118.

The lens 113 may include a plurality of lenses such as a zoom lens and a focus lens. The position of the lens 113 is adjusted by the lens driving unit 115. The lens driving unit 115 adjusts the position of the lens 113 according to a control signal provided by the CPU 160. [

The optical signal transmitted through the diaphragm 111 and the lens 113 reaches the light-receiving surface of the image pickup element 118 and forms an image of the object. The image pickup device 118 may be a CCD (Charge Coupled Device) or a CIS (Complementary Metal Oxide Semiconductor Image Sensor) for converting an optical signal into an electric signal. The sensitivity of the image pickup element 118 can be adjusted by the image pickup element controller 119. The image pickup element control section 119 can control the image pickup element 118 in accordance with a control signal automatically generated by the video signal inputted in real time or a control signal manually inputted by the user's operation.

The exposure time of the imaging element 118 is adjusted by a shutter (not shown). A shutter (not shown) has a mechanical shutter for moving the screen to adjust the incidence of light, and an electronic shutter for controlling exposure by supplying an electric signal to the imaging element 118.

The analog signal processing unit 120 performs noise reduction processing, gain adjustment, waveform shaping, analog-to-digital conversion processing, and the like on the analog signal supplied from the image pickup element 118.

The signal processed by the analog signal processing unit 120 may be input to the digital signal processing unit 130 via the memory 140 or may be input to the digital signal processing unit 130 without passing through the memory 140, And may also be input to the CPU 160. [ Here, the memory 140 is a concept including ROM, RAM, and the like. The digital signal processing unit 130 can perform digital signal processing such as gamma correction and white balance adjustment as needed.

The image data output from the digital signal processing unit 130 is transmitted to the display control unit 190 through the memory 140 or directly. The display control unit 190 controls the display unit 192 to display an image on the display unit 192.

The image data output from the digital signal processor 130 is input to the memory 140 via the memory 140 or directly to the storage controller 150. The storage controller 150 controls the storage / And stores the image data on the storage medium 152. [ Of course, the storage / read control unit 150 reads the image-related data from the image file stored in the storage medium 152 and inputs it to the display control unit 150 through the memory 140 or another path, 192 to display the image. The storage medium 152 may be removable or permanently attached to the digital imaging device 100.

The operation unit 180 is a place where a user can input a control signal. The operation unit 180 includes a shutter-release button for inputting a shutter-release signal for exposing the image pickup device 118 to light for a predetermined period of time to take a picture, a power source for inputting a control signal for controlling on- Button, a wide-angle zoom button and a telephoto-zoom button to widen the angle of view or narrow the angle of view according to the input, a mode selection such as a character input mode, a shooting mode, and a playback mode, a white balance setting function selection, And the like. The operation unit 180 may be implemented in any form in which a user can input a control signal, such as a button, a keyboard, a touch pad, a touch screen, a remote controller, or the like.

The tilt detecting unit 170 detects the tilt of the digital photographing apparatus 100. [ For this purpose, the tilt detector 170 may use various types of tilt sensors, acceleration sensors, and the like. In the embodiments of the present invention, the inclination (φ) means the degree to which the digital photographing apparatus 100 is inclined based on the direction of gravity. However, the slope? Can be variously defined, and the scope of the present invention is not limited by the manner of defining the slope?.

FIG. 1 illustrates an exemplary structure of a digital photographing apparatus 100 according to an embodiment of the present invention, and the detailed structure of the digital photographing apparatus 100 may vary according to embodiments. Therefore, the scope of the present invention is not limited by the structure of the digital photographing apparatus 100 shown in FIG.

2 is a flowchart illustrating a method of controlling a digital photographing apparatus according to an exemplary embodiment of the present invention.

An embodiment of the present invention derives the photographing orientation of the digital photographing apparatus 100 and provides photographing guides for self photographing. The digital photographing apparatus control method according to the embodiments of the present invention can be performed when the user enters the self photographing mode, but is not limited thereto.

To this end, the digital photography apparatus control method according to the present embodiment detects the inclination [phi] of the digital photographing apparatus 100 (S202). The tilt? Can be detected by the tilt detector 170 described above.

When the tilt? Is detected (S202), the imaging orientation of the digital photographing apparatus 100 is derived using the tilt? (S204). The photographing orientation refers to the orientation of the digital photographing apparatus 100 that determines the composition of the photographed image. The photographing orientation may be, for example, the inclination (?) Indicating the degree of inclination of the digital photographing apparatus 100 with respect to the gravity direction, the height (h) from the user's head to the digital photographing apparatus 100, And a position (t_box) of a target box indicating an area.

When the photographing orientation is derived (S204), it is judged whether or not the photographing orientation satisfies the self photographing standard (S206). The self-photographing standard refers to the photographing orientation for obtaining an appropriate composition in self photographing. The self-photographing reference may be expressed by parameter values indicating the photographing orientation. For example, the self-photographing criterion may include a reference value for a tilt (?), A height (h), and a target box position (t_box). The self-photographing criteria may be predetermined or a value entered by the user.

If it is determined that the self-photographing criteria are met (S206), a photographing guide for self-photographing is provided according to whether the self-photographing criteria are met (S208). And provides the photographing guide that the current photographing orientation satisfies the self photographing standard when the photographing orientation satisfies the self photographing criterion. If the shooting orientation does not meet the self-photographing criteria, information on how the user should move the digital photographing apparatus 100 in order to meet the self-photographing criteria is provided. For example, a photographing guide for instructing the digital photographing apparatus 100 to tilt downward, a photographing guide for instructing the digital photographing apparatus 100 to be positioned higher, an instruction for moving the digital photographing apparatus 100 to the right A photographing guide or the like may be provided.

The photographing guide may be provided in various forms such as a sound, a message displayed on the display unit 192, an LED, and the like, and the present invention is not limited by means for providing a photographing guide.

FIG. 3 is a flowchart illustrating a process of deriving an imaging orientation (S204) in more detail, and FIG. 4 is a diagram for explaining a process of deriving an imaging orientation.

4, the inclination? Represents the degree of inclination of the digital photographing apparatus 100, and the height h may be defined as a vertical height from the head of the user 400 to the digital photographing apparatus 100 have. The height h may be defined as the vertical height from the shoulder of the user 400 to the digital photographing apparatus 100, and the like, for example, .

When the inclination [phi] is detected, the height h of the digital photographing apparatus 100 is calculated using the inclination [phi] and the arm length information w (S302). The arm length information w is a value indicating the arm length of the user, and may be predetermined or input by the user. As shown in FIG. 4, each ABC is equal to the tilt? Of the digital photographing apparatus 100, and the height h is calculated from the arm length information w and the inclination? .

Height (h) = arm length information (w) * tan?

In addition, the face is detected from the live view image (S304), and the horizontal orientation of the digital photographing apparatus 100 can be calculated from the detected face position (S306). The horizontal orientation may be represented, for example, by the position of the target box displayed on the detected face.

5 is a diagram showing a display unit 192 displaying a target box. When the face is detected, the target box 502 is displayed on the detected face as shown in FIG. At this time, a self-photographing reference target box 504 may be displayed together. 5, when the position of the current target box 502 is deviated from the position of the self-photographing reference target box 504, the target box 502 is placed at the same or similar position as the self-photographing reference target box 504 May be provided.

Although FIG. 3 shows the calculation of the horizontal orientation of the digital photographing apparatus 100 after calculating the height h, it is possible to calculate the horizontal alignment between the operation S302 for calculating the height and the operations S304 and S306 for calculating the horizontal alignment The order may be determined arbitrarily, or it may be performed in parallel.

6 is a diagram illustrating an exemplary self-photographing standard.

The self-photographing criteria can be predetermined and stored as a single value. As another example, the self-photographing criteria may be predetermined or may include one or more self-photographing criteria entered by the user. To this end, another embodiment of the present invention may provide a user interface by which a user may enter a self-photographing criteria into the digital photographing apparatus 100. [ The user can input the desired self-photographing reference parameter values to the digital photographing apparatus 100 through the user interface.

According to another aspect of the present invention, there is provided a method of controlling a digital still camera, the method comprising: providing a user interface that allows a user to select one of at least one self-photographing criteria. Using this user interface, the user can select a self-photographing standard for a desired photographing composition.

As shown in FIG. 6, the self-photographing criteria may be, for example, a slope (phi), a height (h), and a target box position (t_box). The target box position t_box can be displayed in various ways, and FIG. 6 shows an embodiment showing the target box position t_box based on the pixel position of the center point of the target box in the live view image having the resolution of 640 * 480 Respectively.

7 is a flowchart illustrating a self-photographing standard registration process according to another embodiment of the present invention.

According to another embodiment of the present invention, the user can store the shooting orientation at the time of capturing an image and register a desired self-photographing reference in the digital photographing apparatus 100. [ The self-photographing standard registration process can be started by the user selecting to enter a mode in which the self-photographing criterion can be registered, but the embodiment in which the process is started is not limited thereto.

First, at the time of image capturing, the image capturing orientation of the digital photographing apparatus 100 is derived (S702). As described above, at least one of the tilt?, The height h, and the target box position t_box is obtained in the process of deriving the imaging orientation.

When the image capturing orientation at the time of capturing an image is derived (S702), a user interface is provided for the user to select whether to register the image capturing orientation as a self-photographing reference (S704). When the user selects to register the photographing orientation at the time of image capturing with the self photographing reference (S706), the photographing orientation at the time of image capturing is stored in the digital photographing apparatus 100. [ If the user has not selected to register the photographing orientation as the self-photographing reference (S706), the photographing orientation at the time of image capturing is not separately stored. By using the self-photographing standard registration process, the user can register the photographing orientation as a self-photographing reference when the captured image of the captured image is satisfactory, and use the self-photographing as a reference.

8 is a diagram illustrating the structure of a digital signal processor 130a according to an embodiment of the present invention.

The digital signal processing unit 130a according to an embodiment of the present invention includes an imaging orientation deriving unit 802, a self-photographing reference determination unit 804, and a photographing guide providing unit 806. [

The photographing orientation deriving section 802 derives the photographing orientation of the digital photographing apparatus 100 using the inclination phi detected from the inclination detecting section 170. [ The shooting orientation may be, for example, a tilt (phi), a height (h), and a target box position (t_box).

The self-photographing standard determination unit 804 determines whether the photographing orientation satisfies the self-photographing standard. The self-photographing criterion can be represented by parameter values indicating the photographing orientation as a photographing orientation in which an appropriate composition can be obtained at the time of self photographing. For example, the self-photographing criterion may include a reference value for a tilt (?), A height (h), and a target box position (t_box). The self-photographing criteria may be predetermined or a value entered by the user. The self-photographing criteria may be stored in a pre-allocated storage space, for example, a storage space for storing the self-photographing criteria in the storage medium 152 may be allocated.

The photographing guide providing unit 806 provides a photographing guide for self photographing in accordance with whether or not the self photographing criteria are met. And provides the photographing guide that the current photographing orientation satisfies the self photographing standard when the photographing orientation satisfies the self photographing criterion. Information on how the user should move the digital photographing apparatus 100 in order to meet the self-photographing criteria when the photographing orientation does not satisfy the self-photographing criteria, and the self-photographing criteria are not satisfied.

The photographing guide may be provided in various forms such as a sound, a message displayed on the display unit 192, an LED, and the like, and the present invention is not limited by means for providing a photographing guide. When the photographing guide is provided as sound, the digital photographing apparatus 100 may further include means for outputting sound such as a speaker (not shown). The digital photographing apparatus 100 may also include at least one LED (not shown) for providing a photographing guide.

9 is a diagram illustrating a structure of a digital signal processor 130b according to another embodiment of the present invention.

The digital signal processing unit 130b according to another embodiment of the present invention includes an imaging orientation deriving unit 802, a self-photographing reference determination unit 804, a photographing guide providing unit 806, a first user interface providing unit 908, A self-photographing standard registration unit 910, a second user interface providing unit 912, and a third user interface providing unit 914.

The imaging orientation deriving section 802 according to the present embodiment may include a height calculating section 902, a face detecting section 904, and a horizontal orientation calculating section 906. [

The height calculating unit 902 calculates the height h of the digital photographing apparatus 100 using the tilt? Detected by the tilt detecting unit 170 and the arm length information w. The height h can be calculated using Equation (1) as described above.

The arm length information w is a value indicating the arm length of the user, and may be predetermined or input by the user. The second user interface providing unit 912 provides a second user interface through which a user can input arm length information w. When the user inputs the arm length information w through the second user interface, the height calculating unit 902 calculates the height h using the arm length information w input by the user.

The face detection unit 904 detects a face from the live view image. For this, the face detection unit 904 may use various algorithms for face detection, for example, the Adaboost algorithm.

The horizontal orientation calculating section 906 calculates the horizontal orientation of the digital photographing apparatus 100 from the position of the face detected by the face detecting section 904. The horizontal orientation may be represented, for example, by the position (t_box) of the target box displayed on the detected face.

The first user interface providing unit 908 provides a first user interface through which the user can select whether to register the photographing orientation at the time of capturing an image as a self-photographing reference. The self-photographing standard registration unit 910 registers the photographing orientation at the time of capturing an image as a self-photographing reference when the user selects to register the photographing orientation at the time of capturing an image as a self-photographing reference. To this end, the self-photographing standard registration unit 910 may store the photographing orientation at the time of photographing in a storage space allocated to the storage medium 152 for storing the self-photographing reference. The photographing orientation at the time of turning on the image can be derived from the photographing orientation deriving section 802. [

The third user interface providing unit 914 provides a third user interface through which the user can select at least one of the one or more self-photographing criteria if there is more than one self-photographing criteria. When the user selects at least one of the one or more self-photographing criteria, the self-photographing-reference determining unit 804 determines whether the photographing orientation satisfies the self-photographing criterion according to the self-photographing criterion selected by the user.

The present invention has been described above with reference to preferred embodiments. It will be understood by those skilled in the art that the present invention may be embodied in various other forms without departing from the spirit or essential characteristics thereof. Therefore, the above-described embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and the inventions claimed by the claims and the inventions equivalent to the claimed invention are to be construed as being included in the present invention.

1 is a diagram showing an exemplary structure of a digital photographing apparatus according to an embodiment of the present invention.

2 is a flowchart illustrating a method of controlling a digital photographing apparatus according to an exemplary embodiment of the present invention.

FIG. 3 is a flowchart illustrating a process of deriving an imaging orientation (S204) in more detail, and FIG. 4 is a diagram for explaining a process of deriving an imaging orientation.

5 is a diagram showing a display unit 192 displaying a target box.

6 is a diagram illustrating an exemplary self-photographing standard.

7 is a flowchart illustrating a self-photographing standard registration process according to another embodiment of the present invention.

8 is a diagram illustrating the structure of a digital signal processor 130a according to an embodiment of the present invention.

9 is a diagram illustrating a structure of a digital signal processor 130b according to another embodiment of the present invention.

Claims (14)

A method of controlling a digital photographing apparatus, Detecting a slope of the digital photographing apparatus; Deriving an imaging orientation of the digital photographing apparatus based on the inclination; Determining whether the photographic orientation meets a self-photographing criterion; And And providing a photographing guide according to whether or not the self-photographing standard is met, Wherein the self-photographing criteria include one or more self-photographing criteria entered by the user, Wherein the digital photographing apparatus control method further comprises the step of providing a user interface by which a user can select at least one of the one or more self-photographing criteria. The method according to claim 1, Wherein the photographing orientation includes at least one of the inclination, the height from the user to the digital photographing apparatus, and the horizontal orientation of the digital photographing apparatus. 3. The method of claim 2, Detecting a face from a live view image; And Further comprising the step of calculating the horizontal orientation based on the position of the detected face. 3. The method of claim 2, The digital photographing apparatus control method further comprises calculating a height from the user to the digital photographing apparatus using the inclination and the arm length information of the user, Wherein the arm length information is a predetermined value or a value input by the user. The method according to claim 1, Upon capturing an image, detecting the imaging orientation; Providing a user interface that allows a user to select whether to register the imaging orientation at the time of image capture with the self-imaging criteria; And Further comprising the step of registering the photographing orientation at the time of capturing an image at the self-photographing reference when the user selects to register the photographing orientation with the self-photographing reference. 6. The method of claim 5, Wherein the photographing orientation includes at least one of the inclination, the height from the user to the digital photographing apparatus, and the horizontal orientation of the digital photographing apparatus, The digital photographing apparatus control method includes: Providing a user interface for the user to enter arm length information; And Further comprising calculating a height from the user to the digital photographing apparatus using the inclination and the arm length information input by the user. delete In the digital photographing apparatus, A tilt detector for detecting a tilt of the digital photographing apparatus; An imaging orientation deriving unit for deriving an imaging orientation of the digital photographing apparatus based on the inclination; A self-photographing standard determination unit for determining whether the photographing orientation satisfies a self-photographing standard; And And a photographing guide providing unit for providing a photographing guide in accordance with whether or not the self-photographing standard is met, Wherein the self-photographing criteria include one or more self-photographing criteria entered by the user, Wherein the digital photographing apparatus further comprises a third user interface providing section for providing a third user interface through which the user can select at least one of the one or more self-photographing criteria. 9. The method of claim 8, Wherein the photographing orientation includes at least one of the inclination, the height from the user to the digital photographing apparatus, and the horizontal orientation of the digital photographing apparatus. 10. The method of claim 9, A face detection unit for detecting a face from a live view image; And And a horizontal orientation calculating section for calculating the horizontal orientation based on the detected face position. 10. The method of claim 9, The digital photographing apparatus further includes a height calculating section for calculating a height from the user to the digital photographing apparatus by using the inclination and the arm length information of the user, Wherein the arm length information is a predetermined value or a value input by the user. 9. The method of claim 8, Wherein the imaging orientation deriving unit derives the imaging orientation at the time of image capturing, The digital photographing apparatus includes: A first user interface providing unit for providing a first user interface for allowing the user to select whether or not to register the photographing orientation at the time of image capturing with the self photographing reference; And Further comprising a self photographing standard registration unit for registering the photographing orientation at the time of image capturing with the self photographing reference when the user selects to register the photographing orientation with the self photographing reference. 13. The method of claim 12, Wherein the photographing orientation includes at least one of the inclination, the height from the user to the digital photographing apparatus, and the horizontal orientation of the digital photographing apparatus, The digital photographing apparatus includes: A second user interface providing unit for providing a second user interface through which a user can input arm length information; And Further comprising a height calculating section for calculating a height from the user to the digital photographing apparatus using the inclination and the arm length information input by the user. delete

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