KR101417812B1 - Apparatus and method for digital picturing image - Google Patents

Abstract

The present invention relates to a digital image processing apparatus and a control method thereof, more particularly, to a digital image processing apparatus capable of setting a reference composition and guiding a composition of an object to be photographed so as to coincide with the set reference composition, And a control method.

The present invention relates to an image processing apparatus, comprising: a detecting unit for detecting a composition of a subject from a live view image; A setting unit for setting a reference composition; A comparison unit comparing the detected object composition with the set reference composition; And a controller for controlling the composition of the subject to match the reference composition, and generating and storing the image file if the subject composition matches the reference composition.

Description

[0001] The present invention relates to a digital image processing apparatus and a control method thereof,

The present invention relates to a digital image processing apparatus and a control method thereof, more particularly, to a digital image processing apparatus capable of setting a reference composition and guiding a composition of an object to be photographed so as to coincide with the set reference composition, And a control method.

Typically, the digital image processing apparatus includes all devices that process images of a digital camera, a PDA (personal digital assistant), a phone camera, a PC camera, or the like, or use motion recognition sensors. Such a digital image processing apparatus receives a desired image through an image pickup device, displays the input image on an image display device, displays the image on an image display device, stores the image as an image file by user's selection, and prints the stored image file.

Among the functions of such a digital image processing apparatus, the self photographing function is a function for performing photographing after a predetermined time from the start of self photographing, and is usually used when the photographer wants to make himself / herself a subject.

FIG. 1 shows an example of self-photographing by a person using a tripod. As shown in FIG. 1 (a), a person installs a tripod for self-photographing and performs self-photographing in a composition as shown in FIG. 1 (b). However, since the individual immediately before self-photographing can not know his / her position and size at all, shooting may fail as shown in Figs. 1 (c) to (e). That is, in such a case, it is inconvenient to perform repeated photographing until it is photographed at a desired position and size.

In order to solve such a problem, a conventional digital image processing apparatus has a reference composition area of a predetermined size at the center of the screen. Then, when the face of the photographer enters the reference composition area, predetermined signals such as beep sound, auxiliary light or voice message are generated, and AF is performed with respect to the detected face area to perform photographing of the character center.

However, such a conventional reference composition region has the following problems.

First, since the position of the conventional reference composition is fixed at the central portion of the screen, the user can not arbitrarily change the composition of the subject, particularly the position of the subject. Particularly, as shown in FIG. 2 (a), when a face of a person is photographed with a vertical grip, it is common to photograph the face so that the face of the person is located at a certain height above the central portion of the screen. However, since the position of the conventional reference composition area is fixed to the center of the screen, the center 11 of the reference composition area 10 and the center 21 of the detected face area 20 do not coincide with each other Therefore, there is a problem that AF can not be performed on the detected face region.

In addition, since the conventional reference reconstructed region is fixed to a fixed size, there is a case where a desired picture can not be photographed even if the center of the reference reconstructed region and the center of the detected face region coincide with each other. 2 (b), the center 31 of the reference composition area 30 and the center 31 of the detected face area 30 coincide with each other, and the size of the reference composition area 30 And the size of the detected face area 30, the user can take a desired photograph. 2 (c), even if the center 41 of the reference composition area 40 and the center 51 of the detected face area 50 coincide with each other, the size of the reference composition area 40 And the size of the detected face area 50 do not coincide with each other, there is a problem that the user can not take a desired photograph.

It is an object of the present invention to provide a digital image processing apparatus and a control method thereof that enable a reference composition to be set and guide a composition of an object to be photographed so as to coincide with the set reference composition.

The present invention relates to an image processing apparatus, comprising: a detecting unit for detecting a composition of a subject from a live view image; A setting unit for setting a reference composition; A comparison unit comparing the detected object composition with the set reference composition; And a controller for controlling the composition of the subject to match the reference composition, and generating and storing the image file if the subject composition matches the reference composition.

In the present invention, the reference composition may be set by a user, and if the composition of the object is not set, the reference composition may be set to a predetermined size at the center of the screen.

In the present invention, the reference composition may be set by a touch screen or a direction key.

In the present invention, when the first shutter-release signal is input, the controller may set the composition of the subject at the time of inputting the first shutter-release signal as a reference composition.

In the present invention, the composition of the subject and the reference composition include position information, the setting unit sets a reference position, and the comparison unit compares the position of the subject with the reference position within a predetermined distance, The position of the subject can be adjusted so that the position of the subject is within a predetermined distance from the reference position.

The control unit controls the flickering speed of the auxiliary light by comparing the position of the subject with the reference position within a predetermined distance and compares the direction of the subject with the reference position to control the color of the auxiliary light can do.

In the present invention, the composition of the subject and the reference composition include size information, the setting unit sets a reference size, and the comparison unit compares the difference between the size of the subject and the reference size within a predetermined range, The control unit may perform a zoom process so that the difference between the size of the subject and the reference size is within a predetermined range.

In the present invention, the controller may control to automatically generate and store an image file after a predetermined time elapses when the subject composition and the reference composition match.

According to another aspect of the present invention, there is provided an image processing method comprising the steps of: (a) detecting a composition of a subject; (b) setting a reference composition; (c) comparing the detected composition of the subject with the reference composition; (d) adjusting a composition of the subject so that the composition of the subject matches the reference composition; And (e) generating and storing an image file.

In the present invention, the reference composition may be set by a user, and if the composition of the object is not set, the reference composition may be set to a predetermined size at the center of the screen.

In the present invention, the step (b) may be performed by a touch screen or a direction key.

In the present invention, the step (b) may include: inputting a first shutter-release signal; And setting a composition of a subject at the time of inputting the first shutter-release signal as a reference composition.

In the present invention, the composition of the subject and the reference composition may include position information.

In the present invention, the step (b) may include a step of setting a reference position.

In the present invention, the step (c) may include a step of comparing the position of the subject and the reference position within a predetermined distance.

In the present invention, the step (d) may include adjusting a position of the subject such that the position of the subject is within a predetermined distance from the reference position.

In the present invention, the composition of the subject and the reference composition may include size information.

In the present invention, the step (b) may include setting a reference size.

In the present invention, the step (c) may include comparing the difference between the size of the subject and the reference size within a predetermined range.

According to an embodiment of the present invention, the step (d) may include zooming the image so that the difference between the size of the subject and the reference size is within a predetermined range.

In the present invention, the step (e) may automatically generate and store an image file after a predetermined time elapses when the step (d) is completed.

According to the present invention as described above, the reference composition can be set, and the composition of the subject to be photographed can be guided so as to coincide with the set reference composition, thereby obtaining the effect of photographing.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view showing the front and top contours of the digital image processing apparatus according to the present invention.

3, the digital image processing apparatus 100 according to the present invention includes a shutter-release button 101, a power button 103, a flash 105, an auxiliary light 107, and a lens unit 109 .

The shutter-release button 101 is opened and closed to expose the CCD or film to light for a predetermined period of time, interlocked with an iris (not shown), and appropriately exposes the subject to record an image on the CCD.

The shutter-release button 101 generates the first and second image pickup signals by the photographer input. When the first shutter-release signal as the half-shutter signal is input, the digital image processing apparatus focuses and adjusts the amount of light. At this time, the display unit 113 is turned on green. When the first shutter-release signal is focused and the amount of light is adjusted, a second shutter-release signal as a full shutter signal is input to capture an image.

The power button 103 is input for supplying power to the digital image processing apparatus and operating it.

The flash 105 illuminates bright light instantly when shooting in a dark place. The flash mode includes automatic flash, forced flash, prohibited flash, red-eye reduction, and slow synchro flash.

The auxiliary light 107 supplies light to the subject so that the digital image processing apparatus can automatically and quickly catch the focus when the light amount is insufficient or at night. In the present invention, the auxiliary light 107 provides the distance and direction inducing information to the user at the time of self photographing. The flashing speed is different according to the distance of the subject and the reference distance, Colors may be displayed differently depending on the right direction. The operation of the auxiliary light 107 will be described in detail below.

The lens unit 109 receives light from an external light source and processes the image.

FIG. 4 is a rear view showing the rear external appearance of the digital image processing apparatus shown in FIG. 2. The digital image processing apparatus 100 according to the present invention includes a wide angle-zoom button 111w, a telephoto-zoom button 111t, Unit 113, a function button 115, and a speaker 117 as an audio signal output unit.

The wide-angle zoom button 111w or the tele-zoom button 111t widens the angle of view or narrows the angle of view depending on the input, in particular, when changing the size of the selected exposure area. When the wide angle-zoom button 111w is input, the size of the selected exposure area is reduced, and when the telephoto-zoom button 111t is input, the size of the selected exposure area is increased.

The function button 115 includes a total of five buttons including an up button, a down button, a left button, a right button, and a menu / OK button. The function buttons 115 are input to execute various menus related to the operation of the digital image processing apparatus, and the respective keys can also be used as shortcut keys.

The speaker 117 outputs a voice signal stored in the camera, for example, a voice signal of a stored moving picture, a stored music file signal, and the like. In the present invention, the speaker 117 outputs an audible warning signal until the subject composition to be photographed by the control signal coincides with the reference composition, and outputs the audible coincidence signal when the subject composition matches the reference composition.

FIG. 5 is a block diagram showing the configuration of the digital image processing apparatus shown in FIG. 3 and FIG. 4, and includes auxiliary light 107, speaker 117, display unit 113, user input unit 121, An image processing unit 125, a storage unit 127, and a digital signal processing unit 129. In the present invention, the digital signal processing unit 129 includes a detection unit 129-1, a setting unit 129-2, a comparison unit 129-3, and a control unit 129-4.

The auxiliary light 107 for supplying light to the subject provides distance and direction guidance information to the user at the time of self photographing. The flashing speed is displayed differently according to the distance of the subject and the reference distance. The auxiliary light 107, The colors are different depending on the left direction and the right direction.

The user input unit 121 includes a shutter-release button 101 that is opened and closed to expose a CCD or a film to light for a predetermined period of time, a power button 103 that inputs power to supply power, A wide angle-zoom button 111w and a telephoto-zoom button 111t for narrowing the angle of view, and various menus for operating the display unit 113 and the digital image processing apparatus for character or menu setting Function button 115 is provided.

The image pickup section 123 includes a shutter, a lens section, a diaphragm, a charge coupled device (CCD), and an analog-to-digital converter (ADC), not shown. The shutter is a mechanism that adjusts the amount of light that is exposed with the iris. The lens unit receives light from an external light source and processes the image. At this time, the diaphragm adjusts the amount (amount of light) of the incident light according to the degree of opening and closing. The opening / closing degree of the diaphragm is controlled by the digital signal processor 129.

The CCD accumulates the amount of light input through the lens unit and outputs the image captured by the lens unit according to the accumulated light amount in accordance with the vertical synchronization signal. Image acquisition of a digital image processing apparatus is performed by a CCD which converts light reflected from a subject into an electrical signal. In order to obtain a color image using a CCD, a color filter is required, and a filter (not shown) called a color filter array (CFA) is employed in most cases. CFA has a regularly arranged structure that passes only light that represents one color per pixel, and it has various forms according to the arrangement structure. The ADC converts the analog video signal output from the CCD into a digital signal.

The image processor 125 processes the image signal converted into an electrical signal so that the image signal can be displayed. To this end, the image processing unit 125 removes the black level generated by the dark current and performs gamma correction to encode the input image signal according to the nonlinearity of human vision. In addition, the image processor 125 performs CFA interpolation for interpolating Bayer patterns embodied with the RGRG line and GBGB line of the gamma-corrected predetermined data into RGB lines, converts the interpolated RGB signals to YUV signals, And performs color correction for correcting the color values of the U and V signals using a standard color coordinate system, and removes noise therefrom. Thereafter, the image processing unit 125 compresses and processes the Y, U, and V signals from which noise has been removed to generate a JPEG file. The generated JPEG file is displayed on the display unit 113 and stored in the storage unit 127 do. All the operations of the image processing unit 125 operate under the control of the digital signal processing unit 129. [

The digital signal processing unit 129 includes a detection unit 129-1 and a setting unit 129. The detection unit 129-1 controls the setting unit 129 to set the reference composition so that the user can set the reference composition as desired, -2), a comparison unit 129-3, and a control unit 129-4.

The detection unit 129-1 detects the composition of the subject from the preview image to be photographed. More specifically, the detection unit 129-1 detects face information as a subject composition, that is, a face position and a face size in the display unit 113, from the preview image displayed on the display unit 113. [

The detection unit 129-1 can detect the face distance and the face direction when detecting the face position. First, the detection unit 129-1 can calculate the face distance by the distance between the central portion of the extracted face and the center portion of the reference composition region at the time of detecting the face distance. That is, the face distance value D = | the center of the reference composition area - the center of the face | Next, when the direction of the face is detected, the detecting unit 129-1 detects that the face distance value calculated in the above is a direction shifted to the right when the positive distance value is positive (+ D) (-D), it can be detected that the direction is the leftward direction. Since there are many contents already known about the face position detection, a detailed description will be omitted.

The detection unit 129-1 detects the face area based on the color or detects the face area based on the edge at the time of detecting the face size, A detailed description thereof will be omitted.

The setting unit 129-2 plays a role of setting a reference composition area from the preview image. That is, the setting unit 129-2 sets the position and size of the subject desired by the photographer. This reference composition area may be set to a predetermined value at the center of the screen as a default value and may be set to a proper value according to the user's preference.

A method of setting the reference composition area by the setting unit 129-2 as described above can be exemplified as follows.

First, if the display unit 113 provides a touch screen function, the user can drag and drop the position of the reference composition area formed at a predetermined size in the center of the display unit 113 using the touch screen drag and drop to move to a desired position, and drag and drop the size of the reference composition area to set the desired size.

The user may also operate the user input unit 121 to set the reference composition area. That is, the function button 115 is operated to move the position of the reference composition area formed at a predetermined size in the center of the display unit 113 to a desired position, and the wide-zoom button 111w and the telephoto-zoom button 111t ) Can be manipulated to set the size of the reference composition area to a desired size.

In addition, the user can set the image of the object in the preview screen to a desired composition and set it as a reference composition.

More specifically, when the user selects the automatic composition mode (mode), the detection unit 129-1 continuously detects the composition of the subject from the preview image. In this state, when the user inputs the first shutter-release signal, the setting section 129-2 sets the composition of the currently detected object, that is, the face position and the face size of the currently detected object as a new reference composition. Referring to FIG. 6, the initial reference composition area 70 is located at the center of the display unit 113 with a predetermined size. In this state, when the user inputs the first shutter-release signal, the setting section 129-2 sets a new reference composition area 80 in the composition of the currently detected object. That is, the center 81 of the new reference composition area is set at the center of the face position of the currently detected subject, and the new reference composition area 80 is set to a size that matches the face size of the currently detected subject. Then, when the face of the photographer enters the new reference composition area 80 in a state where the new reference composition area 80 is set, a predetermined signal such as a beep sound, auxiliary light or voice message is generated, And performs photographing of the person-centered image.

The reference composition area set in this way can be stored in the storage unit 127. The reference composition area stored in the storage unit 127 includes reference face information, that is, the position of the reference face and the size information of the reference face. The reference composition area stored in the storage unit 127 is used as a reference composition for guiding the composition of the face image displayed on the display unit 113 at the time of photography to a desired imaging scheme. As described above, such a reference composition area may be set to a default value, and may be set to an appropriate value according to the preference of the user.

The comparison unit 129-3 compares the current face composition detected by the detection unit 129-1 with the reference composition stored in the storage unit 127 and outputs the result to the control unit 129-4. That is, the comparison unit 129-3 compares the size of the current face detected by the detection unit 129-1 with the size of the reference face stored in the storage unit 127, With the position of the reference face stored in the storage unit 127, and outputs the comparison result to the controller 129-4.

The control unit 129-4 controls the brightness of the auxiliary light 107 or adjusts the display color of the auxiliary light 107 according to the comparison result of the comparison unit 129-3, ) Of the audio output.

The control unit 129-4 receives the face distance comparison result from the comparison unit 129-3 and determines whether the distance of the current face is distant from the reference distance and controls the blinking speed of the auxiliary light 107. [ For example, as the distance of the current face from the reference distance (for example, 1 cm or more) slows down, the flickering speed becomes faster as the distance of the current face approaches the reference distance (for example, 1 cm or less). At this time, the control unit 129-4 can output not only the auxiliary light 107 but also a voice signal for controlling the speaker 117 to induce correction of the current distance of the subject.

The control unit 129-4 receives the face direction comparison result from the comparison unit 129-3 and controls the color of the auxiliary light 107 to be displayed differently when the current face direction is not the reference direction. For example, if the direction of the current face is shifted to the left from the reference direction, the auxiliary light 107 is outputted in red, and if the direction of the current face is shifted to the right side from the reference direction, do. At this time, the control unit 129-4 can output not only the auxiliary light 107 but also a voice signal for controlling the speaker 117 to induce correction of the current direction of the subject.

Here, the controller 129-4 controls both the blink rate of the auxiliary light 107 and the color of the auxiliary light 107 to be simultaneously displayed.

The control unit 129-4 receives the face size comparison result from the comparison unit 129-3 and controls the zooming processing to be performed when the size of the current face is larger than the size of the reference face, Is smaller than the size of the reference face. If the current face size does not fall within the range of the reference face size even if the maximum zoom processing or the minimum zoom processing is performed, the control unit 129-4 controls the auxiliary light 107 or the speaker 117, It may output a signal that induces an action that moves farther or closer.

Then, when the face position and the face size of the current subject coincide with the position and size of the reference composition, the control unit 129-4 controls the speaker 117 to output a voice signal for capturing an image after a predetermined time, The image is taken a predetermined time after the signal is output.

According to the present invention as described above, the reference composition can be set, and the composition of the subject to be photographed can be guided so as to coincide with the set reference composition, thereby obtaining the effect of photographing.

Next, a digital image processing method according to the present invention will be described in detail with reference to FIG. The image processing method according to the present invention can be performed in the image processing apparatus as shown in FIG. 5. According to the embodiment, the main algorithm of the operation method is implemented by the digital signal processing unit 129 ). ≪ / RTI >

Referring to FIG. 7, a method of controlling a digital image processing apparatus according to the present invention includes a step of selecting an automatic composition setting mode (step S110), a step of detecting a composition of a subject (step S120) (S140), comparing the detected subject composition with the reference composition (S140), determining whether the subject composition matches the reference composition (S150), determining whether the composition of the subject (Step S160) and generating and storing the image file (step S170) so that the reference composition matches the reference image.

First, the user selects the automatic composition setting mode (step S110) so that the user can set the reference composition as desired, and the composition of the subject to be photographed is guided to match the set reference composition and can be photographed.

Next, the composition of the subject is detected from the preview image to be photographed (step S120). More specifically, the detection unit 129-1 detects face information as a subject composition, that is, a face position and a face size in the display unit 113, from the preview image displayed on the display unit 113. [

The detection unit 129-1 can detect the face distance and the face direction when detecting the face position. First, the detection unit 129-1 can calculate the face distance by the distance between the central portion of the extracted face and the center portion of the reference composition region at the time of detecting the face distance. That is, the face distance value D = | the center of the reference composition area - the center of the face | Next, when the direction of the face is detected, the detecting unit 129-1 detects that the face distance value calculated in the above is a direction shifted to the right when the positive distance value is positive (+ D) (-D), it can be detected that the direction is the leftward direction. When the face size is detected, the detection unit 129-1 can detect the face size by detecting the face region based on the color or detecting the face region based on the edge. The details of the face detection are well known in the art, and a detailed description thereof will be omitted here.

Next, a reference composition is set from the preview image (step S130). That is, the setting unit 129-2 sets the position and size of the subject desired by the photographer. This reference composition area may be set to a predetermined value at the center of the screen as a default value and may be set to a proper value according to the user's preference.

The method of setting the reference composition area as described above can be exemplified as follows.

First, if the display unit 113 provides a touch screen function, the user can drag and drop the position of the reference composition area formed at a predetermined size in the center of the display unit 113 using the touch screen drag and drop to move to a desired position, and drag and drop the size of the reference composition area to set the desired size.

The user may also operate the user input unit 121 to set the reference composition area. That is, the function button 115 is operated to move the position of the reference composition area formed at a predetermined size in the center of the display unit 113 to a desired position, and the wide-zoom button 111w and the telephoto-zoom button 111t ) Can be manipulated to set the size of the reference composition area to a desired size.

In addition, the user can set the image of the object in the preview screen to a desired composition and set it as a reference composition. More specifically, when the user selects the automatic composition mode (mode), the detection unit 129-1 continuously detects the composition of the subject from the preview image. In this state, when the user inputs the first shutter-release signal, the setting section 129-2 sets the composition of the currently detected object, that is, the face position of the detected subject upon detection of the first shutter-release signal input, As a new reference composition.

Next, the detected subject composition is compared with the reference composition (step S140). In detail, the comparison unit 129-3 compares the current face composition detected by the detection unit 129-1 with the reference composition stored in the storage unit 127, and outputs the result to the control unit 129-4. That is, the comparison unit 129-3 compares the size of the current face detected by the detection unit 129-1 with the size of the reference face stored in the storage unit 127, With the position of the reference face stored in the storage unit 127, and outputs the comparison result to the controller 129-4.

Next, it is determined whether or not the composition of the subject matches the reference composition (S150). If the composition of the subject does not match the reference composition, The composition of the subject is adjusted (step S160).

In detail, the control unit 129-4 performs zoom processing, adjusts the blinking speed of the auxiliary light 107, adjusts the display color of the auxiliary light 107, And controls the audio output of the audio decoder 117.

The control unit 129-4 receives the face distance comparison result from the comparison unit 129-3 and determines whether the distance of the current face is distant from the reference distance and controls the blinking speed of the auxiliary light 107. [ For example, as the distance of the current face from the reference distance (for example, 1 cm or more) slows down, the flickering speed becomes faster as the distance of the current face approaches the reference distance (for example, 1 cm or less). At this time, the control unit 129-4 can output not only the auxiliary light 107 but also a voice signal for controlling the speaker 117 to induce correction of the current distance of the subject.

The control unit 129-4 receives the face direction comparison result from the comparison unit 129-3 and controls the color of the auxiliary light 107 to be displayed differently when the current face direction is not the reference direction. For example, if the direction of the current face is shifted to the left from the reference direction, the auxiliary light 107 is outputted in red, and if the direction of the current face is shifted to the right side from the reference direction, do. At this time, the control unit 129-4 can output not only the auxiliary light 107 but also a voice signal for controlling the speaker 117 to induce correction of the current direction of the subject.

Here, the controller 129-4 controls both the blink rate of the auxiliary light 107 and the color of the auxiliary light 107 to be simultaneously displayed.

The control unit 129-4 receives the face size comparison result from the comparison unit 129-3 and controls the zooming processing to be performed when the size of the current face is larger than the size of the reference face, Is smaller than the size of the reference face. If the current face size does not fall within the range of the reference face size even if the maximum zoom processing or the minimum zoom processing is performed, the control unit 129-4 controls the auxiliary light 107 or the speaker 117, It may output a signal that induces an action that moves farther or closer.

Finally, the digital signal processing unit 129 controls the image processing unit 125 to generate a JPEG image file, and displays the JPEG image file on the display unit 113 and stores the JPEG image file in the storage unit 127 (step S170) do. In detail, when the face position and the face size of the current subject coincide with the reference face position and size, the control unit 129-4 controls the speaker 117 to output a voice signal for capturing an image after a predetermined time, The image is taken a predetermined time after the output.

According to the present invention as described above, the reference composition can be set, and the composition of the subject to be photographed can be guided so as to coincide with the set reference composition, thereby obtaining the effect of photographing.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed 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 all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1 and 2 are views showing a self-photographing in a conventional digital image processing apparatus.

Fig. 3 is a perspective view showing the front and upper contours of the digital camera as an example of the digital image processing apparatus according to the present invention.

FIG. 4 is a rear view showing the rear external appearance of the digital image processing apparatus shown in FIG. 3. FIG.

FIG. 5 is a block diagram showing a configuration of the image photographing apparatus shown in FIG. 3 and FIG.

FIG. 6 is a diagram showing a state in which a reference composition area is set in the digital image photographing apparatus shown in FIG.

7 is a flowchart showing a control method of the digital image processing apparatus according to the present invention.

Description of the Related Art

100: digital image processing apparatus 121: user input unit

123: image pickup unit 125: image processing unit

127: storage unit 129: digital signal processor

129-1: Detecting unit 129-2: Setting unit

129-3: comparator 129-4:

Claims (21)

A detection unit for detecting a composition of a subject from a live view image; A setting unit for setting a reference composition; A comparison unit comparing the detected object composition with the set reference composition; And And a controller for controlling the composition of the subject to match the reference composition and generating and storing the image file if the composition of the subject matches the reference composition, Wherein the controller sets the composition of the subject when the first shutter-release signal is input to the reference composition when the first shutter-release signal is input. The method according to claim 1, Wherein the reference composition is set by a user and is set to a predetermined size in the center of the screen when the object composition is not set. The method according to claim 1, Wherein the reference composition is set by a touch screen or a direction key. delete The method according to claim 1, Wherein the composition of the subject and the reference composition include position information, The setting unit sets a reference position, Wherein the comparing unit compares the position of the subject with the reference position within a predetermined distance, Wherein the control unit adjusts the position of the subject so that the position of the subject is within a predetermined distance from the reference position. 6. The method of claim 5, Wherein, The blinking speed of the auxiliary light is controlled by comparing the position of the subject with the reference position within a predetermined distance, Wherein the color of the auxiliary light is controlled by comparing the position of the subject with the reference position. The method according to claim 1, Wherein the composition of the subject and the reference composition include size information, The setting unit sets a reference size, Wherein the comparison unit compares the difference between the size of the subject and the reference size within a predetermined range, Wherein the control unit performs zoom processing so that the difference between the size of the subject and the reference size is within a predetermined range. The method according to claim 1, Wherein the control unit controls to automatically generate and store an image file after a predetermined time elapses when the subject composition and the reference composition coincide with each other. (a) detecting a composition of a subject; (b) setting a reference composition; (c) comparing the detected composition of the subject with the reference composition; (d) adjusting a composition of the subject so that the composition of the subject matches the reference composition; And (e) generating and storing an image file, The step (b) A first shutter-release signal is input; And And setting a composition of a subject at the time of inputting the first shutter-release signal as a reference composition. 10. The method of claim 9, Wherein the reference composition is set by a user and is set to a predetermined size in the center of the screen when the object composition is not set. 10. The method of claim 9, The step (b) Wherein the control unit is performed by a touch screen or a direction key. delete 10. The method of claim 9, Wherein the composition of the subject and the reference composition include position information. 14. The method of claim 13, The step (b) And setting a reference position. 15. The method of claim 14, The step (c) And comparing the position of the subject with the reference position within a predetermined distance. 15. The method of claim 14, The step (d) And adjusting the position of the subject so that the position of the subject is within a predetermined distance from the reference position. 10. The method of claim 9, Wherein the composition of the subject and the reference composition include size information. 18. The method of claim 17, The step (b) And setting a reference size. 19. The method of claim 18, The step (c) And comparing the difference between the size of the subject and the reference size within a predetermined range. 19. The method of claim 18, The step (d) And zooming the image so that the difference between the size of the subject and the reference size is within a predetermined range. 10. The method of claim 9, Wherein the step (e) automatically generates and stores an image file after a predetermined time elapses after the step (d) is completed.

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