KR101510105B1 - Digital photographing apparatus - Google Patents

Abstract

According to the present invention, there is provided a digital image pickup apparatus having a display unit, comprising: a plurality of lens modules; a control unit for controlling zoom magnifications of the lens modules and displaying images input through the lens modules on the display unit; The present invention also provides a digital image photographing apparatus.

Description

[0001] Digital photographing apparatus [0002]

The present invention relates to a digital image photographing apparatus, and more particularly, to a digital image photographing apparatus capable of simultaneously displaying a telephoto image and a wide-angle image.

Generally, a digital image photographing 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 and use an image recognition sensor.

Generally, a digital image photographing apparatus has a zoom function. The user can shoot a telephoto image or a wide angle image by adjusting the zoom magnification. In other words, when the zoom magnification is increased, the telephoto image can be photographed. When the zoom magnification is decreased, the wide angle image can be photographed.

However, in the case of a wide-angle image, the zoom ratio is small, so that the face recognition rate of the subject is degraded. In the case of the telephoto image, the zoom magnification is large.

SUMMARY OF THE INVENTION It is a primary object of the present invention to provide a digital image photographing apparatus capable of easily recognizing a photographing mode in a telephoto image and easily performing face recognition in a wide angle image.

A digital image photographing apparatus according to an embodiment of the present invention is a digital image photographing apparatus having a display unit. The apparatus includes a plurality of lens modules, a zoom magnification control unit for controlling zoom magnifications of the lens modules, And a control unit for controlling the display unit to display the image.

In the present invention, the plurality of lens modules may include one main lens module and one or more sub lens modules, and the controller may control the zoom lens so that the zoom operation of the main lens module and the zoom operation of the sub- And a video controller for controlling the display unit to display a main image input through the main lens module and a sub image input through the sub lens module.

In the present invention, the zoom control unit may decrease the zoom magnification of the sub lens module while reducing the zoom magnification of the main lens module while increasing the zoom magnification of the main lens module, .

In the present invention, the image controller may extract face recognition data of the telephoto image when the main image is a wide-angle image and the sub-image is a telephoto image, Can be performed.

In the present invention, if the main image is a telephoto image and the sub-image is a wide-angle image, the image control unit extracts mode recognition data of the wide-angle image, and based on the mode recognition data, Can be set.

In the present invention, the plurality of lens modules may include a main lens module, a first sub lens module, and a second sub lens module, and the control unit may include main image data obtained from the main lens module, Dimensional image from the first sub-image data obtained from the lens module and the second sub-image data obtained from the second sub-lens module.

In the present invention, the plurality of lens modules may include a main lens module, a first sub lens module, and a second sub lens module, and the control unit may include main image data obtained from the main lens module, The distance from the first sub-image data obtained from the lens module to the second sub-image data obtained from the second sub-lens module can be measured.

In the present invention, the lens module may include a zoom lens unit having a plurality of lenses, and a zoom driving unit for providing a driving force to vary the position of the zoom lenses.

In the present invention, the lens module may include a zoom lens unit having a plurality of lenses, and a zoom driving unit for providing a driving force to vary the position of the zoom lenses.

In the present invention, it is possible to further include one imaging element in which light input through the plurality of lens modules is imaged.

In the present invention, images input through the plurality of lens modules may be displayed on the display unit.

According to the digital image photographing apparatus of the present invention as described above, face recognition can be performed on a wide-angle image using the face recognition data of the telephoto image, or the photographing mode recognition data of the wide- Recognition can be performed.

Hereinafter, the present invention will be described in detail with reference to embodiments of the present invention shown in the accompanying drawings. But. The present invention may be modified in various other forms, and the scope of the present invention is not limited to the following embodiments. The embodiments of the present invention are provided to enable those skilled in the art to more fully understand the present invention. Accordingly, the shapes and sizes of the elements in the drawings may be exaggerated for clarity of description, and the elements denoted by the same reference numerals in the drawings are the same elements.

1 is a block diagram showing a configuration of a digital image photographing apparatus 100 according to an embodiment of the present invention. The digital image pickup apparatus shown in FIG. 1 may include various types of digital type image pickup apparatuses such as a digital still camera and a digital camcorder.

1, the digital image capturing apparatus 100 includes lens modules 10a and 10b, an image capturing device 20, a display unit 30, a control unit 40, an operation unit 50, and a memory 60 Respectively.

The lens modules 10a and 10b are composed of a main lens module 10a and a sub lens module 10b. One sub lens module 10b is shown in FIG. 1, but the present invention is not limited thereto, A plurality of sub lens modules 10b may be provided.

Each of the main lens module 10a and the sub lens module 10b includes zoom lens units 11a and 11b and zoom driving units 13a and 13b.

The zoom lens units 11a and 11b include a plurality of lenses 12a and 12b and function to image an external image light on an image pickup surface of the image pickup device 20. [ The lenses 12a and 12b are arranged so that the intervals therebetween are variable. When the distance between the lenses 12a and 12b is changed, the enlargement magnification by the zoom lens units 11a and 11b is changed.

The lenses 12a and 12b are driven by the zoom driving units 13a and 13b having driving means such as a zoom motor so that their positions relative to each other can be varied. The zoom driving units 13a and 13b are operated by receiving a control signal from the zoom control unit 42 of the control unit 40. [ Therefore, the zoom driving units 13a and 13b can drive the zoom lens units 11a and 11b such that the zoom lens units 11a and 11b have any one of a plurality of magnifications. The zoom control section 42 controls the zoom magnification of the main lens module 10a and the zoom magnification of the sub lens module 10b to operate in opposite directions. This will be described later.

The image pickup device 20 includes a photoelectric conversion element such as a charge coupled device (CCD) or a complementary metal-oxide-semiconductor (CMOS) And converts the light into an electrical signal. The process of converting the image light into the electrical signal may be performed by a detailed step such as a step of first converting to an analog signal and a step of converting an analog signal into a digital signal. One image pickup element 20 captures light input to the main lens module 10a and light input to the sub lens module 10b and outputs main image data from the light input to the main lens module 10a, And sub-image data is generated from light input to the sub lens module 10b.

The display unit 30 performs a function of displaying an image captured by the image pickup device 20. A display device such as a liquid crystal display (LCD) or an organic electroluminescent device (OLED) may be used for the display portion 30. [ The display unit 30 displays both the main image input by the main lens module 10a and the sub image input by the sub lens module 10b. 2 shows an image displayed on the display unit 30 in a preview state. 2, the main image 61 is displayed on the display unit 30 as a whole, and the sub image 62 is displayed on the display unit 30 in a smaller size than the main image 61. [

The control unit 40 is electrically connected to the image pickup device 20, the display unit 30, the operation unit 50, and the memory 60, and controls these components and the control signals Send and receive data, and process data. The control unit 40 includes an image processing unit 41, a zoom control unit 42, a video control unit 43, an operation control unit 44, a memory control unit 45, and the like. The control unit 40 may be implemented by a circuit board including a microchip or a microchip and each component included in the control unit 40 may be implemented by software or circuits built in the control unit 40 .

The image processing section 41 processes the digital signal so as to be displayable. The image processing unit 41 performs gamma correction to encode information in accordance with the nonlinearity of human vision, and performs CFA interpolation for interpolating Bayer patterns embodied with RGA and GGB lines of gamma-corrected predetermined data into RGB lines. Further, the image processing unit 41 converts the interpolated RGB signals into YUV signals, removes these noises, and compresses and processes the Y, U, and V signals from which noises have been removed to generate JPEG files.

The zoom controller 42 controls the zoom operation of the main lens module 10a and the zoom operation of the sub lens module 10b to operate in opposite directions. In detail, the zoom control unit 42 reduces the zoom magnification of the sub lens module 10b while reducing the zoom magnification of the main lens module 10a while increasing the zoom magnification of the main lens module 10a, So as to increase the zoom magnification of the module 10b. When the main lens module 10a has a low magnification, the sub lens module 10b has a high magnification. When the main lens module 10a has a high magnification, the zoom lens controller 10b has a low magnification. And controls the zoom magnifications of the main lens module 10a and the sub lens module 10b.

The image control unit 43 controls the display unit 30 to display both the main image and the sub image. The main image is an image input by the main lens module 10a, and the sub image is an image input by the sub lens module 10b. The image control unit 43 controls both the main image and the sub image to be displayed on the display unit 30 in the preview state. 2 and 3, the main images 61 and 63 may be displayed on the entire display unit 30, and the sub images 62 and 64 may be displayed on the display unit 60 smaller than the main images 61 and 63. [ (30).

Since the zoom magnifications of the main lens module 10a and the sub lens module 10b are opposite to each other by the zoom controller 42, when the main lens module 10a has a low magnification and the sub lens module 10b has a high magnification 3, when the main image 61 is a wide angle image and the sub image 62 is a telephoto image, the main lens module 10a has a high magnification and the sub lens module 10b is low, The image 63 is a telephoto image and the sub image 64 is a wide angle image. The image controller 43 controls the display unit 30 to display both the main image and the sub image so that the user can simultaneously check the wide angle image and the sub image.

The image control unit 43 extracts the face recognition data of the telephoto image when the main image 61 is the wide angle image and the sub image 62 is the telephoto image, . In the case of a wide-angle image, face recognition, blink recognition, and smile recognition are difficult. In the case of a telephoto image, however, face recognition, blink recognition, smile recognition, Extracts face recognition data, blink recognition data, smile recognition data, and the like from the data, and performs face recognition, blink recognition, and smile recognition in the main image 61, which is a wide-angle image, using the extracted data.

When the main image 63 is the telephoto image and the sub image 64 is the wide angle image, the image control unit 43 extracts the shooting mode recognition data of the wide angle image, and based on the mode recognition data, You can set the shooting mode. The shooting mode recognition recognizes whether the input image is a portrait image or a landscape image. The image control unit 43 can automatically adjust imaging parameters such as exposure, sensitivity, and white balance of the digital image photographing apparatus so as to obtain an appropriate result for the recognized image. In the case of telephoto images, face recognition is easy, but it is difficult to recognize the shooting mode. However, in the case of a wide-angle image, it is easy to recognize the shooting mode. The image control unit 43 of the present invention recognizes the shooting mode on the sub image 64, which is a wide angle image, and acquires shooting parameters such as exposure, sensitivity, and white balance suitable for the recognized image, To the main image 63, which is the main image.

A digital image photographing apparatus according to another embodiment of the present invention may include one main lens module and two sub lens modules. The main lens module may be disposed between the first sub lens module and the second sub lens module, and the distance between the first and second sub lens modules may be the same in the main lens module.

In the above embodiment, the control unit may be configured to select, from the main image data acquired from the main lens module, the first sub image data acquired from the first sub lens module, and the second sub image data acquired from the second sub lens module It is possible to generate a three-dimensional image of the subject, or to measure the distance to the subject.

It is intended that the present invention not be limited by the foregoing embodiments and the accompanying drawings, but rather by the appended claims, and that various changes, substitutions, and alterations can be made hereto without departing from the spirit of the invention as defined in the appended claims. It will be apparent to those skilled in the art that changes may be made.

1 is a block diagram schematically showing a configuration of a digital image photographing apparatus according to an embodiment of the present invention.

2 and 3 show the main image and the sub image displayed on the display unit.

Description of the Related Art

100: digital image photographing apparatus 10a: main lens module

10b: Sub lens module 20: Image pickup element

30: display unit 40: control unit

50: Operation section 60: Memory

Claims (11)

A digital image photographing apparatus having a display unit, A plurality of lens modules including a main lens module and at least one sub lens module; And And a control unit controlling the zoom magnification of the lens modules and controlling the display unit to display images input through the lens modules, The control unit acquires an image to be stored in a live view image or an image file from the main image data input through the main lens module, and acquires, from the sub image data input through at least one sub lens module other than the main lens module, And an image control section for acquiring information on the image pickup parameter or the image pickup mode or the image pickup mode. The apparatus of claim 1, And a zoom control unit for controlling the zooming operation of the main lens module and the zooming operation of the sub lens module to operate in opposite directions to each other. 3. The method of claim 2, Wherein the zoom control unit controls the zoom lens unit so as to increase the zoom magnification of the sub lens module while reducing the zoom magnification of the sub lens module while increasing the zoom magnification of the main lens module, A digital image pickup device. The method according to claim 1, Wherein the image control unit extracts face recognition data of the telephoto image when the main image is a wide angle image and the sub image is a telephoto image, Shooting device. The method according to claim 1, The image control unit extracts shooting mode recognition data of the wide angle image when the main image is a telephoto image and the sub image is a wide angle image and sets a shooting mode of the main image based on the shooting mode recognition data Digital image capture device. delete delete delete The method according to claim 1, Wherein the lens module includes a zoom lens unit having a plurality of lenses and a zoom driving unit for providing a driving force to vary the position of the zoom lenses. The method according to claim 1, Further comprising one imaging element in which light input through the plurality of lens modules is imaged. The method according to claim 1, Wherein images input through the plurality of lens modules are displayed on the display unit.

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