JP2003087645A - Digital camera - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily obtain a natural and beautiful night-scene image by a digital camera which has a night-scene photographic mode. SOLUTION: The digital camera which can be set to the night-scene photographic mode comprises a 1st image storage part 2a which stores a 1st image picked up by performing release operation in the night-scene mode and emitting stroboscopic light, a 2nd image storage part 2b which stores a 2nd image picked up without the stroboscopic light irradiation, a principal subject area extraction part 3a which generates a principal subject area image from the 1st image, an image processing part 3b which paints out the principal subject area of the 2nd image in black according to the principal subject area image, and an image composition part 3c which generates a composite image obtained by adding the 1st image and the image processed by the image processing part 3b together, pixel by pixel.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital camera having a "night view shooting mode" in which a subject is flash-shot with a night view as a background.

[0002]

2. Description of the Related Art Conventionally, it is very difficult to obtain a photograph in which the brightness of a person and a night view is well balanced when a person such as a main subject is photographed by flash using a digital camera against a background of the night view. .

Japanese Patent Application Laid-Open No. 11-298908 discloses a digital camera capable of obtaining an image in which the background and the main subject are properly balanced in photographing a subject against the night view.

The digital camera disclosed in this publication discloses a first image captured by flash emission (a proper image for a person and a dark night scene) and a second image captured without flash emission ( Images in which the background and the main subject are in proper balance can be obtained by continuously acquiring images in which the person is dark but the night view is beautiful, and a composite image is created by superimposing the first image and the second image. I will get it.

[0005]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
The digital camera disclosed in Japanese Patent No. 8908 can obtain a composite image in which a background and a main subject are well-balanced by performing an image composition process of an image captured by flash emission and an image captured without flash emission. . However, an image taken without flash emission can be beautifully photographed in the background night scene, but the person who is the main subject becomes an image with low lightness, does not get crushed black, and the relatively bright part of the person It is still visible.

When a clear image of a main subject image taken by flash emission is superimposed on an image of a main subject having a low brightness and a beautiful background photographed without flash emission, the low brightness taken without flash emission Depending on the image of the main subject, the main subject may become dull or a noisy image may be caused by affecting the clear main subject that was shot with the flash.

[0007] The image taken without flash emission,
Nothing is taken into consideration in the above-described publicly known examples that the main subject becomes dull when the images shot by flash light are superposed and combined, and the image becomes a noisy image.

It is an object of the present invention to provide a digital camera having a "night view shooting mode", in which a natural and beautiful night view shot image can be obtained.

[0009]

SUMMARY OF THE INVENTION A digital camera of the present invention is a digital camera capable of setting a night view mode suitable for night view shooting, and when a release operation is performed in the state where the night view mode is set, a flash light is emitted. Image acquisition means for acquiring a first image captured by irradiating the object and a second image captured without irradiation, and a main subject area is determined from the first image, and a main subject area image is generated. A main subject area extraction means, a processing means for filling the main subject area of the second image with black based on the main subject area image, a first image and an image processed by the processing means. And an image synthesizing unit for generating a synthetic image that is added for each pixel.

Further, the digital camera of the present invention is a digital camera capable of setting a night view mode suitable for shooting a night view, and emits strobe light when a release operation is performed in the state where the night view mode is set. First imaged
And a means for acquiring a second image captured without irradiation, and a main subject area is discriminated from the first image, and pixel data of the main subject area of the second image is determined accordingly. It is characterized by comprising means for substituting a predetermined value and image synthesizing means for generating a synthesized image in which the first image and the processed image are superimposed.

Furthermore, the digital camera of the present invention is
In a digital camera having a night-view shooting mode, in the night-view mode, a first image captured by irradiating strobe light, an image acquisition unit that acquires a second image captured without irradiation, and the first image Based on the above, processing means for replacing a part of the pixel data of the second image with a predetermined value, and image synthesizing means for generating a synthesized image using the first image and the image processed by the processing means. And are provided.

With the digital camera of the present invention, it is possible to obtain a beautiful night view image in which the main subject and the background are natural when the image is taken in the night view shooting mode.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an embodiment of a digital camera according to the present invention, FIG. 2 is a flowchart for explaining the operation of the digital camera according to the present invention in a night view shooting mode, and FIG. 3 is a digital diagram according to the present invention. It is explanatory drawing explaining the picked-up image and the synthetic | combination image in night view photography mode of a camera.

First, the structure of the digital camera according to the present invention will be described with reference to FIG. Reference numeral 1 in the figure denotes a sequence control circuit including a microprocessor, which has various sequences for driving and controlling various signal processing circuits of the digital camera.

The sequence control circuit 1 includes a 1R switch 14 which is turned on when a release button (not shown) is half-pressed, a 2R switch 15 which is turned on when the release button is deeply pressed, and a night view mode. A mode switch 16 for selecting and setting a predetermined shooting mode from a plurality of shooting modes is connected.

When the 1R switch 14 is turned on, the sequence control circuit 1 drives the control sequence associated with the 1R switch 14 built in the sequence control circuit 1, and when the 2R switch 15 is turned on, the sequence is executed. The control sequence related to the 2R switch 15 incorporated in the control circuit 1 is driven, and further the control sequence related to the mode selected by the mode switch 16 is driven.

The sequence control circuit 1 includes a photometric circuit 12 for detecting the brightness of an object by a known technique and a distance measuring circuit 13 for detecting the distance to the object by a known technique.
And are connected.

Based on the subject brightness value detected by the photometric circuit 12, an electronic shutter control sequence and a strobe control sequence built in the sequence control circuit 1 are used to control the electronic shutter drive of the image pickup device 5 and the strobe described later. The drive control of the control circuit 11 is performed.

Based on the object distance value detected by the distance measuring circuit 13, the focus adjustment of the image pickup lens 4 which will be described later is performed by the photographing lens focus adjustment control sequence built in the sequence control circuit 1.

The strobe control circuit 11 performs an operation of accumulating light emitting charges and a light emission drive control operation of the light emitting section 10 according to the drive control from the sequence control circuit 1.

The amount of strobe light emitted from the light emitting section 10 is calculated by the sequence control circuit 1 based on the detection result of the distance measuring circuit 14 and the like.

The image pickup lens 4 forms an object image on the image pickup surface of the image pickup element 5, and the image pickup lens 4 is provided.
On the basis of the distance measurement result of the distance measurement circuit 13, the focus adjustment is performed via the lens drive circuit 9 based on the control signal generated by the sequence control circuit 1.

The image pickup device 5 is a CMOS imager for photoelectrically converting an object image formed on the image pickup surface, a charge coupled device (CCD), or the like.

The image pickup device 5 generates a photoelectrically converted analog image signal based on the control signal from the sequence control circuit 1 when the release button is deeply pressed and the 2R switch 15 is turned on. The image pickup operation is executed.

The analog image signal generated by the image pickup device 5 is converted into digital image data by the signal processing circuit 6. The signal processing circuit 6 is drive-controlled by the sequence control circuit 1.

The digital image data converted and generated by the signal processing circuit 6 is output to and stored in the image storage circuit 2.

The image storage circuit 2 includes a first image storage section 2a, a second image storage section 2b, and a third image storage section 2.
The sequence control circuit 1 controls the driving of the sequence control circuit 1 to store the digital image data generated by the signal processing circuit 6 and to read the stored digital image data.

The first image storage unit 2a stores digital image data of one image captured by the image sensor 5 by strobe emission from the light emitting unit 10 when the mode switch 16 is set to the night view mode. Is composed of a DRAM having a capacity for temporarily storing.

The second image storage section 2b is used for the light emitting section 1 when the night mode is set by the mode switch 16.
It is composed of a DRAM having a capacity for temporarily storing digital image data for one image captured by the image sensor 5 without causing flash light emission from 0.

The third image storage section 2c stores the image data after the image combination when the night view mode is selected by the mode switch 16, or the photographing mode other than the night view mode by the mode switch 16. Is selected and configured as a non-volatile memory that stores the digital image data output from the signal processing circuit 6 that has been photographed. The third image storage unit 2c stores digital image data in the order of shooting by the image sensor 5 and is detachable from the camera body.

An image processing circuit 3 whose drive is controlled by the sequence control circuit 1 is connected to the output of the image storage unit 2. The image processing circuit 3 includes a main subject area extraction unit 3a for extracting a main subject area from the digital image data stored in the first image storage unit 2a of the image storage circuit 2, and the main subject area extraction unit 3a. An image processing unit 3b that performs image processing using the extracted main subject area and digital image data stored in the second image storage unit 2b, digital image data processed by the image processing unit 3b, and the above The image synthesizing unit 3c synthesizes the digital image data stored in the first image storage unit 2a. The image processing circuit 3 creates an image, which will be described later, in which a person and a night view are well balanced and stores the image in the third image storage section 2c.

The third image storage unit 2c of the image storage unit 2
A monitor 8 is connected to the display control circuit 7 which is driven and controlled by the sequence control circuit 1. The display control circuit 7 reads digital image data from the third image storage unit 2c, and generates a display signal for displaying a captured image on the monitor 8 based on the read digital image data.

The monitor 8 is composed of a liquid crystal display element and displays a photographed subject image.

In the digital camera having such a configuration, the mode switch 16 is set to the night view mode,
The night view mode control sequence of the sequence control circuit 1 when shooting a main subject with a night view in the background will be described with reference to FIGS. 2 and 3.

When the mode switch 16 is set to the night view mode, in step S1, the sequence control circuit 1
When the relays button is pressed halfway, the 1R switch 1
It is determined whether 4 is turned on. When it is determined that the 1R switch 14 is off, the process proceeds to step S17, and 1
If it is determined that the R switch 14 is on, step S
2, the sequence control circuit 1 uses the photometric circuit 12
Drive to detect the subject brightness by photometry.

When the brightness value detected by photometry in step S2 is fetched by the sequence control circuit 1, the sequence control circuit 1 drives the distance measuring circuit 13 to determine the distance to the object in step S3. Distance measurement is detected. Based on the detected distance measurement value, the sequence control circuit 1 drives the lens drive circuit 9 to adjust the focus of the taking lens 4. The lens drive circuit 9 has a position detection encoder for the photographing lens 4, and the position detection encoder allows the photographing lens 4 to be detected.
The focus position of is confirmed.

When the distance measurement in step S3 is completed, the sequence control circuit 1 determines in step S4 whether the 2R switch 15 is turned on by deeply pressing the release button. When it is determined that the 2R switch 15 is off, the sequence control circuit 1 is operated at step S5.
Determines again whether the 1R switch 14 is on,
When it is determined that the 1R switch 14 is off, the process proceeds to step S17, and when it is determined that the 1R switch 14 is on, the process returns to step S4.

If it is determined in step S4 that the 2R switch 15 is on, the process proceeds to step S6,
The sequence control circuit 1 is the strobe control circuit 1
The light emitting unit 10 is driven to emit light through 1 to project stroboscopic light on a subject, and at the same time, the image pickup device 5 and the signal processing circuit 6 are driven to generate a digital image of a subject image when the stroboscopic light is projected. Flash emission imaging is performed to generate data.

The amount of flash emitted from the light emitting unit 9 at the time of the flash emission imaging in step S6 is the subject distance obtained in step S3 and a fixed diaphragm (not shown) provided in the imaging lens 4. And the open value of As shown in FIG. 3A, an image of a subject captured by this flash emission imaging is bright for the person who is the main subject, but not dark for the background night scene.

When the flash emission imaging in step S6 is completed, the sequence control circuit 1 proceeds to step S6.
In step 7, the digital image data obtained by the flash emission imaging obtained in step S6 is stored in the first image storage unit 2a as a first image.

Next, in step S8, the sequence control circuit 1 drives the image pickup device 5 and the signal processing circuit 6 without driving the strobe control circuit 11 to generate a subject image to which strobe light is not projected. Imaging is performed without flash generation that generates digital image data.

The image pickup time (electronic shutter time) of the image pickup device 5 at the time of image pickup without flash emission in step S8 is based on the subject brightness value information obtained by the photometry circuit 12 and is lower than the proper exposure value. Set to a value that will result in underexposure of about 2 EV. As shown in FIG. 3B, the subject image captured by the image capturing without the flash emission is dark in which the person who is the main subject is dark, but the night scene which is the background is beautiful.

When the sequence control circuit 1 completes the image pickup without emitting the flash light in step S8, in step S9, the digital image data obtained in step S8 is stored in the second image storage section 2b as a second image. Memorize as.

Next, in step S10, the sequence control circuit 1 reads the first image stored in the first image storage section 2a in step S7 and drives the main subject area extraction section 3a. , Main subject area extraction processing is performed.

In the process of extracting the main subject area, the person who is the main subject is bright but the background is dark because the first image is photographed by stroboscopic light emission. That is,
The first image is composed of a high-luminance portion and a low-luminance portion around the high-luminance portion, and it can be determined that the region of the low-luminance portion is the background. Based on this idea, the main subject and the background are separated from the first image.

By separating the main subject and the background, as shown in FIG. 3C, an image in which the region of the main subject portion (person) is filled with white and the region of the background portion is filled with black (hereinafter referred to as the main subject region). Image).

When the main subject area extraction in step S10 is completed, in step S11, the sequence control circuit 1 reads the second image stored in the second image storage section 2b and performs the image processing. The part 3b is driven to perform image processing based on the main subject area image. The night view, which is the background of the second image captured without the strobe light emission, is beautifully captured, but the person who is the main subject is dark. However, even though the person as the main subject is dark, there is a certain amount of difference in brightness from the background, so that it becomes noise when the images are combined, which will be described later.
Therefore, in the image processing unit 3b, the second image is subjected to a process of uniformly blackening the portion corresponding to the person region as the main subject based on the main subject region image. That is, the person area, which is the main subject of the second image, is painted black, and the background area generates a processed image of the second image in which the image quality of the second image is maintained.

Here, for the sake of convenience, black and white are filled, but in actual processing, when the values of the red (R) component, green (G) component, and blue (B) component of the digital image data are white, 255, and 0 for black. Alternatively, any other predetermined value may be used.

When the image processing of the second image in step S11 is completed, the sequence control circuit 1 drives and controls the image synthesizing section 3c in step S12 and is stored in the first image storage section 2a. The first image and the second image processed by the image processing unit 3b in step S11.
Combine the processed images. The image composition in the image composition unit 3c is to add information for each pixel of the first image and the processed image of the second image. The human area of the processed image of the second image is already painted black in step S11 (the level values of red (R), green (G), and blue (B) of the digital image data become zero). Therefore, even if the processed images of the first image and the second image are combined, the image of the person area is only the information of the person portion of the first image, and the image in the person area of the second image is There is no noise, and as shown in FIG. 3D, it is possible to generate a synthesized image in which both the main subject area and the background area are beautiful.

When the image composition in step S12 is completed, the sequence control circuit 1 stores the composite image data generated in step S12 in the third image storage section 2c in step S13.

When the storage operation of the combined image data in the third image storage section 2c in step S13 is completed, the sequence control circuit 1 is generated in step S12 in step S14, and the third sequence is generated in step S13. The composite image data stored in the image storage unit 2c is read out, the display control circuit 7 is driven and controlled based on the composite image data,
A display signal is generated and the composite image is displayed on the monitor 8 (the composite image in FIG. 3D is displayed).

Next, in step S15, the composite image displayed on the monitor 8 is displayed for a predetermined time (2 seconds).
Based on the composite image displayed on the monitor 8, the photographer confirms the captured image. When the display of the composite image on the monitor 8 in step 15 elapses for a predetermined time, the sequence control circuit 1 drives and controls the display control circuit 7 in step S16 to stop the display of the composite image on the monitor 8.

When the image display on the monitor 8 in step S16 is stopped, the sequence control circuit 1 determines in step S17 whether the mode switch 16 is continuously selected in the night view mode. If the night view mode is continuously selected, the process returns to step S1 to perform the next night view mode shooting operation, and if the shooting mode other than the night view mode has been changed, the night view mode ends.

As described above, the digital camera of the present invention uses the first image obtained by the flash emission image pickup and the second image obtained by the image pickup without flash emission in the night view mode. By extracting the main subject area from one image, processing the second image based on the extracted main subject area to generate a processed image of the background area, and combining the processed image and the first image, It is now possible to capture and display a night view image in which both the main subject and the background are displayed beautifully.

In the above description of the embodiment of the digital camera of the present invention, the description has been given by using the example of continuously performing the two photographing operations of the strobe light emission image pickup and the strobe light emission non-emission image pickup operation by one release operation. However, the image is not necessarily limited to this, and the images may be similarly synthesized by two release operations.

That is, in the first release operation, only the person may be photographed by causing the strobe to emit light, and then only the favorite night view may be photographed without inserting a person, and the same may be combined in the same process. .

In this case, this is the same as so-called multiple exposure, but in the conventional multiple exposure shooting, a person image to be overlaid when there is a high-luminance subject (for example, a streetlight or a headlight of a car) in a portion where a person is placed. However, there is a problem that a high-brightness subject image stands out, but if a region in which a person is placed is painted black by using a method like the present invention, the problem that a high-brightness subject stands out in a person image Does not happen.

[0058]

The digital camera of the present invention has the effect of reliably and easily obtaining a natural and beautiful night view image in the night view shooting mode.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of a digital camera according to the present invention.

FIG. 2 is a flowchart illustrating the operation of the digital camera according to the present invention in a night view shooting mode.

FIG. 3 is an explanatory diagram illustrating a captured image and a composite image in the night view capturing mode of the digital camera according to the present invention.

[Explanation of symbols]

1. Sequence control circuit 2 ... Image storage circuit 3 ... Image processing circuit 4 ... Shooting lens 5 ... Image sensor 6 ... Signal processing circuit 7 ... Display control circuit 8 ... Monitor 9 ... Lens drive circuit 10 ... Light emitting part 11 ... Strobe control circuit 12 ... Photometric circuit 13: Distance measuring circuit 14 ... 1R switch 15 ... 2R switch 16 ... Mode switch

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Claims (3)

[Claims] 1. A digital camera capable of setting a night view mode suitable for night view shooting, wherein a first image captured by irradiating a strobe light when a release operation is performed in a state where the night view mode is set. An image acquisition unit that acquires a second image captured without irradiation, a main subject region extraction unit that determines a main subject region from the first image and generates a main subject region image, and the main subject region An image for generating a composite image in which the main subject area of the second image is filled with black based on the image, and the first image and the image processed by the processing unit are added for each pixel A digital camera comprising: a synthesizing means. 2. In a digital camera capable of setting a night view mode suitable for night view shooting, a first image captured by irradiating a strobe light when a release operation is performed in the state where the night view mode is set. A means for acquiring a second image captured without irradiation, and a main subject area is discriminated from the first image, and pixel data of the main subject area of the second image is set to a predetermined value accordingly. A digital camera, comprising: a replacing unit; and an image combining unit that generates a combined image in which the first image and the processed image are overlapped. 3. A digital camera having a night-view shooting mode, wherein in the night-view mode, a first image captured by irradiating strobe light and an image acquisition means for acquiring a second image captured without irradiation. Based on the first image, a processing unit that replaces a part of the pixel data of the second image with a predetermined value, and a combined image using the first image and the image processed by the processing unit is used. A digital camera comprising: an image synthesizing unit for generating the image.