JP2008079222A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To display an image shot at a setting shutter speed as a through image so as not to cause frame feed. <P>SOLUTION: The digital camera picks up a subject image formed by a photographing lens at specified time intervals, stores pick-up images in order from the newest one as 1, 2, ... 30, and synthesizes at least the newest image 1 and the image 3 before a setting shutter speed between the newest image 1 and the image 3 before the setting shutter speed (e.g. (C) 1/10 seconds) stored for every specified time interval to display them as through images. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a digital camera that displays an image captured by an image sensor as a through image on a monitor.

  When a through image (also called a live view image) is displayed on the monitor before shooting, the frame rate of the through image is set to the shutter speed, but the frame rate is not noticeable, for example from 1/4 to 1/10 seconds There is known a digital camera in which the exposure is ensured by increasing the amplification gain for the image signal of the image sensor when the subject is dark (see, for example, Patent Document 1).

Prior art documents related to the invention of this application include the following.
JP 2000-092380 A

  However, in the conventional digital camera, since the frame rate of the through image display is limited to a predetermined value that does not stand out, it is possible to prevent the through image from being displayed like frame advance, but a shutter speed lower than that When is set, there is a problem in that a through image corresponding to the set shutter speed cannot be displayed, and the image quality such as the depth of field and the blur condition at the set shutter speed cannot be confirmed.

(1) According to the first aspect of the present invention, the subject images formed by the photographing lens are captured at a predetermined time interval, and the captured images are stored in order from the newest, and stored at every predetermined time interval. At least the latest image and the image before the set shutter speed between the latest image and the image before the set shutter speed are combined and displayed as a through image.
(2) The digital camera according to claim 2 synthesizes one or a plurality of images between the latest image and the image before the set shutter speed in addition to the stored latest image and the image before the set shutter speed. It is a thing.
(3) The digital camera according to claim 3 displays the stored latest image as a through image without performing image synthesis when the set shutter speed is equal to or less than a predetermined time interval.

  According to the present invention, an image captured at a set shutter speed can be displayed as a through image so as not to be frame-advanced.

  FIG. 1 is a diagram illustrating a configuration of a digital camera according to an embodiment. It should be noted that illustration and description of devices and circuits not directly related to the present invention are omitted. The subject light that has passed through the photographing lens 1 is limited by the diaphragm 2 and is imaged on the image sensor 3. The image sensor 3 is composed of a CCD or CMOS, and outputs an image signal of a subject image. The signal processing circuit 4 includes a CDS circuit that holds an image signal, an AGC circuit that amplifies the image signal, an A / D converter that converts an analog image signal into a digital image signal, and the like. Apply the process.

  The drive circuit 5 drives the diaphragm 2 to adjust the set diaphragm value. In addition, the drive circuit 6 drives the image sensor 3 to accumulate charges. The timing generation circuit 7 controls the start and end of charge accumulation of the image sensor 3 and the signal processing timing of the signal processing circuit 4. The control circuit 8 includes a CPU 8a, and performs imaging control, exposure control, through image display control, image recording control, sequence control, and the like.

  The monitor 9 is a liquid crystal display that displays a through image (also referred to as a live view image or a live preview image) and various types of information. The buffer memory 10 is a temporary storage memory for storing an image captured at a predetermined frame rate in order to display a through image. The ROM 11 is a memory for storing various control programs executed by the CPU 8a. Further, the storage memory 12 is a memory for recording captured images. The operation switches 13 are various operation switches of the camera such as a shutter release switch.

  FIG. 2 is a flowchart showing the shooting operation of the embodiment. When the power switch of the operation switches 13 is turned on and the photographing mode is selected by the mode switch, the control circuit 8 starts the photographing process shown in FIG. In step 1, the imaging device 3 performs imaging for a through image at a predetermined frame rate. The frame rate is a speed set regardless of the shutter speed, and a speed at which frames are not noticeable when displayed as a through image is set. In this embodiment, for example, 1/30 second (30 frames / second) is used. Note that the darker the subject, the slower the frame rate (less frames per second), and the frame rate is changed according to subject brightness up to a speed at which frames are not noticeable (for example, ¼ second).

  In step 2, thinning readout is performed from the image sensor 3 according to the number of pixels of the monitor 9, and an image for one through image is generated by the signal processing circuit 4 and stored in the buffer 10. In subsequent step 3, through image generation processing is performed.

  FIG. 3 is a diagram for explaining a through image generation process according to an embodiment. The control circuit 8 stores the 30 frames of the images 1 to 30 captured for the through image in the buffer memory 10 in the newest order. At this time, an image captured at a predetermined frame rate of 1/30 seconds is stored as the latest image 1, and the order of the previous images is incremented by one. Then, the 31st oldest image is deleted.

  Next, the control circuit 8 selects the image before the shutter speed manually set by the photographer from the latest image 1 out of the 30 frames 1 to 30 stored in the buffer memory 10, or the camera displays the exposure calculation result. All images up to the image before the shutter speed set automatically are read out.

  For example, (a) When the shutter speed is 1/30 second or less, since the image for 1/30 second from the latest image 1 is only the latest image 1, only the latest image 1 is read. Also, (b) when the shutter speed is 1/15 seconds, the images 1 and 15 seconds before the latest image 1 are the images 2 and the images 1 and 2 are read out. Similarly, (c) when the shutter speed is 1/10 second, the latest image 1 to image 3 are read, and (d) the latest image 1 to image 30 are read when the shutter speed is 1 second.

  Then, all the images read for the set shutter speed are synthesized in order from the latest one. However, when the shutter speed is equal to or less than the frame rate, in this embodiment, when the set shutter speed is equal to or less than 1/30 second of the frame rate, only one frame of the latest image is required, so that there is no need for composition.

  The image synthesized in step 4 is displayed on the monitor 9 as a through image. In step 5, it is confirmed whether or not the shutter release switch of the operation switches 13 has been turned on, that is, whether or not a shutter release operation has been performed. If there is no shutter release operation, the process returns to step 1 and the through image generation process before photographing in steps 1 to 4 is repeated.

  In this way, before shooting, images for the set shutter speed are synthesized in order from the latest image among the images shot at the predetermined frame rate for each predetermined frame rate, and displayed as a through image. The As a result, a through image corresponding to the set shutter speed can be displayed while maintaining the frame rate of the through image display at an inconspicuous speed, and the composition can be easily determined while viewing the through image that changes in real time. In addition, the image quality such as the depth of field and the blur condition at the set shutter speed can be confirmed.

  In addition, if the subject becomes dark and the frame rate slows down during live view generation processing, images are shot at the changed and unchanged frame rates for each changed frame rate. Among the displayed images, images corresponding to the set shutter speed are sequentially combined from the latest image and displayed as a through image. Similarly, when the shutter speed is changed during the through image generation process, the image is changed in order from the latest image among the images shot at the predetermined frame rate for each predetermined frame rate. The images corresponding to the shutter speed are combined and displayed as a through image. Therefore, even if the frame rate or shutter speed is changed during the through image generation process, the through image display corresponding to the changed frame rate or shutter speed can be immediately performed, and the above-described effects can be obtained.

  Here, instead of synthesizing all the images from the latest image to the image before the set shutter speed, the latest image and the image before the set shutter speed may be simply synthesized. Even in this case, although there is a slight deterioration in the image quality of the through image, an image captured at the set shutter speed can be displayed as a through image so as not to be frame-advanced. In this case, it is possible to reduce the storage capacity of the buffer memory 10 for temporary image storage, and it is possible to reduce the processing time by reducing the burden of image synthesis processing in the control circuit 8.

  Further, in addition to the latest image and the image before the set shutter speed between the latest image and the image before the set shutter speed, one or more images between the latest image and the image before the set shutter speed are synthesized. You may do it. For example, an image is used at predetermined intervals between the latest image and an image before the set shutter speed. In this way, it is possible to display an image captured at the set shutter speed as a through image so as not to be frame-advanced while minimizing image quality degradation as a through image. Further, the storage capacity of the buffer memory 10 for temporary image storage can be reduced, and the processing time can be shortened by reducing the burden of image synthesis processing in the control circuit 8.

  When the shutter release operation is performed in step 5 of FIG. 2, the process proceeds to step 6 where the image pickup device 3 picks up an image at the set shutter speed, reads an image from the image pickup device 3, and performs a predetermined process in the signal processing circuit 4. After application, the data is recorded in the storage memory 12 in step 7.

  As described above, according to one embodiment, the subject images formed by the photographing lens are captured at a predetermined time interval, and the captured images are stored in order from the newest, and at each predetermined time interval, Between the latest stored image and the image before the set shutter speed, at least the latest image and the image before the set shutter speed are combined and displayed as a through image or stored. In addition to the latest image and the image before the set shutter speed, one or more images between the latest image and the image before the set shutter speed are synthesized. When the set shutter speed is equal to or less than a predetermined time interval, the synthesized image is not combined and the stored latest image is displayed as a through image. Thereby, an image photographed at the set shutter speed can be displayed as a through image so as not to be frame-advanced.

The figure which shows the structure of one embodiment Flowchart showing operation of one embodiment Diagram for explaining through image generation processing

Explanation of symbols

3 Image sensor 8 Control circuit 8a CPU
9 Monitor 10 Buffer memory

Claims (3)

An image sensor that captures a subject image formed by the taking lens;
Storage means for storing images picked up at predetermined time intervals by the image pickup device in order of newness;
For each predetermined time interval, at least the latest image and the image before the set shutter speed between the latest image stored in the storage unit and the image before the set shutter speed are synthesized. Combining means;
A digital camera comprising: display means for displaying an image synthesized by the synthesizing means as a through image. The digital camera according to claim 1, wherein
The synthesizing unit synthesizes one or a plurality of images between the latest image and the image before the set shutter speed in addition to the latest image stored in the storage unit and the image before the set shutter speed. A digital camera characterized by The digital camera according to claim 1 or 2,
The combining means does not combine images when the set shutter speed is equal to or less than the predetermined time interval,
The digital camera characterized in that the display means displays the latest image stored in the storage means as a through image.

Images