JP2003134389A - Digital still camera - Google Patents

Abstract

PROBLEM TO BE SOLVED: To ensure memory empty capacity by eliminating unnecessary images stored in a recording medium for image saving by a digital still camera, corresponding to photographing intension and photographing tendency of a user. SOLUTION: This digital still camera is equipped with an imaging means 1 for sensing a camera subject image, a camera shake detecting means 2 for detecting camera shake when imaging, a recoding medium 3 for storing data of camera shake amount detected by the detecting means 2 while making the data correspond to the subject image, a display panel 4 for displaying a regenerated image of the subject image, and a control means 5 for displaying the data of camera shake amount belonging to the subject image when it is regenerated and displayed on the display panel 4. When a plurality of subject images exist in the recording medium 3, the control means 5 sorts the respective subject images in the order of large amount of camera shake, and displays regenerated images of the respective subject images in the order of large amount of camera shake data on the display panel 4 together with the data of camera shake.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital still camera, and more particularly to a digital still camera that allows a user to determine whether or not to erase a captured image from a memory depending on the degree of camera shake of the captured image.

[0002]

2. Description of the Related Art As a digital still camera, for example, as disclosed in Japanese Unexamined Patent Application Publication No. 2001-8061, there is a digital still camera equipped with a camera shake detecting means such as an acceleration sensor.
This conventional digital still camera detects the amount of camera shake in a captured image, and if the amount of camera shake is so large that it is determined to be unsuitable for printing, the camera shake occurs when the image is reproduced and displayed on the LCD panel of the digital still camera. It is equipped with a function that simultaneously displays a warning indicating "Yes" and informs the user.

[0003]

In the conventional digital still camera described above, the digital still camera uniformly determines whether or not printing is unsuitable, and informs the user of the result. That is, the user does not need to determine whether the captured image is an unnecessary image for the user according to the degree of camera shake.

Some users judge that even if an image which the digital still camera uniformly judges to be "suitable" for printing, it is unnecessary except for a clear image, and conversely, the digital still camera prints "unsuitable". Some people decide that even if it is an image that is judged to be necessary, even if there is some blurring because it is used after reducing the image data.

A digital still camera is convenient unlike a film camera because it can erase an image stored in a memory card on the spot to secure a free space in the memory and prepare for the next image pickup. For this reason, it is convenient if it is possible to determine which of the images that may be deleted among the images stored in the memory card by the degree of camera shake. If the erased image is selected depending on the presence / absence, there is a problem that the photographing intention and the photographing tendency that differ for each user are not reflected, and the usability becomes poor for some users.

An object of the present invention is to allow the user to determine whether the picked-up image is an image necessary for the user depending on the degree of camera shake, and to eliminate an unnecessary image based on the user's judgment criteria. An object of the present invention is to provide a digital still camera capable of freeing storage memory capacity.

[0007]

A digital still camera which achieves the above-mentioned object, an image pickup means for picking up a subject image, a hand shake detecting means for detecting the hand shake amount at the time of the image pickup, and a hand shake detecting means for detecting the same. A recording medium for recording data of the amount of camera shake in association with the corresponding subject image, a display panel for displaying a reproduced image of the subject image, and an accessory to the subject image when the subject image is reproduced and displayed on the display panel. This is achieved by including a control unit that also displays the data of the camera shake amount.

With this configuration, the user can determine whether or not to erase the captured image by referring to the display of the amount of camera shake, leave the captured image as intended by the user on the recording medium,
It is possible to secure a free space by deleting captured images contrary to the user's intention from the recording medium and to secure the number of captured images that can be stored in the recording medium.

Preferably, in the above description, when a plurality of subject images are present on the recording medium, the control means sorts each subject image in descending order of camera shake amount and sorts each subject image in descending order of camera shake amount. It is characterized in that the reproduced image is displayed on the display panel together with the data on the amount of camera shake. With this configuration, it is possible to sequentially display captured images that are highly likely to be unnecessary by the user on the display panel, and it is possible to perform the image erasing operation in a short time.

More preferably, in the above, the control means records the number of subject images in descending order of the amount of camera shake when the number of images to be erased is specified in the descending order of the amount of camera shake among the sorted subject images. It is characterized by erasing all at once from the medium. With this configuration, the user does not need to perform an image erasing operation for each image, and an unnecessary image can be erased in a short time.

More preferably, in the above, the camera shake detecting means detects the camera shake amount by a plurality of different methods, and the control means uses the weighted average value of the camera shake amounts obtained by the respective methods as the camera shake. It is characterized in that it is also displayed as quantity data when the subject image is reproduced and displayed. As described above, by using the amount of camera shake obtained by a plurality of types of methods, it is possible to sort the images or select the erased image so as to further match the user's intention.

More preferably, in the above description, the control means learns the amount of camera shake when the subject image reproduced by displaying the amount of camera shake is to be erased, and the amount of camera shake obtained by learning is learned. It is characterized in that the file of the subject image to which the data of the amount of camera shake is attached is automatically erased collectively from the recording medium when an automatic erase instruction is input. With this configuration, it is possible to collectively delete unnecessary images from the recording medium and secure a memory free space without checking the reproduced images one by one.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a digital still camera according to an embodiment of the present invention. This digital still camera includes a camera unit (imaging unit) 1 that captures a subject image, an acceleration sensor (camera shake detecting unit) 2 that detects the magnitude of acceleration applied to the digital still camera when the release button is pressed, and a captured image. A recording medium 3 such as a memory card for recording, a liquid crystal display panel 4 mounted on the back surface of the digital still camera, etc., and a CPU 5 for controlling the electric system of the digital still camera are provided.

The CPU 5 captures the subject image captured by the camera unit 1, detects the amount of camera shake detected by the acceleration sensor 2 when the subject image is captured, adds the camera shake amount data to the subject image data, and adds it to the recording medium 3. To store.
The camera shake amount data is written in the tag information provided in the file of the subject image data. The CPU 5 reads the subject image from the recording medium 3 and displays it on the liquid crystal panel 4 as a reproduced image. At this time, when the user inputs a display instruction of the shake amount data from the operation switch or the like, the shake amount data is also displayed. To do.

As the shake amount data to be displayed, the detected value of the acceleration sensor 2 is displayed as it is, as indicated by reference numeral 6 in the liquid crystal panel 4 of FIG. 1. For example, the maximum shake amount of the acceleration sensor 2 is 100%. The amount of camera shake may be displayed in%.

The camera shake amount data can be obtained as a detection value of the acceleration sensor 2. The camera shake amount is determined by whether or not the outline portion in the captured image is clearly reflected, that is, the high frequency component amount in the captured image. It can also be judged depending on how much there is. Therefore, the high frequency component amount may be calculated by the CPU 5, the high frequency component amount may be attached to the subject image data as camera shake amount data, and the high frequency component amount may be displayed. As a result, it is not necessary to provide the acceleration sensor 2 and the cost can be reduced.

However, it is also possible to obtain both the high-frequency component amount in the picked-up image and the detection value of the acceleration sensor and use the weighted average value of both as the camera shake amount data of the picked-up image. The value may better reflect the user's shooting intention or shooting tendency. Therefore, in the present embodiment, as the camera shake amount data, a weighted average value of the detection value of the acceleration sensor and the high frequency component amount is adopted, but only the detection value of the acceleration sensor or only the high frequency component value is used as the camera shake amount data. You can also say

FIG. 2 is a flow chart showing a processing procedure executed by the CPU 5 shown in FIG. First, step S
In step 1, the camera unit 1 captures a subject image. Then, in the next step S2, the amount of camera shake is detected by the acceleration sensor (camera shake sensor) at the time of capturing the subject image, and the camera shake amount data is written in the tag of the subject image file (step S3). Next, the CPU 5 passes the subject image data through a high-pass filter to calculate the amount of high frequency components, and also writes the amount of high frequency components in the tag of the subject image file (step S4).

When the digital still camera is used as the reproduction mode (step S5), that is, when an instruction input for reproducing and displaying the picked-up image recorded on the recording medium 3 is displayed on the liquid crystal panel 4, the CPU 5 causes the next operation. First, it is determined whether or not this reproduction mode is the shake elimination mode (step S6).

When the display instruction of the camera shake amount data is not inputted by the user, it is determined that the camera shake eliminating mode is not set, and the process proceeds from step S6 to step S7.
The designated subject image file is read from the recording medium 3 and reproduced and displayed on the liquid crystal panel 4. Then, after the display of the reproduced image ends (step S8), the process returns to step S6. Although omitted in this flowchart, if the user performs an operation input of a deletion instruction for the reproduced image between steps S7 and S8, the CPU 5 deletes the image file from the recording medium 3 and Free up memory space.

If it is determined in step S6 that the camera shake elimination mode is set, then steps S6 to S6 are performed.
In step 9, the camera shake amount data in the tag is searched from the image file of each subject stored in the recording medium 3. Then, in the next step S10, the respective subject images are sorted in descending order of the amount of camera shake (the amount of camera shake detected by the acceleration sensor, the amount of camera shake obtained from the high-frequency component value, or the amount of camera shake obtained as a weighted average value of both). The subject image with the largest camera shake amount and the camera shake amount data are displayed on the liquid crystal panel 4.

In the next step S11, the CPU 5 determines whether or not there is an operation input in the batch erase mode from the user, and if it is not the batch erase mode, the process proceeds to step S12. In this step S12, the user performs frame-by-frame advance of reproduced images one after another and selects a subject image to be erased. In this selection of erased images, since the replayed images are frame-advanced in the order of the amount of camera shake, unnecessary images (objects to be erased) The selection process of (image) can be performed in a short time.

The liquid crystal display panel 4 has a small screen,
For example, even if a large image of 1280 dots × 960 dots is captured, it is reduced to a small image of 128 dots × 96 dots and displayed. Therefore, the image of the liquid crystal panel 4 is viewed even if there is a slight camera shake. The quality cannot be judged only by itself. Therefore, the user determines whether to delete the subject image from the recording medium 3 with reference to the amount of camera shake data based on experience.

After the image to be erased is selected, the process of erasing the selected image from the recording medium 3 is performed in step S13, and it is determined in the next step S14 whether or not the erasing operation by the user is completed. If not finished, the process returns to step S12 to select the next erased image by the user again, and if finished, steps S14 to S6.
Return to.

If it is determined in step S11 that the batch erase mode is set, steps S11 to S11 are performed.
In step 15, the user inputs the number of erased sheets. To enter the number of erased sheets, you can enter a number indicating the number
For example, the reproduced images can be frame-advanced in descending order of the amount of camera shake, and the number of erased images can be designated by the number of frame-advanced images. Then, in the next step S16, the designated number of erased object images are collectively erased from the recording medium 3 in the order of large camera shake amount, and the process returns to step S6. By performing the batch erasing in this way, it is possible to save the trouble of erasing the unwanted images one by one.

Even when performing batch erasure, for example, when erasing an image having a shake amount of 70% or more at a time, the images in the image are collectively erased by marking the images that cannot be erased. It is possible to exclude from the target of.

Step S12 of the above-mentioned flowchart
Alternatively, in step S16, the CPU 5 can learn what value the shake amount data of the image to be erased in the shake eliminating mode has. Then, a learning value peculiar to the user, that is, a learning value as to what value the shake amount to be erased is, is obtained, and when the user inputs an automatic erasing operation, the image is displayed on the liquid crystal panel 4.
It is also possible to secure the free space of the recording medium 3 by automatically erasing it from the recording medium 3 collectively without replaying it.

Alternatively, when the image to be erased is selected, the values of the acceleration sensor detection value and the high frequency component value of each image are stored, and the order of the images to be sorted in step S10 is determined by the user. It is also possible to obtain the weighting coefficient of the weighted average value of both so as to be arranged in the order of high probability of being determined to be unnecessary and reflect them in the sort order of step S10, or to use as a determination factor for collective automatic deletion.

In the above-described embodiment, the weighted average value of the two values of the detection value of the acceleration sensor and the high frequency component value in the picked-up image is used. However, when picking up a plurality of images of the same subject, It is also possible to use the weighted average value of the three values in consideration of the amount of camera shake obtained from the difference value of the plurality of images.

Further, in the above-described embodiment, the detected value of the acceleration sensor or the high frequency component value in the subject image data is displayed as the camera shake amount data, but in addition to this, shutter speed data related to camera shake, and The focal length data can also be used as the sort order determination factor or the batch automatic deletion determination factor described above. Further, the optical flow may be used as a camera shake determination factor.

As described above, in the digital still camera according to the present embodiment, unnecessary images that are out of the user's shooting intention or shooting tendency are sorted and sequentially displayed on the liquid crystal panel for deletion, or they are collectively deleted automatically. Since the free space of the memory can be easily secured, the memory capacity is not wasted, and the memory can be effectively used.

[0033]

According to the present invention, it is possible to delete an unnecessary image from the recording medium which is contrary to the user's intention of photographing and the tendency of photographing, and it is possible to effectively use the recording medium for image storage.

[Brief description of drawings]

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

FIG. 2 is a flowchart showing a processing procedure executed by a CPU shown in FIG.

[Explanation of symbols]

1 Camera section (imaging means) 2 Accelerometer (shake detection means) 3 recording media 4 LCD display panel 5 CPU 6 Data display of camera shake amount

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) H04N 5/225 H04N 5/225 A

Claims (5)

[Claims] 1. An image pickup means for picking up a subject image, a shake detecting means for detecting a shake amount at the time of the image pickup, and a shake amount data detected by the shake detecting means are recorded in association with the corresponding subject image. A recording medium, a display panel for displaying a reproduced image of the subject image, and a control unit for displaying the data of the amount of camera shake attached to the subject image when the subject image is reproduced and displayed on the display panel. A digital still camera characterized by being equipped. 2. When a plurality of subject images are present on the recording medium, the control means sorts each subject image in descending order of camera shake amount and replays images of each subject image in descending order of camera shake amount. The digital still camera according to claim 1, wherein the digital still camera displays the data together with the data on the display panel. 3. The control means collectively erases the number of subject images from the recording medium in descending order of the amount of camera shake when the number of images to be erased is designated in the descending order of the amount of camera shake among the sorted subject images. The digital still camera according to claim 2, wherein 4. The camera shake detection means detects the camera shake amount by a plurality of different methods, and the control means uses the weighted average value of the camera shake amounts obtained by each method as the camera shake amount data. The digital still camera according to any one of claims 1 to 3, wherein the digital still camera is also displayed when the image is reproduced and displayed. 5. The data of the shake amount equal to or larger than the shake amount obtained by learning the shake amount when the object image replayed and displayed by displaying the shake amount is an erasure target. 5. The digital still camera according to claim 1, wherein the file of the subject image attached to is automatically erased collectively from the recording medium when an automatic erase instruction is input.