JP2005026873A - Photographing method, imaging apparatus, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reserved photographing method for photographing the same object as a previous one at a reserved time, a method of positioning the same object when photographing it at another time, an imaging apparatus and a program. <P>SOLUTION: In the previous photographing time, an object 3 is photographed with a desired time set. The set time comes and the imaging apparatus 1 is automatically powered on to show a reproduced picture of the photographed object 3 as a semi-transparent picture on a monitor screen 2. A user turns the imaging apparatus 1 up, down, right and left to position the object picture shown as a through-picture so as to superpose it on the semi-transparent picture, and operates the shutter when it is superposed, thereby photographing the object 3. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an imaging apparatus such as a digital camera, and in particular, an alignment technique for photographing the same subject at different dates and times (hereinafter referred to as “time”) and the same photographing conditions (date and time) at different times. ).
[0002]
[Prior art]
In an imaging apparatus such as a camera, an interval shooting method is known in which a camera is fixed and automatic shooting is performed at predetermined time intervals. According to the interval photographing method, for example, it is possible to photograph the transition of flowering of flowers and the molting process of insects and the like.
[0003]
Also, when obtaining an image of a subject with a wide field of view, such as a landscape, with an imaging device such as a digital camera, the landscape is divided into a range of angle of view while moving the camera. A panoramic image can be obtained by obtaining an image (divided image) and then stitching the divided images seamlessly while shifting them. In this case, a part of the divided image taken immediately before is displayed as a guide on the left or right edge of the liquid crystal screen, and the next subject image is overlapped with the guide, repeating the operation to repeat the image. There is a panoramic photographing method for capturing several divided images (see, for example, Patent Document 1).
[0004]
Further, as a technique that can easily perform alignment and position confirmation at the time of panoramic shooting, there is a technique having an overlapping display unit that displays an immediately preceding captured image (reproduced image) and a through image capturing standby image in an overlapping manner (for example, Patent Document 2). Also, in Patent Document 2, when a user presses a specific key while the second divided image candidate is being displayed through during panorama shooting, the divided image captured immediately before is taken out from the image buffer. It is displayed on the LCD screen, and while the user continues to press the specific key, the divided image captured immediately before is displayed, and when the finger is released, it is configured to return to the through image display. If there is a discrepancy between the position of the captured image and the through image (lamination position), move the camera to adjust the position, display the through image, and press the specific key again to display the previous image repeatedly. A technique for performing the above is disclosed.
[0005]
In addition, if the shooting procedure of the camera is programmed in advance and the pattern is shot, such as greetings, cake entry, retouching, candle service, etc. If a photograph is taken, there is a camera that appropriately controls depending on the photographing content, such as switching the processing mode to the night view photographing mode in the case of candle service (see, for example, Patent Document 3).
[0006]
In addition, there is a camera that is programmed in advance with shooting procedures according to the subject, for example, when shooting a house, it is programmed such as entrance → kitchen → living → bathroom → 4).
[0007]
In addition, as a technology that makes it possible to visually distinguish the playback image and the through image, the brightness, color tone, or saturation of the playback image or the through image is different from the other, or the boundary between the playback image and the through image is emphasized. For example (see, for example, Patent Document 5).
[0008]
[Patent Document 1]
JP-A-11-75018
[Patent Document 2]
JP 2000-175186 A
[Patent Document 3]
US Pat. No. 6,222,538
[Patent Document 4]
US Pat. No. 6,223,190
[Patent Document 5]
Japanese Patent Laid-Open No. 11-075108
[0009]
[Problems to be solved by the invention]
When shooting the same subject at different times and performing follow-up observations, it was previously done with interval shooting as described above. However, with interval shooting, the camera must be fixed and always set (powered on). There is.
However, in an electronic camera such as a digital camera, in order to avoid consuming the power, it is convenient in terms of power economy if it is possible to take a picture by turning on the power only during the photographing time required for follow-up observation. In addition, if it is possible to position the subject at the required time, it is not necessary to fix the camera, and it can be expected that the handling becomes convenient. In interval shooting, the shooting interval is constant, so it is not possible to perform automatic shooting irregularly, but if you can specify (reserve) multiple arbitrary shooting times, irregular automatic shooting is possible. Observations according to various patterns are possible.
[0010]
In the technique described in Patent Document 1, a part of the previous captured image and a part of the current through image are displayed so as to be adjacent to each other, and the panoramic image is aligned so that the joint is smooth. In this technology, the center of the subject, that is, the image of interest is shifted so as to be completely different between the previous time and the current time, and the images are connected to each other. For this reason, the same subject is shot at different times. Since the alignment at the time of performing, that is, the alignment in which the images of interest overlap at different times cannot be performed, it cannot be used as means for solving the above problems.
[0011]
Further, in the technique described in Patent Document 2, when a series of shooting is performed in the same shooting mode, the previous shooting image and the through image of the next shooting timing are displayed in an overlapping manner to perform alignment. As in the technique described in Patent Document 1, it is not possible to perform alignment when photographing the same subject at different times, that is, alignment such that images of interest overlap at different times. It cannot be used as a means for solving this problem.
[0012]
In the techniques described in Patent Documents 3 and 4, since the shooting procedure is programmed in advance, the shooting target is patterned as in a wedding or house interior, and shooting can be performed according to a kind of sequence. However, it is not possible to perform alignment when shooting the same subject at different times, that is, it is not possible to perform alignment so that images of interest overlap at different times. I can't.
[0013]
In the technique described in Patent Document 5, the luminance, color tone, or saturation of the reproduced image or the through image is made different from the other, or the boundary between the reproduced image and the through image is highlighted. Therefore, for example, the luminance of the reproduction image can be made higher than that of the through image to make a translucent transmission image (semi-transmission image), and the reproduction image and the roux image can be displayed in a distinguishable manner. Similar to the technique, it is not possible to perform alignment when photographing the same subject at different times, that is, alignment so that the target images overlap at different times.
[0014]
The present invention has been made in order to solve the above-mentioned problem, a reserved photographing method for photographing the same subject as the previous time at the reserved time, an alignment method for photographing the same subject at a different time, an imaging device, and The purpose is to provide a program.
[0015]
[Means for Solving the Problems]
In order to solve the above-described problem, in the invention described in claim 1, there is provided an imaging device that captures a current image in association with an image captured last time, a unit that stores position condition information captured last time, There is provided an imaging apparatus comprising: means for reserving the image; and means for calling up the position condition information when the reservation time comes and photographing the current image under the same position condition.
As a result, the photographer can shoot with the position conditions at the time of the previous shooting when the scheduled shooting time arrives, so there is no deviation between the position of the previous captured image and the current captured image, and the previous time due to temporal transition It is possible to clearly observe changes and differences between the captured image and the current captured image.
[0016]
Further, in the invention according to claim 2, there is provided a photographing method for photographing the current image in relation to the image photographed last time, means for storing photographing condition information photographed last time, means for reserving the photographing time, There is provided an imaging apparatus comprising: means for calling up an imaging condition when a reservation time has arrived and capturing an image of the current time under the same imaging condition.
As a result, the photographer can shoot with the shooting conditions at the time of the previous shooting when the scheduled shooting time arrives, so there is no gap between the previous shot image and the current shot image, and the previous shooting due to the temporal transition. It is possible to more clearly observe changes and differences between the image and the current captured image.
The image pickup apparatus according to claim 1, further comprising means for displaying at least a part of the previously taken image at the time of the current photographing. I will provide a. Thus, the photographer can adjust the angle of view by moving the imaging device so that the current image substantially matches the previous captured image by visual observation.
[0017]
According to a fourth aspect of the present invention, there is provided the imaging apparatus according to the third aspect, wherein the means for displaying at least a part of the previously captured image is displayed semi-transparently. Thus, the photographer can adjust the angle of view by moving the imaging device so that the current image substantially matches the previous captured image by visual observation.
[0018]
The invention according to claim 5 further comprises means for synthesizing and storing the previous photographed image and the current photographed image, and providing the imaging apparatus according to any one of claims 1 to 4. To do. Thus, the photographer can adjust the angle of view by moving the imaging device so that the current image substantially matches the previous captured image by visual observation.
[0019]
The invention according to claim 6 further comprises means for forcibly turning on the image pickup apparatus when the reservation time arrives and the image pickup apparatus is turned off. An imaging device according to any one of claims 1 to 5 is provided. As a result, the power is automatically turned on only at the photographing time reserved in the previous photographing, so there is no need to always keep the power on as in the case of interval photographing.
[0020]
In addition, the invention according to claim 7 further includes means for entering a process of taking a current image by an interrupt process if the power of the imaging apparatus is turned on when the reservation time comes. An imaging apparatus according to any one of claims 1 to 5 is provided. As a result, even if the reserved shooting is forgotten while other processing is being performed, the shooting can be performed at the reserved shooting time.
[0021]
According to another aspect of the present invention, in the imaging device that captures an image of a subject, generates image data thereof, and records the image data in a storage memory, the imaging that captures the current image in relation to the previously captured image is performed. A method of acquiring shooting conditions at the time of shooting; a step of reserving a shooting time; a step of detecting the arrival of the reserved shooting time; and a step of setting the shooting conditions acquired at the last shooting. The present invention provides a photographing method comprising the steps of photographing a subject based on photographing conditions and generating image data thereof, and recording the image data in a storage memory.
This makes it possible to adjust the angle of view of the subject and the previously captured image at the required time and to shoot under almost the same shooting conditions as the previously captured image, so that follow-up observation, for example, growth of plants, animals, insects, etc. When examining the situation, it is possible to easily find the difference by comparing the previous and current images. It is also possible to take a picture of the change of the subject over time as a moving image. Further, since the angle of view becomes constant, it is possible to synthesize a moving image based on this.
[0022]
According to the ninth aspect of the invention, the step of determining whether the power of the imaging device is on or off when the arrival of the photographing time is detected, and the power of the imaging device is turned on when the power of the imaging device is off. The photographing method according to claim 8, further comprising the step of: As a result, the power is automatically turned on only at the photographing time reserved in the previous photographing, so there is no need to always keep the power on as in the case of interval photographing.
[0023]
The invention according to claim 10 further comprises a step of interrupting a currently executing process and executing a predetermined photographing process when the power of the image pickup apparatus is on. Provide a shooting method. As a result, even if the reserved shooting is forgotten while other processing is being performed, the shooting can be performed at the reserved shooting time.
[0024]
According to another aspect of the present invention, in the imaging device that captures an image of a subject, generates image data thereof, and records the image data in a storage memory, the imaging is performed so that the current image is captured in association with the previously captured image. A method of acquiring a position condition at the time of shooting, a step of reserving a shooting time, a step of detecting the arrival of a reserved shooting time, and a power on of the imaging device when the arrival of the shooting time is detected. Determining whether the image pickup apparatus is turned off, turning on the image pickup apparatus when the image pickup apparatus is turned off, setting a position condition acquired at the time of the previous shooting, photographing the subject and displaying the image There is provided a photographing method comprising the steps of generating data and recording the image data in a storage memory.
As a result, the power is automatically turned on only at the photographing time reserved in the previous photographing, so there is no need to always keep the power on as in the case of interval photographing.
[0025]
In addition, in the invention described in claim 12, when the arrival of the photographing time is detected, a step of displaying the previous photographed image reproduced, and a photographing standby image is generated by displaying the subject image and displayed. The method of claim 8, further comprising: a step of superimposing and displaying on a previous photographed image.
As a result, when recorded images with the same subject as the observation target are continuously played back and displayed, for example, the emergence of insects, the growth state of flowers and trees, changes over time in the natural environment, etc. can be displayed as a video. Makes it easier to understand the overall state of change.
[0026]
According to a thirteenth aspect of the present invention, a shooting standby image display control unit that performs display control of a shooting standby image, a shooting instruction unit, and a recording control unit that records image data generated based on the shooting instruction in a storage memory; In the image pickup apparatus, a shooting reservation unit that allows a user to perform a shooting reservation operation, a reservation information storage unit that stores the reserved shooting time in a reservation memory in association with recording information of the shot image, and a reserved shooting time Shooting time detection means for detecting the arrival of the camera, power-on means for turning on the power of the imaging device when the shooting time is detected, and recorded image playback means for playing back the previous shot image data recorded in the storage memory A reproduction image display means for displaying a reproduction image, a superimposition display means for superimposing and displaying a photographing standby image on the reproduction image, a photographing instruction means for giving a photographing instruction, and at the time of the photographing instruction Taken further comprising an image data generation means for generating image data of the object image, to provide an image pickup apparatus according to claim.
Thus, similarly to the reserved shooting method according to claim 11, the power is automatically turned on only at the shooting time reserved in the previous shooting, so that the power is always turned on as in the interval shooting. There is no need. In addition, since the angle of view of the image pickup apparatus with respect to the subject can be adjusted to substantially the same angle of view as the previous image at a required time, it is possible to easily perform imaging for follow-up observation and aging observation. It is also possible to take a picture of the change of the subject over time as a moving image. It is also possible to synthesize moving images.
[0027]
Further, in the invention described in claim 14, the photographing condition acquisition means for acquiring the photographing condition at the time of photographing, and the photographing condition setting means for setting the photographing condition acquired at the previous photographing in the preceding stage of the photographing instruction to the imaging device, An imaging apparatus according to claim 13 is provided. This saves the user the trouble of setting shooting conditions.
[0028]
In the invention described in claim 15, the reproduced image display means includes an image processing means for processing the previous photographed image data reproduced by the recorded image reproduction means and a display means for displaying the processed image. An imaging apparatus according to claim 13 is provided.
As a result, the reproduced image can be processed and displayed, for example, in a semi-transparent state, or only the outline can be extracted and displayed, and the shooting standby image can be superimposed and displayed thereon. Difference (= shift in angle of view) becomes easy to understand, and alignment becomes easy.
[0029]
According to another aspect of the present invention, a standby image is generated by capturing a subject image and displayed, the subject is captured based on a shooting instruction, the image data is generated, and the image data is recorded in a storage memory. A program step that can be executed by the imaging device, a program step for reserving the shooting time, a program step for detecting the arrival of the reserved shooting time, and whether the imaging device is turned on when the arrival of the shooting time is detected. A program step for determining whether to turn off, a program step for turning on the power of the imaging apparatus, a program step for reproducing the previous photographed image data stored in the storage memory, and the reproduced previous photographed image are displayed. A program step, a program step for generating a shooting standby image from the captured subject image, and a table A program step for superimposing and displaying on the previous photographed image, a program step for photographing a subject according to a photographing instruction and generating the image data, and a program step for recording the image data in a storage memory. A program characterized by the above is provided.
Thus, similarly to the reserved shooting method of claim 11, the power is automatically turned on only at the shooting time reserved in the previous shooting, so it is necessary to always keep the power on as in the case of interval shooting. Absent. In addition, since it is possible to align the subject at a required time, it is possible to easily perform imaging for follow-up observation and aging observation.
[0030]
Further, the invention described in claim 17 further includes a program step for acquiring shooting conditions at the time of shooting, and a program step for setting the shooting conditions acquired at the previous shooting at the previous stage of the shooting instruction in the imaging apparatus. A program according to claim 16 is provided. This saves the user the trouble of setting shooting conditions.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment>
FIG. 1 is an explanatory diagram of an alignment method and a reservation photographing method according to the present invention. In FIG. 1, reference numeral 1 denotes an imaging apparatus, reference numeral 2 denotes a monitor screen of the imaging apparatus 1, reference numeral 3 denotes a subject, and reference numeral 4 denotes a subject 3. A through (shooting standby) display image, reference numeral 5 is a reproduced image of the image shot in the previous shooting. The reproduced image 5 is a semi-transmissive image (hereinafter referred to as a semi-transmissive image), and is displayed overlapping the through image.
[0032]
If the subject 3 is photographed at the previous photographing, the photographing reservation mode is selected and a desired time is set, the imaging apparatus 1 is automatically turned on when the set time comes, and the previous photographing is performed. The reproduced image of the subject 3 is displayed on the monitor screen 2 as a translucent image. When the power supply of the imaging apparatus 1 has already been turned on, the mode that is currently being executed is forcibly interrupted, and a semi-transparent image of the subject 3 that was previously captured is displayed on the monitor screen 2.
[0033]
The user aligns the imaging device 1 by moving the direction of the imaging device 1 up, down, left, and right so as to superimpose the through-subject subject image on the semi-transparent image.
[0034]
FIG. 2 is a diagram showing the appearance of an embodiment of the imaging apparatus according to the present invention, and shows an example of a digital camera. 2A is a front view, FIG. 2B is a rear view, and FIG. 2C is a plan view (top view).
[0035]
In FIG. 2, the digital camera 100 has an imaging lens 111 on the front side, and further has an optical viewfinder 112. A switch and keys such as a liquid crystal monitor screen 41, an optical viewfinder 112, a mode change switch 31 for changing modes, a liquid crystal monitor switch 32, a zoom key 33, a menu key 34, and a cursor key 35 are provided on the back of the digital camera 100. It has been. In addition, a shutter key 36 and a power button 91 are provided on the upper surface, and a USB terminal connection portion 95 used for connecting a USB cable to an external device such as a personal computer (hereinafter referred to as a personal computer) or a modem is provided on the side portion. ing. Furthermore, an optical transmission / reception port for near field communication such as infrared communication or Bluetooth or a wireless communication antenna may be provided on the front surface or the like.
[0036]
FIG. 3 is a block diagram showing an example of the internal configuration of the digital camera of FIG. In FIG. 3, the digital camera 100 includes an optical system 11, a signal conversion unit 12, a signal processing unit 13, a DRAM 14, a reservation memory 15, a control unit 20, an operation unit 30, a display unit 40, a flash memory 50, and a power supply 90. ing.
[0037]
The optical system 11 includes an imaging lens 111 and an automatic diaphragm mechanism (not shown), and focuses the luminous flux of the subject image collected through the imaging lens 111 on a subsequent imaging device (CCD).
[0038]
The signal conversion unit 12 includes a signal conversion circuit such as an A / D converter, and also converts an image formed through the preceding optical system 11 into an electric signal by the CCD, and converts the electric signal into digital data. Convert and output at a fixed period.
[0039]
The signal processing unit 13 receives the digital data from the signal conversion unit 12 and temporarily holds it in the form of Bayer data corresponding to the CCD pixels, interpolates it to create RGB data, and further generates luminance and color difference multiplexed signals. A signal component such as (Y, Cb, Cr data) is obtained. The Y, Cb, Cr data (hereinafter referred to as image data) is transferred to the DRAM 14 and temporarily stored. In addition, the captured image data is thinned out and sent to the display unit 40 in order to display a through image (photographing standby image). When the shutter operation is performed, the image data at that time is sent to the display unit 40 to display a still image.
[0040]
Further, the signal processing unit 13 reads out image data written in the DRAM 14 at the time of recording and storage, performs JPEG compression processing, stores and records it in the flash memory (storage memory) 50, and stores it in the flash memory 50 at the time of reproduction. A compression / decompression unit that performs decompression processing on the stored compressed image data and reproduces the image data, and a thumbnail image generation unit that generates a thumbnail image (reduced image) are provided.
[0041]
Further, a high-speed expansion unit that expands the compressed image data at high speed may be provided. There are two modes to store in correspondence with the compression ratio: low resolution (generally called high definition, fine, normal, etc.) and high compression ratio low resolution (commonly called economy, etc.). The mode can be coded (for example, “1”, “2”...) And stored in the flash memory 50 in accordance with the compression rate.
[0042]
The signal processing unit 13 reads out the image data written in the DRAM 14 at the time of recording and storage, performs JPEG compression processing, and the compressed image data stored and recorded in the flash memory (recording memory) 50 at the time of reproduction. Is provided with a compression / decompression unit that performs decompression processing to reproduce image data. Note that a high-speed expansion unit that expands the compressed image data at high speed may be provided.
[0043]
The DRAM 14 is used as a work memory, and an image buffer area for temporarily storing captured images, a work area for JPEG compression / expansion, and an image composition area are secured.
[0044]
The reservation memory 15 is composed of a non-volatile memory such as NVRAM, and the shooting time (date and time) reserved in the shooting reservation mode and the record information of the previous shot image recorded in the flash memory 50 at the time of reservation of the shooting time ( For example, a pointer) is stored or updated in association with the shooting time. Further, as will be described later, the reservation memory 15 can store a plurality of shooting times (dates and the like) and recording information of the recorded images associated with each shooting time.
[0045]
The control unit 20 has a microprocessor configuration having a timing mechanism such as a CPU, a RAM, a program storage ROM, and a timer. The CPU is connected to the above-described circuits and a power supply switch (not shown) via a bus line. The entire digital camera 100 is controlled by the control program stored in the program storage ROM, and each mode stored in the program storage ROM corresponding to the status signal from the operation unit 30 is supported. The processing program is taken out, and execution control of each function of the digital camera 100, for example, reproduction of a recorded image and execution of semi-transparent display for reserved shooting and positioning, etc. is performed. Further, the date and the current time can be output by the clocking mechanism and the date creation program.
[0046]
In addition, since the playback image displayed at the time when the shooting reservation is made in the shooting reservation mode is displayed as a semi-transparent image, the playback image is made monochrome and replayed as in a known technique, for example, the technique disclosed in Patent Document 5. The signal processing unit 13 is controlled so that the luminance of the image is higher than that of the through image and a translucent image is obtained.
[0047]
The operation unit 30 includes buttons and switches such as a mode switching switch 31, a liquid crystal monitor switch 32, a zoom key 33, a menu key 34, a cursor key 35, and a shutter key 36, and these keys, buttons, and switches are operated. Then, a status signal is sent to the control unit 20.
[0048]
The display unit 40 includes a video encoder (unnecessary in the case of a digital input / output display unit), a VRAM (not shown), a liquid crystal monitor screen (LCD) 41, and the like. A through image, a semi-transparent image at the time of reserved photographing, a reproduced image at the time of reproduction, a selection menu (or icon) at the time of processing selection, etc. are displayed.
[0049]
The flash memory 50 records image data. Also, an image information registration list (not shown) for registering image shooting modes and the like can be recorded. Note that a removable storage medium such as a memory card may be used instead of the flash memory.
[0050]
FIG. 4 is a diagram showing an example of the shooting reservation screen. When the digital camera 100 is set to the shooting reservation mode, a shooting reservation screen 45 as shown in the figure is displayed on the liquid crystal monitor screen 41 and a message prompting the user to input the time. 411 and a reservation time selection window 412 are displayed to prompt the user to set a designated date and time.
[0051]
The user can reserve the next photographing time by selecting and specifying the date and time displayed on the reservation time selection window 412 on the photographing reservation screen 45 with a selection key such as the cursor key 35. The reserved photographing time is stored in the reservation memory 15. Note that a plurality of shooting periods may be reserved (that is, selected and designated) on the shooting reservation screen 45. In such a configuration, a plurality of reserved times are stored in the reservation memory 15 in ascending order.
[0052]
FIG. 5 is a flowchart showing an example of the photographing control operation of the control unit 20 by the photographing operation program in the photographing reservation mode. Hereinafter, a description will be given with reference to FIGS. Even when the main power is turned off, power is supplied to the control unit 20 so that the operation of a time-measuring mechanism such as a timer and the following operations from step S1 to step S5 can be executed.
[0053]
The control unit 20 checks the reservation memory 15, and if the shooting reservation is made, that is, if the shooting time is stored in the reservation memory 15, the process proceeds to step S2. If not set, the previous shooting image is recorded. Transition to step S9 as information = none (step S1).
[0054]
If the shooting time is set, the shooting time and the recorded information of the last shot image recorded in association with this shooting time are taken out from the reservation memory 15 (step S2), and the taken shooting time and the current date and time are taken out. If they coincide with each other, the process proceeds to step S4 as the shooting time has come. If they do not match, the process waits until the shooting time comes (step S3).
[0055]
When the photographing time has come, it is checked whether the main power supply is on or off. If the main power supply is off, the process proceeds to step S5, and if it is on, the process proceeds to step S6 (step S4).
[0056]
If the main power supply is off, the main power supply and the monitor power supply are turned on, and the process proceeds to step S7 (step S5). If the main power is on, the forced interrupt flag is turned on to forcibly interrupt the currently executing process, the currently executing process is stopped, and the processing state (data, etc.) is saved in the DRAM 14 and stepped. The process proceeds to S7 (step S6).
[0057]
The processing mode is switched to the reproduction processing mode, the previous photographed image data (compressed data) is extracted from the flash memory 50 based on the recording information extracted from the reserved memory 15 in step S2, and the expansion processing is performed to reproduce the image data. (Step S7), pixels are thinned out from the reproduced image data to generate a translucent image (data), and the display unit 40 is controlled to be displayed on the liquid crystal monitor screen 41 (Step S8).
[0058]
The processing mode is switched to the photographing mode, the subject image is captured by controlling the optical system 11, a through image (photographing standby image) is obtained through the signal conversion unit 12 and the signal processing unit 13 (step S9), and the through image is liquid crystal. The display unit 40 is controlled so as to be superimposed on the previous photographed image displayed on the monitor screen 41 (step S10).
[0059]
The user compares the previous captured image displayed semi-transparently on the LCD monitor screen 41 with the subject image displayed through, and moves the digital camera 100 up and down and left and right so that the positional relationship of the images matches. When the alignment is completed, the shutter key 36 is fully pressed to give an imaging instruction. Therefore, the control unit 20 examines a signal from the operation unit 30 and issues a shooting instruction by operating the shutter key 36. It is checked whether or not it has been made. If a shooting instruction is given, the process proceeds to step S12. If a shooting instruction has not been given, the process returns to step S9. However, if there is no recorded information in step S1, the semi-transparent image is not displayed, so there is no need to perform alignment, and the user fully presses the shutter key 36 when shooting the subject (step S11). .
[0060]
When there is a shooting instruction, a subject image captured at the time of the shooting instruction is generated through the signal conversion unit 12 and the signal processing unit 13, a still image (image data) is generated and temporarily stored in the DRAM 14, and the display unit 40 is controlled. Then, the still image is displayed on the liquid crystal monitor screen 41 (step S12).
[0061]
Next, the display unit 40 is controlled to display a message or the like prompting the user to save and record a still image on the liquid crystal monitor screen 41 to prompt the user to select a recording mode. When the user selects the recording mode, the process proceeds to step S14. If not, the process returns to step S9 (step S13).
[0062]
When the recording mode is selected, the image data temporarily stored in the DRAM 14 is compressed and recorded in the flash memory 50, and the recording information (for example, a pointer (recording address)) is stored in the DRAM 14 (step S14). .
[0063]
Next, when the user operates the mode changeover switch 31 to select the photographing reservation mode, the process proceeds to step S16, and if not, the process proceeds to step S19 (step S15).
[0064]
When the shooting reservation mode is selected, a shooting reservation screen as shown in FIG. 4 is displayed, prompting the user to set the shooting date and time (= shooting date and time reservation) (step S16). When the user selects (or inputs) the shooting time (step S17), the selected shooting time (or input) and the recording information of the shot image stored in the DRAM 14 in step S14 are associated and stored in the reservation memory 15. The process returns to step S2 (step S18).
If the photographing reservation mode is not selected, it is checked whether or not the forced interrupt flag is on. If the forced interrupt flag is on, the process proceeds to step S20, and if not, the process ends (step S19).
[0065]
If the forced interrupt flag is on, the forced interrupt flag is turned off, the processing state of the forced interrupted process stored in the DRAM 14 is recovered, and the execution of the process before the forced interrupt is continued (step S20).
[0066]
The operation shown in the flowchart of FIG. 5 automatically turns on the power only at the shooting time reserved in the previous shooting, so there is no need to always turn on the power as in interval shooting. Can be avoided. In addition, since the subject can be positioned at a required time, follow-up observation, for example, a growth record of plants, animals, insects, etc. can be taken without using a tripod. It is also easy to observe aging, for example, to record a child's growth record at the same place every year, or to take pictures of changes in the townscape. It is also possible to take a picture of the change of the subject over time as a moving image. Further, since the angle of view becomes constant, it is possible to synthesize a moving image based on this.
[0067]
In the flowchart of FIG. 5 described above, an example is given of a case where there is only one photographing time to be reserved. However, the present invention is not limited to this, and a plurality of photographing times may be set in step S17. If comprised in this way, irregular automatic imaging | photography will be attained and the observation according to an irregular pattern, etc. will be attained.
[0068]
In each of the above embodiments, the previous captured image is displayed semi-transparently, but the contour of the previous captured image may be extracted and displayed. Further, the reproduced image of the previous photographed image may be displayed as it is.
[0069]
<Second Embodiment>
In the first embodiment, the power is automatically turned on when the photographing reservation time comes, and the semi-transparent image of the previous photographed image and the through image of the current subject are superimposed to enable alignment, but in FIG. Although not shown, it is necessary to manually set shooting conditions during shooting.
[0070]
In this embodiment, in addition to the functions of the first embodiment, the shooting conditions such as white balance, the number of pixels, the focus position, etc. are acquired at the time of shooting, and the shooting acquired at the previous shooting when the shooting reservation time comes. Set conditions automatically.
[0071]
FIG. 6 is a diagram illustrating an example of an operation step for realizing an automatic setting function of a shooting condition added to the shooting operation program in the shooting reservation mode of FIG.
The digital camera used in this embodiment may be the digital camera 100 (see FIGS. 2 to 4) used in the first embodiment, and the steps shown in FIG. 6 are performed as described below in the flowchart of FIG. 5 described above. By adding, it is possible to realize an automatic setting function of shooting conditions acquired at the time of previous shooting.
[0072]
(1) Between step S8 and step S9 in the flowchart of FIG. 5, as shown in FIG. 6 (a), “various shooting conditions acquired at the previous shooting and stored in the reservation memory 15 in association with the shooting time etc. Is taken out from the reservation memory 15 and automatically set in the digital camera 100 ", step S8-2 is added.
[0073]
(2) Steps “Acquire various shooting conditions such as white balance, number of pixels, focus position, etc. and store them in DRAM 14” between Step S11 and Step S12 in the flowchart of FIG. 5 as shown in FIG. 6B. S11-2 is added, and when the shutter key 36 is fully pressed in step S11 of the flowchart of FIG. 5, the process is changed to proceed to step S11-2.
[0074]
(3) As shown in FIG. 6C, step S18 in the flowchart of FIG. 5 is “selected (or input) shooting time, recorded information of the shot image stored in the DRAM 14 in step S14, and step S11— 2, the shooting conditions held in the DRAM 14 are associated and stored in the reservation memory 15, and the process returns to step S <b> 1.
In the additional step of FIG. 6, since the shooting conditions for the previous shooting are automatically set when the shooting reservation time comes, the user can save time and effort and set the shooting conditions. In addition, follow-up observations and secular observations can be performed with images taken under the same shooting conditions as the previous taken images, so that changes or differences due to temporal transitions can be observed more clearly. In addition, since shooting is performed under the same shooting conditions, it is not necessary to make adjustments that occur due to shifts in shooting conditions when combining moving images.
[0075]
As described above, according to the embodiments described above, it is possible to easily perform alignment when photographing the same subject at different times. Further, follow-up observation and aging observation can be performed without fixing the camera. It is also possible to take a picture of the change of the subject over time as a moving image. Further, since the angle of view becomes constant, it is possible to synthesize a moving image based on this.
[0076]
In addition, since shooting conditions at the time of the previous shooting can be automatically set, it is possible to save the user from setting shooting conditions. In addition, changes and differences due to temporal transition can be observed more clearly. In addition, since shooting is performed under the same shooting conditions, it is not necessary to make adjustments that occur due to shifts in shooting conditions when combining moving images.
[0077]
Although several embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and it goes without saying that various modifications can be made.
[0078]
【The invention's effect】
According to the present invention, it is possible to easily match conditions when photographing the same subject at different times.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of an alignment method based on a photographing reservation according to the present invention.
FIG. 2 is a diagram illustrating an appearance of an embodiment of an imaging apparatus according to the present invention.
FIG. 3 is a block diagram showing an example of the internal configuration of the digital camera of FIG.
FIG. 4 is a diagram illustrating an example of a shooting reservation screen.
FIG. 5 is a flowchart illustrating an example of a shooting control operation by a shooting operation program in a shooting reservation mode.
6 is a diagram showing an example of an operation step for realizing a shooting condition automatic setting function to be added to the shooting operation program in the shooting reservation mode of FIG. 5;
[Explanation of symbols]
1 Subject
4 Through image (image for standby)
5 Translucent image (reproduced image, processed image)
13 Signal processing unit (image data generating means, image processing means)
15 Reservation memory (means for storing photographing time, means for storing position condition information)
20 control unit (photographing time detection means, photographing standby image display control means, recording control means)
36 Shutter key (shooting instruction means)
45 Shooting reservation screen (shooting reservation means)
50 Flash memory (storage memory)
100 Digital camera (imaging device)

Claims (17)

An imaging device that captures the current image in relation to the previously captured image,
Means for storing position condition information taken last time;
A means of reserving the shooting time;
Means for invoking the position condition information when the reservation time has arrived, and photographing the current image under the same position condition;
An imaging apparatus comprising: It is a shooting method that takes a picture this time in relation to the picture taken last time,
Means for storing shooting condition information taken last time;
A means of reserving the shooting time;
Means for calling the shooting conditions when the reservation time has arrived, and shooting the current image under the same shooting conditions;
An imaging apparatus comprising: The imaging apparatus according to claim 1, further comprising means for displaying at least a part of a previously captured image at the time of the current shooting. 4. The imaging apparatus according to claim 3, wherein the means for displaying at least a part of the previously photographed image is displayed semi-transparently. 5. The image pickup apparatus according to claim 1, further comprising means for combining and storing the previous photographed image and the current photographed image. 6. The apparatus according to claim 1, further comprising means for forcibly turning on the power supply of the image pickup apparatus when the reservation time has arrived. Imaging device. 6. The apparatus according to claim 1, further comprising means for entering a process for capturing the current image by an interrupt process when the imaging apparatus is powered on when the reservation time comes. The imaging device according to any one of the above. In an imaging device that captures an image of a subject, generates image data thereof, and records the image data in a storage memory, the imaging method captures the current image in relation to the previously captured image,
A step of acquiring shooting conditions at the time of shooting;
A step of reserving the shooting time;
Detecting the arrival of a reserved shooting time;
Setting the shooting conditions acquired at the previous shooting;
Shooting a subject based on the shooting conditions and generating image data thereof;
Recording the image data in a storage memory;
A photographing method characterized by comprising: And a step of determining whether the power of the imaging device is turned on or off when the arrival of the photographing time is detected, and a step of turning on the power of the imaging device when the power of the imaging device is turned off. The imaging method according to claim 8, wherein: 9. The photographing method according to claim 8, further comprising a step of interrupting a process currently being executed and executing a predetermined photographing process when the image pickup apparatus is powered on. In an imaging device that captures an image of a subject, generates image data thereof, and records the image data in a storage memory, the imaging method captures the current image in relation to the previously captured image,
Acquiring a position condition at the time of shooting;
A step of reserving the shooting time;
Detecting the arrival of a reserved shooting time;
Determining whether the power of the imaging device is on or off when the arrival of the photographing time is detected;
Turning on the imaging device when the imaging device is powered off; and
Setting the position condition acquired at the time of the previous shooting;
Photographing a subject and generating image data thereof;
Recording the image data in a storage memory;
A photographing method characterized by comprising: Furthermore, when the arrival of the shooting time is detected,
Displaying the last captured image that was played, and
Capturing a subject image to generate a shooting standby image and superimposing and displaying it on the previous captured image displayed;
The imaging method according to claim 8, further comprising: An imaging apparatus comprising: a shooting standby image display control unit that performs display control of a shooting standby image; a shooting instruction unit; and a recording control unit that records image data generated based on the shooting instruction in a storage memory;
Photographing reservation means for allowing the user to perform a photographing reservation operation; reservation information storage means for storing the reserved photographing time in the reservation memory in association with the recording information of the photographed image;
Shooting time detection means for detecting the arrival of the reserved shooting time;
Power-on means for turning on the power of the imaging device when the photographing time is detected;
Recorded image reproduction means for reproducing the previous captured image data recorded in the storage memory;
Replay image display means for displaying a replay image, superimposition display means for superimposing and displaying a shooting standby image on the replay image,
Photographing instruction means for instructing photographing, image data generating means for generating image data of a subject image captured at the photographing instruction time point, and
An imaging apparatus comprising: Furthermore, it is characterized by comprising: a shooting condition acquisition means for acquiring shooting conditions at the time of shooting; and a shooting condition setting means for setting the shooting conditions acquired at the previous shooting before the shooting instruction in the imaging device. The imaging apparatus according to claim 13. 14. The imaging according to claim 13, wherein the reproduced image display means includes image processing means for processing the previous captured image data reproduced by the recorded image reproduction means and display means for displaying the processed image. apparatus. A program that can be executed in an imaging apparatus that captures a subject image, generates and displays a shooting standby image, shoots the subject based on a shooting instruction, generates image data thereof, and records the image data in a storage memory. ,
A program step for reserving the photographing time, a program step for detecting the arrival of the reserved photographing time, a program step for determining whether the imaging device is turned on or off when the arrival of the photographing time is detected, and imaging A program step to turn on the device;
A program step for reproducing the previous captured image data stored in the storage memory, and a program step for displaying the reproduced previous captured image;
A program step for generating a shooting standby image from the captured subject image;
A program step for superimposing and displaying on the previously displayed captured image;
A program step for photographing a subject according to a photographing instruction and generating the image data; a program step for recording the image data in a storage memory;
A program characterized by comprising: The program step of acquiring a shooting condition at the time of shooting, and the program step of setting the shooting condition acquired at the time of the previous shooting in the preceding stage of the shooting instruction to the imaging apparatus. The listed program.

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