JPH1093912A5 - - Google Patents

Description

[Title of invention] Image recording/playback device [Claims]
Claim 1: A data access unit that accesses a randomly accessible recording medium to read and write data;
a recording means for writing a recording image to the recording medium by the data access unit;
a reproduction means for reading from the recording medium by the data access unit and outputting a reproduced image;
a selection means for selecting a playback image to be read by the playback means from among the images recorded on the recording medium;
a control unit that executes recording of the recorded image on the recording medium by the recording means and reading of the reproduced image from the recording medium by the reproduction means by time-division switching of the data access unit;
a display image generation unit that generates an image output for display from the reproduced image;
An image recording and reproducing device comprising:
2. The image recording/reproducing apparatus according to claim 1.
The data access unit includes a recording/playback head that is movable relative to the recording medium.
1. An image recording and reproducing apparatus comprising:
3. The image recording/reproducing apparatus according to claim 1 or 2,
a memory for temporarily storing the recorded image before recording it on the recording medium;
The control unit performs time-division switching between a recording operation and a reading operation on the recording medium based on the capacity of the recorded image stored in the memory.
1. An image recording and reproducing apparatus comprising:
4. A data access unit that accesses a randomly accessible recording medium and independently reads and writes data;
a recording means for writing a recording image onto the recording medium using a recording function of the data access unit;
a reproduction means for reading from the recording medium using the read function of the data access unit and outputting a reproduced image;
a selection means for selecting a playback image to be read by the playback means from among the images recorded on the recording medium;
a control unit that executes recording of the recorded image on the recording medium by the recording means and reading of the reproduced image from the recording medium by the reproduction means by simultaneous access by the data access unit;
a display image generation unit that generates an image output for display from the reproduced image;
An image recording and reproducing device comprising:
5. The image recording/reproducing apparatus according to claim 4,
the data access unit includes two heads that are independently movable relative to the recording medium;
The control unit performs recording on the recording medium and reading from the recording medium in parallel by simultaneous access of the two heads.
1. An image recording and reproducing apparatus comprising:
6. The image recording/reproducing apparatus according to claim 1, wherein:
The display image generating unit generates an image output for switching between the recorded image and the reproduced image on the screen in response to an external operation.
1. An image recording and reproducing apparatus comprising:
7. The image recording/reproducing apparatus according to claim 1, wherein:
The display image generating unit generates an image output for combining and displaying the recorded image and the reproduced image on a screen in response to an external operation.
1. An image recording and reproducing apparatus comprising:
8. The image recording/reproducing apparatus according to claim 1, wherein :
The recording means
An image recording and reproducing apparatus , characterized in that identification information for identifying the reproduced image is written onto the recording medium together with the recorded image.
9. The image recording/reproducing apparatus according to claim 8,
The regeneration means
When reading out the first reproduced image from the recording medium, a second reproduced image indicated by "identification information recorded together with the first reproduced image" is read out in parallel;
The display image generation unit
An image recording and playback device that generates an image output for display based on two playback images read from the playback means.
10. The image recording/reproducing apparatus according to claim 9,
The regeneration means
an image recording/reproducing device , characterized in that the data access unit accesses the recording medium in a time-division manner to read out the two reproduced images in parallel;
11. The image recording/reproducing apparatus according to claim 9,
The regeneration means
an image recording/reproducing device , characterized in that the data access unit simultaneously accesses two locations on the recording medium and reads out the two reproduced images in parallel;
12. The image recording/reproducing apparatus according to claim 6 or 7 ,
The display image generation unit
An image recording and playback device that generates the image output in which the display formats of the playback image and the recorded image are different.
13. A data compression/decompression unit that performs a compression process for recording a record image on a randomly accessible recording medium and a decompression process for a compressed reproduced image read from said recording medium;
a selection means for selecting the compressed reproduced image from among images recorded on the recording medium;
a control unit that executes the compression process of the recorded image by the data compression/decompression unit and the decompression process of the compressed reproduced image by time-division switching;
a display image generating unit that generates an image output for display from the decompressed reproduced image;
An image recording and reproducing device comprising:
Detailed Description of the Invention
[0001]
[Technical Field to which the Invention Belongs]
The present invention relates to an apparatus for recording and reproducing images.
[0002]
2. Description of the Related Art
2. Description of the Related Art Conventionally, there is known a type of electronic camera (such as a video camera or an electronic still camera) that is provided with a monitor screen on the camera housing or the like.
With this type of electronic camera, the image being captured can be checked on a monitor screen, so the camera body can be positioned as far away from the photographer as needed, allowing for capture at any angle.
[0003]
Furthermore, by instantly reproducing the recorded image on the monitor screen, the recorded content can be checked on the spot.
Furthermore, with this type of electronic camera, the photographer's own image can be captured on the monitor screen by rotating the lens. In this state, the operator can capture an image of himself while checking how he appears on the monitor screen (hereinafter, this technique of capturing the operator's own image will be referred to as "face-to-face photography").
[0004]
For example, at a party venue such as a wedding reception or a thank-you party, each participant can easily take a face-to-face photograph as described above, thereby recording an image equivalent to a message written on a colored paper.
[0005]
[Problem to be solved by the invention]
However, when using the above-mentioned electronic camera to take a face-to-face photograph, for example, an image of the operator himself is displayed on the monitor screen, which causes the operator to become conscious of the monitor display and makes it difficult to capture a natural expression.
[0006]
Therefore, there is a problem in that the images recorded in face-to-face photography inevitably have a strong impression of being formal, and lack interest.
In order to solve the above problems, it is necessary to provide an electronic camera that can reliably capture the natural facial expressions of the subject. Therefore, the object of the present invention is to provide an "image recording and playback technology" that is suitable for realizing such an electronic camera.
[0007]
The second and third aspects of the present invention have the object of simplifying the device configuration in addition to the object of the first aspect.
The fourth and fifth aspects of the present invention, in addition to the object of the first aspect, have the object of smoothly realizing parallel operations of playback and recording even for images with a large amount of information.
[0008]
The sixth and seventh aspects of the present invention, in addition to the object of the first aspect, have the object of suitably displaying the reproduced image and the recorded image on the screen .
[0009]
The eighth aspect of the present invention has the object of recording the relationship between the reproduced image and the recorded image in addition to the object of the first aspect.
The ninth aspect of the present invention has the object of comparing and viewing two images related by parallel operations, in addition to the object of the eighth aspect.
[0010]
The tenth object of the present invention is to simplify the device configuration in addition to the object of the ninth object.
The eleventh aspect of the present invention has an object to smoothly reproduce two images in addition to the object of the ninth aspect .
[0011]
The invention as set forth in claim 12 has an object, in addition to the object of claim 1, to clearly distinguish between a reproduced image and a recorded image by simply glancing at the screen .
[0012]
[Means for solving the problem]
[0013]
The invention described in claim 1 is characterized by comprising a data access unit that accesses a randomly accessible recording medium to read and write data, a recording means that writes a recorded image to the recording medium using the data access unit, a playback means that reads from the recording medium using the data access unit and outputs a played-back image, a selection means that enables selection of a played-back image to be read by the playback means from among images recorded on the recording medium, a control unit that performs recording of the recorded image to the recording medium by the recording means and reading of the played-back image from the recording medium by the playback means by time-division switching of the data access unit, and a display image generation unit that generates an image output for display from the played-back image.
[0014]
According to a second aspect of the present invention, in the image recording/reproducing apparatus of the first aspect, the data access unit includes a recording/reproducing head that is movable relative to the recording medium.
The invention described in claim 3 is characterized in that, in the image recording/playback device described in claim 1 or claim 2, it has a memory for temporarily storing recorded images before recording them on the recording medium, and the control unit performs time-division switching between recording operations and read operations on the recording medium based on the capacity of the recorded images stored in the memory .
[0015]
The invention described in claim 4 is characterized by comprising a data access unit that accesses a randomly accessible recording medium and independently reads and writes data; recording means that writes recorded images to the recording medium using the recording function of the data access unit; playback means that reads from the recording medium using the read function of the data access unit and outputs a played-back image; selection means that enables selection of a played-back image to be read by the playback means from among images recorded on the recording medium; a control unit that executes ``recording of recorded images to the recording medium by the recording means'' and ``reading of played-back images from the recording medium by the playback means'' by simultaneous access by the data access unit; and a display image generation unit that generates an image output for display from the played-back image.
The invention described in claim 5 is characterized in that, in the image recording and reproducing device described in claim 4, the data access unit has two heads that can move independently relative to the recording medium, and the control unit performs recording to the recording medium and reading from the recording medium in parallel by simultaneous access of the two heads.
[0016]
According to a sixth aspect of the present invention, in the image recording and reproducing device according to any one of the first to fifth aspects, the display image generating section generates an image output for switching between the recorded image and the reproduced image on the screen in response to an external operation.
It is characterized by:
The invention described in claim 7 is characterized in that, in the image recording and playback device described in any one of claims 1 to 5, the display image generation unit generates an image output for combining and displaying a recorded image and a playback image on the screen in response to an external operation.
The recorded image and the reproduced image may be displayed on the left and right sides of the screen, with a perspective effect applied so that both image files appear to face each other. The reproduced image may also be displayed enlarged compared to the recorded image.
[0017]
The invention described in claim 8 is an image recording/playback device described in any one of claims 1 to 7 , characterized in that the recording means writes identification information for identifying the played-back image onto the recording medium together with the recorded image.
[0018]
The invention described in claim 9 is an image recording and playback device described in claim 8, characterized in that when reading out a first playback image from the recording medium , the playback means reads out a second playback image indicated by the ``identification information recorded together with the first playback image'' in parallel, and the display image generation unit generates an image output for display based on the two playback images read out from the playback means .
[0019]
According to a tenth aspect of the present invention, in the image recording and reproducing apparatus of the ninth aspect, the reproducing means accesses the recording medium in a time-division manner by a data access unit , and reads out two reproduced images in parallel.
The invention described in claim 11 is the image recording and reproducing device described in claim 9, characterized in that the reproducing means simultaneously accesses two locations on the recording medium using a data access unit and reads two reproduced images in parallel.
[0020]
The two images may be arranged on the left and right sides of the screen, and may be displayed with a perspective effect to make the two images appear to face each other.
The second reproduced image may be displayed at a smaller size than the first reproduced image.
[0021]
According to a twelfth aspect of the present invention, in the image recording/playback device according to the sixth or seventh aspect , the display image generating section generates image outputs in which the display formats of the playback image and the recorded image are different.
The invention described in claim 13 is characterized by comprising a data compression/expansion unit that performs compression processing for recording a record image on a randomly accessible recording medium and expansion processing for a compressed playback image read from the recording medium, a selection means that enables a compressed playback image to be selected from images recorded on the recording medium, a control unit that performs compression processing of the record image by the data compression/expansion unit and expansion processing of the compressed playback image by time-division switching, and a display image generation unit that generates an image output for display from the expanded playback image.
[0022]
(effect)
In the first aspect of the present invention, the recording means and the reproducing means write the recorded image to the recording medium and read the reproduced image in a time-division manner .
[0023]
Therefore , by installing this device in an electronic camera, it is possible to photograph a subject while displaying a reproduced image on a monitor screen.
In this case , the reaction of the person viewing the playback image can be reliably captured.
[0024]
In the second aspect of the present invention, the recording/reproducing head of the data access unit moves relative to the recording medium, thereby writing the recorded image and reading the reproduced image in a time-division manner .
In the third aspect of the present invention, the control section switches between the recording operation and the reading operation in a time-division manner based on the volume of recorded images stored in the memory.
In the fourth aspect of the present invention , the writing of the recorded image and the reading of the reproduced image are performed in parallel by a data access unit capable of independent read and write operations .
In the fifth aspect of the present invention , two independently movable heads are used to simultaneously access the recording medium from two locations, thereby writing a recording image and reading a reproducing image in parallel.
[0025]
In the sixth aspect of the present invention , the display image generating section generates an image output for switching between a recorded image and a reproduced image on the screen and displaying them in response to an external operation.
In the seventh aspect of the present invention , the display image generating section generates an image output for displaying a recorded image and a reproduced image in a composite manner on a screen.
[0026]
In the eighth aspect of the present invention , the recording means writes identification information for identifying the reproduced image onto the recording medium together with the recorded image.
In the ninth aspect of the present invention, when the reproducing means reads out the first reproduced image from the recording medium , it also reads out the second reproduced image indicated by the "identification information recorded together with the first reproduced image."
[0027]
The display image generating section generates an image output for display based on the two reproduced images read out from the reproducing means .
Therefore, two reproduced images that were associated at the time of recording are reproduced together.
In the tenth aspect of the present invention, the reproducing means accesses the recording medium in a time-division manner and reads out two reproduced images in parallel.
[0028]
In the eleventh aspect of the present invention , two locations on the recording medium are accessed simultaneously to read out two reproduced images in parallel.
[0029]
In the invention of claim 12 , the display image generating section makes the display formats of the reproduced image and the recorded image different.
In the invention of claim 13, the compression process performed to record the image on the recording medium and the decompression process of the compressed reproduced image read from the recording medium are performed by time-division switching.
[0030]
[Embodiments of the Invention]
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0031]
(First embodiment)
1 is a diagram showing the appearance of the first embodiment. The first embodiment corresponds to claims 1 to 3, 6 to 10, and 12 .
FIG. 2 is a functional block diagram of the first embodiment.
In Figures 1 and 2 , a camera unit 11a is rotatably attached to the side of the main body 11, and a photographing lens 12 is attached to the front of the camera unit 11a.
[0032]
A light beam passing through the photographing lens 12 is refracted within the camera section 11a and reaches the light receiving surface of the image sensor 13. The photoelectric output of the image sensor 13 is connected to a signal processing section 15 via an A/D conversion section .
The output of the signal processing unit 15 is connected to a data access unit 18 via a frame memory 16 for multiple screens and a data compression/expansion unit 17. This data access unit 18 is equipped with a recording/playback head unit and reads and writes data from/to a magneto-optical recording medium 19.
[0033]
The data output from the frame memory 16 is input to a display image generating section 20 , and the image output from the display image generating section 20 is displayed on a liquid crystal display section 21 .
The liquid crystal display unit 21 is attached to the rear surface of the main body 11, and a touch panel 21a is attached to the entire screen.
The output of the touch panel 21 a is input to the control unit 23 via the touch panel input unit 22 , and the control output of the control unit 23 is input to the display image creation unit 20 , the data compression/decompression unit 17 and the data access unit 18 .
[0034]
The data compression/decompression unit 17 , the display image creation unit 20 , the touch panel input unit 22 and the control unit 23 are realized by the internal functions of a microprocessor 25 in the main body 11 .
[0035]
3 to 7 are flow charts illustrating the operation of the first embodiment.
8 to 10 are diagrams showing the screen display of the first embodiment.
The operation of the first embodiment will be described below with reference to these figures.
First, when the power supply to the main body 11 is turned on, the initial screen shown in FIG. 8 (a) is displayed on the liquid crystal display unit 21.
[0036]
In the center of this screen, a list of reduced images (hereinafter referred to as "thumbnails") 30 of images A to F recorded on the magneto-optical recording medium 19 is displayed, and in the upper right corner of the screen, a standard size button 31 and a split display button 32 for changing the display size of the images are displayed.
Also, a scroll button 33 for scrolling the screen up and down is displayed on the right side of the screen, and a plurality of operation buttons for operating image recording and playback, etc. are displayed in three rows on the bottom right of the screen.
[0037]
The arrangement of these operation buttons is as follows: First, from the top left, there are a reverse skip button 34, a reverse feed button 35, a fast forward button 36, and a skip button 37. Then, from the middle left, there are a reverse play button 38, a stop button 39, and a play button 40. Then, from the bottom left, there are a reverse frame forward button 41, a pause button 42, a frame forward button 43, and a record button 44.
[0038]
The above operation buttons are operated by touching the touch panel 21a.
For example, when the scroll button 33 is pressed with a finger or the like, the touch panel input unit 22 transmits a message indicating the operation content to the control unit 23. The control unit 23 controls the display image creation unit 20 in accordance with this message, and scrolls the list display of thumbnails 30 up and down. Figure 8 (b) is a diagram showing the screen display after scrolling.
[0039]
The operation of the main routine of this embodiment will be described below with reference to FIG .
(Main routine)
When the touch panel input unit 22 detects a touch on the touch panel 21a, it transmits a predetermined message corresponding to the touched position to the control unit 23 (FIG. 3, S1).
[0040]
When the control unit 23 receives a message that a thumbnail 30 has been pressed (FIG. 3, S2), it highlights the screen frame of that thumbnail 30 (FIG. 3, S3), as shown in FIG. 8 (b).
Furthermore, when the control unit 23 receives a message that the record button 44 has been pressed (FIG. 3, S4), it moves (drags) the display position of the record button 44 in accordance with the movement of the contact position on the touch panel 21a.
[0041]
In this state, as shown in FIG. 9 (a), when the record button 44 is dropped onto the play button 40 (FIG. 3, S5), the control unit 23 returns the record button 44 to its original position and displays it, and then executes the play/record routine described below (FIG. 3, S6).
On the other hand, if the record button 44 is dropped out of the range of the play button 40 (FIG. 3 , S5), the control unit 23 returns the record button 44 to its original position and displays it, and then executes the recording routine described below (FIG. 3, S7).
[0042]
Furthermore, when the control unit 23 receives a message that the playback button 40 has been pressed (FIG. 3, S8), it obtains the file name of the image file corresponding to the highlighted thumbnail 30. The control unit 23 reads the identification information associated with this image file from the magneto-optical recording medium 19 via the data access unit 18 (FIG. 3, S9).
[0043]
If a meaningful image file name is recorded in the identification information recording area (FIG. 3, S10), the control unit 23 executes a simultaneous playback routine (FIG. 3, S11) which will be described later.
On the other hand, if no significant image file name is recorded in the identification information recording area (FIG. 3, S10), the control unit 23 executes a playback routine (FIG. 3, S12) which will be described later.
[0044]
In addition, the control unit 23 executes default processing for messages other than those mentioned above (FIG. 3, S13), and then returns to step S1.
The above-described operation of the main routine realizes an event-driven user interface.
[0045]
Next, each routine will be described in detail.
(Recording routine)
FIG. 4 is a diagram showing the recording routine.
When this recording routine starts, the control unit 23 moves (seeks) the recording/reproducing head of the data access unit 18 to a new recording location on the magneto-optical recording medium 19 (FIG. 4, S21).
[0046]
Meanwhile, the subject image is photoelectrically converted in the image sensor 13. The photoelectrically converted recorded image undergoes gamma correction and other processes in the signal processing unit 15, and is then sequentially stored in the frame memory 16 (S22 in FIG. 4 ).
The display image creation unit 20 displays this recorded image on the monitor of the liquid crystal display unit 21 (FIG. 4, S23).
[0047]
The data compression/expansion unit 17 performs image compression on the recorded image in the frame memory 16 using a discrete cosine transform, inter-frame prediction, and the like (FIG. 4 , S24).
The compressed recorded image is sequentially recorded onto the magneto-optical recording medium 19 via the recording/reproducing head of the data access unit 18 (FIG. 4 , S25).
In this state, if a message appears on the screen indicating that the stop button 39 has been pressed (FIG. 4, S26), the control unit 23 will record an appropriate file name, date data, etc. on the magneto-optical recording medium 19 and terminate the recording routine.
[0048]
(Playback/Recording Routine)
FIG. 5 shows the playback/recording routine.
When this playback/recording routine is started, the control unit 23 moves (seeks) the recording/playback head of the data access unit 18 to a new recording location on the magneto-optical recording medium 19 (FIG. 5 , S31).
[0049]
Identification information indicating the file name of the reproduced image (the image file corresponding to the highlighted thumbnail 30) is recorded in the attribute data area of the recording location (FIG. 5, S32).
Meanwhile, the subject image is sequentially photoelectrically converted in the image sensor 13. The photoelectrically converted recorded image undergoes gamma correction and other processes in the signal processing unit 15, and is then sequentially stored in the frame memory 16 (FIG. 5, S33).
[0050]
The data compression/expansion unit 17 performs image compression on the recorded image in the frame memory 16 using a discrete cosine transform, inter-frame prediction, and the like (FIG. 5, S34).
Here, the control unit 23 moves (seeks) the recording/reproducing head of the data access unit 18 to the recording location on the magneto-optical recording medium 19 (FIG. 5 , S35).
The data access unit 18 sequentially records the compressed recorded images in the above-mentioned recording locations via the recording/reproducing head (FIG. 5, S36).
[0051]
At this time, the control unit 23 generates identification information indicating the current playback state (fast forward, pause, etc.) of the playback image, and records this identification information in the above-mentioned recording location via the recording/playback head of the data access unit 18 (FIG. 5, S37).
As the recording operation described above continues, the "number of unrecorded frames" remaining as unprocessed frames in the frame memory 16 decreases. When the number of unrecorded frames falls below a predetermined value S, the control unit 23 interrupts the recording operation described above and proceeds to the playback operation described below (FIG. 5, S38).
[0052]
First, the control unit 23 moves (seeks) the recording/reproducing head of the data access unit 18 to the reproduction position on the magneto-optical recording medium 19 (FIG. 5 , S39).
The data access unit 18 reads out the compressed reproduced image (FIG. 5, S40).
The data compression/expansion unit 17 performs expansion processing on this reproduced image and stores it sequentially in the frame memory 16 (FIG. 5, S41).
[0053]
During the playback operation, the number of unrecorded frames stored in the frame memory 16 from the image sensor 13 increases moment by moment. When the number of unrecorded frames exceeds a predetermined value E, the control unit 23 interrupts the playback operation and switches to recording (FIG. 5, S42).
Meanwhile, the display image creation unit 20 displays the reproduced image and the recorded image in the frame memory 16 as follows (FIG. 5, S43).
[0054]
9 (a), when a message that the standard size button 31 has been pressed is transmitted to the display image creation unit 20, the display image creation unit 20 displays the reproduced image at the maximum size on the monitor. Note that in this initial state, the recorded image is not displayed.
When the standard size button 31 is toggled from this initial state, the display image creation unit 20 switches between the recorded image and the reproduced image on the screen in sequence (FIG. 5 , S44, S45).
[0055]
On the other hand, as shown in Figure 9 (b), when a message indicating that the split display button 32 has been pressed is transmitted to the display image creation unit 20, the display image creation unit 20 maps the playback image and the recorded image to the left and right of the monitor screen and displays them together (Figure 5 S46). In this case, the display image creation unit 20 displays the playback image closer to the camera and larger than the recorded image. Furthermore, to create a perspective effect in which the playback image and the recorded image are facing each other, the display image creation unit 20 displays the screen frame in a trapezoidal shape. Furthermore, the screen frame of the playback image is white, and the screen frame of the recorded image is red.
[0056]
If a message appears during this operation indicating that the stop button 39 has been pressed (FIG. 5, S47), the control unit 23 records an appropriate file name, date data, etc. on the magneto-optical recording medium 19 and ends the playback/recording routine.
(Playback routine)
FIG. 6 is a diagram showing the playback routine.
[0057]
When this playback routine starts, the control unit 23 moves (seeks) the recording/playback head of the data access unit 18 to the playback location on the magneto-optical recording medium 19 (FIG. 6 , S51).
The data access unit 18 reads out the compressed reproduced image (FIG. 6, S52).
The data compression/expansion unit 17 performs expansion processing on this reproduced image and stores it sequentially in the frame memory 16 (FIG. 6, S53).
[0058]
The display image creation unit 20 displays the reproduced image in the frame memory 16 on the monitor (S54 in FIG. 6 ).
During such a playback operation, if a message appears indicating that the record button 44 has been pressed (FIG. 6, S55), the control unit 23 executes the above-mentioned playback/recording routine (FIG. 6 , S56).
[0059]
Furthermore, if a message is displayed during such a playback operation indicating that the stop button 39 has been pressed (FIG. 6, S57), the control unit 23 ends the playback routine.
(Simultaneous playback routine)
FIG. 7 is a diagram showing the simultaneous playback routine.
When this simultaneous playback routine starts, the control unit 23 moves the recording/playback head of the data access unit 18 to the playback location of the image file (hereinafter referred to as the "first playback image") corresponding to the highlighted thumbnail 30 (FIG. 7, S60).
[0060]
The data access unit 18 reads out the compressed first reproduced image (FIG. 7, S61).
The data compression/expansion unit 17 performs expansion processing on this first reproduced image and stores it sequentially in the frame memory 16 (FIG. 7, S62).
The control unit 23 repeats the playback operation for this first playback image until the number of undisplayed frames of the first playback image exceeds a predetermined value M (FIG. 7, S63).
[0061]
Here, when the number of undisplayed frames of the first playback image reaches a predetermined value M or more, the control unit 23 interrupts the playback operation for the first playback image.
In this state, the control unit 23 moves the recording/playback head to the playback position of the image file (hereinafter referred to as the "second playback image") indicated by the file name of the identification information (FIG. 7, S64).
[0062]
The data access unit 18 reads out the compressed second reproduced image (FIG. 7, S65).
The data compression/expansion unit 17 performs expansion processing on this second reproduced image and stores it sequentially in the frame memory 16 (FIG. 7, S66).
The control unit 23 repeats the reproduction operation for this second reproduction image until the number of undisplayed frames of the second reproduction image exceeds a predetermined value M (FIG. 7 , S67).
[0063]
Here, when the number of undisplayed frames of the second reproduced image reaches or exceeds a predetermined value M, the control unit 23 interrupts the reproduction operation for the second reproduced image and shifts to the reproduction operation for the first reproduced image.
Meanwhile, the display image creation unit 20 displays the reproduced image and the recorded image in the frame memory 16 as shown in Fig. 10. That is, the display image creation unit 20 maps the first reproduced image and the second reproduced image to the left and right of the monitor screen and displays them together (Fig. 7, S68). In this case, the display image creation unit 20 displays the first reproduced image larger than the second reproduced image. Furthermore, to create a perspective effect in which the first reproduced image and the second reproduced image appear to face each other, the display image creation unit 20 transforms the screen frame into a trapezoid.
[0064]
According to the above-described operation, in the first embodiment, it is possible to capture an image of a subject while displaying a playback image on a monitor.
Therefore, it is possible to reliably capture the subject's natural reaction when viewing the reproduced image. Furthermore, since reading and writing are performed on the magneto-optical recording medium 19 in a time-division manner, it is sufficient to provide only one data access unit 18, which simplifies the device configuration.
[0065]
Furthermore, by toggling the standard size button 31, the recorded image and the reproduced image can be switched at any time on the monitor screen.
Therefore, by displaying only the recorded image on the monitor screen, it is possible to carry out photography in exactly the same way as face-to-face photography using a conventional electronic camera.
On the other hand, by displaying only the playback image on the monitor screen, it becomes possible to capture the "operator's natural reaction" to the playback image without making the operator aware of the fact that face-to-face shooting is being performed.
[0066]
Furthermore, since the playback image is displayed at a position close to the camera unit 11a, it is possible to photograph the viewer of the playback image from almost the front.
Furthermore, on the liquid crystal display unit 21, a perspective effect is given in which the recorded image and the reproduced image appear to face each other.
Therefore, in face-to-face photography, the LCD display 21 displays a reproduced image as if the operator were directly looking at it, thereby creating a more realistic feeling in face-to-face photography.
[0067]
Furthermore, since the reproduced image is displayed in a larger scale than the recorded image, the natural facial expression of the subject can be captured more reliably without the subject being overly conscious of the recorded image.
Furthermore, when the first reproduced image is read from the magneto-optical recording medium 19, the second reproduced image can be automatically reproduced simultaneously.
Furthermore, two images that are reproduced simultaneously are arranged on the left and right sides of the screen, and a perspective effect is applied to display the two images facing each other. In particular, in face-to-face photography, the situation in which the operator was viewing the reproduced images can be faithfully reproduced and displayed on the liquid crystal display unit 21.
[0068]
Furthermore, since the second reproduced image is displayed in a smaller size than the first reproduced image, the situation during recording in which the operator was looking at a small reproduced image on the liquid crystal display part 21 can be faithfully reproduced on the liquid crystal display part 21.
Furthermore, since the display frames of the reproduced image and the recorded image are different in color, the operator can instantly tell which image is which by simply glancing at the liquid crystal display section 21.
[0069]
Furthermore, an example of the use of such an electronic camera is at a wedding reception, a thank-you party, or other party venue, where each participant takes a face-to-face photograph of the guest of honor while viewing a playback image of the guest. This type of face-to-face photographing allows participants to reliably and easily capture a sincere message for the guest of honor.
Next, another embodiment will be described.
[0070]
Second Embodiment
FIG. 11 is a functional block diagram of the second embodiment (corresponding to claims 1, 3 to 9, and 11 to 14).
The second embodiment is characterized in that it includes two systems each of frame memories 16a and 16b, compression/decompression units 17a and 17b, and data access units 18a and 18b.
[0071]
11. The same components as those shown in FIG. 2 are given the same reference numerals and are shown in FIG . 11 , and the description of the components will be omitted here.
The second embodiment is characterized in that the two recording/reproducing heads of the data access units 18a and 18b are used to simultaneously access the magneto-optical recording medium 19 to perform reproducing/recording operations and simultaneous reproducing operations.
[0072]
Therefore, in the second embodiment, it is possible to obtain substantially the same effects as in the first embodiment described above.
In particular, the effect unique to the second embodiment is that the amount of information that can be read from or written to the magneto-optical recording medium 19 at one time is increased, thereby reducing dropped frames that occur during playback/recording operations or simultaneous playback.
[0073]
In the above-described embodiment, the reproduced image and the recorded image are displayed with a perspective effect, but the present invention is not limited to this display format. For example, the two images may be displayed side by side as shown in Fig. 12 (a), or the two images may be displayed nested as shown in Fig. 12 (b).
[0074]
In the above-described embodiment, a magneto-optical recording medium 19 is used as the recording medium , but the present invention is not limited to this configuration, and generally any recording medium capable of recording images may be used, such as a magnetic recording medium or an optical recording medium. In particular, a memory card, which has excellent random access capabilities, is suitable as a recording medium for use in the present invention.
[0075]
Furthermore, in the above-described embodiment, the display colors of the screen frames are different between the reproduced image and the recorded image, but this is not limiting. For example, the average brightness levels of the reproduced image and the recorded image may be different, one may be made to blink, or the blinking cycles of the two may be different.
In the first embodiment, the time-division processing is controlled in accordance with a change in the number of unprocessed frames, but the present invention is not limited to this. For example, the time-division processing may be controlled in accordance with the passage of time.
[0076]
[Effects of the Invention]
As explained above, when the device of claim 1 is provided in an electronic camera , it is possible to take an image of a subject while displaying a reproduced image on a monitor.
Therefore, with this electronic camera, it is possible to reliably capture the subject's natural reaction when viewing a reproduced image.
[0077]
In particular, when performing face-to-face photography, the operator focuses on the reproduced image, so that the operator's natural facial expression can be reliably captured without being overly conscious of face-to-face photography.
Furthermore, even when used for purposes other than face-to-face photography, the recorded image and the reproduced image can be associated with each other when photographing and recording.
[0078]
In the inventions described in claims 2 and 3 , since reading and writing to the recording medium is performed in a time-division manner, it is sufficient to provide at least one access mechanism for the recording medium, thereby simplifying the device configuration.
In the fourth and fifth aspects of the present invention, the recording medium is accessed simultaneously from two locations, which increases the amount of information that can be read from or written to the recording medium at one time, thereby enabling playback and recording operations to be performed in parallel smoothly.
[0079]
In the sixth aspect of the present invention, the recorded image and the reproduced image are switched and displayed in response to an external operation.
Therefore, in an electronic camera to which the recording and reproducing technology of the present invention is applied, by displaying only the recorded image on the monitor screen, it is possible to carry out photographing in exactly the same way as face-to-face photographing with a conventional electronic camera.
On the other hand, by displaying only the reproduced image on the monitor screen, it becomes possible to capture the "actual reaction of the operator" to the reproduced image without making the operator aware of the fact that face-to-face shooting is being performed.
[0080]
In the seventh aspect of the present invention, the display image generating section generates an image output for displaying a composite image of the recorded image and the reproduced image on the screen.
Therefore, with an electronic camera to which the recording and playback technology of the present invention is applied, it is possible to reliably capture the natural reaction of "the person viewing the playback image" while adjusting the camera angle etc. based on the recorded image.
It should be noted that a perspective effect may be applied on the monitor screen so that the recorded image and the reproduced image appear to face each other.
[0081]
In this case , in face-to-face photography, the display on the monitor screen is such that the operator is looking directly at the reproduced image, thereby creating an even more realistic feeling in face-to-face photography.
Furthermore, the reproduced image may be displayed at a larger scale than the recorded image.
[0082]
In this case , in face-to-face photography, the operator does not have to be overly conscious of himself (recorded image) on the monitor screen, and the operator's natural facial expression can be captured more reliably.
In the eighth aspect of the present invention, the recording means writes identification information for identifying the reproduced image onto the recording medium together with the recorded image.
[0083]
Therefore, by reading out the identification information of the recorded image later, it is possible to reliably identify the image that was being reproduced when the recorded image was recorded.
In the invention described in claim 9, when the reproducing means reads out the first reproduced image from the recording medium, it also reads out the second reproduced image indicated by the "identification information recorded together with the first reproduced image" in parallel.
[0084]
Therefore, two playback images that were associated at the time of recording can be automatically played back simultaneously.
In the tenth aspect of the present invention, since data is read from the recording medium in a time-division manner, it is sufficient to provide at least one access mechanism for the recording medium, thereby simplifying the device configuration.
[0085]
In the eleventh aspect of the present invention, since the recording medium is accessed from two locations, it is possible to increase the amount of information that can be read from the recording medium at one time, thereby enabling smooth playback of two images that are played back simultaneously.
The two images that are reproduced simultaneously may be arranged on the left and right sides of the screen, and may be displayed with a perspective effect to make the two images appear to face each other.
[0086]
In this case , in face-to-face photography, the situation in which the operator was looking at the reproduced image can be faithfully reproduced.
The second reproduced image may be displayed at a smaller size than the first reproduced image.
This makes it possible to faithfully reproduce the situation during face-to-face photography, where the operator views a playback image on a small monitor screen.
[0087]
In the invention as set forth in claim 12 , the display format of the reproduced image and the recorded image are made different, so that the operator can accurately distinguish between the reproduced image and the recorded image by glancing at the display format.
In the invention as set forth in claim 13, the compression process of the recorded image and the expansion process of the reproduced image are performed by time-division switching.
As described above, an electronic camera to which the present invention is applied can take more diverse photographs than ever before, and can reliably and interestingly capture the natural expressions of subjects.
[Brief explanation of the drawings]
FIG. 1 is a diagram showing the appearance of a first embodiment.
FIG. 2 is a functional block diagram of the first embodiment.
FIG. 3 is a flowchart illustrating a main routine of the first embodiment.
FIG. 4 is a diagram showing a recording routine.
FIG. 5 is a diagram showing a playback/recording routine.
FIG. 6 is a diagram showing a playback routine.
FIG. 7 is a diagram showing a simultaneous playback routine.
FIG. 8 is a diagram illustrating a screen display.
FIG. 9 is a diagram showing a screen display during playback/recording.
FIG. 10 is a diagram showing a screen display during simultaneous playback.
FIG. 11 is a functional block diagram of a second embodiment.
FIG. 12 is a diagram showing another example of a screen display.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 1 Main body 11a Camera section 12 Taking lens 13 Image pickup element 14 A/D conversion section 15 Signal processing section 16 Frame memory 16a, 16b Frame memory 17 Data compression/expansion section 17a, 17b Compression/expansion section 18 Data access section 18a, 18b Data access section 19 Magneto-optical recording medium 20 Display image creation section 21 Liquid crystal display section 21a Touch panel 22 Touch panel input section 23 Control section 25 Microprocessor 30 Thumbnail 31 Standard size button 32 Split display button 33 Scroll button 35 Reverse feed button 36 Fast forward button 37 Skip button 38 Reverse playback button 39 Stop button 40 Playback button 41 Reverse frame feed button 42 Pause button 43 Frame feed button 44 Recording button