An image-capturing device according to the present invention includes: an image-capturing element which captures an image of a photographic subject and outputs image data; a data extraction device which extracts data corresponding to a region designated in advance within the image data outputted from the image-capturing element; a recording device which records the extracted data and the image data into a recording medium individually; a reproduction device which reads out the extracted data from the recording medium; and a display control device which outputs an image signal to a display device, so as to display an image according to the extracted data read out by the reproduction device.

INCORPORATION BY REFERENCE

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an image-capturing device which records a photographic image as electronic data upon a recording medium.

2. Description of the Related Art

A type of electronic still camera or the like is per se known which is equipped with an LCD monitor, and which reproduces image data recorded upon a recording medium by displaying it upon the LCD monitor. Generally, an LCD monitor which is fitted to this type of electronic still camera has a smaller number of display pixels than the number of data pixels in the image data. Because of this, when displaying upon the LCD monitor a reproduced image from image data, the image data is displayed after having been subjected to a subsampling or culling procedure at some certain predetermined ratio. When the image data has been thus processed by subsampling it and displaying it upon the LCD monitor, it becomes difficult to check finely detailed portions of the photographic image from the reproduced image. In particular, in order to check whether or not the focus is accurately set upon a desired subject for photography, it is necessary to display the portion of the image data in which this desired subject for photography is included upon the screen of the LCD monitor without performing any subsampling processing upon the region which includes it.

In order to display a portion of the region of the photographic image recorded upon the recording medium upon the LCD monitor, it is necessary to designate to the electronic still camera which portion of the photographic image is to be displayed. Furthermore, in the case that the image data which is recorded upon the recording medium is image data which has been subjected to a compression process, it is necessary to perform the decompression process upon the image data before displaying it upon the LCD monitor. Due to this, when reading out the image data which is recorded upon the recording medium in order to check the focus state, it has not been possible immediately to display an image of the region which is to be checked upon the LCD monitor.

SUMMARY OF THE INVENTION

The objective of the present invention is to provide an image-capturing device which is capable of displaying a predetermined region of image data which is recorded upon a recording medium.

In order to attain the above objective, the first image-capturing device according to the present invention comprises: an image-capturing element which captures an image of a photographic subject and outputs image data; a data extraction device which extracts data corresponding to a region designated in advance within the image data outputted from the image-capturing element; a recording device which records the extracted data and the image data into a recording medium individually; a reproduction device which reads out the extracted data from the recording medium; and a display control device which outputs an image signal to a display device, so as to display an image according to the extracted data read out by the reproduction device.

The second image-capturing device according to the present invention comprises: an image-capturing element which captures an image of a photographic subject and outputs image data; an information generation device which generates information which specifies a position of a region designated in advance; a recording device which records the information from the information generation device and the image data outputted from the image-capturing element into a recording medium individually; a reproduction device which reads out the information and the image data from the recording medium; and a display control device which outputs an image signal to a display device, so as to display an image according to a portion of the image data corresponding to the information which is read out by the reproduction device.

In this second image-capturing device, it is preferred that: a data extraction device which extracts data corresponding to the region designated in advance within the image data outputted from the image-capturing element; and a compression processing device which performs a predetermined compression process upon the image data, are further provided, and: the recording device records the extracted data and the image data after compression processing into the recording medium individually when the compression processing device performs the compression process, and records the information which specifies the position of the region and the image data without compression into the recording medium individually when the compression processing device does not perform the compression process; and the display control device outputs an image signal to the display device so as to display an image according to the extracted data when the extracted data is read out by the reproduction device, and outputs an image signal to the display device so as to display an image according to a portion of the image data which corresponds to the information when the information is read out by the reproduction device. In this case, it is preferred that a decision device which decides whether or not, when the compression processing device performs the compression process, a compression ratio of the image data is higher than a predetermined value, is further provided, and: the recording device records the information which specifies the position of the region and the image data after the compression process into the recording medium individually when it is decided by the decision device that the compression ratio is higher than the predetermined value, and records the extracted data and the image data after the compression process into the recording medium individually when it is decided by the decision device that the compression ratio is not higher than the predetermined value; the reproduction device performs a decompression process, if the read out image data has been subjected to the compression process; and the display control device outputs an image signal to the display device so as to display an image according to a portion of the image data after the decompression process corresponding to the information when the information is read out by the reproduction device, and outputs an image signal to the display device so as to display an image according to the extracted data when the extracted data is read out by the reproduction device. Also, it is preferred that: the compression processing device performs the compression process upon the extracted data and upon the image data; the recording device records the extracted data after the compression process and the image data into the recording medium individually when the compression processing device performs the compression process; and the reproduction device performs the decompression process, if the extracted data which has been read out has been subjected to the compression process.

The third image-capturing device according to the present invention comprises: an image-capturing element which captures an image of a photographic subject and outputs image data; a data extraction device which extracts data corresponding to a region designated in advance within the image data outputted from the image-capturing element; and a recording device which records the extracted data and the image data into a recording medium individually.

In the first and third image-capturing devices, it is preferred that the data extraction device extracts a number of items of data approximately equal to a number of display dots of the display device which displays the image according to the extracted data.

In the above image-capturing devices, it is preferred that the region which is designated in advance is a region which is used for focusing.

An image display control method according to the present invention comprises: a reproduction process which reads out at least one of extracted data, which have been extracted from image data which was obtained by an image-capturing device, so as to correspond to a region designated in advance and recorded, and a pair of information specifying a position of the region and the image data; and a display control process which controls a display device so as to display an image according to the extracted data when the extracted data is read out by the reproduction process, and to display an image according to a portion of the image data corresponding to the information when the pair of the information and the image data are read out by the reproduction process.

A computer-readable computer program product according to the present invention contains an image display program. The image display program comprises: a reproduction process which reads out at least one of extracted data, which have been extracted from image data which was obtained by an image-capturing device, so as to correspond to a region designated in advance and recorded, and a pair of information specifying a position of the region and the image data; and a display control process which controls a display device so as to display an image according to the extracted data when the extracted data is read out by the reproduction process, and to display an image according to a portion of the image data corresponding to the information when the pair of the information and the image data are read out by the reproduction process.

This computer program product is a recording medium on which the image display program is recorded.

Or, this computer program product is a carrier wave in which the image display program is embodied as a data signal.

An image-capturing control method according to the present invention comprises: outputting image data after capturing an image of a photographic subject by an image-capturing element; extracting data corresponding to a region designated in advance within the outputted image data; recording the extracted data and the image data into a recording medium individually; reading out the extracted data from the recording medium when reproducing; and controlling a display device so as to display an image according to the read out extracted data.

Another image-capturing control method according to the present invention comprises: outputting image data after capturing an image of a photographic subject by an image-capturing element; generating position information which specifies a position of a region designated in advance; recording the position information and the image data outputted from the image-capturing element into a recording medium individually; reading out the position information and the image data when reproducing; and controlling a display device so as to display an image according to a portion of the image data corresponding to the read out position information.

Another image-capturing control method according to the present invention comprises: outputting image data after capturing an image of a photographic subject by an image-capturing element; extracting data corresponding to a region designated in advance within the outputted image data; and recording the extracted data and the image data into a recording medium individually.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the following, several preferred embodiments of the present invention will be described with reference to the figures.

FIG. 1is a block diagram showing the overall structure of an electronic still camera according to a first preferred embodiment of the present invention. The electronic still camera shown in this figure comprises a photographic lens301, a CCD302, a CCD driver303, a pre-processing circuit304, an A/D conversion circuit305, an ASIC for image processing306, a buffer memory307, a card memory308, a flash memory309, an LCD color monitor310, an external interface circuit311, a main CPU312, an actuation assembly313, a power supply circuit314, and a focus driver315. The actuation assembly313includes a half press switch and a full press switch which are operated by a release button not shown in the figure, a mode changeover switch which changes over between a recording mode and a reproduction (or replay) mode, and a focus area selection switch and a menu switch which will be described hereinafter. When each of these switches in the actuation assembly313is actuated, an actuation signal from said switch is despatched to the CPU312. Here, the recording mode is an operational mode in which this electronic still camera records a photographic image, while the reproduction mode is an operational mode in which it reproduces an image which has previously been recorded.

When the mode changeover switch of the actuation assembly313is actuated to the recording mode side, the CPU312starts the execution of a program for the recording mode. When a half press actuation signal from the half press switch is inputted to the CPU312, the CPU312outputs a control signal for the ASIC for image processing306. This ASIC for information processing306drive controls the CCD302, which is an image-capturing device, via the CCD driver303. This CCD driver303controls the operational timing for the CCD302to accumulate charge, and for reading out this accumulated charge. Furthermore, the CPU312outputs a drive signal to the focus driver315based upon the focus adjustment state of the photographic lens301which is detected by a focus adjustment state detection procedure which will be described hereinafter. This focus driver315performs focus adjustment by driving a focusing lens (not particularly shown) within the photographic lens301. Furthermore, the CPU312performs a predetermined exposure calculation, based upon the brightness of the photographic subject as detected by a photometric device not shown in the figure.

When, after the actuation signal from the half press switch, a full press actuation signal from the full press switch is inputted to the CPU312, an image of the photographic subject is formed by the photographic lens301upon the CCD302. The CCD302accumulates signal charges according to the brightness of the light from the photographic subject which is incident upon said CCD302. These signal charges which are accumulated by the CCD302are emitted according to a timing signal from the CCD driver303and are inputted to the pre-processing circuit304. This pre-processing circuit304comprises an AGC circuit and a CDS circuit, and performs analog signal processing such as amplifying the analog image signal, reduction of noise, black level adjustment, and the like. The A/D conversion circuit305converts this analog image signal after analog processing into a digital signal. This signal converted into digital format is fed to the ASIC for image processing306, which performs image pre-processing such as outline compensation and gamma correction, color temperature adjustment, color space conversion processing, and the like. After this pre-processing, the image data is temporarily stored in a memory307which is a buffer memory.

The image data which is stored in the memory307after image pre-processing is processed into image data for display by the ASIC for image processing306, and is displayed as the result of photography upon an external monitor such as the LCD color monitor310. During this image data processing, the buffer memory307is utilized as a working memory.

The LCD color monitor310is a small sized liquid crystal display device which is provided to the electronic still camera, and it has a smaller number of display pixels than the number of pixels in the image captured by the CCD302. Thus, when displaying the image of the photographic subject which has been captured by the CCD302upon the LCD color monitor310, the pixel data from the CCD302are subsampled or thinned out at a predetermined ratio which corresponds to the display resolution of the LCD color monitor310, so as to be processed into image data for display.

Furthermore, the ASIC for image processing306performs format processing (image post-processing) for JPEG compression upon the image data which have been subjected to the above described image pre-processing. This ASIC for image processing306performs data compression at a predetermined compression ratio according to the JPEG method upon the image data after image post-processing. After a predetermined file name has been appended to the image data which has been subjected to data compression according to the JPEG method, it is recorded in the card memory308which is a removable non volatile recording medium (a PC card or a CF card or the like) such as a flash memory or the like.

The program for controlling the CPU312to perform the above described processing is stored in the flash memory309. The CPU312reads in the program from the flash memory309and executes this program, using the buffer memory307as a working memory.

The power supply circuit314comprises a DC/DC converter, and supplies a predetermined power supply voltage to each of the blocks described above. The external interface circuit311is a circuit which sends and receives image data between this camera and an external device such as a personal computer or a monitor or the like.

As described above, a focus area selection switch is included in the actuation assembly313. The focus area is an area which automatically detects (auto-focus AF) the adjustment state of the focal position of the photographic lens301.FIG. 2is a figure showing several focusing areas which are provided within the photographic field of the camera according to the embodiment 1. As shown in this figure, any of five focus areas can be set: a focus area A which is positioned at the center of the photographic field; a focus area B which consists of the upper left portion of the photographic field with the portion thereof which overlaps the central focus area A eliminated; a focus area C which consists of the upper right portion of the photographic field with the portion thereof which overlaps the central focus area A eliminated; a focus area D which consists of the lower left portion of the photographic field with the portion thereof which overlaps the central focus area A eliminated; and a focus area E which consists of the lower right portion of the photographic field with the portion thereof which overlaps the central focus area A eliminated.

The focus area selection switch is used for choosing which of the five focus areas described above will be utilized for detection the focal position adjustment state.FIG. 3is a figure showing this focus area selection switch313a. This focus area selection switch313aoutputs an actuation signal which specifies in which direction it is actuated—upwards, downwards, leftwards, or rightwards. When, in the state in which the focus area A ofFIG. 2is selected, the focus area selection switch313ais actuated upwards and rightwards, the CPU312selects the focus area C; and, when in the state in which the focus area A ofFIG. 2is selected, the focus area selection switch313ais actuated upwards and leftwards, the CPU312selects the focus area B. Similarly when, in the state in which the focus area A ofFIG. 2is selected, the focus area selection switch313ais actuated downwards and rightwards, the CPU312selects the focus area E; and, when in the state in which the focus area A ofFIG. 2is selected, the focus area selection switch313ais actuated downwards and leftwards, the CPU312selects the focus area D. Furthermore when, in the state in which the focus area D or the focus area E is selected, the focus area selection switch313ais actuated upwards, the CPU312selects the focus area A; and when, in the state in which the focus area B or the focus area C is selected, the focus area selection switch313ais actuated downwards, the CPU312likewise selects the focus area A. It should be understood that the focus area selection switch313ais also actuated for frame advance and frame backup during image reproduction, as will be explained hereinafter, and is also utilized for menu selection and decision.

The focus area information which is set by the focus area selection switch313ais stored within the CPU312, and is read out from the CPU312when an actuation signal is inputted to the CPU312from the half press switch. The CPU312outputs commands to the ASIC for image processing306so as to display a frame upon the LCD color monitor310which informs the photographer of the focus area which has been selected. This displayed frame consists of an intensified display of the outline of the focus area which is selected. It should be understood that the display of this frame which appears in order to indicate the focus area when the half press actuation signal is received, is terminated after a predetermined time period has elapsed from the start of reception of the half press actuation signal.

The A/F operation is performed as will now be described. The CPU312, detects the contrast from the data portion, from among the image data which is captured by the CCD302and is stored in the memory307, which corresponds to the focus area which is set. And the CPU312then detects the adjustment state of the focal position of the photographic lens301based upon the contrast which has been detected. Generally, the relationship between the pixel positions upon the CCD302and the pixel output values defines a curve which corresponds to the image of the photographic subject, and the greater is the change of the curve, the greater is the contrast of the image of the photographic subject. Accordingly, the CPU312performs focus adjustment by detecting the adjustment state of the focal position, and by driving the focus driver315and thereby adjusting the focal position of the photographic lens301, according to a so called hill climbing method (scanning and contrast detecting method of AF), so as to maximize the contrast of the image of the photographic subject.

When the mode changeover switch of the actuation assembly313is actuated to the reproduction mode side, the CPU312starts the execution of a program for the reproduction mode. The image data item among the recorded image data which was recorded the last is read out into the CPU312, if image data are recorded in the card memory308. After the read out image data is transferred to the buffer memory307, the compressed data is subjected to decompression processing by the ASIC for image processing306. The data after decompression processing is processed by the ASIC for image processing306into image data for display, and is displayed upon the LCD color monitor310as a reproduced image. Data which is not compressed is processed by the ASIC for image processing306just as it is into image data for display, and is displayed upon the LCD color monitor310as a reproduced image.

If, when displaying the reproduced image upon the LCD color monitor310, the focus area selection switch313ais actuated in the leftwards direction, then the CPU312reads out from the card memory308the image data which was recorded one frame previously to the image data which is currently being displayed upon the CPU312(i.e., the actuation in the leftward direction during display of a reproduced image functions as frame reverse actuation). The read out image data is processed into image data for display by the ASIC for image processing306and is displayed upon the LCD color monitor310. In the same manner, if, when displaying the reproduced image upon the LCD color monitor310, the focus area selection switch313ais actuated in the rightward direction, then the CPU312reads out from the card memory308the image data which was recorded one frame later than the image data which is currently being displayed upon the CPU312(i.e., the actuation in the rightward direction during display of a reproduced image functions as frame forward actuation). Again, the read out image data is processed into image data for display by the ASIC for image processing306and is displayed upon the LCD color monitor310. In this manner, during reproduction processing, frame advance and frame reverse for the reproduced image are performed by using the focus area selection switch313a.

Just as the LCD color monitor310has a smaller number of display pixels than the number of pixels in the image captured by the CCD302, it also has a smaller number of display pixels than the number of pixels in the image data which is stored in the card memory308. Thus, when displaying the entire recorded image for one frame upon the LCD color monitor310, the image data which are read out from the card memory308are subsampled at a predetermined ratio which corresponds to the display resolution of the LCD color monitor310, so as to be processed into image data for display. Here, the image according to the image data for display which is processed using the entire image data for one frame recorded in the card memory308will be termed the main image.

In the reproduction mode it is possible, not to subsample the image data which is read out from the card memory308according to the display resolution of the LCD color monitor310, but rather to perform display by processing a portion of the image data which has been read out just as it is into image data for display. The partial image which is displayed upon the LCD color monitor310is the image portion which corresponds to the focus area which was selected when recording this recorded image in the card memory308. The image generated from the image data for display which is processed using the portion which corresponds to the original focus area in this manner will be termed the cutout image.

The cutout region for the cutout image is a rectangular region which is positioned in the vicinity of the central point of the relevant focus area shown in FIG.2and described above, and in that figure these cutout regions are shown by the broken lines. The image data in the cutout regions are displayed upon the LCD color monitor310without performing any subsampling procedure. In other words, the number of data elements in each of the cutout regions shown by the broken lines inFIG. 2is the same as the number of display pixels upon the LCD color monitor310. During reproduction mode, the setting which determines whether the reproduced image will be the main image or will be one of these cutout images is performed by using a menu procedure which will now be described.

The detailed settings for this electronic still camera are established by performing menu processing. As described above, a menu switch is included within the actuation assembly313for initiating this menu processing.FIG. 4is a figure for explanation of various menu setting screens which are displayed upon the LCD color monitor310of this electronic still camera. When the menu switch is actuated, the menu setting screen shown inFIG. 4Ais displayed upon the LCD color monitor310. For example, the item “photometric method” may be selected from the menu by actuating the focus area selection switch313ain the upward and downward directions (actuation in the upwards and downwards directions during menu processing functions as menu selection actuation). When the item “photometric method” is determined upon by actuating the focus area selection switch313ain the rightward direction (actuation in the rightward direction during menu processing functions as menu determination actuation), the menu setting screen related to photometric method shown inFIG. 4Bis displayed upon the LCD color monitor310.

By “photometric method” is meant a setting for where in the photographic field the brightness of the photographic subject is to be measured for the CPU312to perform exposure calculation. Selections for “photometric method” include “multi” which means that exposure calculation is to be performed using light intensity values that have been measured over the photographic field by subdividing it into a predetermined number of regions, “spot” which means that exposure calculation is performed using light intensity values that have been measured in the vicinity of a predetermined region within the photometric field, “center-weighted” which means that exposure calculation is performed using light intensity values that have been measured over the portions of the photographic field while appropriately weighting the central part of the photographic field, and the like.

When, in the state in which the menu setting screen ofFIG. 4Ais being displayed upon the LCD color monitor310, the item “picture quality mode” is selected from this menu and is determined upon, a menu setting screen related to picture quality mode like that shown inFIG. 4Cis displayed upon the display LCD color monitor310. By “picture quality” is meant a setting for the data compression ratio when recording the above described image data in the card memory308. This menu includes a setting “HI” in which the image data is not compressed but is recorded just as it is, a setting “FINE” in which compression is performed so as to reduce the size of the image data to about ¼ of the original, a setting “NORMAL” in which compression is performed so as to reduce the size of the image data to about ⅛ of the original, and a setting “BASIC” in which compression is performed so as to reduce the size of the image data to about 1/16 of the original.

When, in the state in which the menu setting screen ofFIG. 4Ais being displayed, the focus area selection switch313ais actuated in the upward and downward direction, a menu screen like that shown inFIG. 5Aappears upon the display LCD color monitor310with items which are related to the reproduction procedure. For example, the item “reproduction method” may be selected from this menu by actuating the focus area selection switch313ain the upward and downward direction. When this item “reproduction method” is determined upon by actuating the focus area selection switch313ain the rightward direction, then a menu screen related to reproduction method like that shown inFIG. 5Bappears upon the display LCD color monitor310.

By “reproduction method” is meant a setting for whether, during the above described reproduction image display, the main image is to be displayed, or alternatively a cutout image is to be displayed. During reproduction processing, this electronic still camera either displays the main image or a cutout image, according to the “reproduction method” which is set by this menu processing.

During menu processing, the operator selects the desired item upon a menu by actuating the focus area selection switch313ain the upward and the downward direction, and determines upon the current selection by actuating the focus area selection switch313ain the rightward direction. The CPU312terminates menu processing when the menu switch is actuated for a second time by the operator.

With this electronic still camera according to the first preferred embodiment of the present invention, when recording image data in the card memory308in the recording mode, information for use in cutout image display is recorded in the card memory308along with each frame of image data. This information for use in cutout image display can be either (1) the image data itself for the cutout region; or (2) information which specifies the position of the image data for the cutout region within the image data which is recorded in the card memory308. If the image data for one frame is being compressed for recording in the card memory308, the electronic still camera records the above described type of data (1) as information for displaying the cutout image, while, if the image data for one frame is being recorded in the card memory308without compression, the electronic still camera records the above described type of data (2) as information for displaying the cutout image. The information which specifies the position of the image data for the cutout region within the image data which is recorded in the card memory308may be, for example, the memory address at which is stored the image data for the cutout region.

When a reproduced image is to be displayed upon the LCD color monitor310in the reproduction mode, if the main image is to be displayed, one frame of the compressed image data is read out from the card memory308, and is displayed upon the LCD color monitor310after decompression processing. On the other hand, if a cutout image is to be displayed, if (1) cutout image data is recorded in the card memory308, then this cutout image data is read out from the card memory308and is displayed; while, if (2) information for displaying the cutout image is recorded in the card memory308, then the data among one frame of non-compressed image data which is extracted based upon the information for displaying the cutout image is read out from the card memory308and is displayed.

The flow of a main processing routine which is executed by the CPU312of the above described electronic camera will now be explained with reference to the flow chart shown in FIG.6. When a power supply switch, not shown in the figures, of this electronic still camera is turned ON, the CPU312reads in this main processing routine from the flash memory309and starts to execute it. First, in a step S11, the CPU312initializes the various blocks of the system, and then the flow of control proceeds to the next step S12. In this step S12, the CPU312performs a test in order to determine whether or not selection of compression ratio is to be performed. If upon the menu described above the item “picture quality mode” is indeed selected then the result of this decision in this step S12is YES, and thus the flow of control proceeds to the next step S13, while on the other hand, if the item “picture quality mode” is not selected then the result of this decision in this step S12is NO, and thus the flow of control skips to a step S14. In the step S13, the CPU312determines upon a compression ratio for data compression based upon the details of the picture quality mode setting, and then the flow of control proceeds to the step S14.

In this step S14, the CPU312performs a test in order to determine whether or not selection of focus area is to be performed. If the above described focus area selection switch313ais being actuated then the result of this decision in this step S14is YES, and thus the flow of control proceeds to the next step S15, while on the other hand, if the above described focus area selection switch313ais not being actuated, then the result of this decision in this step S14is NO, and thus the flow of control skips to a step S16. In the step S15, the CPU312changes the focus area used during A/F operation according to the actuation signal from the focus area selection switch313a, and then the flow of control proceeds to the step S16.

In this step S16, the CPU312performs a test in order to determine whether or not selection of reproduction method is to be performed. If upon the menu described above the item “reproduction method” is indeed selected then the result of this decision in this step S16is YES, and thus the flow of control proceeds to the next step S17, while on the other hand, if the item “reproduction method” is not selected, then the result of this decision in this step S16is NO, and thus the flow of control skips to a step S18. In the step S17, the CPU312determines upon display of the main image or of a cutout image during reproduction mode based upon the details of reproduction method setting, and then the flow of control proceeds to the step S18.

In this step S18, the CPU312performs a test in order to determine whether or not the mode changeover switch is being actuated to the recording mode for taking a photograph. If the mode changeover switch is being actuated to the recording mode then the result of this decision in this step S18is YES, and thus the flow of control proceeds to the next step S19, while on the other hand, if the mode changeover switch is not being actuated to the recording mode, then the result of this decision in this step S18is NO, and thus the flow of control skips to a step S20. In the step S19, the CPU312performs recording processing to take the photograph by starting the execution of a program for the recording mode, and then the flow of control proceeds to the step S20.

In this step S20, the CPU312performs a test in order to determine whether or not the mode changeover switch is being actuated to the reproduction mode. If the mode changeover switch is being actuated to the reproduction mode then the result of this decision in this step S20is YES, and thus the flow of control proceeds to the next step S21, while on the other hand, if the mode changeover switch is not being actuated to the reproduction mode, then the result of this decision in this step S20is NO, and thus the flow of control skips to a step S22. In the step S21, the CPU312performs reproduction processing by starting the execution of a program for the reproduction mode, and then the flow of control proceeds to the step S22.

In this final step S22, the CPU312performs the procedure which accompanies change of state—for example it executes a power consumption reduction procedure if the camera has not been operated for a predetermined time period—and then the flow of control loops back to the step S12, to repeat the above described cycle.

FIG. 7is a flow chart showing the flow of a routine for recording mode which is executed by the CPU312. In the first step S31, the CPU312makes a decision as to whether or not photography is possible. If the result of this decision is YES, so that photography is indeed possible, then the flow of control proceeds to the next step S32, while if the result of this decision is NO, so that photography is not possible (which may be for any of several reasons, such as for example that no card memory308is currently fitted to the camera or the like) then the flow of control passes to the end of this recording mode routine and the processing ofFIG. 7is terminated.

In the step S32, the CPU312performs exposure calculation using the results of photometry according to the “photometric method” which is currently set, and performs A/F calculation from the image data for the focus area which is currently set. In the next step S33, the CPU312drives the focus driver303based upon the results of the A/F calculation which has just been performed, and thus drives the focus lens of the photographic lens301. In the next step S34, the CPU312performs exposure setting for the CCD driver303, based upon the results of the exposure calculation performed above. And in the next step S35, the CPU312drains any residual charge from the CCD302by using the CCD driver303.

In the next step S36, the CPU312accumulates charge in the CCD302, and then the flow of control proceeds to the next step S37. In this step S37, the CPU312reads out the accumulated charge in the CCD302via the CCD driver303. In the next step S38, the CPU312makes the ASIC for image processing306perform white balance calculation, and in the next step S39, perform gamma correction processing. In the next step S40, the CPU312separates the frame of image data that has been captured into five portions which correspond to the five focus areas described above. In this case, for this division, it is sufficient only to obtain the memory addresses in the buffer memory307in which the image data is stored, at which the boundary data elements of the focus areas are stored.

In the next step S41, the CPU312decides whether or not image compression is to be performed. If the picture quality mode is set to any of “FINE”, “NORMAL”, or “BASIC”, then the result of this decision is YES, and the flow of control proceeds to the next step S42, while if the picture quality mode is set to “HI” then the result of this decision is NO, and the flow of control is transferred to a step S44. In the step S42, the CPU312extracts the image data for the cutout region which corresponds to the focus area which is currently set from the one frame of image data, and then the flow of control proceeds to the next step S43.

In this step S43, the CPU312outputs a command to the ASIC for image processing306to compress this one frame of image data at the compression ratio which is currently set. When the data compression process has been completed the flow of control proceeds to the next step S45. In this step S45, the CPU312records in the card memory308this one frame of image data after the compression process and also the information for the cutout region which has been extracted. If in the above described step S42the cutout image data was extracted, then the information for the cutout region is the cutout image data which was extracted. Furthermore, if in the step S44which will be described hereinafter coordinates were extracted, then the information for the cutout region is these coordinates which have been extracted. And, in the final step S46, the CPU312makes a decision as to whether or not the photographic process has been completed, and if the result of this decision is that indeed photography has been completed then the processing of this routine is terminated, while on the other hand if the result of this decision is that the photographic process has not yet been completed, then the flow of control loops back to this step S46again, thus to repeat the step S46until the photographic process is finally completed.

On the other hand, if the result of the decision in the above described step S41is NO, then the flow of control is transferred to the step S44, in which the CPU312extracts the coordinates which correspond to the focus area which is currently set, and then the flow of control is transferred to the step S45. By “coordinates” here is meant values which specify, when this one frame of image data is laid out in the memory space, the position at which the image data for the cutout region which corresponds to the currently set focus area is located within this memory space.

FIG. 8is a flow chart showing the flow of a routine for reproduction mode which is executed by the CPU312. In the first step S51, the CPU312takes a decision as to whether or not magnified reproduction is to be performed. If the current setting for “reproduction method” is “cutout image”, then the result of this decision in the step S51is YES and the flow of control proceeds to the next step S52, while, if the current setting for “reproduction method” is “main image”, then the result of this decision in the step S51is NO and the flow of control is transferred to a step S56. In the step S52, the CPU312takes a decision as to whether or not this magnified image to be displayed is recorded in the card memory308. If the cutout image data is indeed recorded in the card memory308then the CPU312comes to a YES decision in this step S52and the flow of control continues to the next step S53, while if the cutout image data is not recorded in the card memory308then the CPU312comes to a NO decision in this step S52and the flow of control is transferred to the step S54.

In the step S53, the CPU312searches for the starting address of the cutout image data which is recorded in the card memory308, and then the flow of control continues to the next step S55. In this step S55, the CPU312reads out the image data for the cutout region which is recorded in the storage address which has been found and displays it upon the LCD color monitor310, and then the processing of theFIG. 8routine is terminated.

If the result of the decision in the above described step S52is NO then the flow of control is transferred to the step S54, in which the CPU312reads out the coordinates which correspond to the focus area from the card memory308, and, using these coordinates which have been read out, finds the starting address in the one frame of image data which is recorded in the card memory308at which the data is stored which corresponds to the focus area; and then the flow of control proceeds to the step S55, already described.

If the result of the decision in the above described step S51is NO then the flow of control is transferred to the step S56, in which the CPU312searches for the starting address of the one frame of image data which is recorded in the card memory308, and then the flow of control continues to the next step S57. In this step S57, the CPU312reads out the one frame of image data which is recorded in the storage address which has been found and displays it upon the LCD color monitor310, and then the processing of theFIG. 8routine is terminated.

According to the first preferred embodiment of the present invention as described above, the following beneficial results are obtained.(1) If the image data is to be recorded in the card memory308with no data compression (the picture quality mode is “HI”), then during the recording mode, when recording the image data in the card memory308, only information which is necessary for reading out the cutout image data which corresponds to the focus area which is currently selected, i.e. the coordinates of the cutout image data, is extracted (in the step S44), and this information is recorded in the card memory308along with the non compressed image data for this one frame (in the step S45). During the reproduction mode, when performing display of the cutout image, the starting address at which the data which corresponds to the focus area which was selected at the time of photography is stored is searched from the coordinates of the cutout image data which are recorded in the card memory308(in the step S54), and, using this address, only the cutout image data is read out from the card memory308and is displayed upon the LCD color monitor310. Accordingly, with this first preferred embodiment of the present invention, it is possible to shorten the time period which is required for display, as compared to the prior art case in which, after having read out the entire image data for one frame recorded in the card memory308, only the cutout image data was displayed, since the amount of data which must be read out is reduced. As a result it becomes possible to check the state of focusing immediately, since it is possible immediately after photography to display upon the LCD color monitor310an image of the focus region which is currently set.(2) On the other hand, if the image data is to be recorded in the card memory308using data compression (the picture quality mode is “FINE”, “NORMAL”, or “BASIC”), then during the recording mode, when recording the image data in the card memory308, only the cutout image data is extracted from the one frame of image data (in the step S42), and this cutout image data is recorded without compression in the card memory308along with the image data after compression for this one frame (in the step S45). During the reproduction mode, when performing display of the cutout image, the address at which the cutout image data recorded in the card memory308is stored is searched (in the step S53), and only the cutout image data is read out from the card memory308and is displayed upon the LCD color monitor310. Accordingly, with this first preferred embodiment of the present invention, it is possible to shorten the time period which is required for display, as compared to the prior art case in which, after having read out the entire image data after compression for one frame recorded in the card memory308, only the cutout image data was displayed after decompression processing, since the amount of data which must be read out is reduced. As a result it becomes possible to check the photographic image immediately, since it is possible immediately after photography to display upon the LCD color monitor310an image of the focus region which is currently set.

In the above described step S45, the CPU312recorded in the card memory308one frame of image data after data compression, and information which specified the cutout region which was to be extracted. When in the step S42the CPU312is recording in the card memory308the cutout image data which has been extracted as the information which specifies the cutout region, this cutout image data is recorded in the card memory308without compression, i.e. just as it is. Instead of this, it would also be possible, as an alternative, to record this cutout image data in the card memory308after compressing it, just as in the case of the full frame of image data. In this case, the data compression ratio at which the cutout image data is compressed should desirably be a compression ratio close to the compression ratio at which the full frame of image data is compressed.

In the case of an electronic still camera according to the second preferred embodiment of the present invention, during the recording mode, when recording the image data in the card memory308, if the currently set “picture quality mode” is “BASIC”, in other words if the data compression ratio is set to a high compression ratio, then the information for displaying the cutout image which is recorded in the card memory308together with the full frame of image data after compression is made to be position information (for example, coordinates in the memory space) of the image data for the cutout region.

FIG. 9is a flow chart showing the flow of a recording mode routine executed by the CPU312in the second preferred embodiment of the electronic camera of the present invention. The point of difference from the flow chart ofFIG. 7relating to the first preferred embodiment is that additional steps S41A, S41B, and S41C are present. These points of difference will now be explained.

In the step S41A to which the flow of control is transferred upon a YES decision from the step S41ofFIG. 9, the CPU312makes a decision as to whether or not the set “picture quality mode” is “BASIC”. If the result of this decision is YES so that indeed the set “picture quality mode” is “BASIC”, then the flow of control is transferred to a step S41B, while on the other hand if the result of this decision is NO so that the set “picture quality mode” is not “BASIC”, then the flow of control is transferred to the step S42.

In the step S41B, the CPU312extracts the coordinates which correspond to the focus area which is currently set, and then the flow of control proceeds to a step S41C. By “coordinates” is meant values which specify the position at which the image data in the cutout region which corresponds to this currently set focus area is located, when this one frame of image data is laid out within the memory space. In the next step S41C, the CPU312outputs a command to the ASIC for image processing306which orders it to compress this one frame of image data at the predetermined compression ratio. When this data compression process has been completed the flow of control is transferred to the step S45. In this case, in the step S45, the CPU312records in the card memory308the one frame of image data after compression and also information specifying the extracted cutout region. This information specifying the cutout region is the coordinate data which has been extracted in the step S41B.

In the case of “BASIC” when the compression ratio is high, the length of the time period which is required for reading out the image data for one frame after compression which is recorded in the card memory308is short, since the amount of codes after the data compression process becomes small. Accordingly, when performing display of the cutout image in the reproduction mode, after having read out the one frame of image data after compression and having performed the decompression process upon it, the cutout image data is extracted based upon the information which specifies the cutout region, and display of the cutout region is performed. In the step S41B the information is extracted which is required for extracting the cutout image data after the decompression process in the reproduction mode, in other words the coordinates which correspond to the focus area.

On the other hand, in the case of “FINE” or “NORMAL” when the compression ratio is relatively low, the length of the time period which is required for reading out the image data for one frame after compression which is recorded in the card memory308is long, since the amount of codes after the data compression process is not greatly reduced as compared with the amount before compression. Accordingly, when performing display of the cutout image in the reproduction mode, only the cutout image data which is recorded separately from the one frame of image data is read out, so as to perform display of the cutout image. In the step S42, the cutout image data which corresponds to the focus area is extracted separately from the one frame of image data.

According to this second preferred embodiment of the present invention as explained above, the following beneficial results are obtained.(1) If, in the step S41A where it is decided whether or not the data compression ratio is high (BASIC), the decision result is that the data compression ratio indeed is high, then (in the step S41B) the information which is required for reading out only the cutout image data which corresponds to the currently set focus area, in other words the coordinates of the cutout image data, is extracted, and is recorded (in the step S45) in the card memory308along with the image data for one frame after the compression process. When performing display of a cutout image in the reproduction mode, the starting address at which the data which corresponds to the focus area is stored is searched (in the step S54) from the coordinates of the cutout image data which are recorded in the card memory308, and the cutout image data which is extracted from the image data which has been read out from the card memory308and has been decompressed, using the address which has been determined by this searching process, is displayed upon the LCD color monitor310. If the compression ratio is high, the time period which is required for reading out the one frame of image data after compression which is recorded in the card memory308is short, and it is acceptable not to record the cutout image data for cutout image data display. As a result, it becomes possible to economize upon the amount of utilization of the card memory308.(2) On the other hand, if the data compression ratio is low (the picture quality mode is “FINE”, or “NORMAL”), then, in the same way as in the first preferred embodiment of the present invention described above, during the recording mode, when recording the image data in the card memory308, only the cutout image data is extracted from the one frame of image data (in the step S42), and this information is recorded in the card memory308along with the image data after compression for this one frame (in the step S45). Accordingly, it becomes possible to check the focus state of the focus region immediately after photography, since it is possible to shorten the time period which is required for display when displaying the cutout image in the reproduction mode.

In the above explanation, “checking the focus state” includes the processes of checking whether or not the main photographic subject is properly in focus, checking upon blurring of the background to the main photographic subject, checking the depth of the photographic field, and the like.

Although the above explanation was made in terms of selecting the focus area among the five possible focus areas A through E which are determined upon in advance, it would also be possible to select any arbitrary region within the photographic field. In such a case, it would be arranged for a region of the cutout image data to be set corresponding to this arbitrary focus area which has been selected.

Furthermore, although the above explanation was made in terms of setting the region of the cutout image data to correspond to the focus area, it would also be acceptable to set it to correspond to a region which was set by the “photometric method”, in other words to the A/E region, instead of this focus area.

Yet further, it would also be acceptable to make it possible to select the region for the cutout image data to be any region within the photographic field, without any relation to the focus area. In such a case, it would be arranged to set the region for the cutout image data to correspond to any area which was selected.

It would also be acceptable to make it possible to check the exposure or the white balance adjustment, instead of the focal state. In such a case the user would check, from the cutout image which was being displayed upon the LCD color monitor310, upon the presence or absence of white clipping or black clipping of the main photographic subject, or upon the presence or absence of color fogging due to poor white balance adjustment.

Although the present invention has been explained in an example of an electronic still camera. However, the invention is not limited to the example. The present invention can be applied to a cellular phone, a personal computer or the like which is provided with a CCD camera. In other words, the invention can be applied to all types of image-capturing device in which an image-capturing element such as a CCD is provided and the captured image data are recorded in a recording medium such as a memory.

In case that the invention is applied to a personal computer or the like, the control program mentioned above can be provided via a recording medium such as a CD-ROM or a data signal such as Internet.FIG. 10illustrates how this may be achieved. A personal computer400receives the program via a CD-ROM404. The personal computer400has a function of connecting with a telecommunication line401. A computer402is a server computer which provides the program mentioned above and stores the program in a recording medium such as a hard disk403. The telecommunication line401may be a telecommunication line for connection with the Internet, for personal computer communication or the like or it may be a dedicated telecommunication line. The computer402reads out the program stored in the hard disk403, and transmits the program to the personal computer400via the telecommunication line401. In other words, the program is embodied in a carrier wave as a data signal and is transmitted via the telecommunication line401. Thus, the program is provided as various kinds of computer-readable computer program product, such as a recording medium, a carrier wave and the like.