JP2008306381A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow easy customizing of the design and arrangement of operation switches such as a release button in accordance with the size and length of a finger, resulting in improved operativity. <P>SOLUTION: A switch image contained in the taken image of a subject is extracted, and a switch image of which size and display position are adjusted is displayed on a display means. A touch panel is provided on the front side of the display means. When an input operation in the touch panel is detected within a region corresponding to the region where the switch image is displayed, a specified operation set in advance is executed. Since the operation part (for example, release button) can be an image of favorite shape and appearance, the operation part is customized to a favorite design. Further, the position and shape of the operation part can be customized freely according to the thickness and length of a finger. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an imaging apparatus, and more particularly to an imaging apparatus in which the design and arrangement of operation means can be customized.

  The following items are proposed for customizing the design and layout of operation means by arranging switches on the touch panel arbitrarily or having a touch panel divided into blocks on the screen and changing the sensing area shape. Has been.

  Japanese Patent Application Laid-Open No. 2004-228561 describes a technique that can register an extracted part of a captured image as an icon.

  Japanese Patent Application Laid-Open No. 2004-228561 describes a technique that can arbitrarily arrange a switch on a touch panel.

Japanese Patent Application Laid-Open No. 2004-228561 describes a technology that can arbitrarily arrange a switch on an LCD in accordance with an elastic deformation switch.
JP 2006-310944 A JP 2006-344168 A JP 2007-36492 A

  However, the technique described in Patent Document 1 simply registers an icon obtained by extracting a part of a photographed image, and the shape of the switch cannot be arbitrarily changed. Therefore, the operability cannot be changed. There was a problem that it could not be done.

  Further, the technique described in Patent Document 2 has a problem that the position and shape of the switch cannot be changed because the switch is selected from a prescribed shape and arrangement.

  In addition, the technique described in Patent Document 3 has a problem in that changes in the position and shape of switches that can be arranged are limited. In addition, even if the size and shape are changed, there is a problem that the operability cannot be changed because the detection range is constant.

  In addition, when using the GUI registration function using the paint function used in game consoles and personal computer software, the liquid crystal screen provided in the digital camera is a small screen. There is a problem that designing the lever shape is very troublesome. Further, even if the appearance of the operation means and the like can be customized, there is a problem that it takes more time to match the detection range and detection position to the image.

  The present invention has been made in view of such circumstances, and it is possible to easily customize the design and arrangement of operation means such as a release button according to the length and size of a finger, thereby improving operability. Objective.

  The imaging apparatus according to claim 1 is an imaging apparatus including display means provided on at least one surface of the apparatus body, and a touch panel having substantially the same shape as the display means provided on the front surface of the display means. Imaging means for acquiring an image of a subject, extraction means for extracting the switch image from an image including a switch image acquired by the imaging means, and the switch image extracted by the extraction means in the display means Display control means for displaying; detection means for detecting an input to the touch panel; and detecting means for detecting an input to an area overlapping the area where the switch image is displayed by the display control means; and the detection means Control means for executing a predetermined operation set in advance for the switch of the switch image when an input is detected at To.

  According to the imaging apparatus of the first aspect, the switch image included in the acquired image of the subject is extracted and displayed on the display unit. A touch panel is provided in front of the display means, and when an input to the touch panel and an area overlapping the area where the switch image is displayed is detected, a predetermined operation preset in the switch image is detected. Execute. Thereby, since the operation part (for example, release button etc.) can be made into the shape and appearance of a favorite image, an operation part can be customized to a favorite design.

  The imaging apparatus according to claim 2, further comprising input means for inputting at least one of a position and a size of a switch image to be displayed on the display means in the imaging apparatus according to claim 1, wherein the display The control means causes the display means to display the switch image at a standard position and size, and changes at least one of the position and size of the switch image in accordance with an input from the input means. It is characterized by that.

  According to the imaging device of claim 2, at least one of the position and the size is input, and displayed on the display unit at the standard position and size based on the input position and size. Change the display of the switch image. Thereby, according to the thickness of a finger, the length of a finger, etc., the position of an operation part, a shape, etc. can be customized freely.

  The imaging apparatus according to claim 3 is the imaging apparatus according to claim 1 or 2, further comprising storage means built in the apparatus body, wherein the storage means includes a switch image extracted by the extraction means, The display control means stores at least one piece of information on the position, size, and display area of the switch image displayed on the display means.

  According to the imaging apparatus of the third aspect, the switch image and at least one piece of information about the position, size, and display area of the switch image are stored in the storage unit built in the apparatus main body. As a result, it is possible to register an operation unit customized freely. In addition, since the operation unit is registered in the memory built in the apparatus, the registered data is not erased even if the detachable memory is changed.

  An imaging apparatus according to a fourth aspect is the imaging apparatus according to any one of the first to third aspects, wherein the display means includes a plurality of pixels arranged two-dimensionally, and the touch panel includes a plurality of two-dimensionally arranged touch panels. The detection block includes a plurality of detection blocks smaller than the plurality of pixels.

  The imaging device according to claim 5 is the imaging device according to claim 4, wherein the extraction unit includes a second display control unit that displays an image acquired by the imaging unit on the display unit, and the touch panel. A second detection means for detecting an input to the input; a first coordinate calculation means for calculating the coordinates of the detection block whose input has been detected by the second detection means; and a second detection means that is substantially closed. A second extraction unit that extracts a pixel in the region surrounded by the detection block of the coordinates calculated by the first coordinate calculation unit as the switch image when the region is detected; It is a characteristic.

  According to the imaging apparatus of the fifth aspect, the coordinates of the position of the detection block where the input is detected are calculated, and the pixels in the region surrounded by the detection block of the calculated coordinates are extracted as the switch image. Thereby, an image desired by the operator can be used as the operation unit.

  The image pickup apparatus according to claim 6 is the image pickup apparatus according to claim 4 or 5, wherein the second coordinates for calculating the coordinates of the detection block corresponding to the coordinates of the pixels of the switch image displayed on the display means are provided. The information processing apparatus further includes a calculation unit, and the detection unit detects an input to a detection block arranged at the coordinates calculated by the second coordinate calculation unit.

  According to the imaging apparatus of claim 6, the coordinates of the detection block corresponding to the coordinates of the pixel of the switch image displayed on the display means are calculated, and the input in the detection block arranged at the calculated coordinates is detected. To do. Thereby, the displayed image can be used as an operation unit.

  The imaging apparatus according to claim 7, wherein a plurality of the display units are provided on at least one of an upper surface and a back surface, and the display control unit includes the plurality of display units. The display means for displaying the desired area is selected from the display means to display the desired area.

  According to the imaging apparatus of the seventh aspect, a display unit is selected from a plurality of display units and a desired area is displayed. Thereby, the position and shape of the operation unit can be freely customized.

  According to the present invention, the operability can be improved by easily customizing the design and arrangement of the operation means such as the release button in accordance with the length and size of the finger.

  The best mode for carrying out the digital camera 1 according to the present invention will be described below in detail with reference to the accompanying drawings.

  FIG. 1 is a front perspective view illustrating an embodiment of the digital camera 1, and FIG. 2 is a rear perspective view illustrating the embodiment of the digital camera 1. The digital camera 1 receives light passing through a lens with an image sensor, converts it into a digital signal, and records it on a storage medium.

  The camera body 10 of the digital camera 1 is formed in the shape of a horizontally long rectangular box, and on the front thereof, as shown in FIG. 1, a lens 11, a strobe 12, an AF auxiliary light lamp 13, a strobe light control sensor 14, and the like. Is arranged. An operation display LCD 15 and a touch panel 16 are provided on the upper surface of the camera body 10. Moreover, as shown in FIG. 2, the display part 17 and the touchscreen 18 are provided in the back surface. In addition, a battery insertion portion and a memory card slot are provided on the lower surface of the camera body 10 (not shown) via a tripod screw hole and an openable / closable cover, and a battery 19 is connected to the battery insertion portion and the memory card slot. The memory card 20 is loaded.

  The lens 11 is constituted by a retractable zoom lens, and is extended from the camera body 10 by setting the camera mode to the photographing mode with a mode switch. In addition, since the zoom mechanism and the retracting mechanism of the lens 11 are well-known techniques, the description of the specific configuration is omitted here.

  The strobe 12 includes a xenon tube as a light source and a reflector so that strobe light can be emitted toward a main subject.

  The AF auxiliary light lamp 13 is composed of, for example, a high-intensity LED, and emits light as necessary during AF.

  The strobe light control sensor 14 adjusts the light emission amount of the strobe 12.

  The operation display LCD 15 is a liquid crystal display capable of color display. As shown in FIG. 3, Nj (N and j are integers) pixels in the x direction and Nk (N and k are integers) in the y direction. The pixels are two-dimensionally arranged, and are used as a user interface display panel by displaying operation means such as a release button, a mode switch, and a mode dial. In the present embodiment, the case where N is 4 will be described as an example.

  The touch panel 16 is an analog resistive film type in which a transparent conductive film (ITO) is formed on one side (mainly a film or glass) and is bonded with a predetermined distance so that the transparent conductive films formed on each other face each other. It is a touch panel, and a signal is input when the transparent conductive films come into contact with each other when pressed with a finger or a pen. As shown in FIG. 4, the touch panel 16 is a two-dimensional arrangement of j (j is an integer) detection blocks in the x direction and k (k is an integer) detection blocks in the y direction. Detection is possible for each detection block. The touch panel 16 is provided on the front surface of the operation display LCD 15 as shown in FIG. The detection block of the touch panel 16 is associated with the pixels of the operation display LCD 15 in a four-to-one relationship. By performing the calculation shown in Equation 1, the desired pixel A of the operation display LCD 15 and the touch panel 16 are displayed. The relative position to the detection block a can be determined.

[Equation 1]
a = A × (1/4)
The display unit 17 is a liquid crystal display capable of color display. Similar to the operation display LCD 15, Nh (N and h are integers) pixels in the x direction and Ni (N and i are integers) in the y direction. Are two-dimensionally arranged. The display unit 17 is used as an image display panel for displaying a photographed image in the playback mode, and includes a mode dial, a display / return button, a zoom button, a cross button, a MENU / OK button, a DISP button, and a BACK button. When the operation means such as is displayed, it is used as a user interface display panel. In the photographing mode, a through image is displayed as necessary, and is used as an electronic viewfinder for checking the angle of view. In the present embodiment, the case where N is 4 will be described as an example.

  The touch panel 18 is provided on the front surface of the display unit 17, and is an analog resistive film type touch panel similar to the touch panel 16. The touch panel 18 is h (h is an integer) number of detection blocks in the x direction and i (i in the y direction). (Integer) are two-dimensionally arranged, and detection is possible for each detection block. The detection block of the touch panel 18 is associated with the pixels of the display unit 17 in a four-to-one relationship, and the detection of the desired pixel B and the touch panel 18 of the display unit 17 is performed by performing the calculation shown in Equation 2. The relative position with respect to the block b can be determined.

[Equation 2]
b = B × (1/4)
Next, the operation means will be described. The original switch image is used when the operation unit has an original switch image registered in advance and the user has not registered a desired image to be used for the operation unit. When an input is detected by a detection block corresponding to a pixel on which the operation means is displayed by a method described later, a predetermined operation corresponding to each operation means as described below is performed. A method for registering the operation means, a method for using the registered operation means, and the like will be described in detail later.

  The release button is composed of a two-stroke switch comprising so-called “half-press” and “full-press”. When the release button is “half-pressed”, the digital camera 1 operates AE / AF, and “full-press” to execute shooting.

  The mode switch is for setting the mode of the digital camera 1 and is slidably disposed between the “reproduction position” and the “photographing position”. The digital camera 1 is set to “playback mode” by sliding the mode switch to “playback position” and set to “shooting mode” by matching to “shooting position”.

  The mode dial functions as shooting mode setting means for setting the shooting mode of the digital camera 1, and the shooting mode of the digital camera 1 is set to various modes depending on the setting position of the mode dial. For example, an “auto shooting mode” in which the aperture, shutter speed, and the like are automatically set by the digital camera 1, a “movie shooting mode” for shooting a movie, a “person shooting mode” suitable for portrait shooting, and a moving subject shooting “Sports shooting mode”, “Landscape shooting mode” suitable for landscape shooting, “Night scene shooting mode” suitable for sunset and night scene shooting, the scale of the aperture is set by the photographer, and the shutter speed is automatically set by the digital camera 1 The photographer sets the “aperture priority shooting mode” to be set automatically, the shutter speed is set by the photographer, and the “shutter speed priority shooting mode” in which the digital camera 1 automatically sets the aperture scale, the aperture, the shutter speed, etc. “Manual shooting mode” to be set, “Switch shooting mode” to capture images registered as operation means (details will be described later) It is.

  The mode dial is used to call up various setting screens for shooting and playback functions. That is, when this mode dial is pressed during shooting, a setting screen for image size (number of recorded pixels), sensitivity, etc. is displayed on the display unit 17, and when this mode dial is pressed during playback, an image is erased on the display unit 17. A print reservation (DPOF) setting screen is displayed.

  The display / return button is used for a display content switching instruction (display function) on the display unit 17 and used for an instruction (return function) for canceling an input operation, and is assigned according to the setting state of the digital camera 1. The function is switched.

  The zoom button functions as zoom instruction means for instructing zooming, and includes a zoom tele button for instructing zooming to the telephoto side and a zoom wide button for instructing zooming to the wide angle side. In the digital camera 1, when the zoom tele button and the zoom wide button are operated in the shooting mode, the focal length of the lens 11 changes. In addition, when the zoom tele button and the zoom wide button are operated in the playback mode, the image being played back is enlarged or reduced.

  The cross button functions as direction instruction means for inputting instructions in four directions, up, down, left, and right, and is used, for example, for selecting a menu item on a menu screen.

  The MENU / OK button functions as a button (MENU button) for instructing transition from the normal screen to the menu screen in each mode, and also functions as a button (OK button) for instructing selection confirmation, execution of processing, and the like. .

  The DISP button functions as a button for instructing display switching of the display unit 17. When the DISP button is pressed during shooting, the display of the display unit 17 is switched from ON to framing guide display to OFF. When this DISP button is pressed during reproduction, the normal reproduction → character display reproduction → multi reproduction is switched.

  The BACK button functions as a button for instructing to cancel the input operation or return to the previous operation state.

  Next, the electrical configuration of the digital camera 1 will be described. FIG. 6 is a block diagram showing an electrical configuration of the digital camera 1.

  As shown in the figure, the digital camera 1 includes a system control circuit 110, an input determination unit 112, a memory 116, a nonvolatile memory 118, a memory 120, an image sensor 124, a timing generation circuit (TG) 126, and an A / D converter. 130, memory control means 132, image processing circuit 134, video encoder 136, operation image generation means 138, distance measurement control means (AF means) 140, exposure control means (AE means) 142, barrier control means 143, zoom control means 146 , A compression / decompression circuit 148, media control means 150, strobe control means 160, and the like.

  The system control circuit 110 performs overall control of the entire digital camera 1 according to a predetermined control program based on the operation signal input from the input determination unit 112.

  The input determination unit 112 detects inputs from the touch panels 16 and 18. The input determination unit 112 calculates the pixel of the operation display LCD 15 associated with the detection block in which the input is detected on the touch panel 16 and outputs the result to the system control circuit 110. Further, the input determination unit 112 determines the pixels of the display unit 17 related to the detection block in which the input is detected on the touch panel 18 and outputs the result to the system control circuit 110. When the input determination unit 112 detects the input of the detection block corresponding to the pixel on which the operation unit is displayed, the system control circuit 110 performs a predetermined operation corresponding to the operation unit.

  The memory 116 stores a control program executed by the system control circuit 110 and various data necessary for control.

  The nonvolatile memory 118 stores various setting information relating to the operation of the digital camera 1 such as user setting information.

  The memory (SDRAM) 120 is used as a calculation work area for the system control circuit 110 and also as a temporary storage area for image data and the like.

  The image sensor 124 is composed of, for example, a color CCD having a predetermined color filter array, and electronically captures an image of a subject imaged by the lens 11. A timing generation circuit (TG) 126 outputs a timing signal for driving the image sensor 124 in response to a command from the system control circuit 110.

  The A / D converter 130 samples and holds the R, G, B signals for each pixel with respect to the image signal output from the image sensor 124 (correlated double sampling processing) and amplifies the analog R, G signals that have been amplified. , B signals are converted into digital R, G, B signals and output.

  The memory control unit 132 outputs the digital R, G, and B signals output from the A / D converter 130 to the memory 120.

  The image processing circuit 134 includes a synchronization circuit (a processing circuit that interpolates a spatial shift of the color signal associated with the color filter array of the single CCD and converts the color signal into a simultaneous expression), a white balance correction circuit, and a gamma correction circuit. , A contour correction circuit, a luminance / color difference signal generation circuit, etc., and in accordance with a command from the system control circuit 110, the input image signal is subjected to necessary signal processing to obtain luminance data (Y data) and color difference data (Cr, Image data (YUV data) composed of (Cb data).

  The D / A converter 135 converts the image signal processed by the image processing circuit 134 into an analog signal and supplies the analog signal to the video encoder 136.

  The video encoder 136 controls display on the display unit 17 in accordance with a command from the system control circuit 110. That is, in accordance with a command from the system control circuit 110, a video signal (for example, an NTSC signal, a PAL signal, an SCAM, etc.) for displaying an image signal input from the D / A converter 135 or the operation image generating means 138 on the display unit 17 is displayed. Signal) and output to the display unit 17.

  The operation image generation unit 138 generates an image used for the operation unit based on the image acquired by the image sensor 124. Details of the operation image generation unit 138 will be described later.

  The distance measurement control means (AF means) 140 includes a high-pass filter that passes only high-frequency components of the G signal, an absolute value processing section, an AF area detection section that cuts out a signal within a predetermined focus area (for example, the center of the screen) It is comprised from the integrating | accumulating part which integrates the absolute value data in AF area.

  The exposure control means (AE means) 142 calculates a physical quantity necessary for AE control and AWB control from the input image signal in accordance with a command from the system control circuit 110. For example, as a physical quantity required for AE control, one screen is divided into a plurality of areas (for example, 16 × 16), and an integrated value of R, G, and B image signals is calculated for each divided area.

  When the power switch is turned on, the barrier control unit 143 is provided on the front surface of the lens 11b, releases the lens barrier 11a that protects the lens 11b, and exposes the lens 11b to the surface.

  When the digital camera 1 is not turned on, the power supply control unit 145 supplies power only from the battery 19 to the system control circuit 110 when the digital camera 1 is turned on. In the control, power is supplied from the battery 19 to each block.

  The zoom control unit 146 controls the lens 11b in response to a command from the system control circuit 110.

  The compression / decompression circuit 148 performs compression processing in a predetermined format on the input image data in accordance with a command from the system control circuit 110 to generate compressed image data. Further, in accordance with a command from the system control circuit 110, the input compressed image data is subjected to a predetermined format decompression process to generate uncompressed image data.

  The media control means 150 controls reading / writing of data with respect to the memory card 20 loaded in the media slot in accordance with a command from the system control circuit 110.

  The strobe control unit 160 controls the light emission of the strobe 12 in accordance with a command from the system control circuit 110.

  Next, the operation of the digital camera 1 of the present embodiment configured as described above will be described.

  First, a general image capturing and recording procedure will be described. As described above, when the digital camera 1 is turned on by a power button (not shown), the original operation means is displayed on the operation display LCD 15 and the display unit 17, and various operations can be performed. Then, when the shooting mode is set by the mode switch, the lens barrier 11a is released, the lens 11b is extended, and a shooting standby state is set.

  Under this photographing mode, the subject light that has passed through the lens 11b forms an image on the light receiving surface of the image sensor 124 through the diaphragm 11c. On the light receiving surface of the image sensor 124, a large number of photodiodes (light receiving) are received via red (R), green (G), and blue (B) color filters arranged in a predetermined arrangement structure (Bayer, G stripe, etc.). Elements) are two-dimensionally arranged. The subject light that has passed through the lens 11 is received by each photodiode and converted into a signal charge in an amount corresponding to the amount of incident light.

  The signal charge accumulated in each photodiode is sequentially read out as a voltage signal (image signal) corresponding to the signal charge based on the drive pulse given from the timing generation circuit (TG) 126, and is sent to the A / D converter 130. Added.

  The analog R, G, B signals output from the A / D converter 130 are converted into digital R, G, B signals and added to the memory control means 132. The memory control unit 132 outputs the digital R, G, and B signals output from the A / D converter 130 to the memory 120.

  When the captured image is output to the display unit 17, a luminance / color difference signal is generated by the image processing circuit 134 from the image signal output from the memory control unit 132 to the memory 120, and the signal is transmitted via the D / A converter 135. To the video encoder 136. The video encoder 136 converts the input luminance / color difference signal into a display signal format (for example, an NTSC color composite video signal) and outputs it to the display unit 17. As a result, an image captured by the image sensor 124 is displayed on the display unit 17.

  The image sensor 124 periodically captures an image signal, periodically rewrites the image data in the memory 120 with the luminance / color difference signal generated from the image signal, and outputs the image data to the display unit 17, thereby capturing an image with the image sensor 124. The displayed image is displayed in real time. The photographer can check the shooting angle of view by viewing the image (through image) displayed in real time on the display unit 17.

  When the release button is pressed halfway, an S1 ON signal is input to the system control circuit 110, and the system control circuit 110 performs AE / AF processing.

  First, an image signal taken from the image sensor 124 via the memory control unit 132 is input to the distance measurement control unit (AF unit) 140 and the exposure control unit (AE unit) 142.

  The integrated value data obtained by the distance measurement control means (AF means) 140 is notified to the system control circuit 110.

  The system control circuit 110 calculates a focus evaluation value (AF evaluation value) at a plurality of AF detection points while moving the focus lens group of the photographing optical system including the lens 11 by controlling the zoom control unit 146, and the evaluation value The lens position at which is maximized is determined as the in-focus position. Then, the zoom control unit 146 is controlled so that the focus lens group moves to the obtained in-focus position.

  The system control circuit 110 detects the brightness of the subject (subject luminance) based on the integrated value obtained from the exposure control means (AE means) 142, and calculates an exposure value (photographing EV value) suitable for photographing. Then, an aperture value and a shutter speed are determined from the obtained photographing EV value and a predetermined program diagram, and an appropriate exposure amount is obtained by controlling the electronic shutter and the aperture 11c of the image sensor 124 according to the determined value. At the same time, it is determined from the detected subject brightness whether or not the strobe light emission is necessary.

  The exposure control means (AE means) 142 calculates an average integrated value for each color of the R, G, and B signals for each divided area during automatic white balance adjustment, and provides the calculation result to the system control circuit 110. . The system control circuit 110 obtains the ratio of R / G and B / G for each divided area from the obtained integrated value of R, integrated value of B, and integrated value of G, and calculates the calculated R / G and B / G. The light source type is determined based on the distribution of the values in the R / G and B / G color spaces. Then, according to the white balance adjustment value suitable for the discriminated light source type, for example, the value of each ratio is approximately 1 (that is, the RGB integration ratio is R: G: B≈1: 1: 1 on one screen). As described above, the gain value (white balance correction value) for the R, G, and B signals of the white balance adjustment circuit is controlled to correct the signal of each color channel.

  As described above, AE / AF processing is performed by half-pressing the release button. The photographer operates the zoom button as necessary to zoom the lens 11 and adjust the angle of view.

  Thereafter, when the release button is fully pressed, the S2ON signal is input to the system control circuit 110, and the system control circuit 110 starts photographing and recording processing. That is, the image sensor 124 is exposed with the shutter speed and aperture value determined based on the photometric result.

  At this time, when the strobe 12 is caused to emit light, the strobe 12 is caused to emit light via the strobe control means 160. When the amount of light received by the stroboscopic light control sensor 14 reaches a predetermined amount, the stroboscopic control unit 160 cuts off the power supply from the battery 19 through the power source control unit and stops the flash 12 from emitting light.

  The image signal output from the image sensor 124 is taken into the memory 120 via the A / D converter 130 and the memory control means 132, converted into a luminance / color difference signal by the image processing circuit 134, and then stored in the memory 120. Is done.

  The image data stored in the memory 120 is added to the compression / decompression circuit 148, compressed in accordance with a predetermined compression format (for example, JPEG format), then stored in the memory 120, and a predetermined image recording format (for example, Exif format). Are recorded on the memory card 20 via the media control means 150.

  Images recorded on the memory card 20 as described above can be reproduced and displayed on the display unit 17 by setting the mode switch to the reproduction position and setting the mode of the digital camera 1 to the reproduction mode.

  When the mode switch is set to the playback position and the mode of the digital camera 1 is set to the playback mode, the system control circuit 110 outputs a command to the media control means 150 and reads the image file recorded last on the memory card 20. Let it come out.

  The compressed image data of the read image file is added to the compression / expansion circuit 148, expanded to an uncompressed luminance / color difference signal, and then output to the display unit 17 via the video encoder 136. Thereby, the image recorded on the memory card 20 is reproduced and displayed on the display unit 17 (reproduction of one image).

  Image frame advance is performed by operating the left and right keys of the cross button. When the right key of the cross button is pressed, the next image file is read from the memory card 20 and reproduced and displayed on the display unit 17. When the left key of the cross button is pressed, the previous image file is read from the memory card 20 and reproduced and displayed on the display unit 17.

  While confirming the image reproduced and displayed on the display unit 17, the image recorded in the memory card 20 or the memory 120 can be deleted as necessary. The image is erased by pressing the mode dial while the image is reproduced and displayed on the display unit 17.

  When the display / return button is pressed during reproduction of a single image, an index image created by an index image circuit (not shown) is output to the display unit 17 via the video encoder 136 (index image reproduction). Index image playback is also called multi-playback, and is a playback method that allows a list of images taken. As a result, the index image is displayed on the display unit 17.

  Next, details of the operation image generating unit 138 will be described. The operation image generation unit 138 registers processing for acquiring images used for various operation units (switch shooting mode), processing for registering images used for various operation units (switch image registration processing), and various operation units. Processing (operation means registration processing) is performed. Hereinafter, a case where a release button is registered as an operation unit will be described as an example.

<About switch shooting mode>
First, the switch photographing mode for photographing the operation means will be described with reference to FIG.

  The shooting mode is set by the mode switch (step S10), and then it is determined whether the switch shooting mode is activated by the mode dial (step S11). If the switch photographing mode is not activated (NO in step S11), step S10 is performed again.

  When the switch shooting mode is activated (YES in step S11), as shown in FIG. 8, when the user prepares the camera 2 with the release button 2a he / she likes and photographs its appearance, The captured image is acquired, and the acquired image is stored in the memory 120 (step S12).

  A desired image is displayed on the display unit 17 from the images stored in the memory 120 (step S13), and the displayed image is registered as an image including an area to be used as a release button (step S14). The image is registered in the memory 120 (step S15).

<About switch image registration processing>
Next, processing for registering a release button using this button image will be described with reference to FIG. The following processing is mainly performed by the operation image generating unit 138.

  The playback mode is set by the mode switch (step S20), and then it is determined whether the switch setting mode is activated by the mode dial (step S21). If the switch setting mode has not been activated (NO in step S21), step S20 is performed again.

  When the switch setting mode is activated (YES in step S21), the image is read from the memory 120 built in the digital camera 1 (step S22), and the read image is indexed on the display unit 17. An image is displayed (step S23).

  It is determined whether an image is selected from the images displayed as index images (step S24).

  If no image has been selected, step S24 is performed again.

  When an image is selected, as shown in FIG. 10, the selected image (nth image, n is an integer) is displayed on the display unit 17 (step S25). The image displayed on the display unit 17 can be seen by the user through the touch panel 18 provided on the front surface of the display unit 17.

  As shown in FIG. 10, by displaying a message such as “trace the outline”, an input of an area to be used as a release button is requested (step S26).

  An input is made to the touch panel 18 (step S27), and a detection block of the input touch panel 18 is detected (step S28). The input is performed by bringing a pen or the like into contact with the detection block using a pen or a finger.

  The coordinates of the detection block where the input is detected are calculated, and the coordinates of the detection block of the touch panel 18 are converted into the coordinates of the pixel of the display unit 17 based on the above-described Equation 2 (step S29).

  A display indicating that the input in step S27 has been made is performed on the pixels of the display unit 17 having the coordinates calculated in step S29 (step S30). This is performed by increasing the display density of the pixel having the calculated coordinates. As a result, the input locus is displayed on the display unit 17.

  It is determined whether or not the input of the region has been completed, that is, whether or not an input of a substantially closed region such as a circle, an ellipse, or a rectangle has been input (step S31). If the input of the area is not completed, that is, if the input result is not a substantially closed area (NO in step S31), the process returns to step S27, and steps S27 to S31 are performed again.

  When the input of the region is completed, that is, when the input result is a substantially closed region (YES in step S31), as shown in FIG. Displayed on the display unit 17 (step S32), a message such as “Are you sure?” And an OK / NG selection button are displayed, and an input is made to the detection block of the touch panel 18 corresponding to the pixel on which the OK button is displayed. By determining whether or not it has been made, a request is made to confirm whether or not the input result of the area to be used as the release button is correct (step S33).

  It is determined whether or not the confirmation input result is OK (step S34). If the confirmation input result is NO, that is, if the image displayed in step S32 is not the image to be used as the release button (NO in step S34), the process returns to step S25, and steps S25 to S34 are performed again.

  If the confirmation input result is YES, that is, if the image displayed in step S32 is an image to be used as a release button (YES in step S34), the image (switch image) displayed on the display unit 17 Then, the area data (the coordinates of the pixel on which the image is displayed) are stored in the memory 120 (step S35).

  As a result, the release button image, position and size are set and stored in the memory 120.

  Thus, the process for registering the image used for the various operation means is completed.

  In steps S23 and S24, an index image is displayed, and an image to be registered is selected from the index images. Images stored in the memory 120 are sequentially read and displayed (reproduction of one image), and an image to be registered. May be selected.

<Operation means registration process>
A process for registering an image registered by the process shown in FIG. 9 as a release button will be described with reference to FIG. The following processing is mainly performed by the operation image generating unit 138.

  The playback mode is set by the mode switch (step S40), and then it is determined whether the switch arrangement mode is activated by the mode dial (step S41). If the switch arrangement mode is not activated (NO in step S41), step S41 is performed again.

  When the switch arrangement mode is activated (YES in step S41), the switch image and area data stored in the memory 120 are read in step S35 (step S42), and a selection screen as shown in FIG. 13 is displayed. It is displayed on the display unit 17 (step S43). In FIG. 13, the image stored in step S <b> 35 is assigned to the registered image 1.

  It is determined whether or not a desired switch image has been selected on the selection screen as shown in FIG. 13 (step S44). If the desired switch image has not been selected (NO in step S44), step S44 is performed again.

  If the desired switch image has been selected (YES in step S44), the selected switch image, position and size information, and contour information are read from the memory 120, and based on these information Then, a switch image is displayed on the operation display LCD 15 (step S45). That is, when the registered image 1 is selected as the switch image on the selection screen “Release Button Registration” shown in FIG. 13, as shown in FIG. The registered image 1 is displayed at a location where the release button is arranged in the digital camera or the like.

  In a state where a desired switch image is displayed on the operation display LCD 15, a message such as “Please move the button” is displayed on the display unit 17, thereby requesting the input of the button position (step). In step S46, the position of the button is input (step S47). For example, as shown in FIG. 14, an arrow is superimposed on the registered image 1 displayed on the operation display LCD 15, the user moves a finger or the like along the arrow, and the movement of the finger or the like is detected by the touch panel 16. Thus, the registration image 1 is moved to a place where the release button is to be arranged.

  It is determined whether or not the input of the button position has been completed (step S48). If the input of the button position has not been completed (NO in step S48), the process returns to step S46, and steps S46 to S48 are performed again.

  When the input of the button position is completed (YES in step S48), a message such as “Please specify size” is displayed on the display unit 17 to request that the button size be specified. Is performed (step S49), and the button size is input (step S50). For example, as shown in FIG. 15, an arrow is displayed beside the registered image 1 displayed on the operation display LCD 15, the user moves a finger or the like along the arrow, and the movement of the finger or the like is detected by the touch panel 16. This is done by changing the size of the registered image 1.

  It is determined whether or not the input of the button size has been completed (step S51). If the button size input has not been completed (NO in step S51), the process returns to step S49, and steps S49 to S51 are performed again.

  When the input of the button size is completed (YES in step S51), it is determined whether or not an input indicating that a release button such as a desired image, size, and position is displayed on the operation display LCD 15 is made. (Step S52). For example, as shown in FIG. 16, a message such as “Are you sure?” And an OK / NG selection button are displayed on the display unit 17, and the detection block of the touch panel 18 corresponding to the pixel on which the OK button is displayed is displayed. This is done by determining whether an input has been made.

  If the confirmation input result is NO, that is, if the release button for the desired image, size, position, etc. is not displayed on the operation display LCD 15 (NO in step S52), the process returns to step S45 and again step S45. To S52 are performed.

  When the confirmation input result is YES, that is, when a release button such as a desired image, size, and position is displayed on the operation display LCD 15 (YES in step S52), the confirmation display result is displayed on the operation display LCD 15. The data of the release button image, position and size are stored in the memory 120 (step S53).

  Thereby, registration of a desired release button is completed, and then a release button 15 a as shown in FIG. 17 is displayed on the operation display LCD 15.

  In order to use the release button 15a registered as described above, it is necessary to perform input settings of the touch panel 16 based on the image of the release button 15a. When the release button is used, a finger is usually placed on the release button, and S1 and S2 are switched by pressing the release button as necessary. Therefore, when the finger is in contact with the release button, the release operation is not performed, and when a predetermined strength is input in the detection block, it is necessary to set the S1 or S2 operation. .

  For example, as shown in FIG. 18, the release button is set by inputting the relationship between the input strength to the detection block of the touch panel 16 and the ON of the release button 15a for each of S1 and S2. When the release button 15a is pressed, the strength of the input that turns on each of S1 and S2 is displayed on the arrow displayed on the display unit 17, and the strength of the input to the S1ON and S2ON detection blocks while viewing the display. Should be set.

  As a result, when a block corresponding to the pixel on which the release button 15a of the touch panel 16 is displayed is pressed with a finger and an input of a set strength is detected, a predetermined operation, in this case, a release operation (S1 or S2) Is executed.

  According to the present embodiment, it is possible to change the design of the operation means and the like to the shape and appearance of a desired image using images of various switches and operation members taken with a digital camera. Further, the position and shape of the operation means can be freely customized according to the thickness of the finger, the length of the finger, and the like.

  In addition, according to the present embodiment, not only the appearance shape, but also the detection range, size, and position can be changed freely. If it is reproduced on a digital camera with the same functions, appearance, and position, the same operability as a familiar silver halide camera can be realized in the digital camera.

  Further, according to the present embodiment, it is possible to customize the operation means of the camera to an arbitrary design by designing a switch or the like of his / her preference and photographing the switch or the like written on paper.

  In addition, according to the present embodiment, since preferred operation means and the like are registered in the memory built in the apparatus, the registered data is not erased even if the detachable memory is changed, and the registered operation means. Etc. can be changed freely.

  In the present embodiment, the region shape is detected by tracing the displayed image. However, a desired region included in the image may be automatically extracted. As a method for automatically extracting a desired region, various known techniques such as a region expansion method can be used. Usually, since an image to be used is photographed so as to be substantially in the center, a substantially closed region in the vicinity of the center of the image may be extracted as a desired region, or all substantially closed regions photographed in the image may be extracted. The user may be able to select a desired image from a plurality of extracted images of a plurality of substantially closed regions. Alternatively, the user may specify a desired point, and the user designates an arbitrary point and includes the designated point. May be extracted as a desired region. This makes it possible to easily extract a desired area.

  In the present embodiment, the area corresponding to the input locus is extracted as the image of the release button and the area that functions as the release button. However, the area that functions as the release button and the area that functions as the release button are extracted. May be extracted separately. This makes it possible to customize the position, shape, etc. of the operating means more freely.

  In the present embodiment, in the processed image for registering the image used for various operation means, the image and its area data (the coordinates of the pixel on which the image is displayed) are stored in the memory. May be stored, data may be read from the memory, and the image data may be converted into area data before being displayed on the operation display LCD.

  In the present embodiment, the release button is displayed on the operation display LCD provided on the upper surface of the camera body 10, but may be displayed on the display unit on the rear surface. Further, the display unit to be displayed may be selected at the beginning of the operation means registration process.

  In this embodiment, the request is made by text display, but the request may be made by voice or the like. The message may be displayed not on the display unit 17 but on the operation display LCD 15.

  In the present embodiment, the liquid crystal display and the touch panel are disposed on the upper surface and the side surface of the camera body 10, but the liquid crystal display and the touch panel may be any surface other than the front surface on which the lens or the like is disposed. Can also be arranged. The number of liquid crystal displays and touch panels is not limited to two, and may be one or three or more. For example, as shown in FIG. 19, a liquid crystal display may be provided only on the back surface of the camera body 10, and operation means and the like may be displayed on the liquid crystal display. As shown in FIG. 20, the zoom tele button and the zoom wide button are operated by detecting an input in the detection block corresponding to the pixel on which the zoom switch is displayed. 19 and 20 show examples in which zoom switches are registered. However, the present invention is not limited to this, and other operation means such as a mode selection button and a strobe mark can be designed.

  Further, in the present embodiment, the release button is described as an example, so that the release operation is not performed when contact with the touch panel is detected, and the release operation is performed when a predetermined strength is input. However, depending on the type of operation means, the input strength may not be set, and a predetermined operation may be performed when contact with the touch panel is detected.

1 is a front perspective view of a digital camera 1 to which the present invention is applied. 2 is a rear perspective view of the digital camera 1. FIG. It is a figure which shows the structure of the liquid crystal display of the said digital camera. It is a figure which shows the structure of the touchscreen of the said digital camera. It is a figure explaining arrangement | positioning of the liquid crystal display of the said digital camera 1, and a touchscreen. 2 is a block diagram showing an electrical configuration of the digital camera 1. FIG. It is a flowchart which shows the flow of a series of processes of switch imaging | photography mode. It is a figure explaining the imaging | photography method in switch imaging | photography mode. It is a flowchart which shows the flow of a series of processes of a switch image registration process. It is a figure explaining the area | region input in switch image registration processing. It is a figure explaining the confirmation input in switch image registration processing. It is a flowchart which shows the flow of a series of processes of an operation means registration process. It is a figure which shows the selection screen in an operation means registration process. It is a figure explaining the position input of the button in an operation means registration process. It is a figure explaining the magnitude | size input of the button in an operation means registration process. It is a figure explaining the confirmation input in an operation means registration process. It is an example of a display of the registered release button. It is a figure explaining the setting method of a release button. This is an example in which a liquid crystal display and a touch panel are provided only on the back surface. This is an example in which a liquid crystal display and a touch panel are provided only on the back surface.

Explanation of symbols

1: digital camera, 10: camera body, 11: lens, 12: strobe, 13: AF auxiliary light lamp, 14: strobe light control sensor, 15: LCD for operation display, 16, 18: touch panel, 17: display unit, 19: battery, 20: memory card, 110: system control circuit, 112: input determination unit, 116, 120: memory, 118: nonvolatile memory, image sensor 124, 126: timing generation circuit (TG), 130: A / D converter, 132: memory control unit, 134: image processing circuit, 136: video encoder, 138: operation image generation means, 140: distance measurement control means (AF means), 142: exposure control means (AE means), 143 : Barrier control means, 146: zoom control means, 148: compression / decompression circuit, 150: media control section, 160: strobe Your means

Claims (7)

An image pickup apparatus comprising display means provided on at least one surface of the apparatus main body, and a touch panel having substantially the same shape as the display means provided on the front surface of the display means,
Imaging means for acquiring an image of the subject;
Extracting means for extracting the switch image from an image including the switch image acquired by the imaging means;
Display control means for causing the display means to display the switch image extracted by the extraction means;
Detection means for detecting an input to the touch panel, wherein the display control means detects an input to an area overlapping the area where the switch image is displayed;
When an input is detected by the detection means, a control means for executing a predetermined operation set in advance for the switch of the switch image;
An imaging apparatus comprising: An input unit for inputting at least one of a position and a size of a switch image to be displayed on the display unit;
The display control means causes the display means to display the switch image at a standard position and size, and at least one of the position and size of the switch image according to an input from the input means. The imaging apparatus according to claim 1, wherein the imaging apparatus is changed. Further comprising a storage means built in the apparatus body,
The storage means includes at least one information of the switch image extracted by the extraction means and information on the position, size and display area of the switch image displayed on the display means by the display control means, The imaging apparatus according to claim 1, wherein the imaging device is stored.   The display means includes a plurality of pixels arranged two-dimensionally, and the touch panel includes a plurality of detection blocks arranged two-dimensionally and includes a plurality of detection blocks smaller than the plurality of pixels. The imaging apparatus according to claim 1, wherein the imaging apparatus is characterized in that The extraction means includes
Second display control means for displaying the image acquired by the imaging means on the display means;
Second detection means for detecting an input to the touch panel;
First coordinate calculation means for calculating coordinates of the detection block whose input is detected by the second detection means;
When a substantially closed region is detected by the second detection unit, a second pixel that extracts a pixel in a region surrounded by a detection block of coordinates calculated by the first coordinate calculation unit as the switch image Extraction means,
The imaging apparatus according to claim 4, comprising: A second coordinate calculating means for calculating the coordinates of the detection block corresponding to the coordinates of the pixels of the switch image displayed on the display means;
The imaging device according to claim 4, wherein the detection unit detects an input to a detection block arranged at the coordinates calculated by the second coordinate calculation unit. The imaging device according to any one of claims 1 to 6, wherein a plurality of the display means are provided on at least one of an upper surface and a back surface.
The imaging apparatus according to claim 1, wherein the display control unit selects a display unit that displays the desired region from the plurality of display units, and displays the desired region. .

Images