JP2023088095A - Display control unit, display control method, program, and storage medium - Google Patents

Abstract

To display a picked-up image and an item on a display screen while aligning their directions according to a mode of use of a display unit.SOLUTION: In displaying a picked-up image and a display item on a display screen of a display panel 128, a system control unit 250 of a digital camera 100 acquires the display item and its arrangement mode, the direction of the display screen with respect to an imaging direction, and the attitude of the display panel 128, based on them, determines the presence or absence of the necessity to invert the picked-up image and the display item in a predetermined direction and display them in order to match the directions of the picked-up image and the display item, and performs control of displaying the picked-up image and the display item on the display screen based on a result of determination.SELECTED DRAWING: Figure 8

Description

The present invention relates to a display control device, a display control method, a program, and a storage medium, and more particularly to technology for controlling the orientation of items displayed on a display screen according to the manner of use of the display device.

A technique is known that changes the arrangement of items displayed on a display screen depending on whether the display device is oriented horizontally or vertically. For example, Patent Literature 1 describes a technique of setting the display format of an image and determining the arrangement of setting information to be displayed on the display unit based on the set display format. Further, Patent Literature 2 describes a technique for changing an area for displaying items depending on whether the display screen is oriented horizontally or vertically.

JP 2007-180931 A JP 2021-125751 A

However, in Patent Literatures 1 and 2, a scene in which an image is captured while the display screen of the display device is directed toward the subject is not assumed. nothing is mentioned. Further, in the above Patent Documents 1 and 2, it is assumed that there is a rear-facing display screen on the back surface of the imaging device main body, and the display device can be moved relative to the imaging device main body to change the orientation of the display screen. There is no description of display control of captured images and items in possible configurations. Furthermore, Patent Document 1 discloses a technique for displaying items in an extra area formed by arranging a rectangular (rectangular) captured image within a square display screen. is difficult to apply as it is.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a display control device capable of matching the directions of a captured image and an item and displaying them on a display screen in accordance with the mode of use of the display device.

A display control device according to the present invention comprises: first acquisition means for acquiring a captured image to be displayed on a display screen of a first display device; Acquisition means, first detection means for detecting the orientation of the display screen with respect to the imaging direction of the captured image, second detection means for detecting the orientation of the first display device, and layout of the display items. and, based on the orientation of the display screen and the orientation of the first display device, each of the captured image and the display item is reversed in a predetermined direction so as to match the orientation of the captured image and the display item. It is characterized by comprising determination means for determining whether or not it is necessary to display, and control means for performing control to display the captured image and the display item on the display screen based on the determination result of the determination means.

According to the present invention, it is possible to match the direction of the captured image and the item according to the mode of use of the display device and display them on the display screen.

1 is a perspective view of a digital camera according to an embodiment; FIG. 1 is a block diagram showing the schematic configuration of a digital camera and a lens unit; FIG. It is a figure explaining the usage condition of a display panel. FIG. 4 is a diagram showing the posture of a digital camera that is frequently used when taking pictures. FIG. 4 is a diagram showing an example of items displayed on the display panel; FIG. 10 is a diagram showing a direction conversion table for controlling display directions of captured images and items and displaying them on the display panel; 4 is a flowchart of display control according to whether a mirror display function is enabled/disabled; 8 is a first diagram showing a display example of captured images and display items according to the flowchart of FIG. 7; FIG. FIG. 10 is a diagram for explaining the movement direction of the selected item with respect to each direction key of the cross key in the second mode;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Here, an example in which the display control device according to the present invention is applied to a digital camera, which is an example of an imaging device, will be described.

1A and 1B are external perspective views of the digital camera 100, FIG. 1A is a perspective view showing the digital camera 100 as seen obliquely from the front, and FIG. is a perspective view showing the , viewed obliquely from the rear.

The digital camera 100 includes a display panel 128 , an opening/closing hinge section 131 , a rotating hinge section 132 , a touch panel 170 a and a viewfinder display section 143 .

The display panel 128 is display means for displaying images and various types of information (hereinafter referred to as “display items”). The opening/closing hinge portion 131 rotates the display panel 128 between the closed position and the open position about a first rotation axis parallel to the height direction of the digital camera 100 (see FIG. 3A described later). keep it movable. The rotating hinge portion 132 holds the display panel rotatably around a second rotating shaft orthogonal to the first rotating shaft of the opening/closing hinge portion 131 . FIG. 1(b) shows a state in which the display panel 128 is in the closed position and the display screen of the display panel 128 faces backward (outward) (the same state as in FIG. 3(c)). Details of the closed position, the open position, the first rotating shaft, and the second rotating shaft will be described later.

Touch panel 170a is one of components included in operation unit 270 (see FIG. 2). The touch panel 170 a is arranged in a planar manner so that the light transmittance does not interfere with the display of the display panel 128 and is superimposed on the display screen (operation surface) of the display panel 128 . It is an operation means for detecting a touch operation.

Input coordinates for touch panel 170 a are associated with display coordinates on the display screen of display panel 128 . This makes it possible to provide a GUI (graphical user interface) as if images, display items, and icons displayed on the display panel 128 can be directly operated. The touch panel 170a may be any one of various types of touch panels such as a resistive film type, a capacitive type, a surface acoustic wave type, an infrared type, an electromagnetic induction type, an image recognition type, and an optical sensor type. good too. The touch panel 170a has a method of detecting a touch operation by contact with a finger or a pen, and a method of detecting a touch operation by an approach of a finger or a pen, and either method may be used.

The viewfinder display unit 143 is display means provided on the upper surface of the digital camera 100, and is capable of displaying various setting values of the digital camera 100 such as shutter speed and aperture.

The digital camera 100 has a shutter button 161 , a mode switch 160 , a main electronic dial 171 , a power switch 172 , a sub electronic dial 173 , a cross key 174 and a SET button 175 . The digital camera 100 also has a moving image button 176 , an AE lock button 177 , an enlargement button 178 , a playback button 179 , a menu button 181 and a multi-controller (MC) 165 . These buttons, dials, and the like are included in an operation unit 270 (see FIG. 2) that receives user operations on the digital camera 100 .

The shutter button 161 is an operation member used for photographing instructions. A mode changeover switch 160 is an operation member mainly used for switching between a still image shooting mode and a moving image shooting mode. The main electronic dial 171 is an operation member for changing setting values (imaging parameters) such as shutter speed and aperture by rotating operation. The power switch 172 is an operation member for switching on/off the power of the digital camera 100 . The sub-electronic dial 173 is an operation member for moving a selection frame, advancing an image, etc., by a rotating operation. The cross key 174 (four-way key) is an operation member that can be pressed in each of its upper, lower, left, and right parts, and enables execution of an operation corresponding to each of the pressed upper, lower, left, and right parts. The SET button 175 is an operation member for mainly determining selection items by pressing the button.

The moving image button 176 is an operation member for instructing start/stop of moving image shooting (recording). The AE lock button 177 is an operation member for fixing the exposure state in the shooting standby state by pressing operation. The enlargement button 178 is an operation member for switching ON/OFF of the enlargement mode in the live view display (hereinafter referred to as "LV display") in the photographing mode. By operating the main electronic dial 171 after turning on the enlargement mode, for example, a live view image (hereinafter referred to as “LV image”) can be enlarged or reduced. Further, by operating the enlargement button 178 when the playback mode is set, the playback image can be enlarged while adjusting the enlargement ratio.

The playback button 179 is an operation member for switching between shooting mode and playback mode. When the play button 179 is pressed during the shooting mode, the mode shifts to the play mode, and the latest image among the images stored in the storage medium 200 (see FIG. 2) can be displayed on the display panel 128 . The menu button 181 is an operation member for displaying various menu screens on the display panel 128 . The user can intuitively select and determine items on the menu screen displayed on the display panel 128 using the cross key 174, the SET button 175, and the MC 165 to perform various settings. The MC 165 can accept direction instructions in eight directions and a push operation on the central portion.

The digital camera 100 includes a communication terminal 110 , a lens mount 111 , a terminal cover 140 , an eyepiece section 116 , an eyepiece cup 117 , an eyepiece detection section 157 , a card cover 112 and a grip section 190 .

The communication terminal 110 is connected to the communication terminal 206 of the lens unit 210 when the lens unit 210 (see FIG. 2) is attached to the digital camera 100, enabling communication between the digital camera 100 and the lens unit 210. and The lens mount 111 is a part that enables attachment and detachment of the lens unit 210 (see FIG. 2). The terminal cover 140 is a member that protects a connector (not shown) provided in the digital camera 100 for connecting an external device (not shown) and the digital camera 100 .

The eyepiece part 116 is a part where the user brings his or her eyes close to the eyepiece finder, which is a looking-in type finder. The user can view an image or the like displayed on the EVF 229 (see FIG. 2) provided inside the digital camera 100 through the eyepiece 116 . The eyepiece cup 117 is a member that protects the eyepiece 116 .

The eye contact detection unit 157 is a sensor that detects approach (eye contact) and departure (eye separation) of the eye (object) from the eye contact unit 116 . An infrared proximity sensor, for example, can be used for the eyepiece detection unit 157 , and can detect the approach of an object to the eyepiece unit 116 . When an object approaches the eyepiece unit 116 , the infrared rays projected from the light projecting unit (not shown) of the eyepiece detection unit 157 are reflected by the approaching object and received by the light receiving unit (not shown) of the eyepiece detection unit 157 . At this time, the eyepiece distance, that is, how far the approaching object is approaching from the eyepiece 116 can be determined from the amount of infrared rays received by the light receiving portion.

The card cover 112 is a member that protects the slot that stores the storage medium 200 (see FIG. 2). The grip part 190 is a part that the user grips with the hand when holding the digital camera 100, and is formed in a shape that can be easily gripped with the right hand. The shutter button 161 and the main electronic dial 171 are arranged at positions that can be operated with the index finger of the right hand while holding the digital camera 100 by gripping the grip portion 190 with the little finger, the ring finger and the middle finger of the right hand. Also, in the same state, the sub-electronic dial 173 is arranged at a position that can be operated with the thumb of the right hand.

FIG. 2 is a block diagram showing a schematic configuration of the digital camera 100 and the lens unit 210 attached to the digital camera 100. As shown in FIG. In FIG. 2, the same reference numerals as those used in FIG. 1 are assigned to the constituent elements of the digital camera 100 that have already been explained with reference to FIG. description is omitted.

The lens unit 210 is a so-called interchangeable lens. A lens unit 210 includes an aperture 201 , an aperture drive circuit 202 , an AF drive circuit 203 , a lens system control section 204 , a lens group 205 and a communication terminal 206 .

Although the lens group 205 is composed of a plurality of lenses, FIG. 2 shows the plurality of lenses as one lens for simplification. A diaphragm 201 adjusts the amount of light incident on the lens group 205 . A diaphragm drive circuit 202 drives the diaphragm 201 . The AF drive circuit 203 focuses on the subject by moving the focus lens included in the lens group 205 in the optical axis direction. The communication terminal 206 is connected to the communication terminal 110 of the digital camera 100 when the lens unit 210 is attached to the lens mount 111 of the digital camera 100, so that the lens system control section 204 and the system control section 250, which will be described later. communication. A lens system control unit 204 receives a control signal from the system control unit 250 and controls the drive of the aperture drive circuit 202 and the AF drive circuit 203 .

The digital camera 100 includes a shutter 211 , an image sensor 222 , an A/D converter 223 , an image processing section 224 , a system control section 250 , a memory control section 215 and a memory 232 . The digital camera 100 also includes a display panel 128 , an EVF 229 , an extra viewfinder display drive circuit 244 and an extra viewfinder display 143 .

A shutter 211 is a focal plane shutter that controls the exposure time of the imaging element 222 . Incident light that has passed through the lens unit 210 forms an optical image on the imaging surface of the imaging device 222 . The imaging element 222 is a photoelectric conversion device (image sensor) such as a CCD or CMOS that converts an optical image formed on an imaging surface into an analog electrical signal. The A/D converter 223 converts the analog signal output from the imaging element 222 into image data composed of digital signals.

The image processing unit 224 processes the image data output from the A/D converter 223 and the image data supplied from the memory control unit 215 to perform predetermined image processing such as pixel interpolation, resizing processing such as reduction, and color conversion processing. process. Also, the image processing unit 224 performs predetermined arithmetic processing using the image data acquired from the A/D converter 223, and the system control unit 250 performs exposure control and distance measurement control based on the obtained arithmetic result. . Specifically, TTL-type AF (automatic focusing) processing, AE (automatic exposure) processing, and EF (flash pre-emission) processing are performed. The image processing unit 224 further performs predetermined arithmetic processing using the image data acquired from the A/D converter 223, and performs TTL AWB (auto white balance) processing based on the obtained arithmetic result.

The memory control unit 215 controls transmission and reception of data among the A/D converter 223 , the image processing unit 224 and the memory 232 . Image data output from the A/D converter 223 is written into the memory 232 via the image processing section 224 and the memory control section 215 or via the memory control section 215 . The memory 232 stores various image data such as image data output from the A/D converter 223, image data after image processing by the image processing unit 224, image data for display on the display panel 128 and the EVF 229, and associated data. Stores various information to be used. The memory 232 has a sufficient storage capacity to store a predetermined number of still images, moving images for a predetermined period of time, and audio data.

The memory 232 also serves as a video memory (image display memory). The display image data written in the memory 232 is displayed as an image on the display panel 128 or the EVF 229 via the memory control unit 215 . The EVF 229 performs display according to a signal from the memory control section 215 on a display such as an LCD or an organic EL. The image data output from the A/D converter 223 and stored in the memory 232 are sequentially transferred to the display panel 128 or the EVF 229 and displayed, thereby enabling LV display. The viewfinder display section driving circuit 244 displays various information including setting values such as shutter speed and aperture on the viewfinder display section 143 in response to commands from the system control section 250 .

The system control unit 250 switches the display state and the non-display state of the display panel 128 and the EVF 229 according to the state detected by the eye proximity detection unit 157 . For example, when the digital camera 100 is in the shooting standby state and the display destination setting of the LV image output from the image pickup device 222 is set to automatic setting, the display destination is set to the display panel 128 while the eye is not focused, and the EVF 229 is not displayed. state. On the other hand, while the user is eye-focusing, the display destination is set to the EVF 229 and is in the display state, and the display panel 128 is in the non-display state.

The digital camera 100 includes a nonvolatile memory 256 , a system memory 252 , a system timer 253 , a power control section 280 , a power section 230 , a storage medium I/F 218 , a storage medium 200 and a communication section 254 .

The nonvolatile memory 256 is a memory that can be electrically erased and stored, and a flash ROM or the like is used, for example. The nonvolatile memory 256 stores constants for the operation of the system control unit 250 and computer programs for executing each process of flowcharts described later. The system control unit 250 is control means consisting of at least one processor or circuit, and by executing a program stored in the nonvolatile memory 256, controls the overall operation of the digital camera 100, including each process of the flowcharts described later. control behavior.

A RAM, for example, is used as the system memory 252, and constants and variables for operation of the system control unit 250, programs read from the nonvolatile memory 256, and the like are developed. The system control unit 250 also performs display control by controlling the memory 232, the display panel 128, etc., and further detects various known operations on the touch panel 170a.

A system timer 253 measures the time used for various controls and the time of a built-in clock. The power supply control unit 280 includes a battery detection circuit, a DC-DC converter, a switch circuit for switching energization blocks, and the like, and detects whether or not a battery is installed, the type of battery, and the remaining amount of the battery. Also, the power supply control unit 280 controls the DC-DC converter based on the detection results and instructions from the system control unit 250, and supplies necessary voltage to each unit including the storage medium 200 for a necessary period. The power supply unit 230 is a primary battery such as an alkaline battery or a lithium battery, a secondary battery such as a NiCd battery, a NiMH battery, a lithium ion battery, an AC adapter, or the like.

A storage medium I/F 218 is an interface that enables communication between the storage medium 200 and the system control unit 250 . A storage medium 200 is a memory card, a semiconductor memory, a magnetic disk, or the like, and stores image data of captured images. The communication unit 254 transmits and receives video signals and audio signals to and from the external device by being communicably connected to the external device via a wireless or wired cable. For example, the communication unit 254 transmits images (including LV images) captured by the imaging device 222 and images stored in the storage medium 200 to an external device, and receives images and other various information from the external device. be able to. Also, the communication unit 254 enables connection with a network such as a wireless LAN or the Internet. Furthermore, the communication unit 254 enables communication with an external device using Bluetooth (registered trademark) or Bluetooth Low Energy.

The digital camera 100 includes a housing orientation detection section 255 and a panel orientation detection section 265 . The panel orientation detection section 265 includes an open/close detection section 267 and a rotation detection section 268 .

The housing is a box-shaped body that houses various components that make up the digital camera 100 , and in this embodiment can be regarded as a portion that does not substantially include the display panel 128 in the digital camera 100 .

The housing orientation detection unit 255 detects the orientation of the housing with respect to the direction of gravity. An acceleration sensor, a gyro sensor, or the like can be used for the housing orientation detection unit 255 . Note that it is also possible to detect the movement of the digital camera 100 (pan, tilt, lift, whether it is stationary, etc.) using an acceleration sensor or a gyro sensor.

Based on the housing orientation detected by the housing orientation detection unit 255, the system control unit 250 determines whether the image captured by the imaging element 222 is an image captured with the digital camera 100 held horizontally or vertically. It is determined whether or not the image is taken with the camera held in a certain direction. The system control unit 250 can add the housing orientation information detected by the housing orientation detection unit 255 to the image file of the captured image. In addition, the system control unit 250 can rotate and store an image according to housing orientation information detected by the housing orientation detection unit 255 .

An open/close detector 267 constituting panel orientation detector 265 is provided in open/close hinge 131 , and a rotation detector 268 constituting panel orientation detector 265 is provided in rotating hinge 132 . The configuration of the open/close detector 267 and the rotation detector 268 and the state of the display panel 128 detected by these detectors will be described later with reference to FIG.

The digital camera 100 has an operation unit 270 for the user to input various operation instructions to the system control unit 250 . FIG. 2 shows only some of the components of the operation section 270. As shown in FIG. Specific examples of the buttons, switches, dials, and the like that make up the operation unit 270 have already been described with reference to FIG. 1, so detailed description thereof will be omitted here.

The shutter button 161 is supplemented as follows. That is, the shutter button 161 has a first shutter switch 262 and a second shutter switch 264 . The first shutter switch 262 is turned on while the shutter button 161 is being operated (so-called half-press), and generates a first shutter switch signal SW1. The system control unit 250 receives the first shutter switch signal SW1 and starts shooting preparation operations such as AF processing, AE processing, AWB processing, and EF processing. Further, the second shutter switch 264 is turned on when the operation of the shutter button 161 is completed (so-called full depression), and generates a second shutter switch signal SW2. The system control unit 250 receives the second shutter switch signal SW2 and executes a series of photographing processing operations from signal readout from the image sensor 222 to writing of the photographed image as an image file in the storage medium 200 .

3A to 3D are diagrams showing how the display panel 128 is used. In other words, FIG. 3 shows a typical use of the display panel 128 that can be used with respect to the housing of the digital camera 100 . The system control unit 250 detects whether the housing of the digital camera 100 is oriented horizontally or vertically based on the output signal from the housing orientation detection unit 255 . The system control unit 250 detects that the digital camera 100 is in landscape orientation for all the modes of FIGS. 3(a) to 3(d).

FIG. 3A shows a state in which the display panel 128 is in the open position with respect to the housing of the digital camera 100 and the display screen is facing the rear side of the housing (hereinafter referred to as "first mode"). showing. FIG. 3B shows a state in which the display panel 128 is in the open position with respect to the housing of the digital camera 100 and the display screen faces the front side (object side) of the housing (hereinafter referred to as "second mode"). ). FIG. 3C shows a state in which the display panel 128 is in the closed position and the display screen faces the rear side of the housing (hereinafter referred to as "third mode"). FIG. 3D shows a state in which the display panel 128 is in the closed position and the display screen faces the front side of the housing (hereinafter referred to as "fourth mode").

It should be noted that the above-described first to fourth aspects define the relationship between the positions and orientations of the housing and the display panel 128 in the digital camera 100 . As will be described later with reference to FIG. 4, in each of the first to fourth modes, there are times when horizontal shooting is performed in which the digital camera 100 is held horizontally to take an image, and when the digital camera 100 is held vertically. In some cases, vertical shooting is performed in which an image is captured while the camera is held.

The display panel 128 is attached to the housing through the opening/closing hinge portion 131 and the rotating hinge portion 132 as described above. The first rotation axis of the opening/closing hinge portion 131 is parallel to the height direction shown in FIG. 3A, and the display panel 128 can rotate about the first rotation axis. In this way, the display panel 128 is movable (rotatable) between a closed position located on the rear side of the housing and an open position located on the outer side of the housing on the right side as viewed from the front side of the digital camera 100. ).

The open/close detection section 267 provided in the open/close hinge section 131 is, for example, a switch or the like that switches on/off when the display panel 128 is opened at a certain angle from the closed position toward the open position. In the present embodiment, the open/close detector 267 is limited in configuration as long as it can distinguish between the open position shown in FIGS. 3(a) and 3(b) and the closed position shown in FIGS. Instead, it may be composed of a magnetic sensor, an optical sensor, or the like.

A second rotation axis provided in the rotation hinge portion 132 is orthogonal to the first rotation axis. Therefore, the display panel 128 is rotatable about the second axis of rotation, and the display screen faces the rear side of the housing of the digital camera 100, and the front side faces the imaging direction, which is the front side of the housing. It is rotatable between orientations.

The rotation detection unit 268 provided in the rotation hinge unit 132 is, for example, a switch or the like that switches between on and off when the display panel 128 rotates from the back to the front by a certain angle. In the present embodiment, the rotation detection unit 268 has a structural configuration as long as it can distinguish between the rear orientation in FIGS. 3(a) and 3(c) and the front orientation in FIGS. There is no limitation, and a magnetic sensor, an optical sensor, or the like may be used.

The four corners of the display panel when the display panel 128 is in the first mode are defined as corner a, corner b, corner c, and corner d, respectively, as shown in FIG. 3(a). The positions of the corners a, b, c, and d when viewed from the rear side of the digital camera 100 change according to the first to fourth aspects, as shown in FIG.

FIG. 4(a) is a rear view of the digital camera 100 in horizontal shooting, which is frequently used when the digital camera 100 takes an image. FIG. 4(b) is a rear view of the digital camera 100 during vertical shooting, which is frequently used when shooting with the digital camera 100. FIG. Shooting with the digital camera 100 is generally performed by horizontal shooting in FIG. 4(a) or vertical shooting in FIG. 4(b). Here, horizontal shooting and vertical shooting in the first mode of FIG. 3(a) are dealt with. Shooting and vertical shooting are performed.

As described above, whether the shooting is horizontal or vertical can be detected by the housing orientation detection unit 255. However, the detection is not limited to this. can also be determined from

FIG. 5 is a diagram showing a display example of display items displayed on the display screen of the display panel 128 when the digital camera 100 is operated. FIG. 5(a) shows an example in which various types of information are displayed as display items in a horizontal layout. The display panel 128 and the display screen have rectangular shapes. The horizontal layout means that when the user views the horizontal display panel 128 with the long sides of the display panel 128 (display screen) positioned vertically, the display content can be easily understood. Refers to the arrangement mode for displaying information.

FIG. 5(b) shows an example in which various types of information are displayed as display items in a vertical arrangement. The vertical arrangement allows the user to easily understand the display content when viewing the display panel 128 in which the short sides of the display panel 128 (display screen) are positioned vertically. It refers to an arrangement mode in which information is displayed as follows. 5A and 5B, the same information is displayed although the layout of the display items indicating each information is different.

FIG. 5(c) shows a display example of the menu screen. In this embodiment, it is assumed that the menu screen is generated only in horizontal layout. This is because the menu screen is often operated with the digital camera 100 (display panel 128) turned horizontally, and the layout of various information displayed on the menu screen is changed to a vertical layout. No menu screen is generated. The display mode of the menu screen when digital camera 100 (display panel 128) is in portrait orientation will be described later with reference to FIG.

FIG. 6 is a diagram showing a direction conversion table for controlling the display direction of the captured image and items displayed on the display panel 128 according to the first to fourth modes and horizontal or vertical shooting. . The system control unit 250 functions as a determination unit that determines whether the digital camera 100 is oriented horizontally (shooting state) or vertically (vertical shooting state) based on the output signal from the housing orientation detection unit 255 . Further, the system control unit 250 determines which of the first to fourth modes the housing and the display panel 128 are in the digital camera 100 based on the output signals from the open/close detection unit 267 and the rotation detection unit 268. It functions as a discriminating means for discriminating.

The orientation conversion table defines values indicating the display orientation of the captured image and display items. Horizontal writing and vertical writing of "ABCDE" are used. The horizontal writing of "AIUEO" represents the display direction as a whole and cannot be decomposed into individual five characters. Similarly, the vertical writing of "AIUEO" also represents the display direction as a whole. , and cannot be broken down into individual five characters. In addition, the horizontal writing of "ABCDE" represents the display direction as a whole and cannot be divided into individual five characters. , which cannot be broken down into individual five characters. In order to clarify this point, in FIG. 6, for the sake of convenience, the font size and character spacing are changed between the horizontal writing of "AIUEO" and the vertical writing of "AIUEO". The font size and character spacing are changed with vertical writing.

When the housing and the display panel 128 are in the first mode, it is defined that the captured image and the display items are displayed in normal rotation on the display panel 128 regardless of whether the shooting is horizontal or vertical. Based on this normal display, the system control unit 250 sets the display directions of the captured images and the display items in the second and third modes so that the user can easily understand the contents. , to control by flipping up and down or left and right.

In the second mode and the third mode, it is as shown in FIG. 6 whether the normal image is displayed as it is or is displayed after being reversed vertically and horizontally. In the fourth mode, the display screen of the display panel 128 faces the housing, and the user cannot see the display screen. Therefore, the display panel 128 is hidden for power saving. .

Determination as to whether to display the captured image and the display item in the normal display mode or in the horizontal/vertical reverse display mode is performed as follows. That is, the system control unit 250 detects which of the first to third modes the display panel 128 is in with respect to the housing, and also detects whether the digital camera 100 (the housing) faces sideways (horizontal orientation). or portrait orientation (vertical orientation). Based on these detection results, the system control unit 250 selects one of eight states determined by whether the display panel 128 is in the closed position or the open position, facing the front or the back, and facing vertically or horizontally. Determine which state you are in.

The system control unit 250 determines whether or not it is necessary to reverse display each of the captured image and the display item in a predetermined direction in order to match the top sides of the captured image and the display item with the top side of the display panel 128 . Based on the determination result, the system control unit 250 performs normal display and reverse display in a predetermined direction as shown in FIG. 6 for each of the captured image and the display item. By performing such display control, when the captured image and the display item are displayed on the display panel 128 at the same time, it is possible to prevent the occurrence of a situation in which the display orientations of the captured image and the display item do not match. can.

Note that specific display examples of captured images and display items are collectively shown in FIG. 8, which will be described later. Also, the display mode of the menu screen will be described later with reference to FIG. The values of the direction conversion table in FIG. 6 are an example and can be changed. In the direction conversion table of FIG. 6, predetermined values are also provided for cases where the orientation of the display panel 128 is different from those in the first to third modes, and where the attitude of the housing is different from the horizontal or vertical orientation. can be additionally set.

Next, display control of captured images and display items when the digital camera 100 has a mirror display function will be described. The mirror display function is a function of displaying a mirror image in which a captured image is horizontally reversed as if it were reflected in a mirror. In this embodiment, it is assumed that enabling/disabling of the mirror display function can be set by operating the operation unit 270 while the menu screen is displayed on the display panel 128 .

Even when the mirror display function is enabled, the display panel 128 and the housing are disabled in the first, third and fourth modes, and enabled only when in the second mode. be done. The system control unit 250 checks the validity/invalidity of the mirror display function when displaying the captured image and the display item on the display panel 128, and based on the confirmation result, the captured image, the display item, and the menu screen in the second mode. control the display of

FIG. 7 is a flowchart of display control of captured images and display items according to whether the mirror display function is enabled/disabled. In FIG. 7, the processing (step) indicated by S number is to load a predetermined program read from the nonvolatile memory 256 by the system control unit 250 into the system memory 252 and to control the operation of each unit of the digital camera 100 in an integrated manner. It is realized by

In S<b>701 , the system control unit 250 detects the mode of use of the display panel 128 (in which mode among the first to fourth modes). In S702, the system control unit 250 determines whether the mode of use of the display panel 128 detected in S701 is the second mode. If the system control unit 250 determines that the mode is the second mode (YES in S702), the process proceeds to S703.

In S703, the system control unit 250 detects the orientation of the digital camera 100 (housing). That is, in S703, horizontal shooting (landscape) or vertical shooting (vertical) is detected. In S704, the system control unit 250 determines whether or not it was detected in S703 that the digital camera 100 is in landscape orientation. If the system control unit 250 determines that the digital camera 100 is oriented horizontally (YES in S704), the process advances to S705. In S705, the system control unit 250 branches the processing depending on whether the display target is a captured image or a display item.

In S705, the system control unit 250 advances the process to S706 if the display target is the captured image. In S706, the system control unit 250 determines whether the mirror display function is enabled. If the system control unit 250 determines that the mirror display function is valid (YES in S706), the process proceeds to S707, and if it determines that the mirror display function is invalid (NO in S706), the process proceeds to S708. proceed.

In S707, the system control unit 250 displays the captured image upside down, and then terminates this process. In S708, the system control unit 250 displays the captured image vertically and horizontally reversed, and then terminates this process.

In S705, if the display target is a display item, the system control unit 250 advances the process to S709. In S709, regardless of whether the mirror display function is valid or invalid, the display item is displayed vertically and horizontally reversed, and then this processing is terminated.

If the system control unit 250 determines in S704 that the digital camera 100 is oriented vertically (NO in S704), the process proceeds to S710. In S710, the system control unit 250 branches the processing depending on whether the display target is a captured image or a display item.

In S710, if the display target is the captured image, the system control unit 250 advances the process to S711. In S711, the system control unit 250 determines whether or not the mirror display function is enabled. If the system control unit 250 determines that the mirror display function is valid (YES in S711), the process proceeds to S712, and if it determines that the mirror display function is invalid (NO in S711), the process proceeds to S713. proceed.

In S712, the system control unit 250 displays the captured image upside down, and then terminates this process. In S713, the system control unit 250 displays the captured image in normal rotation, and then terminates this process.

In S710, if the display target is a display item, the system control unit 250 advances the process to S714. In S714, regardless of whether the mirror display function is valid or invalid, the display item is displayed in normal rotation, and then this processing is terminated.

If the system control unit 250 determines in S702 that the usage mode of the display panel 128 is not the second mode (it is one of the first, third, and fourth modes) (NO in S702), the process is executed. Proceed to S715. In S715, since the mirror display function is disabled, the captured image and display items are displayed on the display panel 128 according to the display orientation table shown in FIG. 6, and then this process is terminated.

Note that if the shutter button 161 is pressed while the display is being controlled according to the flowchart of FIG. 7, the imaging process is started. Specifically, when the first shutter switch 262 is turned on, shooting preparation processing such as AF, AE, and AWB is performed at the display position of the AF frame. When the second shutter switch 264 is turned on, a series of shooting processes are performed until the captured image is recorded as an image file in the storage medium 200 .

FIG. 8 shows a display example of captured images and display items according to the flowchart of FIG. Note that FIG. 8 shows display examples for each of the first to fourth modes from the viewpoint of complementing the display direction table of FIG. 6 and the display control in S715.

In FIG. 8, the display example of the display items in the first mode and horizontal shooting represents the same display state as in FIG. Also, in FIG. 8, the display example of the display items in the first mode and vertical shooting represents the same display state as in FIG.

With the display control as shown in FIG. 8, even when the mirror display function is provided, when the captured image and the display items are displayed on the display panel 128 at the same time, the display directions of the captured image and the display items match. It is possible to prevent the occurrence of a situation where there is no

FIG. 8 also shows a display example of the menu screen when the digital camera 100 is held vertically. As mentioned above, the menu screen is displayed only in horizontal layout. Therefore, although not shown, when the digital camera 100 is held horizontally, the display control of the menu screen is performed in the same manner as the display control of the display items. Visual recognition is possible in the state shown in .

In the first mode, it is assumed that the digital camera 100 is rotated vertically by 90° from a state in which the digital camera 100 is horizontally oriented and the menu screen is displayed on the display panel 128 as shown in FIG. 5(c). In that case, the display state of the menu screen on the display panel 128 does not change. In other words, when the display panel 128 is rotated about an axis orthogonal to the display screen of the display panel 128, the display state of the menu screen is maintained regardless of the rotation angle of the display panel 128. FIG. Therefore, the user facing the display panel 128 will view the menu screen that is the menu screen shown in FIG. , the menu screen is displayed in normal rotation.

Then, the system control unit 250 controls the horizontally arranged menu screen to be vertically and horizontally reversed in the second state regardless of whether the mirror display function is enabled or disabled. In other words, even if the mirror display function is enabled, it is not applied to display control of the menu screen. Also in the third state, the menu screen is controlled to be vertically and horizontally reversed. In other words, in the second and third modes as well, even when the display panel 128 is changed from landscape to portrait orientation, the display state of the menu screen is maintained in the display state when the display panel 128 is landscape orientation. This allows the user to easily grasp the contents of the menu screen regardless of the orientation of the digital camera 100 .

If the digital camera 100 has display means other than the display panel 128, and if the orientation of the display screen is different between the display panel 128 and the other display means, the Different inversion processing may be performed by the display means. For example, the display panel 128 is the second mode, but another display means is the mode corresponding to the first mode. This solves the problem that the display direction of items differs between the display panel 128 and another display means. Examples of other display means include an EVF 229, an external monitor connected through an external video output such as HDMI (registered trademark), SDI, or the like.

It should be noted that the mode of use of the EVF 229 can be regarded as corresponding to the first or third mode of the display panel 128, and which mode should be determined in advance in the digital camera 100 by default setting or user setting. can be done. Similarly, the mode of use of the external monitor can generally be considered to correspond to the first or third mode, and which mode is considered to be pre-determined in the digital camera 100 by default settings or user settings. be able to. The system control unit 250 exclusively performs display control of the display panel 128 and another display means according to the mode of use.

Next, the relationship between the movement of selected items on the display panel 128 and the four directional operation keys of the cross key 174 provided on the back of the digital camera 100 when used in the second mode will be described. Selection items include selection items on a menu screen, a cursor superimposed on an OSD, and the like.

When using the digital camera 100 in the second mode, when the selected item is moved by operating the cross key 174, the selected item is prevented from moving in the direction opposite to the direction specified by the cross key 174. need to be Therefore, the system control unit 250 controls the relationship between the moving direction of the selected item and each direction key of the cross key 174 as follows.

FIG. 9 is a diagram for explaining the movement direction of the selected item with respect to each direction key of the cross key 174 in the second mode. The cross key 174 has an up key 901 , a right key 902 , a down key 903 and a left key 904 . It should be noted that the operation direction of each direction key of the cross key 174 and the movement direction of the selected item are the same when used in the first and third modes, and thus the description thereof will be omitted.

First, the case where display items are arranged horizontally will be described. When the cross key 174 is viewed from the rear side of the digital camera 100, the upward key 901 points upward. In the second mode, compared to the first mode, the display panel 128 is vertically inverted, and the display items are displayed in reverse in the vertical direction. Therefore, in the first mode, the upward key 901 moves the selected item from the bottom of the screen to the top of the screen, but in the second mode, the upward key 901 also moves the selected item from the bottom to the top of the screen. . The downward direction key 903 is also the same. That is, regarding the vertical direction, the directions indicated by the up key 901 and the down key 903 match the moving direction of the selected item displayed on the display panel 128 . Therefore, the system control unit 250 performs control so that the operation of the up key 901 moves the selected item upward, and the operation of the down key 903 moves the selected item down.

On the other hand, the right direction key 902 points to the right when the cross key 174 is viewed directly. In the second mode, compared to the first mode, the display panel 128 is inverted vertically but not horizontally, and the display items are displayed in reverse in the horizontal direction. Therefore, in the first mode, the right direction key 902 moves the selected item from the left side of the screen to the right side of the screen. to move. The same applies to the left direction key 904 . In other words, regarding the horizontal direction, the direction indicated by the right direction key 902 and the left direction key 904 is reversed to the moving direction of the selected item displayed on the display panel 128 . Therefore, the system control unit 250 performs control so that the operation of the right direction key 902 moves the selected item leftward, and the operation of the left direction key 904 moves the selected item rightward.

Next, a case where display items are vertically arranged will be described. When horizontal shooting is changed to vertical shooting, the up key 901, the right key 902, the down key 903, and the left key 904 in horizontal shooting are changed to the right key 901a, the down key 902a, 902a, and 902a, respectively in vertical shooting. It changes to left key 903a and up key 904a.

The basic control method when the display items are vertically arranged is the same as when the display items are horizontally displayed. That is, regarding the horizontal direction, the direction indicated by the right direction key 901a and the left direction key 903a and the movement direction of the selected item displayed on the display panel 128 are reversed. Therefore, the system control unit 250 performs control so that the operation of the right direction key 901a moves the selected item leftward, and the operation of the left direction key 903a moves the selected item rightward. On the other hand, regarding the vertical direction, the directions indicated by the up key 904 a and the down key 902 a match the moving direction of the selected item displayed on the display panel 128 . Therefore, the system control unit 250 controls such that the operation of the up key 904a moves the selected item upward, and the operation of the down key 902a moves the selected item down. By performing such control, when each direction key of the cross key 174 is operated, it is possible to prevent the selected item from moving in the direction opposite to the direction indicated by each direction key, thereby improving usability. can be enhanced (improved usability for the user).

Although the present invention has been described in detail based on its preferred embodiments, the present invention is not limited to these specific embodiments, and various forms without departing from the gist of the present invention can be applied to the present invention. included. Furthermore, each embodiment described above merely shows one embodiment of the present invention, and it is also possible to combine each embodiment as appropriate.

For example, in the above embodiment, display control is performed by the system control unit, but various controls may be performed by one piece of hardware, or multiple pieces of hardware (for example, multiple processors and circuits) may perform the display control. Display control may be performed by sharing the processing.

Further, in the above embodiments, the display control device according to the present invention is applied to a digital camera, but the present invention is not limited to a digital camera, and can be applied to electronic devices that are frequently used by changing the orientation of the display screen. can be applied to control. For example, the present invention can be applied to control electronic devices such as smart phones, tablet PCs, mobile phone terminals, PDAs, portable image viewers, digital photo frames, music players, game machines, and e-book readers.

The display control device according to the present invention does not necessarily have to be installed in a device having a display device, and can control image display (item display) on the display device using wired communication or wireless communication. It can be applied to control equipment. Examples of such control devices include smartphones, tablet PCs, laptop PCs, desktop PCs, and the like. In this case, based on the operation or processing performed by the control device, the device equipped with the display device can be remotely controlled by notifying the device with the display device of a command to perform various operations or settings from the control device. can be done. As an example, the control device acquires the LV image from the imaging means, acquires the orientation information from the display device, and transmits the image display data in which the orientation of displaying the LV image on the display device is adjusted according to the acquired orientation information. It is transmitted to the display device by communication or wireless communication. This makes it possible to match the orientation of the display screen with the orientation of the images and items displayed thereon.

The present invention supplies a program that implements one or more functions of the above-described embodiments to a system or apparatus via a network or a storage medium, and one or more processors in the computer of the system or apparatus reads and executes the program. It can also be realized by processing to It can also be implemented by a circuit (for example, ASIC) that implements one or more functions.

REFERENCE SIGNS LIST 100 digital camera 128 display panel 210 lens unit 222 imaging device 250 system control section 255 housing orientation detection section 265 panel orientation detection section 267 open/close detection section 268 rotation detection section

Claims (10)

a first obtaining means for obtaining a captured image to be displayed on a display screen of a first display device;
a second acquiring means for acquiring display items to be displayed on the display screen and their layout;
a first detection means for detecting the orientation of the display screen with respect to the imaging direction of the captured image;
a second detection means for detecting the orientation of the first display device;
each of the captured image and the display items in order to match the directions of the captured image and the display items based on the layout of the display items, the orientation of the display screen, and the orientation of the first display device. Determination means for determining whether or not it is necessary to reverse display in a predetermined direction for
A display control device, comprising: control means for controlling display of the captured image and the display item on the display screen based on a determination result by the determination means. setting means for setting to display the captured image and the display item as mirror images on the display screen;
The control means validates the setting when the orientation of the display screen is the same as the imaging direction, and even when the setting is valid, the setting is invalid for the direction in which the display item is displayed. 2. The display control device according to claim 1, wherein control is performed so that the direction in which the display item is displayed is the same as the direction in which the display item is displayed. the display item is a menu screen of an electronic device controlled by the display control device;
The menu screen has one display mode,
The control means maintains the display state of the menu screen regardless of the rotation angle of the first display device when the first display device is rotated about an axis orthogonal to the display screen. 3. The display control device according to claim 1, wherein: the display items include a selection item movably displayed on the display screen;
The control means controls, based on the orientation of the display screen and the orientation of the first display device, the movement direction of the selected item to match the operation direction of the operation means for moving the selected item. 4. The display control device according to any one of claims 1 to 3, characterized by: When displaying the captured image and the display item on the display screen of the first display device and on the display screen of a second display device different from the first display device,
The determining means further determines whether or not the reverse display in the predetermined direction is necessary for the second display device,
5. The control means exclusively performs display control on the first display device and display control on the second display device according to the determination result of the determination means. The display control device according to any one of 1. the display screen has a rectangular shape,
The second acquiring means acquires whether the arrangement mode of the display items is a horizontal arrangement with the long sides of the display screen up and down or a vertical arrangement with the short sides of the display screen up and down. ,
The second detection means detects whether the posture of the first display device is horizontal with the long sides of the display screen up and down or vertical with the short sides of the display screen up and down. 6. The display control device according to any one of claims 1 to 5, characterized in that: an imaging means having an imaging element;
a housing that houses the imaging element;
rotatable about a first rotation shaft with respect to the housing between a closed position on the rear side of the housing and an open position on the outer side of the housing, and the first rotation shaft; a display panel rotatably disposed about a second rotation axis orthogonal to
first detection means for detecting whether the display panel is in the closed position or the open position;
a second detection means for detecting which direction the display screen faces, the imaging direction or the opposite direction;
a third detection means for detecting the orientation of the housing with respect to the direction of gravity;
Acquisition means for acquiring display items to be displayed on the display screen and their arrangement mode;
When displaying the captured image acquired by the imaging means and the display items on the display screen, the arrangement mode of the display items, the position of the display panel and its orientation with respect to the direction of gravity, and the orientation of the display screen. determining means for determining whether or not it is necessary to reverse-display each of the captured image and the display item in a predetermined direction in order to match the directions of the captured image and the display item based on;
An imaging apparatus, comprising: control means for controlling display of the captured image and the display item on the display screen based on a determination result by the determination means. obtaining a captured image to be displayed on a display screen of a display device;
a step of obtaining an arrangement mode of display items to be displayed on the display screen;
detecting the orientation of the display screen with respect to the imaging direction of the captured image;
detecting an orientation of the display device;
The captured image for matching the orientations of the captured image and the display items based on the obtained arrangement mode of the display items, the detected orientation of the display screen, and the detected orientation of the display device. and determining whether or not each of the display items needs to be reversed in a predetermined direction;
A display control method, comprising: performing control to display the captured image and the display item on the display screen based on the result of the determination. A program for causing a computer to function as each means of the display control device according to any one of claims 1 to 6. A computer-readable storage medium storing a program for causing a computer to function as each means of the display control device according to any one of claims 1 to 6.

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