JP2012123091A - Image display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve such a problem that, conventionally when an image is displayed on an omnidirectional display device, the image is not always displayed in the direction to which a person views.SOLUTION: An image display device according to the present invention includes: display means having a display surface in multiple directions; photographing means for capturing an image of the periphery of the display means; object direction detecting means detecting a preset specific object from the image captured by the photographing means and determining the direction of the specific object; and display position control means for controlling the position of information to be displayed on the display means based on the direction of the object detected by the object direction detecting means.

Description

  The present invention relates to an image display device that displays an image.

  In recent years, there have been increasing opportunities for viewing images taken with an electronic camera on a display. On the other hand, instead of a conventional flat display device, a hemispherical omnidirectional display device has been considered (for example, see Patent Document 1).

  Since such a display device can see an image from the entire circumference, it can be used as a photo frame that is placed on a table in a living room to view photos from various directions.

JP 2005-201926 A

  However, when an image is displayed on a part of an omnidirectional display device, the image is not necessarily displayed in the direction in which the person is looking. There was a problem of having to change the direction. In addition, when using a plurality of similar devices side by side, in order to display related images such as images with the same date and time, the images with the same date and time must be selected and reproduced for each of the plurality of devices. The operation was troublesome.

  An object of the present invention is to provide an image display device capable of displaying an entire periphery capable of appropriately displaying an image in a direction in which a viewer is present and displaying a related image without making troublesome settings even when a plurality of devices are used. Is to provide.

  An image display apparatus according to the present invention includes a display unit having display surfaces in multiple directions, an imaging unit that captures an image around the display unit, and a specific subject that is set in advance from images captured by the imaging unit. And a display position control means for controlling the position of information displayed on the display means based on the direction of the specific subject detected by the subject direction detection means. It is characterized by having.

  In addition, a communication unit for transmitting and receiving information between the devices is provided, and the subject direction detection unit detects another device arranged around the own device from an image photographed by the photographing unit, and When the direction is determined and the own device is displaying an image, the communication means determines the type of image being displayed, the display direction of the image, and the direction of the other device detected by the subject direction detection means of the own device. The image reproduction means transmits an image related to the type of image being displayed by the other apparatus received from the other apparatus via the communication means. The display position control means selects from the image stored in the storage medium of the own apparatus and reproduces it, and the display position control means displays the display direction of the image received from the other apparatus via the communication means and the own apparatus detected by the other apparatus. And the image reproduction means reproduces based on the direction. And controlling the position to be displayed on the display means an image that.

  The image display device according to the present invention can appropriately display an image in the direction in which the viewer is present, and can display related images without making troublesome settings even when a plurality of devices are used.

It is a figure which shows the use image of the image display apparatus 100 which concerns on 1st Embodiment. 2 is a diagram illustrating an appearance and an internal structure of the image display apparatus 100. FIG. 2 is a block diagram illustrating a configuration example of an image display device 100. FIG. FIG. 4 is a diagram for explaining a shooting direction of the camera unit and a display direction of the display unit. 3 is a flowchart showing an operation flow of the image display apparatus 100. It is a figure which shows the example which changes the display direction of an image according to a viewer's position. It is a block diagram which shows the structural example of the image display apparatus 100a which concerns on 2nd Embodiment. It is a figure which shows the usage image of the image display apparatus 100a. It is a figure for demonstrating the process which matches the display direction of an image, when using image display apparatus 100a (1) and image display apparatus 100a (2). It is a flowchart which shows the flow of operation | movement of the image display apparatus 100a.

Embodiments of an image display apparatus according to the present invention will be described in detail below with reference to the drawings.
(First embodiment)
FIG. 1 is a diagram illustrating a usage image of the image display apparatus 100 according to the first embodiment. The image display device 100 is an electronic photo album for viewing a photograph taken with an electronic camera on a display for viewing, and in particular, an omnidirectional display that allows a viewer to view an image at any position around the device. It has. In particular, the image display apparatus 100 according to the present embodiment can detect the direction in which the viewer is present and display an image in the direction in which the viewer is present.

[Configuration of Image Display Device 100]
Next, the configuration of the image display apparatus 100 will be described in detail. FIG. 2A is a diagram showing an external configuration of the image display apparatus 100 shown in FIG. In FIG. 2A, the image display device 100 includes a display unit 101 that can display an image in the entire circumferential direction, and a camera unit 102 that captures a person viewing the image around the image display device 100. Then, for example, an image stored in the memory card 251 attached to the image display device 100 is read and displayed on the display unit 101.

  In the present embodiment, an image stored in the memory card 251 is displayed, but an image received from another device (electronic camera, mobile phone, personal computer, etc.) via the wireless LAN is displayed on the display unit 101. Alternatively, an image transmitted from a remote place via the Internet or a mobile phone line may be displayed on the display unit 101. In addition, the image display device 100 has a built-in battery so that it can be freely carried on a table or the like.

  The display unit 101 has a cylindrical or hemispherical screen, and projects and displays an image on the screen from an internal projector. Although the projector system is used in this embodiment, a plurality of liquid crystal monitors may be arranged around the image display device 100 so as to have display surfaces in multiple directions. Further, the surface of the display unit 101 does not need to be a curved surface such as a cylindrical shape or a spherical surface, and may be a pseudo cylindrical shape or a spherical shape by combining a plurality of screens into a polygonal shape.

  In the example of FIG. 2A, the image display device 100 depicts a state in which a plurality of images (image 201a, image 201b, image 201c, image 201d) are displayed side by side at an arbitrary position on the display unit 101. However, it is also possible to display a single image in a panoramic manner over the entire circumference. The image displayed on the display unit 101 may be a still image or a moving image.

  The camera unit 102 is equipped with a PAL (Panoramic Annual Lens) and can capture an image around the image display device 100 (in a direction of 360 degrees). The camera unit 102 is displayed around the display unit 101 and displayed on the display unit 101. Take a picture of someone who is watching the recorded image. A donut-shaped lens 202 is disposed on the top of the camera unit 102, and light incident from the periphery of the image display apparatus 100 is imaged element 151 disposed below the camera unit 102 via the lens 202 and the mirror 203. Is imaged.

  FIG. 2B is a diagram illustrating an internal state of the image display apparatus 100. In the camera unit 102, the light incident from the lens 202 is reflected by the mirror 203 and the mirror 204, and forms an image on the light receiving surface of the image sensor 151 through the imaging optical system 205. The image pickup device 151 has a plurality of photoelectric conversion units (photodiodes, etc.) arranged in a two-dimensional form, converts it into an electrical signal corresponding to the amount of light received by each pixel, and converts the image data after A / D conversion. Output as a captured image.

  2B, the display unit 101 is a projector having a display unit 152, a projection lens 153, and a screen 154, and an image displayed on the display unit 152 is passed through the projection lens 153. The image is displayed on the screen 154.

  FIG. 3 is a block diagram illustrating a configuration example of the image display apparatus 100. The image display device 100 includes a display unit 101, a camera unit 102, an operation control unit 103, a reproduction image selection unit 104, an image reproduction unit 105, a display position control unit 106, and a subject direction detection unit 107. Is done. 2 denote the same parts as those in FIG. Here, the correspondence between each block and each means described in claims is as follows: the display unit 101 is a display unit, the camera unit 102 is a photographing unit, the subject direction detection unit 107 is a subject direction detection unit, and the reproduced image selection unit 104 and the image. The reproduction unit 105 corresponds to an image reproduction unit, the memory card 251 corresponds to a storage medium, and the display position control unit 106 corresponds to a display position control unit.

  The operation control unit 103 provides a man-machine interface for operating the image display apparatus 100. The operation control unit 103 includes a touch panel 103 a disposed on the display unit 101, and various operations can be performed by a user touching the display unit 101 with a finger. For example, when the image display apparatus 100 is in a power-off state and the finger touches any part on the touch panel 103a of the display unit 101, the operation control unit 103 turns on the power and displays the operation menu on the display unit 101. .

  Here, the position at which the operation control unit 103 displays a GUI such as an operation menu on the display unit 101 is, for example, a position on the display unit 101 corresponding to the face direction of the operator detected by a subject direction detection unit 107 described later. To do. Alternatively, the operation control unit 103 may determine a position touched by a finger from the coordinates of the touch panel 103a and display an operation menu on the display unit 101 corresponding to the position touched by the finger.

  In any method, the user can see the operation menu regardless of the direction around the image display apparatus 100, and can perform an operation according to the displayed operation menu. For example, the user can select and set an item displayed on the operation menu with a finger, select an image to be reproduced from an image list stored in the memory card 251, or select an image. The display mode (slideshow display etc.) can be set. When the user touches the reproduction button of the GUI displayed on the display unit 101 with a finger, reproduction of the image selected according to the set condition is started, and the reproduction image is displayed in the direction in which the user on the display unit 101 is present. Can be displayed.

  The hardware main power switch of the image display apparatus 100 is provided at, for example, the lower part of the main body. In the above example, the operation control unit 103 is in a standby state in which the state of the touch panel 103a is constantly monitored. It shall be in In the present embodiment, the image display apparatus 100 is operated using the touch panel 103a. However, a dedicated operation panel 103b may be provided in the main body. In this case, a power button, a playback button, a menu button, a multi selector button, and the like are provided on the operation panel 103b. For example, the user activates the image display apparatus 100 by pressing the power button, displays the operation menu on the display unit 101 with the menu button, and selects with the multi selector button instead of the touch panel 103a.

  The reproduction image selection unit 104 reads out the reproduction image selected by the user from the memory card 251 by the operation control unit 103 and outputs it to the image reproduction unit 105.

  The image reproduction unit 105 reproduces the image file read from the memory card 251 by the reproduction image selection unit 104. For example, when the image file is a compressed file according to the JPEG standard, a process of converting the image file into image data in RGB format or YCrCb format that can be displayed on the display unit 101 is performed. Alternatively, in the case of a moving image file according to the MPEG standard or the like, it is similarly converted into image data that can be displayed on the display unit 101.

  The display position control unit 106 controls the position on the display unit 101 when the image output from the image reproduction unit 105 is displayed on the display unit 101. This position corresponds to the image display direction in the image display apparatus 100. For example, FIG. 4A is a diagram in which a 360 ° display surface on the display unit 101 is drawn in eight directions from position A to position H. FIG. In FIG. 4A, the positions A to H are drawn as fixed display positions, but each display position is controlled in an arbitrary direction (angle) by the display position control unit 106. For example, assuming that position A on the right side of the page is 0 °, position B is 45 °, position C is 90 °, position D is 135 °, position E is 180 °, position F is 225 °, position G is 270 °, position Although H is 315 °, the position A may be arranged at a position of 5 ° or 10 °. The display position control unit 106 controls the position at which the image output from the image reproduction unit 105 is displayed according to the position information output from the subject direction detection unit 107. For example, the display position control unit 106 can display the image output from the image reproduction unit 105 at the 0 ° position A or 270 ° at the position G.

  The subject direction detection unit 107 detects a specific subject set in advance from the image captured by the camera unit 102. In particular, in the present embodiment, the position of a person around the image display apparatus 100 is determined. For example, a person is identified by detecting a face from an image captured by the camera unit 102 using a face detection technique used in an electronic camera or the like. Then, it is determined in which direction of the image display apparatus 100 the detected face is. The direction is determined based on the position of the face imaged on the light receiving surface of the image sensor 151 of the camera unit 102. For example, FIG. 4B is a diagram of the image display device 100 as viewed from above, and is a diagram depicting a state of an image formed on the image sensor 151 of the camera unit 102. In FIG. 4B, the subject direction detection unit 107 detects the face of a person in the 0 ° direction of the image formed on the image sensor 151. Then, the subject direction detection unit 107 outputs the position information where the face is detected to the display position control unit 106. Here, the position information is, for example, an angle with respect to the center of the image sensor 151, and in the example of FIG. 4B, the angle is 0 °.

  Further, the angle detected by the subject direction detection unit 107 is handled with the same angle coordinate as the angle indicating the direction of displaying an image on the display unit 101 described with reference to FIG. For example, when the subject direction detection unit 107 detects the viewer's face in the 0 ° direction of the image sensor 151 of the camera unit 102, the display position control unit 106 displays an image in the 0 ° direction of the display unit 101. This means that the image is displayed in the direction in which the viewer is present.

  The touch panel 103a of the operation control unit 103 is also handled with the same angular coordinates, and the operation control unit 103 can determine which position (direction) the part touched by the user's finger is. For example, when a finger touches a portion of the operation control unit 103 positioned in the 90 ° direction, the operation control unit 103 displays an operation menu at the 90 ° position of the display unit 101.

  Note that the subject direction detection unit 107 may perform simple detection processing for determining whether or not the subject is a face, or detect the face of a specific person so that the feature amount of the face can be recognized in more detail. You may do it. In this case, the subject direction detection unit 107 can grasp the position for each viewer even when there are a plurality of viewers around the image display device 100.

  Next, in the image display apparatus 100 according to the present embodiment, a display position control process for controlling the position of the image displayed on the display unit 101 according to the position of the viewer will be described.

[Display position control processing]
FIG. 5 is a flowchart showing processing for reading an image stored in the memory card 251 and displaying it on the display unit 101 in accordance with the position of the viewer. It is assumed that the image display apparatus 100 is powered on.

  (Step S101) The user operates the operation control unit 103 to select an image to be reproduced from images stored in the memory card 251. For example, when the user touches the touch panel 103a of the operation control unit 103 with a finger, the operation control unit 103 instructs the display position control unit 106 to display the operation menu on the display unit 101 at the position touched by the finger. . Then, the user selects an image to be reproduced, similar to the image reproduction in a general electronic camera. As a method for selecting a reproduced image, for example, only one specific image may be selected, or a plurality of images may be selected such as all images in the same date or the same folder.

  (Step S102) When the selection of the image to be reproduced is completed, the user touches the reproduction button displayed on the display unit 101 to start reproduction. Then, the reproduction image selection unit 104 reads out the selected image from the memory card 251 and outputs it to the image reproduction unit 105. The image reproduction unit 105 decompresses the image compression data such as the JPEG standard read from the memory card 251, converts it into image data for display, and outputs it to the display position control unit 106.

  (Step S <b> 103) The display position control unit 106 displays the image output from the image reproduction unit 105 on the display unit 101. When a plurality of images are selected, they are displayed like a slide show.

  Here, the position on the display unit 101 where the image is displayed is, for example, the position where the operation menu is displayed as the initial position.

  (Step S <b> 104) The subject direction detection unit 107 detects the face of a person around the image display device 100. If a face is detected in the image captured by the camera unit 102, the process proceeds to step S105. If no face is detected, the process proceeds to step S107.

  (Step S <b> 105) As described with reference to FIG. 4B, the subject direction detection unit 107 determines the direction in which the person's face is present, and outputs position information to the display position control unit 106.

  (Step S106) As described with reference to FIG. 4A, the display position control unit 106 displays the image output by the image reproduction unit 105 in the direction indicated by the position information output by the subject direction detection unit 107. In addition, when it differs from the position where the image was displayed by the previous process, the display position is changed.

  (Step S107) The operation control unit 103 determines whether or not a finger is touched on the touch panel 103a (determines whether there is an operation). If there is no operation, the process returns to step S104 and the processes from step S104 to step S107 are repeatedly executed. If there is an operation, the process returns to step S101 to display the operation menu on the display unit 101, and a new reproduced image is displayed. Make a selection. Note that when the end of reproduction is selected from the operation menu, the display of the image is ended, and when the power-off is selected, the image display device 100 is set in a standby state.

  Here, in the flowchart of FIG. 5, for example, as shown in FIG. 4C, when the viewer Z moves from position A (0 ° position) to position C (90 ° position), in step S105. The subject direction detection unit 107 determines that the current position of the viewer Z is 90 °, and the display position control unit 106 determines the position on the display unit 101 that displays an image from the position A in step S106. Change to C. Thus, the same image can be viewed even if the viewer changes the viewing position.

  In addition, as described above, the subject direction detection unit 107 can identify the faces of a plurality of persons so that the position can be grasped for each viewer even when the plurality of viewers are around the image display apparatus 100. It is possible to display different images for each viewer. For example, in FIG. 6, when the image B is displayed to the viewer B at the position B and the image D is displayed to the viewer D at the position D, the locations of the viewer B and the viewer D are switched. To do. In this case, since the subject direction detection unit 107 detects that the viewer B has moved to the position D and the viewer D has moved to the position B, the display position control unit 106 has displayed the image displayed at the position B. B is displayed at position D on the display unit 101, and the image D displayed at position D is displayed at position B on the display unit 101. Thereby, each viewer can always appreciate the same image.

  When a plurality of viewers use it, it is necessary to manage which viewer is viewing which image. For example, in the flowchart of FIG. 5, when an image to be reproduced by the viewer is selected in steps S101 to S103, the image is associated with the viewer. In this case, viewing the operation menu screen, recognizing the face of the person being operated, and associating the feature amount of the face with the selected image and holding them in the storage area inside the display position control unit 106 allows viewing. It is possible to manage images to be reproduced for each person. Thereby, the display position control unit 106 can display the image selected by the viewer at the position where the viewer has moved even if the plurality of viewers have moved their positions.

  Alternatively, when each viewer does not perform an operation of selecting a reproduced image on the operation control unit 103, for example, the image display device 100 is disposed in a museum or the like, and a plurality of images are displayed around the display unit 101 in advance. In such a case, when a visitor touches one of the images displayed in advance on the display unit 101 on which the touch panel is arranged with a finger, the person in front of the image is photographed by the camera unit 102 to recognize the face. And the display image may be associated with the visitor. Note that if a person whose face is recognized is no longer detected from a photographed image of the camera unit 102 for a preset time (such as 3 seconds), the display position control unit 106 automatically stores the face information stored therein. The image association may be deleted. Thereby, it is not necessary to perform useless face detection processing, and the capacity of a storage area for storing data in which a face and an image are associated can be reduced. In this case, the display of the image selected by the viewer is stopped. Thereby, it can prevent that the image displayed on the display part 101 increases infinitely.

  In the above description, the case where there is only one viewer in the same direction has been described. However, the same direction (for example, a direction within a range of 15 ° to 30 ° may not be the same). When a plurality of human faces are detected in the set range), the two-person face information and the image may be associated and managed. For example, when the image L is associated with the person J and the person K at the position A, the person J moves from the position A to the position C, and the person K moves from the position A to the position G, the display position control unit 106 displays the position C. The image L is displayed at the position G.

  As described above, the image display apparatus 100 according to the present embodiment includes the display unit 101 that can display in all directions and the camera unit 102 that can capture surrounding images, and the viewing around the image display apparatus 100. Even if the viewer moves by recognizing the face of the viewer, the position of the image to be displayed changes as the viewer moves, so that the viewer can view the same image regardless of the position to view the image. it can.

(Second Embodiment)
Next, an image display device 100a according to the second embodiment will be described. In the first embodiment, an example in which only one image display device 100 is used has been described. However, in the second embodiment, when two image display devices 100a similar to the image display device 100 are used side by side. The related images can be displayed in the same direction in cooperation with each other.

  FIG. 7 is a block diagram illustrating a configuration example of the image display device 100a according to the second embodiment. In FIG. 7, an image display device 100a includes a display unit 101, a camera unit 102, an operation control unit 103, a reproduction image selection unit 104a, an image reproduction unit 105, a display position control unit 106a, and a subject direction detection unit. 107 and a communication unit 108. In FIG. 7, the same reference numerals as those in FIG. 3 denote the same blocks. Also, the block with a added to each code has the same basic function as the block with the same code in FIG. Here, the correspondence between each block and each means described in the claims is as follows: the display unit 101 is a display unit, the camera unit 102 is a photographing unit, the subject direction detection unit 107 is a subject direction detection unit, and the reproduced image selection unit 104a is an image. The reproduction unit 105 corresponds to an image reproduction unit, the memory card 251 corresponds to a storage medium, the display position control unit 106a corresponds to a display position control unit, and the communication unit 108 corresponds to a communication unit.

  The image display device 100a has basically the same configuration as the image display device 100 described in the first embodiment, but includes a communication unit 108. Then, information on the image being displayed, information on the position being displayed, and the like are transmitted to and received from another similar device via the communication unit 108, and control is performed so that the same image is displayed in the same direction.

  Here, in order to match the display direction of the image being displayed by the other apparatus with the direction of the image displayed by the own apparatus, the subject direction detection unit 107a needs to detect the positional relationship between the other apparatus and the own apparatus. is there. For this purpose, the image display device 100a detects in which direction the other device is placed from the image captured by the camera unit 102. As an example of the detection method of another device, since the device shape is known in advance, the device shape template is held in the internal memory of the subject direction detection unit 107a, and pattern matching with the template is performed on the captured image. Other devices can be detected. When the other device is detected from the captured image, it is possible to detect in which direction the other device is located with reference to the image sensor 151. As described with reference to FIG. 4B, this is similar to the case where the direction of the viewer is determined by face detection, and other devices are detected from the captured image by replacing the face detection with other device detection. The direction in which the device is placed can be determined.

  In FIG. 7, the communication unit 108 is configured by a wireless transmission / reception device for performing communication using radio waves, such as a wireless LAN. The image information transmitted / received to / from the other device by the communication unit 108 is input / output to / from the reproduction image selection unit 104a. Further, position information transmitted / received by the communication unit 108 to / from other devices is input / output to / from the display position control unit 106a.

  Here, establishment of a communication link with another apparatus will be described. In order to notify the neighboring similar devices of the presence of the own device, the communication unit 108 broadcasts a pilot signal having a predetermined frequency periodically (for example, every 2 seconds). Conversely, a pilot signal broadcast from another device is received, and similar devices arranged in the vicinity are detected. The pilot signal contains an identification number unique to each device, and the device receiving the pilot signal returns a response signal with the identification number specified, and establishes a communication link with the partner device. Note that the response signal also contains the identification number of the side that received the pilot signal, and when sending and receiving various information via the communication link established between the devices, be sure to specify the identification number of the source and destination. Add each one. In the present embodiment, an example will be described in which image information, position information, and the like are transmitted and received via a communication link established between two image display apparatuses 100a (first apparatus and second apparatus). In the case where a plurality of image display devices 100a are used, for example, even when the third device is received by the communication unit 108, it can be seen from the identification information that the third device is not information addressed to itself. Never use information by mistake. When the third device transmits / receives information to / from the first device or the second device, as described above, the third device and the first device or the second device A pilot signal and a response signal are transmitted and received between each other to establish a communication link.

  In this way, it is possible to perform control for transmitting and receiving image information, position information, and the like via the established communication link and displaying images related to each other in the same direction. As described above, in order to detect the position of the other device, the correspondence between the other device detected from the image captured by the camera unit 102 and the connection destination device of the communication link established by the communication unit 108 is When two devices are used, it is obvious, but when there are a plurality of devices, for example, processing can be performed as follows.

  First, the background color of the display unit 101 of each image display device 100a is set. When a plurality of other devices are detected from the image captured by the camera unit 102, the background color of the display unit 101 of each device is detected. Then, the communication unit 108 notifies the background color of the display unit 101 of each device via a communication link established with a plurality of other devices. Thus, by associating the background color of each device detected from the image captured by the camera unit 102 with the device having the same background color of each device notified by the communication link, the information transmitted / received via the communication link is the camera unit. It can be seen which other device 102 is detected from the captured image. If a plurality of devices having the same background color are detected, they can be distinguished by instructing the corresponding device to change the background color. Further, the method is not limited to such a method using the background color. For example, by transmitting and receiving the positional relationship between a plurality of other devices from the image captured by the camera unit 102, it is possible to determine which device is the information notified from. You may make it estimate. Any method may be used as long as the image information and the position information received by the communication unit 108 are captured by the camera unit 102 and the information transmitted from the device detected by the subject direction detection unit 107 can be distinguished. Good.

[Specific example of cooperation between two image display devices 100a]
Here, the two image display devices 100a will be described as specific examples of the image display device 100a (1) and the image display device 100a (2). In FIG. 8A, as in the first embodiment, the viewer Z views the image P1 with one image display device 100a (1). Then, as shown in FIG. 8B, the second image display device 100a (2) that is powered on is placed near the image display device 100a (1). The image display device 100 a (2) communicates with the image display device 100 a (1), and displays an image P 2 related to the image P 1 displayed on the image display device 100 a (1) in its own memory card 251. Search for and display from the images stored in. For example, the image P1 and the image P2 are images taken on the same day. Moreover, the image display device 100a (2) displays the image P2 in the same direction as the image P1 is displayed on the image display device 100a (1). Thereby, the viewer Z can appreciate the image P2 related to the image P1. The same operation is performed even when the third and fourth image display devices 100a are placed nearby.

  As described above, the image display apparatus 100a according to the present embodiment allows a plurality of similar apparatuses to cooperate with each other to automatically search for related images and display them in the same direction.

[Linkage of image display direction]
Next, a method for adjusting the direction in which the image display device 100a (1) and the image display device 100a (2) display images in cooperation with each other will be described with reference to FIG. Here, in order to distinguish the two image display devices 100a, they are referred to as an image display device 100a (1) and an image display device 100a (2), and blocks such as the camera unit 102 and the image sensor 151 of the image display device 100a are described. Are also described as the camera unit 102 (1) and the image sensor 151 (1) of the image display device 100a (1), or the camera unit 102 (2) and the image sensor 151 (2) of the image display device 100a (2). To do. In addition, when not attaching | subjecting (1) or (2), it shows that it is a matter common to both.

  FIG. 9 is a diagram illustrating an example of an image formed on the image sensor 151 (1) of the camera unit 102 (1) on the image display device 100a (1) side and the image sensor 151 (1). An image of 360 ° around the image display device 100a (1) is formed on the light receiving surface 1). In the example of the figure, an image of another image display device 100a (2) is taken in the direction of 330 °, and the face of the viewer Z is taken in the direction A1 of 240 °. Accordingly, the subject direction detection unit 107a (1) has the image display device 100a (2) placed in the 330 ° direction of the image display device 100a (1) and the viewer is in the 240 ° direction. I understand that.

  Here, for ease of explanation, it is assumed that the angle coordinates of the image sensor 151 and the angle coordinates of the image display device 100a are the same. Therefore, an angle on the image sensor 151 (corresponding to an angle on the image to be captured) is an angle indicating the direction of the object being captured as it is.

  Next, a description will be given of control for aligning the direction of an image displayed in cooperation between the image display device 100a (1) and the image display device 100a (2) in FIG. In FIG. 9, it is assumed that the image display device 100a (2) is placed in the vicinity of the image display device 100a (1) while the image display device 100a (1) is displaying any image to the viewer Z. Here, the user appropriately places the image display device 100a (2) without considering whether or not the reference coordinates of the image display device 100a (1) and the image display device 100a (2) match. To do. Accordingly, as shown in FIG. 9, the reference coordinates of the image display device 100a (1) (corresponding to the angle coordinates of the image sensor 151 (1)) and the reference coordinates of the image display device 100a (2) (image sensor 151 (2) (Corresponding to the angle coordinates)) is different, and the direction of 0 ° does not match.

  Here, it is assumed that the image display device 100a (1) is in a state in which some face is displayed by detecting the face of the viewer Z in the direction of 240 °. Then, the image display device 100a (2) is placed at the position shown in FIG.

  When the subject direction detection unit 107a (1) of the image display device 100a (1) detects the image display device 100a (2) in the image captured by the camera unit 102 (1), the image display device 100a (2) Determine the direction in which it is placed. In the example of FIG. 9, as described above, the subject direction detection unit 107a (1) detects that the image display device 100a (2) is placed in the direction of 330 °.

  On the other hand, a communication link is established between the communication unit 108 (1) of the image display device 100a (1) and the communication unit 108 (2) of the image display device 100a (2) as described above. The

  The image display device 100a (1) then displays information related to the image being displayed on the image display device 100a (2) (such as the shooting date) and information indicating the direction A1 in which the image is displayed (angle: 240). And the information indicating the direction of the detected image display device 100a (2) (angle: 330 °) are transmitted to the image display device 100a (2) via the communication link.

  Then, the image display device 100a (2) obtains a reference coordinate shift (angle difference) from the image display device 100a (1) from information received from the image display device 100a (1). First, the subject direction detection unit 107a (2) of the image display device 100a (2) detects the image display device 100a (1) on the image captured by the camera unit 102 (2), and the image display device 100a (1). Determine the direction in which the is placed. In the example of FIG. 9, the subject direction detection unit 107a (2) detects that the image display device 100a (1) is placed in the direction of 210 °.

  Then, it is determined how many times the information (angle: 330 °) indicating the direction of the image display device 100a (2) received from the image display device 100a (1) corresponds to the image display device 100a (2). In this case, since 210 ° −180 ° = 30 °, the display position control unit 106a (2) causes the 330 ° direction of the image display device 100a (1) to be 30 ° of the image display device 100a (2). It can be seen that this corresponds to a direction, and the reference coordinates of the image display device 100a (1) have an angular difference of + 60 ° with respect to the reference coordinates of the image display device 100a (2).

  Then, the display position control unit 106a (2) of the image display device 100a (2) first displays information (angle: 240 °) indicating the direction A1 in which the image received from the image display device 100a (1) is displayed. Is equivalent to the number of times of the image display device 100a (2). In this case, since it is known that there is an angle difference of + 60 °, 240 ° + 60 ° = 300 °, and the display position control unit 106a (2) has a 240 ° direction A1 of the image display device 100a (1). Corresponds to the direction of 300 ° of the image display device 100a (2). That is, the 300 ° direction A1 of the image display device 100a (2) is the direction in which the viewer Z is present.

  On the other hand, the reproduction image selection unit 104 (2) of the image display device 100a (2) first displays a related image from information (such as shooting date / time) related to the image displayed from the image display device 100a (1). 251 (2) is searched, read out as an image to be displayed, and output to the image reproduction unit 105 (2). Then, the image data is converted into image data for display by the image reproduction unit 105 (2), and the display position control unit 106a (2) displays the display unit 101 (2) corresponding to the previously obtained display direction A1 (angle: 300 °). ) Is displayed at the position.

  In this way, the image display device 100a (2) can automatically display an image related to the image being displayed by the image display device 100a (1) in the direction in which the viewer Z is present.

  Next, cooperation processing of the image display apparatus 100a according to the present embodiment will be described in detail with reference to the flowchart of FIG. FIG. 10 is a flowchart showing the flow of processing of the image display device 100a (2) placed later in the vicinity of the image display device 100a (1) displaying the image in FIG.

  (Step S201) As described above, the subject direction detection unit 107 (2) of the image display device 100a (2) detects other nearby devices from an image captured by the camera unit 102 (2). Similarly, the subject direction detection unit 107 (1) of the image display device 100a (1) detects other nearby devices from images captured by the camera unit 102 (1).

  (Step S202) A communication link is established between the image display device 100a (1) and the image display device 100a (2). Thus, information can be transmitted and received between the image display device 100a (1) and the image display device 100a (2). As described above, when there are three or more devices, the other device detected in step S201 is associated with the communication link.

  (Step S203) Information (image information, position information, etc.) relating to an image is transmitted and received between the image display device 100a (1) and the image display device 100a (2). In this example, the image display device 100a (1) is already displaying an image, and the image display device 100a (2) is turned on later, so there is no image being displayed. The image display device 100a (1) acquires information (image information, position information, etc.) regarding the image being displayed. The information related to the image includes the image information (shooting date and time, file name, folder name, etc.) and position information (display position or display direction on the display unit 101) described above. In addition, information is transmitted and received by the playback image selection unit 104a via the communication unit 108 with respect to image information, and the display position control unit 106a via the communication unit 108 with respect to position information.

  (Step S204) The reproduction image selection unit 104a (2) of the image display device 100a (2) relates to the information related to the displayed image received from the reproduction image selection unit 104a (1) of the image display device 100a (1). An image is retrieved from the memory card 251 (2) of the image display device 100a (2) and selected as a reproduced image. For example, an image having the same shooting date and time as the image being displayed on the image display device 100a (1) is searched and selected as a reproduced image.

  (Step S205) The image selected by the reproduction image selection unit 104a (2) of the image display device 100a (2) is output to the image reproduction unit 105 (2), and converted into image data that can be displayed by the image reproduction unit 105 (2). The data is converted and output to the display position control unit 106a (2). The display position control unit 106a (2) displays an image output from the image reproduction unit 105 (2) at a position on the display unit 101 (2) indicated by the position information received by the communication unit 108 (2). Accordingly, the image display device 100a (2) can display an image related to the image being displayed by the image display device 100a (1) in the same direction as the image display device 100a (1). Then, returning to step S201, the same processing is repeatedly executed. In step S201, the processing from step S202 to step S204 may not be performed on the previously detected device.

  In this way, when the image display device 100a (1) places the image display device 100a (2) close to the image display device 100a (1) while displaying the image, an image related to the image being displayed on the image display device 100a (1) is displayed. The image display device 100a automatically retrieves from the memory card 251 (2) of the display device 100a (2) and displays the retrieved image in the same direction as the display direction of the display unit 101 (1) of the image display device 100a (1). It can be displayed on the display unit 101 (2) of (2). Thereby, the viewer who was viewing the image on the image display device 100a (1) can also view the image displayed on the display unit 101 (2) of the image display device 100a (2).

  In the flowchart of FIG. 10, the image display device 100a (2) executes a process (step S206) for detecting whether or not the image display device 100a (1) has finished reproducing the image after step S205. You may do it. In this case, it is assumed that the image display device 100a transmits / receives a reproduction end message via the communication link when the image reproduction ends. When a playback end message is received from the image display device 100a (1) (when the other device ends playback of the image), playback of the image on the image display device 100a (2) is also finished in synchronization with this. If the playback end message has not been received (if the other device has not finished playback of the image), the process returns to step S201 and the same processing is repeated.

  As described above, as described in each embodiment, the image display device according to the present invention can display an image appropriately in the direction in which the viewer is present, and does not require complicated settings even when using a plurality of devices. The image to be displayed can be displayed.

  Moreover, although the image display apparatus according to the present invention has been described by way of example in each embodiment, it can be implemented in various other forms without departing from the spirit or main features thereof. Therefore, the above-described embodiment is merely an example in all respects and should not be interpreted in a limited manner. The present invention is defined by the claims, and the present invention is not limited to the text of the specification. Further, all modifications and changes belonging to the equivalent scope of the claims are within the scope of the present invention.

DESCRIPTION OF SYMBOLS 100, 100a ... Image display apparatus 101 ... Display part 102 ... Camera part 103 ... Operation control part 103a ... Touch panel 103b ... Operation panel 104, 104a ... Reproduction image selection part 105 ... Image reproduction unit 106, 106a ... Display position control unit 107, 107a ... Subject direction detection unit 108 ... Communication unit 151 ... Image sensor 152 ... Display unit 153 ... For projection Lens 154 ... Screen 202 ... Lens 203, 204 ... Mirror 205 ... Imaging optical system 251 ... Memory card

Claims (6)

Display means having display surfaces in multiple directions;
Photographing means for photographing an image around the display means;
Subject direction detection means for detecting a specific subject set in advance from images taken by the photographing means and determining the direction of the specific subject;
An image display apparatus comprising: a display position control unit configured to control a position of information displayed on the display unit based on a direction of a specific subject detected by the subject direction detection unit. The image display device according to claim 1,
An image reproducing means for reproducing an image stored in the storage medium;
The display position control unit controls a position at which the image reproduced by the image reproduction unit is displayed on the display unit. The image display device according to claim 1 or 2,
The subject direction detection means determines the direction of the viewer by detecting the face of the viewer who is viewing the image displayed on the display means,
The display position control means always displays on the display means an image reproduced by the image reproduction means in a direction in which the viewer is present. The image display device according to claim 3,
The subject direction detection means detects the faces of a plurality of viewers who are viewing the image displayed on the display means, determines the direction in which the plurality of viewers are present for each viewer,
The display position control means controls the direction in which the viewer is present in association with the image reproduced by the image reproduction means, and always displays the same image in the direction in which each viewer is present. apparatus. When using a plurality of image display devices according to any one of claims 2 to 4,
Providing communication means for sending and receiving information between devices,
The subject direction detecting means detects other devices arranged around the own device from the image photographed by the photographing means, determines the direction of the other device,
When the own device is displaying an image, the type of the image being displayed, the display direction of the image, and the direction of the other device detected by the subject direction detection unit of the own device are transmitted to the other device via the communication unit. Send
When the own apparatus is not displaying an image, the image reproduction means stores an image related to the type of image being displayed by the other apparatus received from the other apparatus via the communication means in the storage medium of the own apparatus. Select and play from
The display position control means displays the image reproduced by the image reproduction means based on the display direction of an image received from another apparatus via the communication means and the direction of the own apparatus detected by the other apparatus. An image display device characterized by controlling a position displayed on the means. In the image display device according to any one of claims 1 to 5,
A touch panel disposed on the screen of the display means;
An operation control means for displaying an operation menu on the display means,
The image display apparatus, wherein the operation control unit displays an operation menu at a position of the display unit corresponding to a position touched on the touch panel.

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