JP2010224190A - Image processing apparatus, program, and image processing method - Google Patents

Abstract

The present invention eliminates unnaturalness of display in a display image.
An image processing apparatus for generating a display image from a two-dimensional image, wherein an outer frame portion is provided at least at a part of an outer edge of the display image, and each display object included in the two-dimensional image. A display image generation unit 12 that generates a display image by shifting the two-dimensional image left and right by a shift amount that does not depend on the display, and a display image display unit 32 that displays the display image in a display area inside the outer frame. An image processing apparatus 10 is provided.
[Selection] Figure 1

Description

  The present invention relates to an image processing apparatus, a program, and an image processing method.

  Conventionally, stereoscopic (3D) image presentation technology is known. One technique for presenting stereoscopic images is to generate an image for the right eye when the object is viewed from the right eye and an image for the left eye when the object is viewed from the left eye. There is a technique (stereostereoscopic technique) that displays only for the right eye of the viewer and displays the image for the left eye only for the left eye of the viewer.

Japanese Patent Laid-Open No. 10-117362 JP 2002-262310 A JP-A-8-205201

  By the way, such a stereo stereoscopic technique may cause an unnatural feeling in the image at the end portion of the display screen. For example, there is a case where the stereoscopic video is interrupted at a portion corresponding to the edge of the screen.

  A method of presenting a stereoscopic image by shifting a two-dimensional image to the left and right has also been proposed (Patent Documents 1 to 3). However, in such a method, at the right and left end portions of the screen, there are portions where only one image exists, causing an unnatural feeling to the image.

  SUMMARY An advantage of some aspects of the invention is that it provides an image processing apparatus, a program, and an image processing method capable of solving the above-described problems. This object is achieved by a combination of features described in the independent claims. The dependent claims define further advantageous specific examples of the present invention.

  In order to solve the above-described problem, in the first aspect of the present invention, an image processing apparatus that generates a display image from a two-dimensional image does not depend on each display object included in the two-dimensional image. An image processing apparatus, a program, and a display image generation unit that generates the display image to be displayed inside an outer frame provided on an outer edge, which is the display image obtained by shifting the two-dimensional image left and right by a shift amount. An image processing method is provided.

  In the second aspect of the present invention, an image processing apparatus for generating a display image from a two-dimensional image, the outer frame to be displayed as at least a part of the outer frame provided on the outer edge of the display image. An outer frame image generation unit that generates an image, and a shift amount that does not depend on each display object included in the two-dimensional image within the display area inside the outer frame, the two-dimensional image is shifted left and right. An image processing apparatus comprising: a display image generation unit that generates the display image.

  The above summary of the invention does not enumerate all the necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

  FIG. 1 shows a configuration of an image processing apparatus 10 according to the present embodiment. The image processing apparatus 10 generates a display image from the two-dimensional image. More specifically, the image processing apparatus 10 generates an image output to the viewer's right eye and an image output to the viewer's left eye based on the given two-dimensional image. Display on the display device. The given two-dimensional image may be a still image or a moving image including a plurality of still images that are temporally continuous.

  The image processing apparatus 10 includes a display image generation unit 12, an outer frame image generation unit 14, a synthesis unit 16, and an output unit 18. For example, the display image generation unit 12 receives a two-dimensional image from a reproduction device that reproduces data from a recording medium or a reception device that receives transmitted data.

  The display image generation unit 12 is a display image obtained by shifting the two-dimensional image left and right by a shift amount that does not depend on each display object included in the two-dimensional image, and displays the image inside the outer frame provided on the outer edge. A display image is generated. For example, the display image generation unit 12 generates a display image by shifting the two-dimensional image left and right by a predetermined shift amount according to the position in the two-dimensional image.

  In the present embodiment, the display image generation unit 12 generates a display image including a right-eye image for the right eye and a left-eye image for the left eye that are shifted in the left-right position by a predetermined shift amount. Generate. More specifically, the display image generation unit 12 generates a left image and a right image obtained by shifting the same two-dimensional image left and right within the display area by a distance equal to or less than the inter-pupil distance.

  For example, the display image generation unit 12 generates the left image by shifting the original two-dimensional image leftward by a distance that is ½ of the inter-pupil distance. For example, the display image generation unit 12 generates the right image by shifting the original two-dimensional image to the right by a distance that is ½ of the inter-pupil distance. Further, as an example, the display image generation unit 12 may delete a portion of the left image generated by shifting the original two-dimensional image in the left direction from the left boundary of the display area to the left. As an example, the display image generation unit 12 may delete a portion of the right image generated by shifting the original two-dimensional image in the right direction and extending to the right from the right boundary of the display area.

  Here, the interpupillary distance is the distance between the human pupils (40 mm to 90 mm), and when the left image and the right image are displayed at positions separated by the distance, the human image of the left image viewed by the left eye is displayed. The distance is such that the display object and the display object of the right image viewed with the right eye can be merged and recognized as one image, and the merged image can be recognized at infinity. In this case, the eyes of the viewer's eyes are parallel. Therefore, it is desirable that the display image generation unit 12 generates a left image and a right image obtained by shifting the two-dimensional image left and right within the display region by a distance greater than 0 and 90 mm or less.

  It should be noted that a human may be able to perform binocular fusion even with an object in a direction that is opened about 2 to 3 degrees to the left and right from the state where the eyes of both eyes are parallel. Therefore, the distance between the left image and the right image is 3 degrees or less (preferably 2 degrees) from the parallel state of the left eye to the left side, preferably 3 degrees or less (preferably from the parallel state of the right eye). (2 degrees) may be a distance shifted. The allowable amount that the distance between the left image and the right image may deviate from the interpupillary distance increases as the distance between the viewer and the display surface increases.

  The display area for displaying the display image is, for example, an area formed on one screen such as a display surface of a television device or one window area displayed on a computer monitor. The display area may be an area formed by two screens such as a display surface of a head mounted display. For example, the display image generation unit 12 sets the distance between the left image and the right image on the display area to be the interpupillary distance according to the pixel size of the given two-dimensional image and the size of the display area. The distance on the data between the left image and the right image may be changed.

  When the image processing apparatus 10 provides a display image using a display device having one display area, the display image generation unit 12 alternately selects a predetermined horizontal line in the display area in a vertical direction. In this case, an image displayed on one horizontal line (for example, an even line) is set as a left image. Further, in this case, the display image generation unit 12 selects an image displayed on the other horizontal line (for example, an odd line) when the horizontal lines of the display area are alternately selected by a predetermined number in the vertical direction as the right image. To do.

  Further, when the image processing apparatus 10 provides a display image by a display device having one display area, the display image generation unit 12 alternately selects a predetermined number of frames included in the moving image in time order. In this case, an image displayed in one frame (for example, an even frame) is a left image. Further, in this case, the display image generation unit 12 sets the image displayed in the other frame (for example, an odd frame) when the frames included in the moving image are alternately selected by a predetermined number in time order as the right image. To do.

  When the image processing apparatus 10 provides a display image to a viewer using a display device having a left-eye display area and a right-eye display area such as a head-mounted display, the display image generation unit 12 The left image is an image displayed in the left eye display area. In this case, the display image generation unit 12 sets the image displayed in the right eye display area as the right image.

  Further, as an example, the display image generation unit 12 may perform processing for generating a left image and a right image by software calculation of a computer. Instead, the display image generation unit 12 may perform image processing on a video signal transmitted or reproduced in real time in real time.

  The outer frame image generation unit 14 generates an outer frame image to be displayed as the outer frame of the display area in which the display image is displayed. The outer frame image generation unit 14 may generate an outer frame image displayed as an outer frame provided in at least a part of the periphery of the display area where the display image is displayed.

  The synthesizing unit 16 synthesizes the left image and the outer frame image and provides the synthesized image to the output unit 18. Further, the synthesizing unit 16 synthesizes the right image and the outer frame image and gives them to the output unit 18.

  The output unit 18 outputs the left image to the left eye of the viewer. The output unit 18 outputs the right image to the right eye of the viewer. Further, the output unit 18 outputs the outer frame image to both the left eye and the right eye of the viewer.

  In the present embodiment, the output unit 18 includes a display unit 20 and observation glasses 22. The display unit 20 includes a display image display unit 32 and an outer frame image display unit 34. The display image display unit 32 displays a display image including a left image and a right image in a display area inside the outer frame. The outer frame image display unit 34 displays the outer frame image in a display area corresponding to the outer frame.

  As an example, the display unit 20 includes a plurality of pixels arranged in a two-dimensional matrix, and has a display area in which pixel lines for displaying an image are alternately arranged for the left eye and the right eye of the viewer. . The display unit 20 displays the left image in which the outer frame image is synthesized by the pixel lines for the left eye. For example, the display unit 20 emits circularly polarized light in the first rotation direction from the pixel line for the left eye.

  In addition, the display unit 20 displays a right image obtained by synthesizing the outer frame image with a pixel line for the right eye. As an example, the display unit 20 emits circularly polarized light in the second rotational direction that is opposite to the circularly polarized light in the first rotational direction from the pixel line for the right eye. Such a display unit 20 can display a display image including a left image and a right image on the display image display unit 32, and can display an outer frame image on the outer frame image display unit 34.

  The observation glasses 22 give the image displayed by the pixel line for the right eye of the display unit 20 only to the right eye, and give the image displayed by the pixel line for the left eye of the display unit 20 only to the left eye. As an example, the observation glasses 22 include a left-eye polarizing filter disposed on the left eye of the viewer that transmits circularly polarized light in the first rotational direction and blocks circularly polarized light in the second rotational direction, A right-eye polarizing filter disposed on the right eye of the viewer that transmits circularly polarized light in the rotational direction and blocks circularly polarized light in the first rotational direction.

  The output unit 18 including the display unit 20 and the observation glasses 22 can output the left image to the left eye of the viewer and output the right image to the right eye of the viewer. . Furthermore, such an output unit 18 can output the outer frame image to both the left eye and the right eye of the viewer.

  The output unit 18 gives the left image only to the viewer's left eye, gives the right image only to the viewer's right eye, and gives the outer frame image to both the viewer's left eye and right eye. Any configuration is possible as long as it is possible. As an example, the output unit 18 includes a display device that alternately displays a left image combined with an outer frame image and a right image combined with an outer frame image temporally, and glasses with shutters having a shutter synchronized with the display device. You may have. In this case, the glasses with shutters open the left eye shutter and close the right eye shutter during the period in which the left image with the outer frame image is displayed, and the right image with the outer frame image displayed is displayed. During this period, the right eye shutter is opened and the left eye shutter is closed.

  The output unit 18 may be a head mounted display having a left eye display area and a right eye display area. Further, the output unit 18 displays the left image only on the viewer's left eye and the right image only on the viewer's right eye using color filters or spectral characteristic differences, deflection direction differences, and the like. It may be a device that performs.

  As described above, according to the image processing apparatus 10, the display image is generated by shifting the two-dimensional image left and right. Thereby, according to the image processing apparatus 10, it is a very simple process and can provide a display image for a viewer at a low cost.

  Further, in the image processing apparatus 10, the outer frame image generation unit 14 and the outer frame image display unit 34 function as an outer frame unit provided at least at a part of the outer edge of the display image. Therefore, the image processing apparatus 10 can view the display image through the outer frame. That is, the image processing apparatus 10 can display a display image inside the outer frame. Thereby, according to the image processing apparatus 10, it is possible to provide a natural display image without giving the viewer the feeling that the peripheral portion of the display image is interrupted.

  As an example, the outer frame image generation unit 14 may shift the outer frame image left and right by a shift amount smaller than the shift amount of the display image. That is, the outer frame image generation unit 14 outputs an outer frame image to be applied to the left eye (that is, an outer frame image to be combined with the left image) and an outer frame image to be applied to the right eye (that is, an outer frame to be combined with the right image). A shift amount smaller than the shift amount of the display image may be given to the image). For example, the outer frame image generation unit 14 may generate an outer frame image with a shift amount of zero. As a result, the image processing apparatus 10 can display the outer frame in front of the display object of the display image (the viewer side) and provide a more natural display image to the viewer.

  The outer frame image display unit 34 displays an outer frame image when the image processing apparatus 10 displays a display image, and the outer frame image display unit 34 displays an outer frame when the image processing apparatus 10 does not display a two-dimensional image stereoscopically. The structure which does not display an image may be sufficient. For example, the outer frame image display unit 34 receives a parameter indicating whether or not to display a display image, and performs switching. Thereby, the image processing apparatus 10 can widen an effective display area when the display image is not provided.

  When the output unit 18 is a head-mounted display, the display image display unit 32 and the outer frame image display unit 34 display the display image and the outer frame in the right-eye display region and the left-eye display region in the head-mounted display. Display an image. In this case, the outer frame image generation unit 14 generates an outer frame image shifted to the left and right by the shift amount that appears closer to the viewpoint than the display area for the right eye and the display area for the left eye in the head mounted display. As a result, the image processing apparatus 10 can display the outer frame in front of the display object of the display image (the viewer side) and provide a more natural display image to the viewer.

  FIG. 2 shows an example of display by the display unit 20. For example, when the horizontal line in the display area is alternately selected one by one in the vertical direction, one (for example, even line) is the left eye pixel line, and the other (for example, odd line) is the right. This is an ophthalmic pixel line. In this case, the display image generation unit 12 generates a left-side image from each pixel of the two-dimensional image corresponding to the pixel line for the left eye in the display region of the display unit 20 and the right eye in the display region. A right image is generated from each pixel of the two-dimensional image corresponding to the pixel line for use, and is given to the display unit 20. Accordingly, the display unit 20 uses the observation glasses 22 to give the left image displayed by the left eye pixel line only to the left eye and the right image displayed by the right eye pixel line only to the right eye. Can be given to.

  FIG. 3 shows an example of a display point on the left image, a display point on the right image, and an image perceived by the user. When a human is looking at a two-dimensional image at a short distance, the image given to the left eye and the right eye are not the same but have parallax. From this parallax, a human recognizes that what he is looking at is a two-dimensional image. Further, when a human is looking at an object at infinity (for example, 10 m or more), the image given to the left eye and the image given to the right eye are the same with no parallax. When a human is looking at infinity, there is no parallax between the image given to the left eye and the image given to the right eye. I feel a feeling.

  The image processing apparatus 10 generates a left-side image and a right-side image without parallax (that is, the same as each other) shifted to the left and right by the same distance as the distance between the pupils of the user. Then, the image processing apparatus 10 provides the left image to the user's left eye and the right image to the user's right eye. As a result, the image processing apparatus 10 can bring the user's left eye and right eye line of sight into parallel states, i.e., the user's line of sight is not congested (the left eye and right eye line of sight do not intersect). . Thereby, the image processing apparatus 10 can make the user look at infinity. That is, for example, as shown in FIG. 3, the image processing apparatus 10 allows the user to perceive both point A (black circle point) and point B (triangular point) as points located at infinity. .

  As described above, the image processing apparatus 10 can provide the user with a stereoscopic image by giving the user an image with no parallax to the left eye and the right eye while viewing the image at infinity. For example, the image processing apparatus 10 can give a sense of presence as if looking out from a window, for example, in a landscape image or the like. Further, the image processing apparatus 10 can give a real feeling as seen with a magnifying glass to an image taken at a short distance such as macro photography.

  The reason why the image processing apparatus 10 can give the image a sense of reality such as a sense of reality and a real feeling as described above is estimated as follows. Since the image processing apparatus 10 does not converge the user's line of sight, the image position cannot be specified by parallax. However, even when there is no parallax, the human estimates the position of the image from the actual size and angle of view of the object derived from common sense of experience. Then, humans unconsciously and instantaneously perform such position estimation, and obtain an actual size sense together with a stereoscopic effect. Therefore, it is estimated that the image processing apparatus 10 can give the image a realistic feeling as described above without converging the user's line of sight.

  Further, when a human sees a moving image, a far object feels small movement, and a nearby object feels large movement. When a human sees a moving image, he / she feels a three-dimensional effect more strongly in the movement of such an object than in parallax. Therefore, the image processing apparatus 10 can make the user feel a stereoscopic effect more strongly when displaying a moving image.

  Further, the image processing apparatus 10 does not generate a phenomenon called a writing effect, in which a plane appears to stand, and a phenomenon called a miniature garden effect, which reduces the feeling of spreading in the horizontal direction of the screen by emphasizing the depth and popping feeling. . Therefore, according to the image processing apparatus 10, it is possible to provide a stereoscopic image having a natural stereoscopic effect and a realistic sensation.

  Further, since the image processing apparatus 10 does not congest the user's line of sight, there is no discrepancy between visual convergence and adjustment, and discomfort can be reduced. Further, since the image processing apparatus 10 perceives a stereoscopic image at a position farther than the screen, it is possible to give the user a feeling of looking through a frame (for example, a window frame or a magnifying glass frame). Therefore, according to the image processing apparatus 10, a phenomenon in which an image that appears to pop out before the screen is unnaturally cut by the screen frame does not occur, and a natural stereoscopic image can be provided to the user.

  FIG. 4 shows an example of the non-corresponding region and the crosstalk in which only one of the left image and the right image is displayed. In the left side portion of the display area when the outer frame image is not displayed, the left screen and the right screen are not displayed when the left image and the right image are generated by shifting one two-dimensional image left and right. (That is, a non-corresponding region where the right image and the left image do not overlap). Similarly, a non-corresponding area where the right screen is displayed but the left screen is not displayed exists in the right side portion of the display area when the outer frame image is not displayed.

  Further, crosstalk (or ghost) that appears as a vertical line is observed at a position inside the pupil distance from the right end of the display area and a position inside the pupil distance from the left end of the display area. Such a non-corresponding region and crosstalk give the viewer an unnatural feeling.

  FIG. 5 shows an example of the outer frame image. Therefore, it is preferable that the outer frame image generation unit 14 generates an outer frame image that covers at least the non-corresponding region and the crosstalk included in the display image. That is, it is preferable that the outer frame image generation unit 14 generates an outer frame image in which the frame width of each of the left side and the right side is at least the inter-pupil distance. Thereby, according to the image processing apparatus 10, it is possible to provide a natural display image to the viewer by hiding the non-corresponding region and the crosstalk portion that give unnatural feeling in the display image.

  Further, the outer frame image generation unit 14 may generate an outer frame image having only the left side portion and the right side portion. That is, an outer frame image that does not have an upper side portion and a lower side portion may be generated. Thereby, the image processing apparatus 10 can provide a display image in which at least the non-corresponding region and the crosstalk portion are hidden.

  FIG. 6 shows a configuration of the image processing apparatus 10 according to a first modification of the present embodiment. Since the image processing apparatus 10 according to this modification employs substantially the same configuration and function as the image processing apparatus 10 shown in FIG. 1, members having substantially the same function and configuration are denoted by the same reference numerals, and the following differences are noted. Description is omitted except for the points.

  The image processing apparatus 10 according to this modification includes a display image generation unit 12 and an output unit 18. The output unit 18 according to this modification includes a display unit 20, observation glasses 22, and an outer frame unit 36. The display unit 20 displays a display image including the left side image and the right side image generated by the display image generation unit 12.

  The outer frame part 36 is provided between the display unit 20 and the viewer and functions as an outer frame of the display image. The outer frame part 36 is provided in the peripheral part of the screen in the display part 20 as an example.

  The outer frame part 36 covers at least a part of the display area in which the right image and the left image obtained by shifting the two-dimensional image left and right among the display images displayed by the display unit 20 do not overlap. More preferably, the outer frame portion 36 covers at least the non-corresponding region and the crosstalk portion included in the display image, similarly to the outer frame image shown in FIG. According to such an image processing device 10 according to this modification, it is possible to provide the viewer with a natural display image by hiding the non-corresponding region and the crosstalk portion that give unnatural feeling in the display image. it can.

  The outer frame portion 36 covers at least a part of the display area where the right image and the left image do not overlap when the image processing apparatus 10 displays a display image, and the image processing apparatus 10 displays the two-dimensional image. The configuration may be such that the display area is not covered when the image is not stereoscopically displayed. As an example, when displaying an image for display, the outer frame portion 36 moves inward to hide the peripheral portion of the display surface of the display unit 20, and when the display image is not displayed, It may be configured to move outward to expose all of the surfaces. Thereby, the outer frame part 36 can widen an effective display area when the display image is not displayed.

  FIG. 7 shows a configuration of the output unit 18 provided in the image processing apparatus 10 according to the second modification of the present embodiment. Since the image processing apparatus 10 according to this modification employs substantially the same configuration and function as the image processing apparatus 10 illustrated in FIG. 6, members having substantially the same function and configuration are denoted by the same reference numerals, and the following differences are noted. Description is omitted except for the points.

  The output unit 18 according to this modification is a head mounted display that is attached to the viewer's head and displays a display image to the viewer. The display image display unit 32 displays a display image in the left eye display area 40 and the right eye display area 42 of the head mounted display.

  Further, the output unit 18 according to this modification includes an outer frame portion 36-L for the left eye and an outer frame portion 36-R for the right eye. The left eye outer frame portion 36 -L covers a part of the left image output from the left eye display area 40. The right-eye outer frame portion 36 -R covers a part of the right-side image output from the right-eye display area 42. The left-eye outer frame portion 36-L and the right-eye outer frame portion 36-R are closer to the viewpoint than the left-eye display region 40 and the right-eye display region 42 in the head-mounted display. Provided. According to such an image processing device 10 according to this modification, it is possible to provide the viewer with a natural display image by hiding the non-corresponding region and the crosstalk portion that give unnatural feeling in the display image. it can.

  FIG. 8 shows an example of a hardware configuration of a computer 1900 according to the present embodiment. A computer 1900 according to this embodiment is connected to a CPU peripheral unit having a CPU 2000, a RAM 2020, a graphic controller 2075, and a display device 2080 that are connected to each other by a host controller 2082, and to the host controller 2082 by an input / output controller 2084. Input / output unit having communication interface 2030, hard disk drive 2040, and CD-ROM drive 2060, and legacy input / output unit having ROM 2010, flexible disk drive 2050, and input / output chip 2070 connected to input / output controller 2084 With.

  The host controller 2082 connects the RAM 2020 to the CPU 2000 and the graphic controller 2075 that access the RAM 2020 at a high transfer rate. The CPU 2000 operates based on programs stored in the ROM 2010 and the RAM 2020 and controls each unit. The graphic controller 2075 acquires image data generated by the CPU 2000 or the like on a frame buffer provided in the RAM 2020 and displays it on the display device 2080. Instead of this, the graphic controller 2075 may include a frame buffer for storing image data generated by the CPU 2000 or the like.

  The input / output controller 2084 connects the host controller 2082 to the communication interface 2030, the hard disk drive 2040, and the CD-ROM drive 2060, which are relatively high-speed input / output devices. The communication interface 2030 communicates with other devices via a network. The hard disk drive 2040 stores programs and data used by the CPU 2000 in the computer 1900. The CD-ROM drive 2060 reads a program or data from the CD-ROM 2095 and provides it to the hard disk drive 2040 via the RAM 2020.

  The input / output controller 2084 is connected to the ROM 2010, the flexible disk drive 2050, and the relatively low-speed input / output device of the input / output chip 2070. The ROM 2010 stores a boot program that the computer 1900 executes at startup and / or a program that depends on the hardware of the computer 1900. The flexible disk drive 2050 reads a program or data from the flexible disk 2090 and provides it to the hard disk drive 2040 via the RAM 2020. The input / output chip 2070 connects the flexible disk drive 2050 to the input / output controller 2084 and inputs / outputs various input / output devices via, for example, a parallel port, a serial port, a keyboard port, a mouse port, and the like. Connect to controller 2084.

  A program provided to the hard disk drive 2040 via the RAM 2020 is stored in a recording medium such as the flexible disk 2090, the CD-ROM 2095, or an IC card and provided by the user. The program is read from the recording medium, installed in the hard disk drive 2040 in the computer 1900 via the RAM 2020, and executed by the CPU 2000.

  A program installed in the computer 1900 and causing the computer 1900 to function as the image processing apparatus 10 includes a display image generation module, an outer frame image generation module, a synthesis module, and an output module. These programs or modules work with the CPU 2000 or the like to cause the computer 1900 to function as the display image generation unit 12, the outer frame image generation unit 14, the synthesis unit 16, and the output unit 18, respectively.

  The information processing described in these programs is read into the computer 1900, whereby the display image generation unit 12, which is a specific means in which the software and the various hardware resources described above cooperate, and outer frame image generation Functions as the unit 14, the combining unit 16, and the output unit 18. And the specific image processing apparatus 10 according to the intended use is constructed | assembled by implement | achieving the calculation or processing of the information according to the intended use of the computer 1900 in this embodiment by these concrete means.

  As an example, when communication is performed between the computer 1900 and an external device or the like, the CPU 2000 executes a communication program loaded on the RAM 2020 and executes a communication interface based on the processing content described in the communication program. A communication process is instructed to 2030. Under the control of the CPU 2000, the communication interface 2030 reads transmission data stored in a transmission buffer area or the like provided on a storage device such as the RAM 2020, the hard disk drive 2040, the flexible disk 2090, or the CD-ROM 2095, and sends it to the network. The reception data transmitted or received from the network is written into a reception buffer area or the like provided on the storage device. As described above, the communication interface 2030 may transfer transmission / reception data to / from the storage device by a DMA (direct memory access) method. Instead, the CPU 2000 transfers the storage device or the communication interface 2030 as a transfer source. The transmission / reception data may be transferred by reading the data from the data and writing the data to the communication interface 2030 or the storage device of the transfer destination.

  The CPU 2000 is all or necessary from among files or databases stored in an external storage device such as a hard disk drive 2040, a CD-ROM drive 2060 (CD-ROM 2095), and a flexible disk drive 2050 (flexible disk 2090). This portion is read into the RAM 2020 by DMA transfer or the like, and various processes are performed on the data on the RAM 2020. Then, CPU 2000 writes the processed data back to the external storage device by DMA transfer or the like. In such processing, since the RAM 2020 can be regarded as temporarily holding the contents of the external storage device, in the present embodiment, the RAM 2020 and the external storage device are collectively referred to as a memory, a storage unit, or a storage device. Various types of information such as various programs, data, tables, and databases in the present embodiment are stored on such a storage device and are subjected to information processing. Note that the CPU 2000 can also store a part of the RAM 2020 in the cache memory and perform reading and writing on the cache memory. Even in such a form, the cache memory bears a part of the function of the RAM 2020. Therefore, in the present embodiment, the cache memory is also included in the RAM 2020, the memory, and / or the storage device unless otherwise indicated. To do.

  In addition, the CPU 2000 performs various operations, such as various operations, information processing, condition determination, information search / replacement, etc., described in the present embodiment, specified for the data read from the RAM 2020 by the instruction sequence of the program. Is written back to the RAM 2020. For example, when performing the condition determination, the CPU 2000 determines whether the various variables shown in the present embodiment satisfy the conditions such as large, small, above, below, equal, etc., compared to other variables or constants. When the condition is satisfied (or not satisfied), the program branches to a different instruction sequence or calls a subroutine.

  Further, the CPU 2000 can search for information stored in a file or database in the storage device. For example, in the case where a plurality of entries in which the attribute value of the second attribute is associated with the attribute value of the first attribute are stored in the storage device, the CPU 2000 displays the plurality of entries stored in the storage device. The entry that matches the condition in which the attribute value of the first attribute is specified is retrieved, and the attribute value of the second attribute that is stored in the entry is read, thereby associating with the first attribute that satisfies the predetermined condition The attribute value of the specified second attribute can be obtained.

  The program or module shown above may be stored in an external recording medium. As the recording medium, in addition to the flexible disk 2090 and the CD-ROM 2095, an optical recording medium such as DVD or CD, a magneto-optical recording medium such as MO, a tape medium, a semiconductor memory such as an IC card, and the like can be used. Further, a storage device such as a hard disk or RAM provided in a server system connected to a dedicated communication network or the Internet may be used as a recording medium, and the program may be provided to the computer 1900 via the network.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior to”. It should be noted that the output can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first”, “next”, etc. for convenience, it means that it is essential to carry out in this order. It is not a thing.

1 shows a configuration of an image processing apparatus 10 according to the present embodiment. An example of the display by the display part 20 is shown. An example of a display point on the left image, a display point on the right image, and an image perceived by the user is shown. An example of the non-corresponding area and the crosstalk in which only one of the left image and the right image is displayed is shown. An example of an outer frame image is shown. The structure of the image processing apparatus 10 which concerns on the 1st modification of this embodiment is shown. The structure of the output part 18 with which the image processing apparatus 10 which concerns on the 2nd modification of this embodiment is provided is shown. 2 shows an exemplary hardware configuration of a computer 1900 according to the present embodiment.

DESCRIPTION OF SYMBOLS 10 Image processing apparatus, 12 Display image generation part, 14 Outer frame image generation part, 16 Composition part, 18 Output part, 20 Display part, 22 Observation glasses, 32 Display image display part, 34 Outer frame image display part, 36 outer frame, 40 left eye display area, 42 right eye display area, 1900 computer, 2000 CPU, 2010 ROM, 2020 RAM, 2030 communication interface, 2040 hard disk drive, 2050 flexible disk drive, 2060 CD-ROM drive 2070 I / O chip, 2075 Graphic controller, 2080 Display device, 2082 Host controller, 2084 I / O controller, 2090 Flexible disk, 2095 CD-ROM

Claims (17)

An image processing apparatus for generating a display image from a two-dimensional image,
The display image obtained by shifting the two-dimensional image left and right by a shift amount that does not depend on each display object included in the two-dimensional image, and the display image displayed inside an outer frame provided on an outer edge. An image processing apparatus comprising a display image generation unit for generating. An outer frame portion provided on at least a part of the outer edge of the display image;
A display image display unit for displaying the display image in a display area inside the outer frame;
The image processing apparatus according to claim 1, further comprising:   The image processing according to claim 2, wherein the display image generation unit generates the display image by shifting the two-dimensional image left and right by a predetermined shift amount according to a position in the two-dimensional image. apparatus.   The image processing according to claim 2 or 3, wherein the display image generation unit generates the display image including a right image and a left image obtained by shifting the position of the two-dimensional image left and right by a predetermined shift amount. apparatus. The display image generation unit generates a left image and a right image obtained by shifting the two-dimensional image left and right,
The image processing apparatus according to claim 2, wherein the display image display unit displays the left image on the left eye of the viewer and the right image on the right eye of the viewer. . The outer frame portion is
An outer frame image generation unit that generates an outer frame image to be displayed as an outer frame;
An outer frame image display unit for displaying the outer frame image in a display area corresponding to the outer frame;
An image processing apparatus according to any one of claims 2 to 5.   The image processing apparatus according to claim 6, wherein the outer frame image generation unit shifts the outer frame image left and right by a shift amount smaller than a shift amount of the display image.   The image processing device according to claim 6, wherein the outer frame image generation unit generates the outer frame image with a shift amount of zero.   The outer frame image display unit displays the outer frame image when the image processing device displays the display image, and the outer frame image when the image processing device does not display the two-dimensional image stereoscopically. The image processing apparatus according to claim 6, wherein no image is displayed. The display image display unit and the outer frame image display unit display the display image and the outer frame image in a right eye display region and a left eye display region in a head mounted display,
The outer frame image generation unit generates the outer frame image shifted left and right by a shift amount that is closer to the viewpoint than the display area for the right eye and the display area for the left eye in the head mounted display. An image processing apparatus according to any one of the above.   The image processing apparatus according to any one of claims 2 to 10, wherein the outer frame portion covers at least a part of a display area where a right image and a left image obtained by shifting the two-dimensional image to the left and right do not overlap.   The outer frame portion covers at least a part of a display area where the right image and the left image do not overlap when the image processing device displays the display image, and the image processing device displays the two-dimensional image. The image processing apparatus according to claim 11, wherein the display area is not covered when the image is not stereoscopically displayed. The display image display unit displays the display image in a display area for the right eye and a display area for the left eye in a head mounted display,
The image processing apparatus according to claim 2, wherein the outer frame portion is provided closer to a viewpoint than the display area for the right eye and the display area for the left eye in the head mounted display. The image processing device according to claim 2, wherein the outer frame portion has only a left side portion and a right side portion. An image processing apparatus for generating a display image from a two-dimensional image,
An outer frame image generation unit that generates an outer frame image to be displayed as at least a part of an outer frame provided on an outer edge of the display image;
Display image generation for generating the display image by shifting the two-dimensional image left and right by a shift amount that does not depend on each display object included in the two-dimensional image within the display area inside the outer frame And
An image processing apparatus comprising: A program for causing a computer to function as an image processing device that generates a display image from a two-dimensional image,
The computer,
The display image obtained by shifting the two-dimensional image left and right by a shift amount that does not depend on each display object included in the two-dimensional image, and the display image displayed inside an outer frame provided on an outer edge. A program that functions as a display image generator to be generated. An image processing method for generating a display image from a two-dimensional image,
The display image obtained by shifting the two-dimensional image left and right by a shift amount that does not depend on each display object included in the two-dimensional image, and the display image displayed inside an outer frame provided on an outer edge. An image processing method comprising: generating.

Images