JPH1198342A - Method and device for displaying panorama picture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a user to see a whole panorama picture and a partial highly precise picture by uni-directional transmission from a transmission side to a reception side. SOLUTION: One panorama picture is prepared by horizontally connecting pictures from plural cameras 8 directed to a radial direction, and the panorama picture is transmitted to a reception side B. Then, panorama display for displaying the whole panorama picture for making it smaller by thinning out the longitudinal and lateral directions of the transmitted panorama picture and high precise display for displaying one part of the transmitted panorama picture with high precision are simultaneously operated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for displaying a panoramic image in which a plurality of images taken by a plurality of cameras are connected to create and display one panoramic image.

[0002]

2. Description of the Related Art Japanese Patent Laid-Open No. 55-79433 discloses an example of a means for obtaining a 360-degree panoramic image around a shooting position. In this technique, while exposing a film, a circuit board provided with a light-emitting slit provided in a radial direction is rotated, and a lens barrel for emitting light to the light-emitting slit is also rotated. Accordingly, the following configuration is adopted for the purpose of expressing the surrounding 360 degrees in one photograph. That is, there is provided a lens barrel having a mirror and a lens for changing the projection angle by 90 degrees, and a turntable having a projection slit in the radial direction facing in parallel with the film. It is configured to rotate around and photograph the surroundings on the film. On the film surface, images with an extremely narrow angle of view determined by the distance between the base point of the lens unit and the width of the projection slit are continuously arranged, and the horizontal line of the subject is parabolically curved away from the optical axis. . Therefore, force 360 on the plane.
Since the circumferential image of the degree is projected, the curvature of the image is very large, and it is a planar image that is far from the surrounding image that can be actually perceived by humans and is difficult to recognize.

As another means, Japanese Patent Application Laid-Open No. 9-55
925 is disclosed. The technology described therein is based on “an image pickup unit including a plurality of image pickup devices that image different fields of view and convert the images into electric signals, and an image information distribution unit that distributes output image information of the image pickup unit to a plurality of users. Means, and an image selecting means for each user to select an image at a desired position from output image information of the image pickup means in an image system comprising: a display means for displaying output image information of the image information distributing means. And an image output unit that outputs an image at a selected position to the image information distribution unit based on the output of the image selection unit, and transmits the transmission image as desired on the image reception side by bidirectional communication. It is assumed that the receiver is a normal receiver.

[0004]

Problems to be Solved by the Invention
The technology described in Japanese Patent Publication No. 3 (2003) captures an image by rotating a lens and a slit. Therefore, only the still image corresponding to the rotation speed can be supported.

[0005] The image around the center of rotation of the film is distorted toward the periphery, making it difficult for humans to understand the image visually.

[0006] Since a 360-degree image is forcibly captured on a single film, partial enlargement is difficult.

[0007] There is a problem.

[0008] In the technology described in Japanese Patent Application Laid-Open No. 9-55925, moving images can be transmitted electronically, provided that the transmitting side and the receiving side can perform two-way communication. The image corresponding to the display position signal transmitted from the receiving side must be transmitted individually so that the image at the position to be transmitted can be transmitted. That is, it is necessary to individually transmit different image data as many as the number of receivers, and there is a problem that the burden on the transmitter is large.

[0009]

According to the first aspect of the present invention,
One panoramic image is created by connecting images from a plurality of cameras directed in the radiation direction sideways, and this panoramic image is transmitted to the receiving side. A panoramic display for displaying a small panoramic image and a high-definition display for displaying a part of the transmitted panoramic image with high definition are simultaneously performed. Therefore, since the transmitting side connects the images captured from the plurality of cameras in real time and unilaterally transmits the images to the receiving side, it is possible to transmit the images using a system similar to that of a normal television. The entire state can be recognized from the image, and a high-definition display allows a high-definition image of a required portion to be viewed.

According to a second aspect of the present invention, the display position of a high-definition display screen for displaying a part of the transmitted panoramic image with high definition can be arbitrarily changed on the receiving side. Therefore, a high-definition image at an arbitrary position in the panoramic image can be easily selected and displayed.

According to a third aspect of the present invention, there is provided an image pickup apparatus including a plurality of cameras arranged in a radiation direction, and a plurality of images picked up by the respective cameras connected side by side.
A panorama image creating means for creating a single panorama image;
A transmitting means for transmitting the created panoramic image to the receiving side, a panoramic image displaying means for thinning out the transmitted panoramic image vertically and horizontally to display the entire panoramic image in a small size,
It comprises high definition display means for displaying a part of the transmitted panoramic image with high definition. Therefore, the entire state can be recognized from the panoramic image, and a high-definition image of a required portion can be viewed by the high-definition display.

According to a fourth aspect of the present invention, there is provided an image pickup apparatus including a plurality of cameras arranged in a radiation direction, and a plurality of images picked up by the respective cameras connected side by side.
A panorama image creating means for creating a single panorama image;
A transmitting means for transmitting the created panoramic image to the receiving side, a panoramic image displaying means for thinning out the transmitted panoramic image vertically and horizontally to display the entire panoramic image in a small size,
High-definition display means for displaying a part of the transmitted panoramic image with high definition, and tuning means for performing tuning to an arbitrary position on a high-definition display screen for displaying a part of the transmitted panoramic image with high definition. Become. Therefore, the entire state can be recognized by the panoramic image, the high-definition image of the required portion can be viewed by the high-definition display, and the high-definition image at an arbitrary position in the panoramic image can be easily selected. Can be displayed.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to the drawings. First, FIG. 1 shows the overall configuration. That is, there are basically a transmitting side A and a receiving side B.
The transmitting side A includes a panoramic image data capturing unit 1 as an imaging device, a panoramic image data processing unit 2 as a panoramic image creating unit, and a data transmitting unit 3 as a transmitting unit. The receiving side B includes a plurality of dedicated display devices 6 each having a panoramic image display means 4 and a high-definition display means 5, and the display content of the high-definition display means 5 is provided for each dedicated display device 6. There is provided a tuning means 7 for changing

The panoramic image data capturing section 1 is composed of n cameras 8 arranged radially in a horizontal plane. These cameras 8 are CCD
It is composed of an area sensor 9 and an imaging lens 10. In the state shown in FIG. 1, six cameras 8 are used, so that n = 6. Therefore, the arrangement angle θ ₀ of each camera 8 is θ ₀ = 360 ° / n = 60 °. The effective angle of view θ of each imaging lens 10 has a relationship of θ = θ ₀ + α (α ≧ 0). Here, if α = 0, the seam of the adjacent images is in contact with the image at infinity without overlapping. However, since blind spots occur at a finite distance, it is necessary to set α> 0.
In this case, there is a limit circle where no blind spot occurs, and the images outside this limit circle overlap each other. Since a portion to be captured as an image is set in a region farther than the limit circle, adjacent images captured from each camera 8 have overlapping portions. This overlapping portion is a clue when synthesizing (joining) adjacent images.

The capture of an image by each camera 8 is performed by driving all the cameras 8 simultaneously with the same reference signal. In the operation shown in FIG. 5, “n cameras have an imaging lens and an area sensor of the same specification, each camera is arranged at the same angle in the same plane, and
After the processing of “arranging images that are more than a certain distance apart so that images can be taken in duplicate” is performed, “n
Synchronize the image capturing timings of the two cameras ". Then, as shown in FIG. 2 (a), the CCD area sensor 9 of each camera 8
It has a horizontal resolution of m, and the overlapping portion is represented by Δ. In the present embodiment, since a moving panorama image is targeted, it is necessary to connect and display images captured in real time. In the state shown in FIG. 2A, the images 11 of the CCD area sensors 9 of the cameras 8 are displayed continuously in a straight line. Actually, there is a possibility that each of the placement errors in the vertical and horizontal directions and the rotation direction may occur, but here, such errors are displayed as being adjusted. The image data captured in this manner is joined by the panoramic image data processing unit 2 on the transmitting side A to create a 360-degree panoramic image 12. That is, the panoramic image 12 is synthetic panoramic image data, which is 1 vertically and n × (m−Δ) horizontally, and the data of n · Δ × 1 has been deleted because they overlap. In the operation shown in FIG. 5, a process of “deleting one of the overlapping image portions and creating composite panoramic image data” is performed.

The panoramic image 12 thus created
The (synthesized panoramic image data) is transmitted by wire or wirelessly from the data transmission unit 3 to the reception side B. In the operation shown in FIG. 5, a process of “transmitting a panoramic image” is performed.

On the receiving side B, a process of "receiving a panoramic image" shown in FIG. 5 is performed, and the panoramic image 12 transmitted is thinned out vertically and horizontally to display the entire panoramic image 12 in a small size. Image display means 4
And the high-definition display means 5 for displaying a part of the transmitted panoramic image 12 with high definition. That is,
In the operation shown in FIG. 5, a process of “displaying coarse image data in which“ vertical and horizontal image data is thinned out to 1 / x on the “panorama display screen” ”and“ the observer enlarges from the “panorama display screen” Then, a process of positioning the part to be viewed by the tuning device and displaying it on the "high definition display screen" is executed. Here, x is any positive integer.

The display on the panoramic image display means 4 is shown in FIG.
As shown in FIG. 3B, image data obtained by multiplying the panoramic image 12 (synthesized panoramic image data) of 1 × 1 (vertically and horizontally) shown in FIG. That is, the image data is converted into image data of 1 / x vertically and nx (m-Δ) / x horizontally and displayed by the panoramic image display means 4. This means that the synthesized panoramic image data is thinned out and displayed in a coarse state and small, and even if the panoramic image display means 4 is a display device having a small display area, the entire panoramic image 1 is displayed.
2 can be displayed. In the state shown in FIG. 3B, n = x.

Further, since there is a portion of the entire panoramic image 12 which is desired to be viewed in detail, a part of the image displayed by the panoramic image display means 4 has a high definition as shown in FIG. The image is displayed on the display unit 5 at a fine density corresponding to the resolution of the camera 8. This high-definition display screen discards an arbitrary fixed number of data according to the vertical synchronizing signal of the synthesized panoramic image data which is the data of the transmitted panoramic image 12 and the tuning signal from the tuning means 7 operated by the observer. , M data are displayed horizontally from there, and the rest is discarded. For this reason, the observer recognizes the state of the entire panoramic image 12 with the panoramic image display means 4, selects which position of the entire image the user wants to observe with high definition with the tuning means 7, and displays it on the high definition display means 5. Is what you do. Since the combined panoramic image data in this case is transmitted from the transmitting side A in real time,
The receiving side B only needs to process the transmitted data only, whereby a high-definition image at an arbitrary position can be observed only by one-way transmission from the transmitting side A to the receiving side B. At the time of this tuning, the panoramic image display unit 4 displays the position of the image displayed on the high definition display unit 5 on the panoramic image display unit 4.
May be displayed by partially changing the brightness of the screen or by moving the spot, or the portion displayed by the high definition display means 5 is always located at the center of the panoramic image display means 4. As described above, the image on the panoramic image display means 4 may be moved left and right in accordance with the change of the display position by the high definition display means 5.

The components shown in FIGS. 4A and 4B are:
FIG. 4A shows an example of the display device 13, and FIG.
4, a panoramic image display means 4 and a high definition display means 5
Are incorporated in one housing 15. Further, a receiving section 16 for receiving a signal from the tuning means 7 is provided at a lower right position of the housing 15. next,
FIG. 4B shows a separate display device 17 in which the panoramic image display means 4 and the high-definition display means 5 are separately formed, and the high-definition display means 5 receives a signal from the tuning means 7. A part 16 is provided.

A supplementary description of the field of use of such an apparatus will be given below.
Can be applied to sports broadcasting. At present, all people receive and watch the same video created by a television station. Although a television station shoots using a plurality of cameras and switches scenes as appropriate, all people are viewing the same screen. However, according to the present embodiment, the receiver can individually select a desired portion from the entire panoramic image 12 and view the portion with high definition. Further, by recording the transmitted image, even if the transmitted sports program is one, it can be viewed from a different angle each time the user watches it.

[0022]

According to the first aspect of the present invention, one panoramic image is created by connecting images from a plurality of cameras directed in the radial direction to a horizontal side, and this panoramic image is transmitted to a receiving side. Since the panorama display for displaying the entire panorama image in a smaller size by thinning the length and width of the transmitted panorama image and the high-definition display for displaying a part of the transmitted panorama image with high definition are simultaneously performed, the transmission is performed. The side can connect images captured from multiple cameras in real time and unilaterally transmit them to the receiving side, so images can be transmitted using a system similar to a normal television, and the panorama image can be used to transmit the entire image. This has the effect that the user can recognize the state of the image and can also view a high-definition image of a required portion by the high-definition display.

According to the second aspect of the present invention, the display position of the high-definition display screen for displaying a part of the transmitted panoramic image with high definition can be arbitrarily changed on the receiving side. This has the effect that a high-definition image at an arbitrary position inside can be easily selected and displayed.

According to a third aspect of the present invention, there is provided an image pickup apparatus including a plurality of cameras arranged in a radiation direction, and a plurality of images picked up by the respective cameras connected side by side.
A panorama image creating means for creating a single panorama image;
A transmitting means for transmitting the created panoramic image to the receiving side, a panoramic image displaying means for thinning out the transmitted panoramic image vertically and horizontally to display the entire panoramic image in a small size,
Since the high-definition display means for displaying a part of the transmitted panoramic image with high definition, it is possible to recognize the entire state by the panoramic image and to display a high-resolution image of a portion required by the high-resolution display. Also has the effect of being able to see.

According to a fourth aspect of the present invention, there is provided an image pickup apparatus including a plurality of cameras arranged in a radiation direction, and a plurality of images picked up by the respective cameras connected side by side.
A panorama image creating means for creating a single panorama image;
A transmitting means for transmitting the created panoramic image to the receiving side, a panoramic image displaying means for thinning out the transmitted panoramic image vertically and horizontally to display the entire panoramic image in a small size,
High-definition display means for displaying a part of the transmitted panoramic image with high definition, and tuning means for performing tuning to an arbitrary position on a high-definition display screen for displaying a part of the transmitted panoramic image with high definition. The panorama image allows the entire state to be recognized, and the high-definition display allows the user to see the high-definition image of the required part, and easily selects the high-definition image at an arbitrary position in the panorama image. This has the effect that the image can be displayed.

[Brief description of the drawings]

FIG. 1 is a layout diagram of each part showing an embodiment of the present invention.

FIGS. 2A and 2B show images taken by a plurality of cameras and a combined image, wherein FIG. 2A is a plan view in which the taken images are arranged side by side horizontally, and FIG. FIG. 9 is a plan view of combined panoramic image data deleted and combined as a panoramic image.

3A and 3B show a size relationship between a panoramic image display unit and a high-definition display unit based on synthetic panoramic image data, wherein FIG. 3A is a plan view of the synthetic panoramic image data, and FIG. Is a plan view of image data in which the entire panoramic image is displayed small by thinning out, and FIG. 3C is a plan view of image data in which a part of the entire panoramic image is displayed with high definition.

4A and 4B are front views of the display device, FIG. 4A is a front view of a single display device, and FIG.

FIG. 5 is a flowchart showing the entire operation.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 imaging device 2 panorama image creation means 3 transmission means 4 panorama image display means 5 high definition display means 8 camera 12 panorama image B receiving side

Claims (4)

[Claims] 1. A panoramic image is created by connecting images from a plurality of cameras oriented in a radial direction to one side, and the panoramic image is transmitted to a receiving side. A panoramic image display method characterized by simultaneously performing a panoramic display in which the entire panoramic image is displayed in a small size by thinning out and a high-definition display in which a part of the transmitted panoramic image is displayed in high definition. 2. The display device according to claim 1, wherein a display position of a high-definition display screen for displaying a part of the transmitted panoramic image with high definition can be arbitrarily changed on the receiving side. Panorama image display method. 3. A panoramic image creation device for creating a single panoramic image by connecting a plurality of images taken by each camera horizontally and an image pickup device using a plurality of cameras arranged in a radial direction. Means, a transmitting means for transmitting the created panoramic image to the receiving side, a panoramic image display means for thinning the transmitted panoramic image to display the entire panoramic image in a smaller size, and a part of the transmitted panoramic image And a high-definition display means for displaying the image in high definition. 4. An image pickup apparatus including a plurality of cameras arranged in a radiation direction, and a panorama image creation for creating a single panorama image by connecting a plurality of images taken by each camera to a horizontal direction. Means, a transmitting means for transmitting the created panoramic image to the receiving side, a panoramic image display means for thinning the transmitted panoramic image to display the entire panoramic image in a smaller size, and a part of the transmitted panoramic image A high-definition display means for displaying a high-definition image, and a tuning means for performing tuning to an arbitrary position on a high-definition display screen for displaying a part of the transmitted panoramic image in high definition. Display device.