KR19990074212A - Multi Image Synthesis Device for Panorama Image Capture - Google Patents

Abstract

The present invention relates to a multi-image synthesizing apparatus used for attaching to a camera, and in particular, to enable a single camera to take a panoramic image, which was previously possible with two cameras. The multi-image sum growth value of the present invention is a conversion lens 20 having two conversion lens elements 21 and 22 arranged at right and left, and a correction lens having two correction lens elements 31 and 32 arranged up and down ( 30), a panoramic image is generated by dividing an image of light incident from the incident side to the left and right, and outputting the divided image or other images incident through each path by combining the image up and down at the exit side. It is to provide a composite image that can be viewed. The device of the present invention can be applied to a traffic monitoring system to reduce costs and contribute to traffic safety, and can be applied to enable various image processing in various other optical devices.

Description

Multi Image Synthesis Device for Panorama Image Capture

The present invention relates to a multi-image synthesizing apparatus attached to a camera so that a panoramic image can be taken with a general camera, and in particular, by using only an optical device to secure a wide field of view corresponding to the panoramic image, two or more images coming into the field of view are included. The present invention relates to a multi-image synthesizing apparatus for panoramic image capturing, which synthesizes two or more divided images to be rearranged in another direction perpendicular to the original divided direction.

Prior to describing the background of the present invention, referring to FIGS. 1 and 2, FIG. 1 shows a camera 1 when the foreground 2 is photographed by a general charge coupled device (CCD) camera 1. Shows a general image (3) formed on the CCD. 2 shows a composite image 4 corresponding to a panoramic image formed on a CCD when the multi-image synthesizing apparatus 10 according to the present invention is attached to a general CCD camera 1. As compared with the drawing, the synthesized image 4 obtained by using the multi-image synthesizing apparatus 10 of the present invention includes two divided images 4a and 4b divided into an upper half and a lower half. The two divided images 4a and 4b respectively correspond to an area 2a containing a lot of the left part and an area 2b containing a lot of the right part, based on the center of the foreground 2, and partially overlap each other. It is. That is, when the divided images 4a and 4b of the synthesized image 4 are connected to each other in a partially overlapped state, a panoramic image having a much wider width is obtained instead of reducing the height by half with respect to the subject (foreground). Taking a composite image corresponding to the panoramic image is effective for monitoring a speeding vehicle or a lane violation vehicle, for example, for road traffic safety.

In a violating vehicle monitoring system, it is necessary to take a picture of all vehicles passing through the lane to be monitored, regardless of the driving position of the vehicle with a fixed camera. However, when an ordinary analog CCD camera is provided, the number of pixels representing the resolution is usually about 512 x 480 and the horizontal resolution corresponding to the panoramic image is low, so that one lane cannot be completely monitored. That is, when the vehicle is driving to the right or left of the lane, the entire license plate does not appear in the image, but only a part of the license plate is displayed, which makes it impossible to recognize the license plate of the violating vehicle.

As a technique for solving this problem, two methods are known in the art. One uses only a camera of high resolution (1024 × 1024 or more), and the other uses the two ordinary cameras 1,1 'as shown in FIG. 3 to the right area and the left area of the lane 5. Is divided into some overlapping state, and the lane 5 is fixed to be photographed for the vehicle 6, which is the driving subject, and the images captured by the two cameras 1 and 1 'are separately processed. The processing is edited in the apparatus 7 so that the synthesized image 9 corresponding to the panoramic image as known in the monitor 8 of the control system is output.

In more detail, in FIG. 3, the vehicle 6 is driven to the left in the lane 5, in which case the vehicle 6 is exposed only to a part of the right camera 1 ′ so that the license plate 6a is exposed. The whole is not photographed, but is mostly exposed to the left camera 1. Therefore, as shown in Fig. 4, the two images 9a and 9b by both cameras are processed and edited into a composite image 9 appearing above and below on the same screen, so that the license plate 6a is secured regardless of the driving position of the violating vehicle. This is recognizable.

Of the two conventional methods, using a high resolution camera, a wide field of view can be taken with a sufficient shooting distance so that a simple system can be constructed without the separate image processing apparatus described above. Since the camera is expensive, there is a problem in that the economic burden increases.

On the other hand, in the case of using two general cameras, the number of camera installations is doubled, and the system is complicated because a separate image processing apparatus is used with waste of equipment. Accordingly, there is a difficult problem in the installation and maintenance after installation. In addition, this method has a performance problem in that it takes a relatively long time to process and edit two images taken by two cameras into a single screen, so that it is impossible to simultaneously monitor vehicles violating in a short time. .

An object of the present invention, to reduce the economic burden and waste of equipment, can be easily attached to the camera so that a composite video of multiple images corresponding to a wide panorama image can be taken with a single low-cost general camera without a separate image processing device. It is to provide a multi-image synthesis device for the so-called panoramic image capture.

Another object of the present invention is to provide a multi-image synthesizing apparatus for a panoramic image capturing to synthesize a multi-image divided to correspond to the panoramic image in order to enhance the performance by reducing the processing time.

Still another object of the present invention is to provide a multi-image synthesizing apparatus for panoramic image capturing that can be used in all fields requiring an optical system for panoramic images together with various surveillance systems such as vehicle violations as well as various bank robberies.

1 is a schematic diagram showing for explaining an image taken by a general camera.

2 is a schematic diagram illustrating an image captured when a multi-image synthesizing apparatus for a panoramic image capturing according to the present invention is attached to a camera;

Figure 3 is a block diagram of a traffic monitoring system according to the prior art.

Figure 4 is a schematic diagram showing an image processing process by the traffic monitoring system according to the prior art.

5 is a schematic diagram showing an optical configuration of a multi-image synthesizing apparatus for panoramic image capturing according to the present invention.

6 is a block diagram of a traffic monitoring system in which a multi-image synthesizing apparatus for panoramic image capturing according to the present invention is attached to a camera;

7 is a perspective view showing a preferred embodiment of a conversion lens constituting a multi-image synthesizing apparatus for panoramic image capturing according to the present invention.

8A is a plan view of the conversion lens illustrated in FIG. 7.

8B is a front view of the conversion lens shown in FIG. 7.

8C is a side view of the conversion lens shown in FIG. 7.

9 is a perspective view showing a preferred embodiment of a correction lens constituting a multi-image synthesizing apparatus for panoramic image capturing according to the present invention.

10A is a plan view of the conversion lens shown in FIG. 9;

FIG. 10B is a front view of the conversion lens shown in FIG. 9; FIG.

10C is a side view of the conversion lens shown in FIG. 9.

11 is a planar optical profile of a multi-image synthesizing apparatus for panoramic image capturing according to a preferred embodiment of the present invention.

12 is an optical profile on the side of a multi-image synthesizing apparatus for panoramic imaging according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10,10 ': Multi Image Synthesis Device 20,20': Conversion Lens

21,22: left and right conversion lens elements 23a, 24a, 33a, 34b: incident surface

23b, 24b, 33b, 34b: exit surface 30, 30 ': correction lens

31,32: Upper and lower correction lens element

The present invention to achieve the above objects,

A conversion lens for dividing and combining the incident light with the image information so as to divide the image into two or more and convert the divided image into a composite image rearranged in a direction orthogonal to the original divided direction; A multi-image synthesizing apparatus for panoramic image capturing includes a correction lens for correcting a path of light so that light emitted from the composite image proceeds straight.

The multi-image composite growth value of the present invention is attached to a camera to secure a wide field of view corresponding to the panoramic image with one camera, and the image coming into the secured field of view is photographed as a composite image synthesized. Therefore, the multi-image sum growth value of the present invention enables wide panorama image capturing even with a general camera, which will be described in detail with reference to the accompanying drawings.

In the drawings referred to below, the same reference numerals are assigned to the same parts as the above-described drawings for convenience of description.

As shown in FIG. 5, the multi-image synthesizing apparatus 10 according to the present invention as described in FIG. 2 is composed of pure optical instruments of the conversion lens 20 and the correction lens 30 as shown in FIG. 5. do. The conversion lens 20 is composed of two conversion lens elements 21 and 22 arranged on the left and right, and the correction lens 30 is composed of two correction lens elements 31 and 32 arranged up and down. The left conversion lens element 21 of the conversion lens 20 refracts the incident optical path 11a to the image correction lens element 31 of the correction lens 30 and the right conversion lens element 22 of the conversion lens 20. Refracts the incident optical path 12a to the lower correction lens element 32 of the correction lens 30. In addition, the upper and lower correction lens elements 31 and 32 of the correction lens 30 horizontally align the optical paths 11b and 12b refracted by the left and right conversion lens elements 21 and 22 of the conversion lens 20. The optical paths 11c and 12c are used for correction. As a result, the multi-image synthesizing apparatus 10 of the present invention converts an array of incident optical paths 11a and 12b from the horizontal direction to the vertical direction, and divides the image of the light incident from the incident side to the left and right. The image is output by combining the divided image or other images incident through the respective paths up and down on the emission side.

FIG. 6 shows an example of attaching the multiple image synthesizing apparatus 10 according to the present invention to the camera 1 to be used in a violating vehicle monitoring system. In the drawing, reference numeral 5 denotes a lane, 6 denotes a vehicle driving lane 5, 8 denotes a monitor of a control system, and 9 denotes a vehicle 6 photographed by a camera 1 and transmitted therefrom. The composite image 9 output to the monitor 8 is shown. As shown in this figure, the camera 1 is fixedly placed so as to lie in the center of the lane 5, and as described above, the left part of the lane 4 includes a lot of the left side of the lane 4 by the multi-image synthesizing apparatus 10 of the present invention. Light 11a 'incident with information of the image 9a photographed in the captured region, and light 12a' incident with information of the image 9b photographed in the region including the right portion of the lane 4 This ensures a wide field of view in which the entire area of the lane 4 can be photographed. In this case, the camera 1 uses a general low resolution one. Of course, when using a high resolution one, a wider field of view can be secured so that two or more lanes can be monitored.

7 shows a preferred embodiment of the conversion lens of the multi-image synthesizing apparatus according to the present invention. The illustrated conversion lens 20 'is made of the same material as a conventional prism crystal, and has two entrance surfaces 23a and 24a formed on both left and right sides corresponding to the left and right conversion lens elements described above, and their exit surfaces. (23b, 24b). 8A, 8B, and 8C, which show a plan view, a front view, and a side view thereof, respectively, both entrance surfaces 23a and 24a or their exit surfaces 23b and 24b are symmetrical to both left and right when viewed from the front, respectively. They are mutually obtuse. Incidentally, the incident surface 23a and the exit surface 23b corresponding to the left conversion lens element are inclined to gradually narrow from the center to the outside, and are inclined gradually from the top to the bottom, while corresponding to the right conversion lens element. The incident surface 24a and its exit surface 24b are inclined to gradually narrow outward and are gradually inclined from top to bottom. Here, the angles between the entrance surfaces 23a and 23b and the exit surfaces 23b and 24b, their respective inclination angles, their inclination directions, and the like are determined in consideration of their optical characteristics such as correction lenses and distances described below.

Preferred embodiments of the correcting lens of the multi-image synthesizing apparatus of the present invention are shown in Figs. 9 and 10A, 10B and 10C. As illustrated, the correction lens 30 'is formed by staggering two perpendicular prisms up and down, and has two incident surfaces 33a and 34a formed on both upper and lower sides corresponding to the upper and lower correction lens elements described above. ) And its exit surfaces 33b and 34b. Both incidence surfaces 33a and 34a are alternately inclined from one side to the other side, and their exit surfaces 23b and 24b are formed perpendicular to the same plane. Of course, the inclination angles of the entrance surfaces 33a and 33b, their inclination directions, and the like are also determined in consideration of the above-described conversion lens, distance, and optical characteristics thereof.

Next, FIGS. 11 and 12 show a camera in which the multi-image synthesizing apparatus 10 'of the present invention comprising the conversion lens 20' and the correction lens 30 'according to the above-described preferred embodiment is attached to a camera. Shows an optical profile with the CCD 40 of. An image of a subject (not shown) photographed as shown in FIG. 11, which is viewed from above, is divided into an image including a lot of its left part and an image including a lot of its right part, and have a conversion lens with respective information. The light 11a 'and 12a' of the two components incident on the incidence surfaces 23a and 24a of the 20 'are respectively divided, and the light 11a' and 12a 'of the divided left and right sides are converted lens 20'. At the exit surfaces 23b and 24b, the beams are refracted toward the upper and lower side incident surfaces 33a and 34a of the correction lens 30 ', respectively, as shown in FIG. The light 11b 'and 12b' incident on the incident surfaces 33a and 34a of the correction lens 30 'from the conversion lens 20' is the light 11c ', which is horizontal on the exit surfaces 33b and 34b. 12c '), and each image is captured in the upper and lower regions of the CCD 40 of the camera. That is, the image of the photographed subject is divided left and right at the incidence side, and then synthesized up and down on the CCD 40 at the outgoing side so that a composite image corresponding to the panoramic image as described above is captured.

In the present invention, although not illustrated in the drawings, the image may be divided into three or more, and then configured to be synthesized. In addition, the optical system of the multi-image synthesizing apparatus of the present invention can be rotated 90 degrees with respect to the optical axis so that the division and synthesis directions of the images can be reversed. Can be used. On the other hand, the multi-image sum growth value of the present invention can be attached to a camera and not only for violating vehicle monitoring but also for application in various optical systems for image processing.

As described above, the present invention provides a multi-image synthesizing apparatus capable of capturing a composite image corresponding to a panoramic image, thereby reducing costs by reducing the number of installations of a traffic monitoring camera installed on a highway. At the same time, it is effective for traffic safety by detecting wide lanes with fast image processing. In addition, the present invention can be applied to various image processing mechanisms can be effectively used to provide a variety of images.

Claims (6)

A conversion lens for dividing and combining the incident light with the image information so as to divide the image into two or more and convert the divided image into a composite image rearranged in a direction orthogonal to the original divided direction; A multi-image synthesizing apparatus for panoramic image capturing comprising a correction lens for correcting a path of light so that light emitted with the composite image proceeds straight. According to claim 1, wherein the left side conversion lens element for dividing the light incident by the conversion lens to the left and right sides to refract the path of the light divided on the left and the right side and the left and right to refract the path of the divided light on the right A multi-image synthesizing apparatus for panoramic image capturing, comprising: a right conversion lens element, wherein the correction lens comprises upper and lower correction lens elements corresponding to a path of light emitted from a left conversion lens element of the conversion lens. . The incidence plane and the outgoing plane of the left conversion lens element of the conversion lens are inclined to be gradually narrowed from the inside to the outside, and are gradually inclined from the top to the bottom. A multi-image synthesizing apparatus for panoramic image capturing, characterized in that the output surface is inclined gradually narrowing from the inner side to the outer side, and at the same time gradually widened from the top to the bottom. The multi-image synthesizing apparatus for panoramic image capturing according to claim 2 or 3, wherein the left and right conversion lens elements of the conversion lens are unitary. The panoramic image according to claim 2, wherein the incidence surfaces of the upper and lower correction lens elements of the correction lens are inclined from one side to the other side of the correction lens, and the exit surface is perpendicular to the same plane. Multi-image synthesis device for shooting. The multi-image synthesizing apparatus for panoramic image capturing according to claim 2 or 5, wherein the upper and lower correction lens elements of the correction lens are a single body.