CN102946508A - Panoramic video camera - Google Patents

Abstract

The invention discloses a panoramic video camera. The panoramic video camera consists of a spherical camera array and a microcomputer module, wherein cameras in the spherical camera array are uniformly distributed on a spherical surface at equal intervals; the lenses of the cameras are outward; the straight line where the main optical axis of the lenses is penetrates through the center of the spherical surface; signal output lines of all the cameras are connected with a signal input end of the microcomputer module; and each camera corresponds to a position coordinate of the camera on the spherical surface. Each camera transmits the position coordinate and an image shot by the camera to the microcomputer module in which an image processing program is performed, the microcomputer module splices the images of adjacent cameras to form a panoramic image and transmits the panoramic image to external equipment, and the image at each visual angle can be continuously displayed on the equipment receiving the panoramic image in real time.

Description

The panoramic shooting device

Technical field

A kind of panoramic shooting device especially utilizes equidistantly to be evenly distributed on the camera head that a camera array on the sphere carries out the panoramic picture shooting.

Background technology

It is limited that existing camera head is taken the visual angle, there is more shooting blind area, the image of comprehensive demonstration all angles simultaneously can not directly be taken and show in real time panoramic picture on its external equipment, the image of taking need to be carried out post-processed and just can be made into panoramic picture.

Summary of the invention

Limited in order to overcome existing camera head shooting visual angle, there is more shooting blind area, the deficiency of the image of comprehensive demonstration all angles simultaneously, the invention provides a kind of panorama shooting device, this panorama shooting device is by the image at its spherical surface camera array while each visual angle of omnidirectional shooting, and by its microcomputer module of moving image processing program the image at each visual angle is spliced processing, form panoramic picture, and this panoramic picture is transferred to its external equipment, by adjusting the visual angle, can be at the image that receives each visual angle of demonstration that links up in real time on the equipment of this panoramic picture.

The technical solution adopted for the present invention to solve the technical problems is: this panoramic shooting device is comprised of spherical surface camera array and microcomputer module, each camera in the spherical surface camera array equidistantly is evenly distributed on the sphere, the camera lens of camera is outside, the straight line at the primary optical axis place of camera lens is through the centre of sphere of this sphere, the output line of all cameras all is connected with the signal input part of microcomputer module, and each camera correspondence its position coordinates on sphere.

Each camera is passed to the microcomputer module of moving image processing program with the position coordinates of oneself and the image of shooting simultaneously, the image that the microcomputer module is taken adjacent camera splices processing, form panoramic picture, and this panoramic picture is transferred to its external equipment, by adjusting the visual angle, can be at the image that receives each visual angle of demonstration that links up in real time on the equipment of this panoramic picture.

The invention has the beneficial effects as follows, this panoramic shooting device is not taken the blind area, can take in real time and shows panoramic picture at display device, can link up in real time and shows the image at each visual angle by adjusting the visual angle.

Description of drawings

The present invention is further described below in conjunction with accompanying drawing.

Fig. 1 is vertical section structure schematic diagram of the present invention.

(1) camera among the figure, the camera lens of (2) camera, the sphere at (3) camera place.

Embodiment

This panoramic shooting device is comprised of spherical surface camera (1) array and microcomputer module, each camera in the spherical surface camera array equidistantly is evenly distributed on the sphere (3), the camera lens of camera (2) is outside, the straight line at the primary optical axis place of camera lens is through the centre of sphere of this sphere, the output line of all cameras all is connected with the signal input part of microcomputer module, and each camera correspondence its position coordinates on sphere.

Each camera is passed to the microcomputer module of moving image processing program with the position coordinates of oneself and the image of shooting simultaneously, the image that the microcomputer module is taken adjacent camera splices processing, form panoramic picture, and this panoramic picture is transferred to its external equipment, by adjusting the visual angle, can be at the image that receives each visual angle of demonstration that links up in real time on the equipment of this panoramic picture.

Above disclosed only be the application's a specific embodiment, but the application is not limited thereto, the thinkable variation of any those skilled in the art all should fall in the application's the protection range.

Claims (2)

1. panoramic shooting device, formed by spherical surface camera array and microcomputer module, it is characterized in that: each camera in the spherical surface camera array equidistantly is evenly distributed on the sphere, the camera lens of camera is outside, the straight line at the primary optical axis place of camera lens is through the centre of sphere of this sphere, the output line of all cameras all is connected with the signal input part of microcomputer module, and each camera correspondence its position coordinates on sphere.

2. panoramic shooting device according to claim 1, it is characterized in that: each camera is passed to the microcomputer module of moving image processing program with the position coordinates of oneself and the image of shooting simultaneously, the image that the microcomputer module is taken adjacent camera splices processing, form panoramic picture, and this panoramic picture is transferred to its external equipment, by adjusting the visual angle, can be at the image that receives each visual angle of demonstration that links up in real time on the equipment of this panoramic picture.

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