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Fisheye camera rectification and calibration method for expanding pin-hole imaging model

A small hole imaging and fisheye camera technology, which is applied in image enhancement, image analysis, image data processing, etc., can solve the problems of fisheye camera correction and calibration that cannot be used for small hole imaging models, and achieve correction and calibration, and easy calibration Effect

Inactive Publication Date: 2015-09-02
长安通信科技有限责任公司 +1
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Problems solved by technology

However, since the applicable field of view of the pinhole imaging model is much smaller than 180° (generally applicable to a field of view of about 90°), and the fisheye camera has an ultra-wide field of view (generally reaching or exceeding 180°), it cannot Simple use of pinhole imaging model for fisheye camera correction and calibration

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[0035] In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention will be further described in detail in conjunction with the accompanying drawings and specific embodiments.

[0036] The point in space is projected to the image plane through the pinhole imaging model, and the projection formula can be written as

[0037] s·m=A·[R|t]·M (1) Among them, s is a proportional constant, M: (X, Y, Z) is the coordinate of the space point (unit: mm mm), m: (u, v) is the coordinate of the point projected on the image plane (unit: pixel pixel), A is the camera internal reference (projection) matrix, [R|t] is the camera rotation-translation matrix.

[0038] The internal parameter matrix A does not depend on the view of the scene. For a certain camera, as long as the focal length is fixed, it will not change (to calibrate the camera, A needs to be obtained; in the following analysis, the calibration of the camera will be u...

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Abstract

The invention concretely relates to a fisheye camera rectification and calibration method for expanding a pin-hole imaging model, and belongs to the field of computer vision and computer graphics. The method includes the following steps: using a camera the window of which is opened, and shooting chessboard template graphs from different angles; extracting pixel coordinates of characteristic points in the template graphs through corner detection, and establishing a relation between space points and image points through a pin-hole imaging model; calculating a parameter through an LM algorithm after all the characteristic points are extracted, and achieving fisheye camera rectification and calibration based on the pin-hole imaging model; and utilizing a straight line fitting and natural point interpolation algorithm to expand the field range for pin-hole model rectification. Compared with the prior art, the fisheye camera rectification and calibration method has the beneficial effects that: calibration is easy, and an effect enabling people to conveniently view with the eyes is achieved; the application range of the pin-hole imaging model is expanded, and the field range for a single rectification process reaches 130 degrees; and through multiple times of expansion, a rectification result of a whole fisheye camera imaging area can be obtained.

Description

technical field [0001] The invention specifically relates to a fisheye camera correction and calibration method for expanding a pinhole imaging model, and belongs to the fields of computer vision and computer graphics. Background technique [0002] In the fields of machine vision, panoramic photography, security monitoring, and virtual reality, fisheye cameras are being used more and more widely due to their ultra-wide field of view (generally reaching or even exceeding 180°). However, fisheye cameras suffer from severe barrel distortion, which limits their use. Such as figure 1 As shown, this is an actual scene image taken with a fisheye camera, which covers the half-space scene. However, due to the existence of distortion, the imaging of the straight line in the space is no longer a straight line. [0003] Up to now, there have been many researches on fisheye camera correction and calibration, which can be mainly divided into two types: hardware-based measurement and ima...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T7/00
CPCG06T2207/10016G06T2207/30204G06T7/80
Inventor 涂波刘越颖戴帅夫刘丙双司俊俊
Owner 长安通信科技有限责任公司
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