Optimum design of wide angle laser detecting system based on fish eye lens and sinusoidal amplitude grating

The application of light-weight cameras in UAV photogrammetry is required due to restrictions in payload. In general, consumer cameras with normal lens type are applied to a UAV system. The availability of action cameras, like the GoPro Hero4 Black, including a wide-angle lens (fish-eye lens) offers new perspectives in UAV projects. With these investigations, different calibration procedures for fish-eye lenses are evaluated in order to quantify their accuracy potential in UAV photogrammetry. Herewith the GoPro Hero4 is evaluated using different acquisition modes. It is investigated to which extent the standard calibration approaches in OpenCV or Agisoft PhotoScan/Lens can be applied to the evaluation processes in UAV photogrammetry. Therefore different calibration setups and processing procedures are assessed and discussed. Additionally a pre-correction of the initial distortion by GoPro Studio and its application to the photogrammetric purposes will be evaluated. An experimental setup with a set of control points and a prospective flight scenario is chosen to evaluate the processing results using Agisoft PhotoScan. Herewith it is analysed to which extent a pre-calibration and pre-correction of a GoPro Hero4 will reinforce the reliability and accuracy of a flight scenario.

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EVALUATION OF THE QUALITY OF ACTION CAMERAS WITH WIDE-ANGLE LENSES IN UAV PHOTOGRAMMETRY

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprsarchives-xli-b1-851-2016 ◽

2016 ◽

Vol XLI-B1 ◽

pp. 851-859 ◽

Cited By ~ 8

Author(s):

H. Hastedt ◽

T. Ekkel ◽

T. Luhmann

Keyword(s):

Eye Lens ◽

Experimental Setup ◽

Light Weight ◽

Wide Angle ◽

Control Points ◽

Wide Angle Lens ◽

Standard Calibration ◽

Normal Lens ◽

Fish Eye

The application of light-weight cameras in UAV photogrammetry is required due to restrictions in payload. In general, consumer cameras with normal lens type are applied to a UAV system. The availability of action cameras, like the GoPro Hero4 Black, including a wide-angle lens (fish-eye lens) offers new perspectives in UAV projects. With these investigations, different calibration procedures for fish-eye lenses are evaluated in order to quantify their accuracy potential in UAV photogrammetry. Herewith the GoPro Hero4 is evaluated using different acquisition modes. It is investigated to which extent the standard calibration approaches in OpenCV or Agisoft PhotoScan/Lens can be applied to the evaluation processes in UAV photogrammetry. Therefore different calibration setups and processing procedures are assessed and discussed. Additionally a pre-correction of the initial distortion by GoPro Studio and its application to the photogrammetric purposes will be evaluated. An experimental setup with a set of control points and a prospective flight scenario is chosen to evaluate the processing results using Agisoft PhotoScan. Herewith it is analysed to which extent a pre-calibration and pre-correction of a GoPro Hero4 will reinforce the reliability and accuracy of a flight scenario.

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A Correction Method of Fish-Eye Lens Based on Projective Reconstruction

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.577.741 ◽

2014 ◽

Vol 577 ◽

pp. 741-744

Author(s):

Jun Chao Zhu ◽

Li Wan ◽

Na Liu ◽

Bao Feng Zhang

Keyword(s):

Correction Method ◽

Eye Lens ◽

Wide Angle ◽

Projective Reconstruction ◽

Wide Angle Lens ◽

Fish Eye

Fish-eye lens is a special wide angle lens shooting all of the information within 185 degrees at the same time, but the image taken by it cause distortion. In order to fit for people's visual habits, the images need a correction. This article proposes a correction method of fish-eye lens based on projective reconstruction and verified the effectiveness of the method by the experiment.

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Proposed New AV-Type Test-Bed for Accurate and Reliable Fish-Eye Lens Camera Self-Calibration

Sensors ◽

10.3390/s21082776 ◽

2021 ◽

Vol 21 (8) ◽

pp. 2776

Author(s):

Kang Hyeok Choi ◽

Changjae Kim

Keyword(s):

Outer Part ◽

Calibration Procedure ◽

Geometric Distortion ◽

Eye Lens ◽

Wide Field ◽

Test Bed ◽

Self Calibration ◽

Type Test ◽

Balanced Distribution ◽

Fish Eye

The fish-eye lens camera has a wide field of view that makes it effective for various applications and sensor systems. However, it incurs strong geometric distortion in the image due to compressive recording of the outer part of the image. Such distortion must be interpreted accurately through a self-calibration procedure. This paper proposes a new type of test-bed (the AV-type test-bed) that can effect a balanced distribution of image points and a low level of correlation between orientation parameters. The effectiveness of the proposed test-bed in the process of camera self-calibration was verified through the analysis of experimental results from both a simulation and real datasets. In the simulation experiments, the self-calibration procedures were performed using the proposed test-bed, four different projection models, and five different datasets. For all of the cases, the Root Mean Square residuals (RMS-residuals) of the experiments were lower than one-half pixel. The real experiments, meanwhile, were carried out using two different cameras and five different datasets. These results showed high levels of calibration accuracy (i.e., lower than the minimum value of RMS-residuals: 0.39 pixels). Based on the above analyses, we were able to verify the effectiveness of the proposed AV-type test-bed in the process of camera self-calibration.

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Estimating Sunlight Polarization Using a Fish-eye Lens

IPSJ Transactions on Computer Vision and Applications ◽

10.2197/ipsjtcva.1.288 ◽

2009 ◽

Vol 1 ◽

pp. 288-300 ◽

Cited By ~ 19

Author(s):

Daisuke Miyazaki ◽

Mahdi Ammar ◽

Rei Kawakami ◽

Katsushi Ikeuchi

Keyword(s):

Eye Lens ◽

Fish Eye

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A GENERALIZED NON-LINEAR METHOD FOR DISTORTION CORRECTION AND TOP-DOWN VIEW CONVERSION OF FISH EYE IMAGES

Image Analysis & Stereology ◽

10.5566/ias.1660 ◽

2017 ◽

Vol 36 (2) ◽

pp. 143 ◽

Cited By ~ 2

Author(s):

Vivek Singh Bawa ◽

Krishan Kumar ◽

Vinay Kumar

Keyword(s):

Road Traffic ◽

Linear Method ◽

Distortion Correction ◽

Eye Lens ◽

Computationally Efficient ◽

Driver Assistance Systems ◽

Top Down ◽

Driving Experience ◽

Generalized Framework ◽

Fish Eye

Advanced driver assistance systems (ADAS) have been developed to automate and modify vehicles for safety and better driving experience. Among all computer vision modules in ADAS, 360-degree surround view generation of immediate surroundings of the vehicle is very important, due to application in on-road traffic assistance, parking assistance etc. This paper presents a novel algorithm for fast and computationally efficient transformation of input fisheye images into required top down view. This paper also presents a generalized framework for generating top down view of images captured by cameras with fish-eye lenses mounted on vehicles, irrespective of pitch or tilt angle. The proposed approach comprises of two major steps, viz. correcting the fish-eye lens images to rectilinear images, and generating top-view perspective of the corrected images. The images captured by the fish-eye lens possess barrel distortion, for which a nonlinear and non-iterative method is used. Thereafter, homography is used to obtain top-down view of corrected images. This paper also targets to develop surroundings of the vehicle for wider distortion less field of view and camera perspective independent top down view, with minimum computation cost which is essential due to limited computation power on vehicles.

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