### Laser-camera calibration

Hokuyo URG-04-LX & Firefly-MV |

But for the space correlation things are more complex. The camera singal is a projection of a 3d plane into 2d and the laser signal is a 1d scan from the 3d world. So if you want to know which points are corresponding you have to know the exact 'difference' between the point of view of the two sensors. That is we need to know the exact transformation matrix between the laser and the camera. This process is called laser-camera calibration. And to do it we are going to use a neat matlab toolbox developed by A. Kassir[3].

Figure1. Detected corners on the checkerboard |

First we begin with intrisincally calibrating the camera[1]. The optics and electronics of the camera are far from perfect, so some distortion is apparent. What we need to find is the distortion coefficients so we can later "repair" each camera image. To do this we use a checkerboard pattern with known dimensions. We use the checkerboard because it's easy to detect the corners and thus compute the plane in which they belong (see Fig 1). For more accurate results we have to move the checkerboard into various positions and orientations (Fig 2).

Figure2. The algorithm extracted the various positions of the checkerboard |

After the camera is intrinsically calibrated, next comes the extrinsic laser-camera calibration which will give the distance and rotation between the two sensors. For this we have already recorder laser scans for each camera photo grabbed. The laser segment that corresponds to the checkerboard is automatically extracted [3] and the problem left to solve is how to minimize the algebraic distance of the two measurements. Which is a linear problem and can easily be solved with least squares. A non-linear method based on the plane orientation is also used, along with a global optimization step including all the poses of the checkeboard [2]. After we get our results we can superimpose laser scans on images.

The calibration is not so easy two be done and the results sometimes are subpar what is really necessary. One detail I can't stress more is the need for a

[1]. J.-Y. Bouguet. Camera Calibration Toolbox for Matlab, 2009

Laser segments superimposed on the camera image |

**really firm base**to keep the camera and the laser from moving in relation to each other. The good news is that if you have a 3d printer you can easily design and print your own base. We (Mario that is) designed two bases one for the urg-04-lx and one for the utm-30-lx-ew, the camera is firefly-mv for both. You can download them here in ipt (autodesk inventor) and stl format, in case anyone finds them useful (yes I'm refering to you my future self).[1]. J.-Y. Bouguet. Camera Calibration Toolbox for Matlab, 2009

Labels: 3d printer, calibration, firefly, hokuyo, matlab

## 2 Comments:

here the download link is dead or invalid. please if possible then update or mail me on my email id : jigar.senjalia18@gmail.com.

Thanks...

I'm sorry.

Try this: https://www.dropbox.com/s/er0gatvia1tjxvk/Laser_bases.zip

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