Page Areas:



Current Submenu:

Additional Information:

Innovative Metrology 2017

Rückblick: Innovation Messtechnik 2015

Where to find us

Plan of our location where to find us.

HF-Building, Northern Wing, Ground-Floor ...  more of Where to find us (Titel)


Position Indication:

Content

Image analysis and estimation algorithms to determine the ovality of steel coils

Dipl.-Ing. Dr. Daniel Christian Herbert Schleicher has been awarded twice for his outstanding doctor thesis entitled "Image analysis and estimation algorithms to determine the ovality of steel coils".

Dipl.-Ing. Dr. Daniel Schleicher

Dipl.-Ing. Dr. Norbert Eidenberger
   

Supervisory Committee:

Univ.-Prof. Dipl.-Ing. Dr. Bernhard Zagar
a.Univ.-Prof. Dipl.-Ing. Dr. Josef Scharinger

Final exam:

May 12, 2014

In steel industry the quality standard of production, storage and shipping of steel coils is very high. An important quality index of steel coils is their roundness.

At the beginning of this thesis various indices to describe the roundness of the coil are presented and a simulation of the ellipticity of a coil is discussed.

For the image acquisition a software was developed in C# to control the AVT Firewire camera.
Using digital image processing data (bended curve segments; see figure 1) is extracted, which is used to determine the center and ovality (see figure 2) of the coil with the specially for this problem designed concentric ellipse fit estimator.

To validate the results of this estimator the Kanatani Cramer-Rao lower bound and the Monte Carlo method were used, which showed that the estimator leads to very good results when proper input data is available.
A detailed error analysis shows the influences of the input data and image acquisition setup, which affects the estimation results.

It shows that the computer based analysis can be of great assistance to the human observer and leads to reliable results.

Keywords: coil, roundness, ovality, ellipse, estimation, quality

Figure 1: Image of the coil with the extracted curve segments, which are used for the estimation algorithms.

Figure 1: Image of the coil with the extracted curve segments, which are used for the estimation algorithms.

Figure 2: Estimated center and ovality of the coil. The different colors indicate different estimation algorithms.