Draft:Frei-Chen operator

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Instructions · What links here · Frei-Chen operator (talk: + · bio) · (log) · Copyvios report · reFill · Citation Bot · (Search: Google, Bing, Wikipedia) · Submitted 29 days ago by Jtjtejas05 (talk: D · +) · Last edited 29 days ago by Citation bot

The Frei-Chen operator, sometimes called Frei and Chen operator, is used in image processing for edge detection. It was proposed by Werner Frei and Chung-Ching Chen, researchers at USC's Image Processing Institute, in 1977^[1]. The idea is to use a set of orthogonal basis vectors related to distinctive image features, which enable the algorithm to extract boundary elements effectively.

Formulation

The operator uses nine 3x3 kernels which are convolved with the original image to calculate the gradient.

We define the nine kernels ${W1,...,W9}$ as:

$W1={\begin{bmatrix}1&{\sqrt {2}}&1\\0&0&0\\-1&-{\sqrt {2}}&-1\end{bmatrix}}\quad W2={\begin{bmatrix}1&0&-1\\{\sqrt {2}}&0&-{\sqrt {2}}\\1&0&-1\end{bmatrix}}$

$W3={\begin{bmatrix}0&-1&{\sqrt {2}}\\1&0&-1\\-{\sqrt {2}}&1&0\end{bmatrix}}\quad W4={\begin{bmatrix}{\sqrt {2}}&-1&0\\-1&0&1\\0&1&-{\sqrt {2}}\end{bmatrix}}$

$W5={\begin{bmatrix}0&1&0\\-1&0&-1\\0&1&0\end{bmatrix}}\quad W6={\begin{bmatrix}-1&0&1\\0&0&0\\1&0&-1\end{bmatrix}}$

$W7={\begin{bmatrix}1&-2&1\\-2&4&-2\\1&-2&1\end{bmatrix}}\quad W8={\begin{bmatrix}-2&1&-2\\1&4&1\\-2&1&-2\end{bmatrix}}$

$W9={\begin{bmatrix}1&1&1\\1&1&1\\1&1&1\end{bmatrix}}$

The pair $(W1,W2)$ is the isotropic average gradient
The pair $(W3,W4)$ is used to detect ripples
The pair $(W5,W6)$ is used to detect lines
The pair $(W7,W8)$ is the discrete laplacian operator
$W9$ , the averaging operator, added to complete the basis

$W1,...W4$ are used for edges subspace, $W5,...W8$ used for lines subspace and $W9$ is used to compute averages

Let $B$ be the image sub-area, and $\theta$ be the angle (in $n^{2}$ space), $e$ is the number of orthgonal edge basis vectors $W_{1},...W_{e}$ spanning the edge subspace.

$\theta =\arccos \left[\textstyle \sum _{i=1}^{e}\displaystyle (B*W_{i})^{2}/\textstyle \sum _{i=1}^{9}\displaystyle (B*W_{i})^{2}\right]^{\frac {1}{2}}$

The larger $\theta$ , the poorer the fit between B and an element of the edge subspace.

The strategy is to classify image sub-area as containing and edge element only if $\theta$ is small which is done by thresholding.

Simple description

The image is convoled with each of the kernel. Thus, 9 results are obtained.

Vectors $W_{1},...W_{4}$ are used for edge subspace identification. Hence numerator in the formula will be $\textstyle \sum _{i=1}^{4}\displaystyle (B*W_{i})^{2}$ . Similarly, for line subspace identification, the numerator will be $\textstyle \sum _{i=5}^{8}\displaystyle (B*W_{i})^{2}$ .