# To find slope of edge detected line in Image in matlab

I want to calulate the start points and end points of a edge detected line in a image to find the slope of the line .

-
You should read: en.wikipedia.org/wiki/Canny_edge_detector –  Mr E Oct 6 '11 at 14:30
Through canny we can detect the edges of the line in the image . –  Patan Oct 6 '11 at 14:46
But what about the start and end points of the detected edge line to find the slope –  Patan Oct 6 '11 at 15:08
You already have the segmented line? Then you can use the regionprops() function in the image processing toolbox to find the points you want. –  Ghaul Oct 6 '11 at 15:08
PLEASE make some effort in attempting your problem. This is not a dumping ground for your homework. Why should users put in time and effort to help you out if you aren't willing to put time and effort into the problem? To all "MATLAB regulars": please join the meta-discussion at meta.stackexchange.com/q/108521/168373 –  Dang Khoa Oct 6 '11 at 17:50

You'll probably have to do some connected component analysis with Matlab's `bwconncomp` on the edge map.

Like this:

``````    CC = bwconncomp( edge(I) );  % or whatever your edge function is
``````

The issue is probably "how do you define and compute the start and end points?" This is the much harder part. For this you might have to think about the connected components as graphs (with each pixel in on the edge map being a node, and then define the graph edges in a 4 connected fashion), and then find points that are only singly connected to the other points. After this, if there are two such singly connected points, then you can call these endpoints. Otherwise it's not really modelable by a line.

That's how I'd proceed.

-

You should use an edge detection to detect edges in the image. After you did that use Hough transform to detect lines. The Hough transform gives you two numbers representation of lines, consisting of Theta - the angle between the x axe and a radius. The angle of the line you are looking for is theta + 90 degrees (or Phi/2). good luck.

-