I have this image. And it consists of lots of irregular polygons.
First, I would like to calculate the minimum distance between two polygons. The way i think it can be achieved is by first extracting the location of boundary pixels of each polygon and storing it in arrays say B1 and B2. Then calculating the distance of each point in B1 to each point in B2 and then finding the minimum of that. And then i want to repeat this for each polygon in the figure with every other.
So, what i want to know is
- How can i extract the boundaries of each polygon?
- How can the computation time be kept at a minimum?
- Is there a better approach to this problem?
Also, as the polygons are highly irregular, i think smoothing them a little might also save a lot of time. But again i don't know how?
I found this function is the FEX that does what i want provided i have the boundary point of the polygons, but i found it quite complex due to its general nature. I think a simpler code can do the job much faster.