For the moment, we'll assume they're all supposed to come out as rectangles with no rotation. In this case, you should be able to use a pretty simple approach. Starting from each pixel at the edge of the bitmap, start sampling pixels working your way inward until you encounter a transition. Record the distance from the edge for each transition (if there is one). Once you've done that from each edge, you basically "take a vote" -- the distance that occurred most often from that edge is what you treat as that edge of the rectangle. If the rectangle really is aligned, that should constitute a large majority of the distances.
If, instead you see a number of distances with nearly equal frequencies, chances are that the rectangle is rotated (or at least one edge is). In this case, you can divide the side in half (for example) and repeat. Once you've reached a large majority of points in each region agreeing on the distance, you can (attempt to) linearly interpolate between them to give a straight line (and limiting the minimum region size will limit the maximum rotation -- if you get to some size without reaching agreement, you're looking at a gouge, not the rectangle edge). Likewise, if you have a region (or more than one) that doesn't fit cleanly with the rest and won't fit with a line, you should probably ignore it as well -- again, you're probably looking at a gouge, not what's intended as an edge.