Suppose X is the set of all closed polygons, d_triangle is the “area metric” defined by the area sum of the symmetric difference of two closed polygons, and d_H is the Hausdorff metric on X. How should I prove that d_triangle and d_H do not generate the same topology on X? Also why do they generate the same topology on the subset of convex polygons? I tried to visualize how a typical open ball in both metrics looks but this seems rather impossible.
orkesruim40
Answered question
2022-08-09
Suppose X is the set of all closed polygons, is the “area metric” defined by the area sum of the symmetric difference of two closed polygons, and dH is the Hausdorff metric on X. How should I prove that and do not generate the same topology on X? Also why do they generate the same topology on the subset of convex polygons? I tried to visualize how a typical open ball in both metrics looks but this seems rather impossible.
Answer & Explanation
Ismailatirf
Beginner2022-08-10Added 14 answers
I can show you a sequence that converges to in the area metric, but not in the Hausdorff metric. Near the points , , consider a triangular spike of height 1 and area , for example the triangle with vertices . Define as the union of Y and these triangles. Then the distance between and Y in the area metric tends to zero, but the distance in the Hausdorff metric does not.
For the positive result, try to consider two convex polygons and try to bound the difference of their areas in terms of the Hausdorff distance and vice versa. Even if the metrics are not equivalent, that may be an easier approach to showing the topologies are the same than considering open balls.
Step 2
For example, if you have two sets whose Hausdorff distance is small, you have and vice versa. This means that , and the area of that set is bounded by times the perimeter of .
On the other hand, if two convex polygons have positive Hausdorff distance, you need to show their area distance can't be arbitrarily small. I can visualise why that should be true, but I can't give you an even semi-formal proof at the moment.
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