Revision history for BP2
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COMMENTS
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The meaning of "big" left intentionally vague. There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
All examples on the same side are approximately the same size. |
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
All examples on the same side are approximately the same size.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. |
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
All examples on the same side are approximately the same size.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these could be assigned their own BP pages. |
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EXAMPLE
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
All examples on the same side are approximately the same size.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these could be assigned their own BP pages. - Aaron David Fairbanks, Jul 26 2020 |
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EXAMPLE
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
All examples on the same side are approximately the same size. - Aaron David Fairbanks, Jul 26 2020
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these could be assigned their own BP pages. |
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EXAMPLE
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
All examples on the same side are approximately the same size.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these could be assigned their own BP pages. |
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EXAMPLE
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NAME
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Big vs. small.
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
Currently, the "size" value stored for a shape in this database is its diameter in pixels, i.e. the maximum distance between two points within the shape.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these could be assigned their own BP pages. |
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REFERENCE
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M. M. Bongard, Pattern Recognition, Spartan Books, 1970, p. 214. |
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CROSSREFS
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EXAMPLE
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AUTHOR
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Mikhail M. Bongard |
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
Currently, the "size" value stored for a shape in this database is its diameter in pixels, i.e. the maximum distance between two points within the shape.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these could be assigned their own BP pages. |
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EXAMPLE
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COMMENTS
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The meaning of "big" left intentionally vague.
All examples in this Bongard Problem are single simple shapes, either outlines or solid black.
Currently, the "size" value stored for a shape in this database is its diameter in pixels, i.e. the maximum distance between two points within the shape.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these should be assigned BP pages. |
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EXAMPLE
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NAME
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Big vs. small.
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COMMENTS
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EXAMPLE
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| BP2 |
| on 2020-06-27 16:25:17 approved |
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+DATA
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 EX10  EX8  EX9  EX11  EX12  EX13 |
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-DATA
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 EX14  EX15  EX16  EX17  EX18  EX19 |
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NAME
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Big.
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COMMENTS
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The meaning of "big" left intentionally vague.
Currently, the "size" value stored for a shape in this database is its diameter in pixels, i.e. the maximum distance between two points within the shape.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these should be assigned BP pages. |
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EXAMPLE
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NAME
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Size.
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COMMENTS
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The meaning of "size" left intentionally vague.
Currently, the "size" value stored for a shape in this database is its diameter in pixels, i.e. the maximum distance between two points within the shape.
There are various specific ways to define size, such as diameter, minimum distance between points on edge, and size of smallest bounding circle. All of these should be assigned BP pages. |
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REFERENCE
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M. M. Bongard, Pattern Recognition, Spartan Books, 1970, p. 214. |
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EXAMPLE
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AUTHOR
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Mikhail M. Bongard |
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| BP2 |
| on 2020-06-26 20:18:14 approved |
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?DATA
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EX8 EX9 EX10 EX11 EX12 EX13 EX14 EX15 EX16 EX17 EX18 EX19 |
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