Partitioning a Planar Point Set into Empty Convex Polygons

“…In the case of G(n), the lower bound is improved to n+1 4 for any n, while the upper bound is improved to 9 34 n for any n and to 5n+1 19 for infinitely many n [3]. Thus, the current best bounds of both functions are given by the following result.…”

“…(ii) a 3 lies in H(p 2 q; v 3 ): If γ (a 3 ; v l , q ) is not empty, we obtain H = {(v 1 v 2 p 1 ) 3 , (p 2 v 3 p 3 q) 4 , (v l p l pa 3 α 6 ) 5 } and R = γ (a 3 ; α 6 , v l ) for α 6 = α(a 3 ; v l , q ). See Fig.…”

“…iii) a3 lies in H(p1 p; v 2 ) ∩ H(p 2 q; v 2 ): We obtain H = {(v l v 1 p l ) 3 , (v 3 v 4 p 3 ) 3 , (pp 1 v 2 p 2 qa 3 ) 6 } and R = H(v l a 3 ; v 4 ) ∩ H(p l v 4 ; v l ). Since γ (v l ; p 3 , v 4 ) is empty, if we consider α = α(v l ; v 4 , p 4 ), we finally obtain H = {(p 1 v 2 p 2 ) 3 , (v 1 v 3 qp) 4 , (v l p l p 3 v 4 α) 5 } and R = H(v l α; v 5 ).The proof of the lemma is now complete since all the possible cases have been considered.…”

On the minimum number of mutually disjoint holes in planar point sets

“…In the case of G(n), the lower bound is improved to n+1 4 for any n, while the upper bound is improved to 9 34 n for any n and to 5n+1 19 for infinitely many n [3]. Thus, the current best bounds of both functions are given by the following result.…”

“…(ii) a 3 lies in H(p 2 q; v 3 ): If γ (a 3 ; v l , q ) is not empty, we obtain H = {(v 1 v 2 p 1 ) 3 , (p 2 v 3 p 3 q) 4 , (v l p l pa 3 α 6 ) 5 } and R = γ (a 3 ; α 6 , v l ) for α 6 = α(a 3 ; v l , q ). See Fig.…”

“…iii) a3 lies in H(p1 p; v 2 ) ∩ H(p 2 q; v 2 ): We obtain H = {(v l v 1 p l ) 3 , (v 3 v 4 p 3 ) 3 , (pp 1 v 2 p 2 qa 3 ) 6 } and R = H(v l a 3 ; v 4 ) ∩ H(p l v 4 ; v l ). Since γ (v l ; p 3 , v 4 ) is empty, if we consider α = α(v l ; v 4 , p 4 ), we finally obtain H = {(p 1 v 2 p 2 ) 3 , (v 1 v 3 qp) 4 , (v l p l p 3 v 4 α) 5 } and R = H(v l α; v 5 ).The proof of the lemma is now complete since all the possible cases have been considered.…”

On the minimum number of mutually disjoint holes in planar point sets

“…The proof uses a Ramsey type result for 11 points proposed by Aichholzer et al [1]. The most important case that remains to be settled is that of H (5,5). Urabe and Hosono [13] proved that 16 ≤ H(5, 5) ≤ 20, and later improved the lower bound to 17 [12].…”

“…14 . The upper bound bound was further improved to 9n 34 by Ding et al [5]. In [14], Urabe defined the function F k (n) = min S F k (S), where F k (S) is the maximum number of k-holes in a disjoint convex partition of S, and the the minimum being taken over all sets S of n points.…”

On the minimum size of a point set containing a 5-hole and a disjoint 4-hole

Bottleneck Convex Subsets: Finding k Large Convex Sets in a Point Set