OFFSET
0,2
LINKS
Andrei Asinowski, Christian Krattenthaler, Toufik Mansour, Counting triangulations of some classes of subdivided convex polygons, European Journal of Combinatorics 62 (2017), 92-114; arXiv:1604.02870 [math.CO], 2016. See also preprint, 2016.
R. Bacher, Counting Triangulations of Configurations, arXiv:math/0310206 [math.CO], 2003.
FORMULA
A formula is given in the Bacher reference.
It seems that a(n) = Sum_{i, j, k>=0} C(n, i+j)*C(n, j+k)*C(n, k+i). - Benoit Cloitre, Oct 25 2004; proved in the article by Asinowski et al.
G.f.: seems to be (10*g^3 - 17*g^2 + 7*g - 1)/((1-3*g)*(2*g-1)*(4*g^2 - 6*g+1)) where g*(1-g)^2 = x. - Mark van Hoeij, Nov 10 2011; proved in the article by Asinowski et al.
Conjecture: 2*n*(2*n-1)*(5*n^2 - 29*n + 30)*a(n) + (-295*n^4 + 1926*n^3 - 3425*n^2 + 2106*n - 360)*a(n-1) + 24*(3*n-4)*(3*n-5)*(5*n^2 - 19*n + 6)*a(n-2) = 0. - R. J. Mathar, Apr 23 2015. Proved by Andrei Asinowski, C. Krattenthaler, T. Mansour, Counting triangulations of balanced subdivisions of convex polygons, 2016.
EXAMPLE
a(0)=1 since there is only one triangulation of a triangle (consisting of the triangle itself).
The a(1)=4 triangulations of a triangle with each side subdivided by one additional point are given by
.
O O
/ \ /|\
O _ O O O
/ \ / \ / \|/ \
O _ O _ O , O _ O _ O
.
and rotations by 120 degrees and 240 degrees of the last triangulation.
MATHEMATICA
max = 19; f[x_] := Sum[ a[n]*x^n, {n, 0, max}]; a[0] = 1; g[x_] := Sum[ b[n]*x^n, {n, 0, max}]; b[0] = 0; coes = CoefficientList[ Series[ g[x]*(1 - g[x])^2 - x, {x, 0, max}], x]; solb = Solve[ Thread[ coes == 0]][[1]]; coes = CoefficientList[ Series[ f[x] - ((10*g[x]^3 - 17*g[x]^2 + 7*g[x] - 1)/((1 - 3*g[x])*(2*g[x] - 1)*(4*g[x]^2 - 6*g[x] + 1))), {x, 0, max}], x] /. solb; sola = Solve[ Thread[ coes == 0]][[1]]; Table[a[n] /. sola, {n, 0, max}] (* Jean-François Alcover, Dec 06 2011, after Mark van Hoeij *)
CROSSREFS
KEYWORD
nonn,nice
AUTHOR
Roland Bacher, Oct 16 2003
STATUS
approved