OFFSET
1,1
COMMENTS
Chambers are counted regardless of their numbers of vertices.
The n X m lattice polygon mentioned in the definition is an n X m grid of square cells, formed using a grid of n+1 X m+1 points. - N. J. A. Sloane, Feb 07 2019
LINKS
Lars Blomberg, Table of n, a(n) for n = 1..325 (The first 25 rows)
Lars Blomberg, Colored illustration for 3 x 3
Lars Blomberg, Colored illustration for 4 X 4
Lars Blomberg, Colored illustration for 5 X 3
Lars Blomberg, Colored illustration for 5 X 5
Lars Blomberg, Scott R. Shannon, N. J. A. Sloane, Graphical Enumeration and Stained Glass Windows, 1: Rectangular Grids, (2020). Also arXiv:2009.07918.
Huntington Tracy Hall, Counterexamples in Discrete Geometry. Dissertation, Department of Mathematics, University of California Berkeley, Fall 2004.
Serkan Hosten, Diane Maclagan, Bernd Sturmfels, Supernormal Vector Configurations, arXiv:math/0105036 [math.CO], 4 May 2001.
Marc E. Pfetsch, Günter M. Ziegler, Large Chambers in a Lattice Polygon (Notes), March 28, 2001, December 13, 2004.
Marc E. Pfetsch, Günter M. Ziegler, Large Chambers in a Lattice Polygon (Notes), March 28, 2001, December 13, 2004. [Cached copy, with permission]
Hugo Pfoertner, Illustrations of Chamber Complexes up to 5 X 5.
EXAMPLE
The diagonals of the 1 X 1 lattice polygon, i.e. the square, cut it into 4 triangles. Therefore T(1,1)=4.
Triangle begins
4,
16, 56,
46, 176, 520,
104, 388, 1152, 2584,
214, 822, 2502, 5700, 12368,
...
CROSSREFS
KEYWORD
nonn,tabl
AUTHOR
Hugo Pfoertner, Jun 06 2017
EXTENSIONS
T(4,1) added from A306302. - N. J. A. Sloane, Feb 07 2019
T(3,3) corrected and rows for n=4..9 added by Max Alekseyev, Apr 05 2019.
STATUS
approved