som_neighborhood
Purpose
Calculate to which neighborhood each map unit belongs to relative to
each other map unit, given the units in 1-neighborhood of each unit.
Syntax
Ne = som_neighborhood(Ne1);
Ne = som_neighborhood(Ne1,n);
Description
For each map unit, finds the minimum neighborhood to which it belongs
to relative to each other map unit. Or, equivalently, for each map
unit, finds which units form its k-neighborhood, where k goes from
0 to n.
The neighborhood is calculated iteratively using the reflexivity of
neighborhood.
let N1i be the 1-neighborhood set a unit i
and let N11i be the set of units in the 1-neighborhood of any unit j in N1i
then N2i (the 2-neighborhood set of unit i) is N11i \ N1i
Consider, for example, the case of a 5x5 map. The neighborhood in case of
'rect' and 'hexa' lattices (and 'sheet' shape) for the unit at the
center of the map are depicted below:
'rect' lattice 'hexa' lattice
-------------- --------------
4 3 2 3 4 3 2 2 2 3
3 2 1 2 3 2 1 1 2 3
2 1 0 1 2 2 1 0 1 2
3 2 1 2 3 2 1 1 2 3
4 3 2 3 4 3 2 2 2 3
Because the iterative procedure is rather slow, the neighborhoods
are calculated upto given maximal value. The uncalculated values
in the returned matrix are Inf:s.
Required input arguments
Ne1 (matrix) Each row contains 1, if the corresponding unit is adjacent
for that map unit, 0 otherwise. This can be calculated
using SOM_UNIT_NEIGHS. The matrix can be sparse.
Size munits x munits.
Optional input arguments
n (scalar) Maximal neighborhood value which is calculated,
Inf by default (all neighborhoods).
Output arguments
Ne (matrix) neighborhood values for each map unit, size is
[munits, munits]. The matrix contains the minimum
neighborhood of unit i, to which unit j belongs,
or Inf, if the neighborhood was bigger than n.
Examples
Ne = som_neighborhood(Ne1,1); % upto 1-neighborhood
Ne = som_neighborhood(Ne1,Inf); % all neighborhoods
Ne = som_neighborhood(som_unit_neighs(topol),4);
See also