This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A191735 #8 Oct 12 2017 19:44:44
%S A191735 1,2,4,3,7,5,6,12,8,9,11,21,13,16,10,18,36,22,27,17,14,31,61,37,46,28,
%T A191735 23,15,52,102,62,77,47,38,26,19,87,171,103,128,78,63,43,32,20,146,286,
%U A191735 172,213,131,106,72,53,33,24,243,477,287,356,218,177,121,88
%N A191735 Dispersion of A047223, (numbers >1 and congruent to 1 or 2 or 3 mod 5), by antidiagonals.
%C A191735 For a background discussion of dispersions and their fractal sequences, see A191426. For dispersions of congruence sequences mod 3, mod 4, or mod 5, see A191655, A191663, A191667, A191702.
%C A191735 ...
%C A191735 Suppose that {2,3,4,5,6} is partitioned as {x1, x2} and {x3,x4,x5}. Let S be the increasing sequence of numbers >1 and congruent to x1 or x2 mod 5, and let T be the increasing sequence of numbers >1 and congruent to x3 or x4 or x5 mod 5. There are 10 sequences in S, each matched by a (nearly) complementary sequence in T. Each of the 20 sequences generates a dispersion, as listed here:
%C A191735 ...
%C A191735 A191722=dispersion of A008851 (0, 1 mod 5 and >1)
%C A191735 A191723=dispersion of A047215 (0, 2 mod 5 and >1)
%C A191735 A191724=dispersion of A047218 (0, 3 mod 5 and >1)
%C A191735 A191725=dispersion of A047208 (0, 4 mod 5 and >1)
%C A191735 A191726=dispersion of A047216 (1, 2 mod 5 and >1)
%C A191735 A191727=dispersion of A047219 (1, 3 mod 5 and >1)
%C A191735 A191728=dispersion of A047209 (1, 4 mod 5 and >1)
%C A191735 A191729=dispersion of A047221 (2, 3 mod 5 and >1)
%C A191735 A191730=dispersion of A047211 (2, 4 mod 5 and >1)
%C A191735 A191731=dispersion of A047204 (3, 4 mod 5 and >1)
%C A191735 ...
%C A191735 A191732=dispersion of A047202 (2,3,4 mod 5 and >1)
%C A191735 A191733=dispersion of A047206 (1,3,4 mod 5 and >1)
%C A191735 A191734=dispersion of A032793 (1,2,4 mod 5 and >1)
%C A191735 A191735=dispersion of A047223 (1,2,3 mod 5 and >1)
%C A191735 A191736=dispersion of A047205 (0,3,4 mod 5 and >1)
%C A191735 A191737=dispersion of A047212 (0,2,4 mod 5 and >1)
%C A191735 A191738=dispersion of A047222 (0,2,3 mod 5 and >1)
%C A191735 A191739=dispersion of A008854 (0,1,4 mod 5 and >1)
%C A191735 A191740=dispersion of A047220 (0,1,3 mod 5 and >1)
%C A191735 A191741=dispersion of A047217 (0,1,2 mod 5 and >1)
%C A191735 ...
%C A191735 For further information about these 20 dispersions, see A191722.
%C A191735 ...
%C A191735 Regarding the dispersions A191722-A191741, there are general formulas for sequences of the type "(a or b mod m)" and "(a or b or c mod m)" used in the relevant Mathematica programs.
%H A191735 Ivan Neretin, <a href="/A191735/b191735.txt">Table of n, a(n) for n = 1..5050</a> (first 100 antidiagonals, flattened)
%e A191735 Northwest corner:
%e A191735 1....2....3....6....11
%e A191735 4....7....12...21...36
%e A191735 5....8....13...22...37
%e A191735 9....16...27...46...77
%e A191735 10...17...28...47...78
%e A191735 14...23...38...63...106
%t A191735 (* Program generates the dispersion array t of the increasing sequence f[n] *)
%t A191735 r = 40; r1 = 12; c = 40; c1 = 12;
%t A191735 a=2; b=3; c2=6; m[n_]:=If[Mod[n,3]==0,1,0];
%t A191735 f[n_]:=a*m[n+2]+b*m[n+1]+c2*m[n]+5*Floor[(n-1)/3]
%t A191735 Table[f[n], {n, 1, 30}] (* A047223 *)
%t A191735 mex[list_] := NestWhile[#1 + 1 &, 1, Union[list][[#1]] <= #1 &, 1, Length[Union[list]]]
%t A191735 rows = {NestList[f, 1, c]};
%t A191735 Do[rows = Append[rows, NestList[f, mex[Flatten[rows]], r]], {r}];
%t A191735 t[i_, j_] := rows[[i, j]];
%t A191735 TableForm[Table[t[i, j], {i, 1, 10}, {j, 1, 10}]] (* A191735 *)
%t A191735 Flatten[Table[t[k, n - k + 1], {n, 1, c1}, {k, 1, n}]] (* A191735 *)
%Y A191735 Cf. A047208, A047223, A191722, , A191725, A191426.
%K A191735 nonn,tabl
%O A191735 1,2
%A A191735 _Clark Kimberling_, Jun 14 2011