1,3

Guy Steele defines a family of 36 integer sequences, denoted here by GS(i,j) for 1 <= i, j <= 6, as follows. a[1]=1; a[2n] = i-th term of {0,1,a[n],a[n]+1,2a[n],2a[n]+1}; a[2n+1] = j-th term of {0,1,a[n],a[n]+1,2a[n],2a[n]+1}. The present sequence is GS(1,5).

The full list of 36 sequences:

GS(1,1) = A000007

GS(1,2) = A000035

GS(1,3) = A036987

GS(1,4) = A007814

GS(1,5) = A135416 (the present sequence)

GS(1,6) = A135481

GS(2,1) = A135528

GS(2,2) = A000012

GS(2,3) = A000012

GS(2,4) = A091090

GS(2,5) = A135517

GS(2,6) = A135521

GS(3,1) = A036987

GS(3,2) = A000012

GS(3,3) = A000012

GS(3,4) = A000120

GS(3,5) = A048896

GS(3,6) = A038573

GS(4,1) = A135523

GS(4,2) = A001511

GS(4,3) = A008687

GS(4,4) = A070939

GS(4,5) = A135529

GS(4,6) = A135533

GS(5,1) = A048298

GS(5,2) = A006519

GS(5,3) = A080100

GS(5,4) = A087808

GS(5,5) = A053644

GS(5,6) = A000027

GS(6,1) = A135534

GS(6,2) = A038712

GS(6,3) = A135540

GS(6,4) = A135542

GS(6,5) = A054429

GS(6,6) = A003817

GS:=proc(i,j,M) local a,n; a:=array(1..2*M+1); a[1]:=1;

for n from 1 to M do

a[2*n] :=[0,1,a[n],a[n]+1,2*a[n],2*a[n]+1][i];

a[2*n+1]:=[0,1,a[n],a[n]+1,2*a[n],2*a[n]+1][j];

od: a:=convert(a,list); RETURN(a); end;

GS(1,5,200):

Sequence in context: A132349 A123391 A076260 this_sequence A134309 A051516 A127391

Adjacent sequences: A135413 A135414 A135415 this_sequence A135417 A135418 A135419

nonn

njas, based on a message from Guy Steele and D. E. Knuth, Mar 01 2008