A154677 -id:A154677 - cp's OEIS frontend

A088713 G.f. A(x) satisfies A(x/A(x)) = 1/(1-x).

1, 1, 2, 6, 24, 118, 674, 4308, 30062, 225266, 1791964, 15009118, 131566314, 1201452248, 11389283418, 111761444078, 1132680800640, 11834071103246, 127261591139010, 1406778021294220, 15967144849210158, 185897394076705298

Offset: 0

Paul D. Hanna, Oct 12 2003

nonn

			G.f.: A(x) = 1 + x + 2*x^2 + 6*x^3 + 24*x^4 + 118*x^5 + 674*x^6 +...
Illustration of logarithmic derivation.
If we form an array of coefficients of x^k in A(x)^n, n>=1, like so:
A^1: [1],1,  2,   6,   24,   118,   674,    4308, ...;
A^2: [1, 2], 5,  16,   64,   308,  1716,   10724, ...;
A^3: [1, 3,  9], 31,  126,   600,  3278,   20070, ...;
A^4: [1, 4, 14,  52], 217,  1032,  5560,   33440, ...;
A^5: [1, 5, 20,  80,  345], 1651,  8820,   52270, ...;
A^6: [1, 6, 27, 116,  519,  2514],13385,   78420, ...;
A^7: [1, 7, 35, 161,  749,  3689, 19663], 114269, ...; ...
then the sums of the coefficients of x^k, k=0..n-1, in A(x)^n (shown above in brackets) begin:
1 = 1;
1 + 2 = 3;
1 + 3 +  9 = 13;
1 + 4 + 14 +  52 = 71;
1 + 5 + 20 +  80 +  345 = 451;
1 + 6 + 27 + 116 +  519 +  2514 = 3183;
1 + 7 + 35 + 161 +  749 +  3689 + 19663 = 24305; ...
and equal the coefficients in log(A(x)):
log(A(x)) = x + 3*x^2/2 + 13*x^3/3 + 71*x^4/4 + 451*x^5/5 + 3183*x^6/6 + 24305*x^7/7 + 197551*x^8/8 +...
The main diagonal in the above table forms the g.f. G(x) of A088714:
[1/1, 2/2, 9/3, 52/4, 345/5, 2514/6, 19663/7, ...]
where G(x) = 1 + x + 3*x^2 + 13*x^3 + 69*x^4 + 419*x^5 + 2809*x^6 +...
satisfies A'(x)/A(x) = (G(x) + x*G'(x)) / (1 - x*G(x)).

Vaclav Kotesovec, Table of n, a(n) for n = 0..300

Cf. A088714.

Variants: A154677, A168448, A168449, A168478, A168479.

terms = 22; A[] = 1; Do[A[x] = 1 + x*A[x]*A[1 - 1/A[x]] + O[x]^j // Normal, {j, terms}]; CoefficientList[A[x], x] (* Jean-François Alcover, Jan 15 2018 *)

a(n)=local(A=1+x);for(i=1,n,A=(1+A*serreverse(x/(A+x*O(x^n))))^1);polcoeff(A,n)
for(n=0,30,print1(a(n),", ")) \\ Paul D. Hanna, Dec 06 2009

{a(n)=local(A=1+x);if(n==0,1,for(i=1,n,
A=1+x*exp(sum(k=1,n-1,sum(j=0,k,polcoeff(A^k+x*O(x^j),j))*x^k/k)+x*O(x^n))));
polcoeff(A+x*O(x^n),n)}
for(n=0,30,print1(a(n),", ")) \\ Paul D. Hanna, Dec 09 2013

G.f. satisfies: A(x) = 1 + x*A(x)*A(1-1/A(x)).
G.f.: A(x*g(x)) = g(x) = (1-1/A(x))/x where g(x) is the g.f. of A088714.
From Paul D. Hanna, Dec 06 2009: (Start)
G.f. satisfies: A(x) = 1 + A(x)*Series_Reversion(x/A(x)).
G.f. satisfies: A( (x/(1+x)) / A(x/(1+x)) ) = 1 + x.
(End)
Logarithmic derivative: given g.f. A(x), let G(x) = A(x*G(x)) be the g.f. of A088714, then A'(x)/A(x) = (G(x) + x*G'(x)) / (1 - x*G(x)).

A168448 G.f. satisfies: A(x/A(x)^2) = C(x) where C(x) = 1 + x*C(x)^2 is the g.f. of the Catalan numbers (A000108).

Original entry on oeis.org

1, 1, 4, 26, 226, 2395, 29278, 398499, 5899534, 93507783, 1569405110, 27672405800, 509622262860, 9759305238932, 193673399146066, 3972141366536794, 84010899306559470, 1829057795368804875, 40931310532585505770, 940322157062673670051, 22152626055397162566438

Offset: 0

Paul D. Hanna, Dec 06 2009

nonn

			G.f.: A(x) = 1 + x + 4*x^2 + 26*x^3 + 226*x^4 + 2395*x^5 +...
A(x/A(x)^2) = 1 + x + 2*x^2 + 5*x^3 + 14*x^4 + 42*x^5 + 132*x^6 +...

Cf. A154677, A168449.

{a(n)=local(A=1+x, F=sum(k=0, n, binomial(2*k+1, k)/(2*k+1)*x^k)+x*O(x^n)); for(i=0, n, A=subst(F, x, serreverse(x/(A+x*O(x^n))^2))); polcoeff(A, n)}

{a(n)=local(A=1+x);for(i=1,n,A=1+A^2*serreverse(x/(A+x*O(x^n))^2)); polcoeff(A,n)}
for(n=0,25,print1(a(n),", "))

G.f. satisfies: A(x) = 1 + A(x)^2*Series_Reversion[x/A(x)^2].
G.f. satisfies: A( (x-x^2)/A(x-x^2)^2 ) = 1/(1-x).
G.f. satisfies: A( (x/(1+x)^2)/A(x/(1+x)^2)^2 ) = 1 + x.

A168449 G.f. satisfies: A(x/A(x)) = C(x)^2 where C(x) = 1 + x*C(x)^2 is the g.f. of the Catalan numbers (A000108).

Original entry on oeis.org

1, 2, 9, 60, 520, 5450, 65830, 886466, 13005906, 204607622, 3412713687, 59858823020, 1097439583778, 20934702108924, 414042879930671, 8466407067384676, 178587080601453990, 3878812336463745962

Offset: 0

Paul D. Hanna, Dec 06 2009

nonn

			G.f.: A(x) = 1 + 2*x + 9*x^2 + 60*x^3 + 520*x^4 + 5450*x^5 +...
A(x/A(x)) = 1 + 2*x + 5*x^2 + 14*x^3 + 42*x^4 + 132*x^5 + 429*x^6 +...

Cf. A154677, A168448, A168479 (variant).

{a(n)=local(A=1+x, F=sum(k=0, n, binomial(2*k+1, k)/(2*k+1)*x^k)+x*O(x^n)); for(i=0, n, A=subst(F^2, x, serreverse(x/(A+x*O(x^n))))); polcoeff(A, n)}

{a(n)=local(A=1+x);for(i=1,n,A=(1+A*serreverse(x/(A+x*O(x^n))))^2); polcoeff(A,n)}

G.f. satisfies: A(x) = [1 + A(x)*Series_Reversion(x/A(x))]^2.
G.f. satisfies: A( (x-x^2)/A(x-x^2) ) = 1/(1-x)^2.
G.f. satisfies: A( (x/(1+x)^2)/A(x/(1+x)^2)^2 ) = (1 + x)^2.
Self-convolution of A168448.

A168653 G.f. satisfies: A(xA(x)) = G(x) where G(x) = 1 + xG(x)^3 is the g.f. of A001764.

Original entry on oeis.org

1, 1, 2, 6, 21, 82, 340, 1478, 6622, 30433, 142331, 676203, 3248579, 15776459, 77196573, 380849394, 1888606247, 9430534212, 47236684433, 238214461960, 1202007809362, 6116704517639, 30997312336216, 159384351652358

Offset: 0

Paul D. Hanna, Dec 06 2009

nonn

			G.f.: A(x) = 1 + x + 2*x^2 + 6*x^3 + 21*x^4 + 82*x^5 + 340*x^6 +...
A(x*A(x)) = 1 + x + 3*x^2 + 12*x^3 + 55*x^4 + 273*x^5 + 1428*x^6 +...

Cf. A154677, A168478, A168448, A001764.

{a(n)=local(A=1+x, F=sum(k=0, n, binomial(3*k+1, k)/(3*k+1)*x^k)+x*O(x^n)); for(i=0, n, A=subst(F, x, serreverse(x*(A+x*O(x^n))^1))); polcoeff(A, n)}

{a(n)=local(A=1+x);for(i=1,n,A=1+A^3*serreverse(x*(A+x*O(x^n)))); polcoeff(A,n)}

G.f. satisfies: A(x) = 1 + A(x)^3*Series_Reversion(x*A(x)).
G.f. satisfies: A( x*(1-x)^2*A(x*(1-x)^2) ) = 1/(1-x).
G.f. satisfies: A( (x/(1+x)^3)*A(x/(1+x)^3) ) = 1 + x.

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A088713 G.f. A(x) satisfies A(x/A(x)) = 1/(1-x).

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A168448 G.f. satisfies: A(x/A(x)^2) = C(x) where C(x) = 1 + x*C(x)^2 is the g.f. of the Catalan numbers (A000108).

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A168449 G.f. satisfies: A(x/A(x)) = C(x)^2 where C(x) = 1 + x*C(x)^2 is the g.f. of the Catalan numbers (A000108).

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A168653 G.f. satisfies: A(x*A(x)) = G(x) where G(x) = 1 + x*G(x)^3 is the g.f. of A001764.

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A168653 G.f. satisfies: A(xA(x)) = G(x) where G(x) = 1 + xG(x)^3 is the g.f. of A001764.