Let $a, b , c, d$ be reals. Define the sequence $(x_n)$ as: 

$$x_0 = a,\,\, x_1 = b$$ 
$$x_n = \left(1 - \frac{b^2}{n^2}\right)x_{n-1} + \frac{1}{n-1}\sum_{k=0}^{n-2}\binom{2n+1}{2k+1}^{-1} (x_{k+1}-x_k)(c\, x_{n-k-1}- d\, x_{n-k-2}),\,\,\, n \geq2.$$
I want to prove that $(x_n)$ is convergent.
Here are two examples for different values of $(a, b , c, d).$ 
[![enter image description here][1]][1]
[![enter image description here][2]][2]
It seems (after several numerical tests) that the sequence is bounded and monotone from specific $n_0.$ The boundness of the sequence imply that 
$$\sum_{k=0}^{n-2}\binom{2n+1}{2k+1}^{-1} (x_{k+1}-x_k)(c\, x_{n-k-1}- d\, x_{n-k-2})$$
is bounded and the term with the sum goes to zero. 

Thank you for any hint


  


  [1]: https://i.sstatic.net/5eD2h.png
  [2]: https://i.sstatic.net/dK1US.png