Please be more clear about what you actually want and why (if that's relevant).

Your first equation is not homogeneous. To make it homogeneous you can write it in this form:

`x[n]+1 = (x[n-1]+1)+(x[n-2]+1)`

and substitute `u[n] = x[n] + 1`

to get

`u[n] = u[n-1]+u[n-2]`

with `u[0] = 1`

, `u[1]=2`

.

These numbers are known as Fibonacci Numbers. There are several formulas and results regarding these numbers. For example

`u[n-2] = (phi^n - (-phi)^(-n)) / sqrt5`

with `phi = (1 + sqrt 5) / 2 = 1.618...`

which gives a formula for `x[n]`

in your original equation:

`(phi^(n+2) - (-phi)^(-n-2)) / sqrt5 - 1`

On the other hand, your other equation `y[n] = y[n-1] + n`

can be reiterated as

`y[n] = y[n-1] + n = y[n-2] + (n-1) + n = ... = 1 + 2 + ... + n`

It is well known that this sum is `y[n] = n(n+1)/2`

I see no obvious relation between `x[n]`

and `y[n]`

as you provided.