I am trying to follow this answer and generalize it for the case of arbitrary probability distributions.
Say, we have three independent random variables $X$, $Y$, $Z$, with pdfs $f_X(x)$, $f_Y(y)$ and $f_Z(z)$. I'd like to find the joint pdf of $f_{X^{\prime}Y^{\prime}}(x^{\prime},y^{\prime})$ of $X^{\prime}=X+Z$ and $Y^{\prime}=Y+Z$. On the step, $$ F_{X^{\prime}Y^{\prime}}=\mathbb{E}\left[F_X(x^{\prime}-Z)F_Y(y^{\prime}-Z)\right], $$ where $F$ denotes the cdf, I try to evaluate the expectation as: $$ F_{X^{\prime}Y^{\prime}}=\int_{-\infty}^{\infty} F_X(x^{\prime}-z)F_Y(y^{\prime}-z)f_{Z}(z)dz, $$ which does not seem to work, since when I substitute any particular pdfs for $X$, $Y$ and $Z$, the resulting joint distribution just factorizes. What am I doing wrong?
