Let $D_n$ denote the set of monotone Boolean functions with $n$ variables. Elements of $D_n$ can be represented as strings of bits of length $2^n$. Two elements of $D_0$ are represented as 0 and 1 and any element $g\in D_n$, with $n>0$, is represented as a concatenation $g_0\cdot g_1$, where $g_0, g_1\in D_{n-1}$ and $g_0\le g_1$. For each $x\in D_n$, we have dual $x^*\in D_n $ which is obtained by reversing and negating all bits. An element $x\in D_n$ is self-dual if $x=x^*$. Let $λ_n$ denote the cardinality of the set of all self-dual monotone Boolean functions of $n$ variables. The value $λ_n$ is also known as the $n$-th Hosten-Morris number. In this paper, we derive several algorithms for counting self-dual monotone Boolean functions and confirm the known result that $λ_9$ equals 423,295,099,074,735,261,880.