Let $V$ be a TRO (closed subspace of $B(H,K)$, closed under the product $xyz\to xy^*z$). Let $C(V)$, $D(V)$ denote the $C^{\ast}$-algebra generated by $VV^{\ast}$ and $V^*V$ respectively. We define $A(V)$, the linking $C^*$-algebra of $V$ as follows:

$$A(V) = \begin{bmatrix}
     C(V) &  V\\
    V^* & D(V)
\end{bmatrix}$$
Using this linking $C^*$-algebra one obtains a functor from category of TROs to the category of $C^*$-algebras using which one studies representation theory, nuclearity, exactness and ideal theory of TROs. Moreover, One can show that two TROs are isomorphic if and only if their corresponding linking $C^*$-algebras are isomorphic. 

Recall that a ternary Banach algebra is a complex associative Banach space $A$, equipped with a ternary product $[.,.,.]:A^3 \to A$ which is linear in outer variables and conjugate linear in middle variable and $$\|[a,b,c]\| \leq \| a \| \| b\|\| c\|$$
Since TROs are obvious examples of ternary Banach algebra. This motivates me to ask following:

> Does there exist $C^*$-algebra corresponding to each ternary Banach algebra "similar" to the one we have for TROs?

P.S: Above mentioned question might be some known result. Since I have started looking at ternary Banach algebra recently only so I have not seen such result anywhere.