I am referring to the definition of a tropical polynomial given on page 8 (top of section 3) here in this review, https://arxiv.org/pdf/math/0306366.pdf. I understand that here the notion of a tropical monomial ``$c\odot x_1^{a_1} \odot x_2^{a_2}..\odot x_n^{a_n}$" for a tuple of positive integers $a_1,a_2,..,a_n$ is derived from the fundamental definition of a tropical product as, $x\odot y = x+y$. Hence literally this makes sense only for $a_i$s being positive integers. And then the review says that obviously this tropical monomial is the $\mathbb{R}^n \rightarrow \mathbb{R}$ affine map, $c +\sum_{i=1}^n a_ix_i$.
Now if I take this affine map meaning as fundamental then can I as well think of ``$c\odot x_1^{a_1} \odot x_2^{a_2}..\odot x_n^{a_n}$" (and hence a generalized tropical polynomial) for $a_i$s arbitrary real numbers - since the affine map meaning for them would be well-defined for any of the monomials?
And if the above is true and feasible then does the subsequent definition of a ``tropical hypersurface" given on that page also make sense for such generalized notions of a tropical polynomial?
Is there any standard literature which deals with this generalization?
Is there any standard literature which deals with this generalization?
