PRO (category theory)
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In category theory, a PRO is a strict monoidal category whose objects are the natural integers and whose tensor product is given on objects by the addition on integers. By an integer n, we mean here the set .
Some examples of PROs:
- the discrete category of integers,
- the category FinSet of integers and functions between them,
- the category Bij of integers and bijections,
- the category Inj of integers and injections,
- the simplicial category Δ of integers and monotonic functions.
The name PRO is an abbreviation of "PROduct category". PROBs (resp. PROPs) are defined similarly with the additional requirement for the category to be braided (resp. to have a symmetry, or a permutation).
[edit] Algebras of a PRO
An algebra of a PRO P in a monoidal category C is a strict monoidal functor from P to C. Every PRO P and category C give rise to a category of algebras whose objects are the algebras of P in C and whose morphisms are the natural transformations between them.
For example:
- an algebra of is just an object of C,
- an algebra of FinSet is a commutative monoid object of C,
- an algebra of Δ is a monoid object in C.
More precisely, what we mean here by "the algebras of Δ in C are the monoid objects in C" for example is that the category of algebras of P in C is equivalent to the category of monoids in C.
[edit] References
- Saunders MacLane (1965). "Categorical Algebra". Bulletin of the American Mathematical Society 71: 40–106.
- Tom Leinster (2004). Higher Operads, Higher Categories. Cambridge University Press.