Abstract
The classical Eckmann-Hilton argument shows that two monoid structures on a set, such that one is a homomorphism for the other, coincide and, moreover, the resulting monoid is commutative. This argument immediately gives a proof of the commutativity of the higher homotopy groups. A reformulation of this argument in the language of higher categories is: suppose we have a one object, one arrow 2-category, then its Hom-set is a commutative monoid. A similar argument due to A.Joyal and R.Street shows that a one object, one arrow tricategory is `the same' as a braided monoidal category.
In this paper we begin to investigate how one can extend this argument to arbitrary dimension. We provide a simple categorical scheme which allows us to formalise the Eckman-Hilton type argument in terms of the calculation of left Kan extensions in an appropriate 2-category. Then we apply this scheme to the case of n-operads in the author's sense and classical symmetric operads. We demonstrate that there exists a functor of symmetrisation Sym_n from a certain subcategory of n-operads to the category of symmetric operads such that the category of one object, one arrow, . . ., one (n-1)-arrow algebras of A is isomorphic to the category of algebras of Sym_n(A). Under some mild conditions, we present an explicit formula for Sym_n(A) which involves taking the colimit over a remarkable categorical symmetric operad.
We will consider some applications of the methods developed to the theory of n-fold loop spaces in the second paper of this series.