Abstract
In homotopy type theory, the truncation operator ||-||n (for a number n greater or equal to -1) is often useful if one does not care about the higher structure of a type and wants to avoid coherence problems. However, its elimination principle only allows to eliminate into n-types, which makes it hard to construct functions ||A||n -> B if B is not an n-type. This makes it desirable to derive more powerful elimination theorems. We show a first general result: If B is an (n+1)-type, then functions ||A||n -> B correspond exactly to functions A -> B that are constant on all (n+1)-st loop spaces. We give one elementary proof and one proof that uses a higher inductive type, both of which require some effort. As a sample application of our result, we show that we can construct set-based representations of 1-types, as long as they have braided loop spaces. The main result with one of its proofs and the application have been formalised in Agda.
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