There are at least two examples in the paper itself:
"1. Introduction" says: "for example, we might be able to ensure [at compile time] that an alleged red-black tree really has the red-black property".
"2.1 Promoting datatypes" discusses length-indexed vectors (that is, vectors with compile-time "index out of bounds" errors).
You can also take a look at earlier work in this direction, e.g. HList library for type-safe heterogenous lists and extensible collections. Oleg Kiselyov has many related works. You can also read works on programming with dependent types. http://www.seas.upenn.edu/~sweirich/ssgip/main.pdf has introductory examples for type-level computations in Agda, but those can be applied to Haskell as well.
Roughly, the idea is that
head for lists is given a more precise type. Instead of
head :: List a -> a
head :: NotEmptyList a -> a
The latter head function is more typesafe than the fomer: it can never be applied to empty lists because it would cause compiler errors.
You need type-level computations to express types such as NotEmptyList. Type classes with functional dependencies, GAGTs and (indexed) type families already provide weak forms of type-level computations for haskell. The work you mentioned just elaborates further in this direction.
See http://www.haskell.org/haskellwiki/Non-empty_list for an implementation using only Haskell98 type classes.