Shift-invariant functions and almost liftings

We investigate shift-invariant vectorial Boolean functions on $n$ bits that are induced from Boolean functions on $k$ bits, for $k\leq n$. We consider such functions that are not necessarily permutations, but are, in some sense, almost bijective, and their cryptographic properties. In this context, we define an almost lifting as a Boolean function for which there is an upper bound on the number of collisions of its induced functions that does not depend on $n$. We show that if a Boolean function with diameter $k$ is an almost lifting, then the maximum number of collisions of its induced functions is $2^{k-1}$ for any $n$. Moreover, we search for functions in the class of almost liftings that have good cryptographic properties and for which the non-bijectivity does not cause major security weaknesses. These functions generalize the well-known map $\chi$ used in the Keccak hash function.