Implicit computational complexity is the characterization of complexity classes by syntactic restrictions on computation models. Several subsystems of linear logic characterizing polynomial time have been defined : these systems are sound (terms normalize in polynomial time) and complete (it is possible to simulate a Turing machine during a polynomial number of steps). One of the long term goals is to statically prove complexity bounds. This is why we are looking for the most expressive characterizations possible. Our main tool is context semantics : tokens travel across proof-nets (programs of linear logic) according to some rules. The paths defined by these tokens represent the reduction of the proof-net.Contrary to previous works, we do ...