The general theory of relativity includes the principle of equivalence of non-inertial reference systems and the gravitational field. This principle determines the consistency of the basic category "space-time" and the super-category "curved space-time". The principle of corpuscular-wave dualism in quantum theory determines the consistency of the basic category "field" and the super-category "quantum field". In this paper we analyze an analogous physical principle for the relational theory. As such a principle we consider the principle of complete absorption. It consists in the fact that a sufficiently large number of particles should be present in the Universe in order to complitely absorb the radiation of any source. From the experimental point of view, this situation leads to the full equivalence of the direct interparticle interaction and the interaction carried by a local field in space-time.