Topological Pressure for the Completely Irregular Set of Birkhoff Averages

Abstract

In this paper we mainly study the dynamical complexity of Birkhoff ergodic average under the simultaneous observation of any number of continuous functions. These results can be as generalizations of [6,35] etc. to study Birkhorff ergodic average from one (or finite) observable function to any number of observable functions from the dimensional perspective. For any topological dynamical system with g-almost product property and uniform separation property, we show that any jointly-irregular set(i.e., the intersection of a series of φ-irregular sets over several continuous functions) either is empty or carries full topological pressure. In particular, if further the system is not uniquely ergodic, then the completely-irregular set(i.e., intersection of all possible nonempty φ-irregular sets) is nonempty(even forms a dense Gδ set) and carries full topological pressure. Moreover, irregular-mix-regular sets (i.e., intersection of some φ-irregular sets and -regular sets) are discussed. Similarly, the above results are suitable for the case of BS-dimension. As consequences, these results are suitable for any system such as shifts of finite type or uniformly hyperbolic diffeomorphisms, time-1 map of uniformly hyperbolic flows, repellers, β-shifts etc..