Abstract
One-dimensional piecewise-smooth discontinuous maps (maps with gaps) are known to have surprisingly rich dynamics, including periodic orbits with very high period and bifurcation diagrams showing period-adding or period-incrementing behavior. In this paper we study a new class of maps, which we refer to as regularized one-dimensional discontinuous maps, because they give very similar dynamics to discontinuous maps and closely approximate them, yet are continuous. We show that regularized discontinuous maps arise naturally as limits of higher dimensional continuous maps when we study the global dynamics of two nonsmooth mechanical applications: the cam-follower system and the impact oscillator. We review the dynamics of discontinuous maps, study the dynamics of regularized discontinuous maps, and compare this to the behavior of the two mechanical applications which we model. We show that we observe period-adding and period-incrementing behavior in these two systems respectively but that the effect of the regularization is to lead to a progressive loss of the higher period orbits.
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