Organization and clasification of trajectories in the time-delayed Mackey-Glass system

Abstract: Using a novel electronic implementation of a well-known time-delayed system, the Mackey-Glass (MG) system, we investigate the organization of the trajectories in the phase space, and classify the coexisting solutions, both, in observations and in model simulations. The numerical simultations are performed using a discrete-time equation that approximates the exact solutions of the MG model and in particular, models the delay line in the electronic circuit. In wide parameter regions, different periodic or aperiodic solutions, but with similar waveforms exhibiting the alternation of peaks of different amplitudes, coexist. A symbolic algorithm is proposed to classify those solutions. The system's phase-space was explored by varying the parameter values of two families of initial functions.