Novel chaotic delay systems and electronic circuit solutions
Abstract
Chaotic delay systems are abundant in
nature and play a significant role in engineering applications and in describing global behaviors of physical
systems. This work presents novel first-order chaotic
delay systems with the simplest nonlinearities. The
exponential, absolute value, and hyperbolic and signum
functions, which arise in many systems like electronic
circuits, are utilized to generate chaotic delay systems.
The practical realization of chaotic delay systems is carried out with all-pass filters and diode-based electronic
circuits. Bifurcation diagrams using numerical simulations and experimental results are provided to verify
the existence and feasibility of the novel chaotic delay
systems. It is expected that the novel chaotic delay systems and the novel electronic implementation circuits
will contribute to some practical applications and modeling of physical systems or events in different fields.