Open Challenges on the Stability of Complex Systems: Insights of Nonlinear Phenomena with or without Delay
1Universidad Autónoma Metropolitana, Ciudad de México, Mexico
2IPICyT, San Luis Potosí, Mexico
3Autonomous University of Hidalgo, Hidalgo, Mexico
4Umea Universitet, Umea, Sweden
5UAM, Ciudad de México, Mexico
Open Challenges on the Stability of Complex Systems: Insights of Nonlinear Phenomena with or without Delay
Description
The stability analysis of complex systems provides the principles and methods useful for engineers, mathematicians, economists, and physicists among others to obtain a better understanding of the dynamics of the system. This allows us to understand the nature of the dynamics of the system and propose a new controller or improve control designs, optimizing or increasing performance. The scope of this analysis makes it the quintessential multidisciplinary field when including nonlinear phenomena with or without inherent or incidental delays. Here, the field of applied nonlinear systems has attracted scientists and engineers across many different disciplines to develop innovative ideas and methods to study complex behavior without delay. On the other hand, delays and nonlinearities appear frequently in physical and engineering systems. Typically, in most investigations, it is believed that the presence of delays in the dynamics of a system can cause poor performance in its response or even instability, and greatly increase the difficulty of stability analysis and control design. However, the delay when using an appropriate analysis it can also be employed to stabilize and improve the performance of the system. The stability analysis of both phenomena, nonlinearity and delays, continues presenting challenges of interest which contribute in the current and future investigations to most application domains including industry, energy, agriculture, sustainability, communications technologies, and autonomous systems. Moreover, present and future research challenges demand a holistic approach where systems and control play a key role.
The aim of the present issue is to provide to readers new tools and recent advances developed about complex nonlinear systems and complex systems with delay. Audience includes all researchers and graduate students interested in complex systems and control theory. We invite the authors to contribute original research articles that describe novel results for nonlinear or delay complex systems.
Potential topics include but are not limited to the following:
- Complexity and retarded control
- Nonlinear and delayed systems
- Mechatronics and automation
- Autonomous systems
- Underactuated systems
- Distributed networked control systems
- Industrial applications
- Stability of nonlinear dynamical systems
- New chaotic systems and synchronization of a pair of couple systems