Latest Articles for Systems Theory

Explore the role of tropical matrices in understanding dynamic systems and their stability.

Investigating how diagonal elements influence system stability.

Examining how energy loss influences behavior in dynamic fractional systems.

A look at how the Kinetic Ising model studies materials in different conditions.

Examining the costs and roles of regulation in biological and human systems.

This article explores how attractors influence system behavior over time.

Examining how noise influences behavior and transitions in non-equilibrium systems.

A look into how Bratteli diagrams represent complex dynamical systems.

This article examines discrete-time systems and their complex behaviors through simplified models.

A study on how AI can work together to handle disruptions effectively.

Discover how -contact geometry enriches the study of complex systems.

Learn how cycloids can maintain efficiency even through process failures.

Researchers develop pseudometrics to compare nonlinear dynamical systems effectively.

Explore how circuits behave between chaos and order through simple changes.

Research on estimating dynamics from noisy and bilinear measurements.

A simple breakdown of quantum states and their interactions through Schmidt decomposition.

A new approach to make smarter decisions with limited information.

A look into adaptive networks and their role in system stability.

Explore how oscillators stay in sync without direct connections.

An easy guide to large scale systems and their stability.

An overview of reversible systems and their applications.

An overview of non-equilibrium steady states and their significance.

A look into how fast-slow systems behave, using the FitzHugh-Nagumo model.

A new method uses graphs to compare models of self-organization in living systems.

An insight into systems that defy traditional action and reaction principles.

A look into the significance of norming systems in solving linear equations.

Exploring how particles move in chaotic systems through a dance floor analogy.

Discover the latest developments in fuzzy cognitive maps and their real-world applications.

Unraveling the complexity of cocycles in mathematical rotations.

Discover how partial rigidity shapes patterns in dynamical systems over time.

A look into how quantum systems evolve over time.

Discover how chemical reactions influence life and economies.

A look into quantum mechanics and the role of entropy.

Exploring maximal entropy and ergodic measures in chaotic dynamical systems.

Explore how Thue-Morse systems reveal insights into particle behavior under various forces.

Discover the complexities of differential equations with state-dependent delays and their real-world applications.