Latest Articles for Systems Theory

An overview of essential ideas for effective process development.

Introducing a structured approach to understanding distributed systems and their communication patterns.

A look into slow-fast systems and their complex behaviors.

A model to study short-range and long-range interactions in various fields.

Exploring the dynamics and stability of biological systems through interaction networks.

Explore the concept of action and its importance in classical and quantum physics.

A look into how systems shift from disorder to order in Markov processes.

This article examines feedback effects in contagious McKean-Vlasov problems with common noise.

A look at how systems interact with their environments through agency.

Discover the quirky behaviors of non-Hermitian systems and their impacts.

Exploring the impact of monus semantics on vector addition systems with states.

Exploring new methods for identifying non-causal dynamic systems using kernel-based techniques.

A new framework reveals how information dynamics shape system behavior over time.

A flexible approach to study complex oscillator interactions and stability dynamics.

Exploring the mechanics and capabilities of graph-controlled insertion-deletion systems in computation.

Improved understanding of entropy production rates using detailed fluctuation theorem.

Explore the significance and properties of SRB measures in chaotic systems.

This article examines how particle density and movement affect behavior in a one-dimensional system.

Discover how agent cooperation enhances resource allocation and system performance.

Delay differential equations are key for modeling systems with time delays.

Exploring how noise influences oscillator networks and their behavior under disturbances.

An overview of Dirac operators used to study systems with time delays.

Study reveals how higher-order interactions shape swarmalator states and synchronization.

Research reveals simplicity bias impacts predictions in random logistic maps.

Discover how solitons and random matrices are connected in physics.

Exploring basic behaviors and their significance in system modeling.

A look at how systems change over time with focus on control and stability.

Learn how CCS processes translate into visual Petri nets.

Study shows how noise can ensure unique solutions in mean field games.

A new view on algorithms as dynamic entities interacting with the world.

A new logic improves the study of agent interactions in complex systems.

Examining how positive Lur'e systems maintain stability under various conditions.

This article examines how noise impacts paths in dynamical Schrödinger problems.

Examining how point vortices interact and evolve in fluid dynamics.

This article examines particle behavior in one-dimensional channels connecting reservoirs.

Discover the connections between quantum physics, digital systems, and biological life.

Exploring strategies for optimizing energy levels and rewards in Markov Decision Processes.

This paper examines the link between branching-time logics and automata theory.

Exploring wave dynamics in special systems reveals insights into biological behavior.

Exploring autocatalytic networks and their role in chemical processes and life.