Latest Articles for Systems Theory

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.

This paper investigates new problems in affine continuous VASS models.

Examining how systems sync their movements and behaviors efficiently.

A look at the Toda lattice and its significance in various fields.

This article discusses the mechanics of tile assembly in scientific contexts.

Discover how cycloids help model synchronization in processes across various fields.

Exploring how GMFGs model diverse interactions among agents in complex systems.

New methods improve distributed optimization without complex parameter settings.

Research reveals long-range order in two-dimensional systems despite traditional theories.

Fixed nodes in directed acyclic graphs are vital for network control.

This article examines how various interactions shape system behavior over time.

A look at methods for learning and verifying system behaviors over time.

Exploring how agents learn and adapt through structured active inference.

Understanding how robots can learn about their environments independently.

A look into how systems can be observed and understood through their statistics.

An overview of complex adaptive systems and their significance in various fields.

A look into the behavior of the van der Pol oscillator and its applications.

Exploring duoidal categories and string diagrams to model complex relationships.

New models provide insight into complex systems by focusing on individual components.

This study examines how boundary conditions affect relaxation time in one-dimensional physical systems.

Exploring how linear state space models learn and what shapes their dynamics.

This article explains key concepts in dynamical systems and their applications.

Explore the dynamics of delay differential equations with unimodal functions and their applications.

Research shows how environments can enhance energy transport in quantum systems.

An overview of parameterized systems and their verification challenges.

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.