Complex systems
Complex systems present problems both in mathematical modelling and philosophical foundations. The study of complex systems represents a new approach to science that investigates how relationships between parts give rise to the collective behaviors of a system and how the system interacts and forms relationships with its environment.
Description
The equations from which models of complex systems are developed generally derive from statistical physics, information theory and non-linear dynamics and represent organized but unpredictable behaviors of natural systems that are considered fundamentally complex.
The physical manifestations of such systems are difficult to define, so a common choice is to identify "the system" with the mathematical information model rather than referring to the undefined physical subject the model represents. One of a variety of journals using this approach to complexity is Complex Systems.
Such systems are used to model processes in computer science, biology, economics, physics, chemistry, and many other fields. It is also called complex systems theory, complexity science, study of complex systems,complex networks, network science, sciences of complexity, non-equilibrium physics, and historical physics. A variety of abstract theoretical complex systems is studied as a field of mathematics.
The key problems of complex systems are difficulties with their formal modelling and simulation. From such a perspective, in different research contexts complex systems are defined on the basis of their different attributes. Since all complex systems have many interconnected components, the science of networks and network theory are important and useful tools for the study of complex systems.
A theory for the resilience of system of systems represented by a network of interdependent networks was developed by Buldyrev et al.
A consensus regarding a single universal definition of complex system does not yet exist.
For systems that are less usefully represented with equations various other kinds of narratives and methods for identifying, exploring, designing and interacting with complex systems are used.
See also
- Chaos theory
- Cybernetics
- Cognitive modeling
- Cognitive Science
- Complex adaptive system
- Complex networks
- Complexity
- Complexity economics
- Decision engineering
- Dual-phase evolution
- Dynamical system
- Dynamical systems theory
- Emergence
- Enterprise systems engineering
- Generative sciences
- Interdependent networks
- Invisible hand
- Mixed reality
- Multi-agent system
- Network Science
- Nonlinearity
- Pattern-oriented modeling
- Percolation Theory
- Process architecture
- Systems theory in anthropology
- Self-organization
- Sociology and complexity science
- System
- Volatility, uncertainty, complexity and ambiguity
External links
- Complex systems @ Wikipedia