NSG5002 Week 3 Discussion, Instructor Response
How would you define \'emergence\' in the context of a complex system?
Complex systems refer to systems with a behavior that is intrinsically difficult to model due to multiple factors, including the dependencies, relationships, or competitions, among other types of interactions, which exist between a particular system and its environment or its parts. While complex systems have various components, this paper will focus on the concept of emergence.
Emergence can be described as the formation or the existence of collective behaviors. In other words, it refers to what parts of a system accomplish when they are together, but they cannot do separately (Peter & Swilling, 2014). NSG5002 Week 3 Discussion, Instructor Response. Additionally, emergence describes collective behaviors in terms of how the properties of parts form collective properties. For instance, the emergent property of working together to generate the overall movement and structure of a muscle is displayed by the cells that form a muscle. Furthermore, emergence describes a system’s function in terms of what the system does depend on its relationship to its environment (Bar, 2019). In this context, emergence claims that some of the properties attributed to a system are properties of the relationship between a system and its environment.NSG5002 Week 3 Discussion, Instructor Response. The tendency to assign properties to a system that is not real is among the significant problems of complex systems. In most cases, those are properties of a connection between the system and its surroundings.
Overall, the concept of emergence in complex systems can be viewed from various perspectives. First, it refers to the existence of collective behaviors. Secondly, emergence illustrates how the properties of parts form collective properties. Finally, emergence describes a system’s function in terms of what the system does depend on its relationship to its environment.
Bar, Y. (2019). Concepts: Emergence. New England Complex Systems Institute. https://necsi.edu/emergence
Peter, C., & Swilling, M. (2014). Linking complexity and sustainability theories: Implications for modeling sustainability transitions. Sustainability, 6(3), 1594-1622. NSG5002 Week 3 Discussion, Instructor Response.