Approaches and principles of the Meta-Structures Project: the mesoscopic dynamics -Notes for software and models designers-

TL;DR

This paper details the principles and approaches for modeling and designing collective behaviors based on mesoscopic dynamics, emphasizing coherence and meta-structural properties in both homogeneous and non-homogeneous systems.

Contribution

It introduces a comprehensive framework for modeling collective behaviors using meta-structures and discusses measurement and design principles for mesoscopic dynamics.

Findings

Defined concepts of interaction and dynamics in homogeneous and non-homogeneous systems

Presented modeling approaches for properties of coherence domains

Discussed measurement techniques for complexity in collective behaviors

Abstract

In this paper we specify research assumptions introduced and used in "The meta-structure project" to be considered both to model and design collective behaviours as given by coherent mesoscopic dynamics. We specify concepts of interaction and dynamics both in homogeneous and non-homogeneous cases, i.e., fixed and variable structures. We specify consequent modelling and design approaches. We also present and discuss approaches to measure the level of complexity allowed or detected in collective behaviours intended as coherent mesoscopic dynamics. We mention the possibility to model properties of domains of coherence, for instance, populations of oscillators and molecules, by using meta-structural properties to be eventually considered also for quantum coherent domains. Keywords: Coherence, Collective, Dynamics, Homogeneous, Interaction, Mesoscopic, Meta-structural, Property.