Affiliation:
1. University of Salento, Italy
Abstract
This research aims to apply models extracted from the many-body quantum mechanics to describe social dynamics. It is intended to draw macroscopic characteristics of organizational communities starting from the analysis of microscopic interactions with respect to the node model. In this chapter, the authors intend to give an answer to the following question: which models of the quantum physics are suitable to represent the behaviour and the evolution of business processes? The innovative aspects of the project are related to the application of models and methods of the quantum mechanics to social systems. In order to validate the proposed mathematical model, the authors intend to define an open-source platform able to model nodes and interactions within a network, to visualize the macroscopic results through a digital representation of the social networks.
Reference27 articles.
1. Statistical mechanics of complex networks
2. Complex networks-augmenting the framework for the study of complex systems.;L. A. N.Amaral;The European Physical Journal,2004
3. Emergence of Scaling in Random Networks
4. Berliant, M., & Fujita, M. (2007). Knowledge creation as a square dance on the Hilbert cube. (MPRA Paper No. 4680). Retrieved from http://mpra.ub.uni-muenchen.de/4680/