UNT Scholarly Works - 113 Matching Results

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Team Resilience in Complex and Turbulent Environments: The Effect of Size and Density of Social Interactions

Description: This article addresses the question of how teams cope with environmental threats by investigating two drivers of team resilience: the team size and the density of social interactions among team members.
Date: July 24, 2018
Creator: Giannoccaro, Ilaria; Massari, Giovanni F. & Carbone, Giuseppe
Partner: UNT College of Arts and Sciences

On social sensitivity to either zealot or independent minorities

Description: This article uses the self-organized temporal criticality (SOTC) model to identify the timing of crucial events as a new mechanism with which to generate criticality, thereby establishing a way for the internal dynamics of the decision making process to suppresss the sensitivity of social opinion to either zealot or independent minorities.
Date: March 27, 2018
Creator: Mahmoodi, Korosh; Grigolini, Paolo & West, Bruce J.
Partner: UNT College of Arts and Sciences

Towards a Neuronal Gauge Theory

Description: This article proposes that the brain (and other self-organised biological systems) can be characterised via the mathematical apparatus of a gauge theory.
Date: March 8, 2016
Creator: Sengupta, Biswa; Tozzi, Arturo; Cooray, Gerald K.; Douglas, Pamela K. & Friston, Karl J.
Partner: UNT College of Arts and Sciences

Collective behavior and evolutionary games - An introduction

Description: This article is an introduction to a special issue in Chaos, Solitons & Fractals with the goal of attracting submissions that identify unifying principles that describe the essential aspects of collective behavior, and which thus allow for a better interpretation and foster the understanding of the complexity arising in such systems.
Date: June 2013
Creator: Perc, Matjaž & Grigolini, Paolo
Partner: UNT College of Arts and Sciences

Linear response at criticality

Description: In this article, the authors study a set of cooperatively interacting units at criticality, and prove with analytical and numerical arguments that they generate the same renewal non-Poisson intermittency as that produced by blinking quantum dots.
Date: October 24, 2012
Creator: Svenkeson, Adam; Bologna, Mauro & Grigolini, Paolo
Partner: UNT College of Arts and Sciences