Formal modelling approaches to complexity science in Roman studies: a manifesto
Formal modelling approaches to complexity science in Roman studies: a manifesto
Complexity science refers to the theoretical research perspectives and the formal modelling tools designed to study complex systems. A complex system consists of separate entities interacting following a set of (often simple) rules that collectively give rise to unexpected patterns featuring vastly different properties than the entities that produced them. In recent years a number of case studies have shown that such approaches have great potential for furthering our understanding of the past phenomena explored in Roman Studies. We argue complexity science and formal modelling have great potential for Roman Studies by offering four key advantages: (1) the ability to deal with emergent properties in complex Roman systems; (2) the means to formally specify theories about past Roman phenomena; (3) the power to test aspects of these theories as hypotheses using formal modelling approaches; and (4) the capacity to do all of this in a transparent, reproducible, and cumulative scientific framework. We present a ten-point manifesto that articulates arguments for the more common use in Roman Studies of perspectives, concepts and tools from the broader field of complexity science, which are complementary to empirical inductive approaches. There will be a need for constant constructive collaboration between Romanists with diverse fields of expertise in order to usefully embed complexity science and formal modelling in Roman Studies.
Brughmans, Tom
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Hanson, John William
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Mandich, Matthew J.
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Romanowska, Iza
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Rubio-Campillo, Xavier
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Carrignon, Simon
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Collins-Elliott, Stephen
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Crawford, Katherine
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Daems, Dries
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Fulminante, Francesca
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De Haas, Tymon
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Kelly, Paul
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Moreno Escobar, Maria del Carmen
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Paliou, Eleftheria
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Prignano, Luce
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Ritondale, Manuela
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Brughmans, Tom
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Hanson, John William
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Mandich, Matthew J.
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Romanowska, Iza
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Rubio-Campillo, Xavier
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Carrignon, Simon
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Collins-Elliott, Stephen
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Crawford, Katherine
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Daems, Dries
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Fulminante, Francesca
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De Haas, Tymon
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Kelly, Paul
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Moreno Escobar, Maria del Carmen
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Paliou, Eleftheria
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Prignano, Luce
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Ritondale, Manuela
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Brughmans, Tom, Hanson, John William, Mandich, Matthew J., Romanowska, Iza, Rubio-Campillo, Xavier, Carrignon, Simon, Collins-Elliott, Stephen, Crawford, Katherine, Daems, Dries, Fulminante, Francesca, De Haas, Tymon, Kelly, Paul, Moreno Escobar, Maria del Carmen, Paliou, Eleftheria, Prignano, Luce and Ritondale, Manuela
(2019)
Formal modelling approaches to complexity science in Roman studies: a manifesto.
Theoretical Roman Archaeology Journal, 2 (1).
(doi:10.16995/traj.367).
Abstract
Complexity science refers to the theoretical research perspectives and the formal modelling tools designed to study complex systems. A complex system consists of separate entities interacting following a set of (often simple) rules that collectively give rise to unexpected patterns featuring vastly different properties than the entities that produced them. In recent years a number of case studies have shown that such approaches have great potential for furthering our understanding of the past phenomena explored in Roman Studies. We argue complexity science and formal modelling have great potential for Roman Studies by offering four key advantages: (1) the ability to deal with emergent properties in complex Roman systems; (2) the means to formally specify theories about past Roman phenomena; (3) the power to test aspects of these theories as hypotheses using formal modelling approaches; and (4) the capacity to do all of this in a transparent, reproducible, and cumulative scientific framework. We present a ten-point manifesto that articulates arguments for the more common use in Roman Studies of perspectives, concepts and tools from the broader field of complexity science, which are complementary to empirical inductive approaches. There will be a need for constant constructive collaboration between Romanists with diverse fields of expertise in order to usefully embed complexity science and formal modelling in Roman Studies.
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Formal Modelling Approaches
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e-pub ahead of print date: 15 July 2019
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Local EPrints ID: 438974
URI: http://eprints.soton.ac.uk/id/eprint/438974
ISSN: 2515-2289
PURE UUID: 9f8b5e8d-f607-4147-84f0-c9c792926430
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Date deposited: 30 Mar 2020 16:31
Last modified: 16 Mar 2024 07:12
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Contributors
Author:
Tom Brughmans
Author:
John William Hanson
Author:
Matthew J. Mandich
Author:
Iza Romanowska
Author:
Xavier Rubio-Campillo
Author:
Simon Carrignon
Author:
Stephen Collins-Elliott
Author:
Katherine Crawford
Author:
Dries Daems
Author:
Francesca Fulminante
Author:
Tymon De Haas
Author:
Paul Kelly
Author:
Maria del Carmen Moreno Escobar
Author:
Eleftheria Paliou
Author:
Luce Prignano
Author:
Manuela Ritondale
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