Agent-based modelling and construction - reconstructing antiquity's largest infrastructure project

Authored by Ozge Dilaver, J Riley Snyder, Lucy C Stephenson, Jan E Mackie, Simon D Smith

Date Published: 2018

DOI: 10.1080/01446193.2017.1403639

Sponsors: Leverhulme Trust

Platforms: NetLogo

Model Documentation: Other Narrative Flow charts Mathematical description

Model Code URLs: Model code not found

Abstract

Archaeological remains around the world are testament that large-scale construction projects have been successfully carried out for millennia. This success is particularly evident through the great infrastructural works of the Roman Empire. Yet, it was when the capital was moved from Rome to Constantinople that the largest of these projects was undertaken. This megaproject of the fourth- and fifth-century water supply was made of hundreds of kilometres aqueduct channels and bridges that brought fresh water to the city's complex system of reservoirs and cisterns. Unlike projects of the previous centuries, we are left with no written record of how this titanic project was undertaken and existing archaeological and historical commentaries on structures of this period do not provide details of organization of construction. We explore the nature of building Constantinople's water supply through diverse sources of knowledge and the application of agent-based modelling - a method for simulating the actions, interactions and behaviours of autonomous agents and the resulting emergent properties of the system in which they are a part. This paper demonstrates the ability of ABM to develop and test richer hypotheses about historical construction organization and management than physical and historical evidence on their own.

Tags

Agent-based modelling Simulation Project management Heritage Byzantine constantinople Archaeological engineering