Computational Model Library

SugarscapeCW

Christopher Watts | Published Sat Aug 1 20:37:02 2015 | Last modified Thu Aug 20 08:30:33 2015

A replication in Netlogo 5.2 of the classic model, Sugarscape (Epstein & Axtell, 1996).

This model allows for analyzing the most efficient levers for enhancing the use of recycled construction materials, and the role of empirically based decision parameters.

A Model of Making

Bruce Edmonds | Published Fri Jan 29 11:13:05 2016 | Last modified Wed Dec 7 14:42:37 2016

This models provides the infrastructure to model the activity of making. Individuals use resources they find in their environment plus those they buy, to design, construct and deconstruct items. It represents plans and complex objects explicitly.

The Li-BIM model aims at simulating the behavior of occupants in a building. It is structured around the numerical modeling of the building (IFC format) and a BDI cognitive architecture. The model has been implemented under the GAMA platform.

We explore how dynamic processes related to socioeconomic inequality operate to sort students into, and create stratification among, colleges.

The original Ache model is used to explore different distributions of resources on the landscape and it’s effect on optimal strategies of the camps on hunting and camp movement.

Netlogo Profiler code example

Colin Wren | Published Wed Mar 4 16:55:18 2015

This is a very simple foraging model used to illustrate the features of Netlogo’s Profiler extension.

Peer reviewed Horse population dynamics

Nika Galic | Published Tue Nov 12 23:23:48 2013 | Last modified Wed Oct 29 17:21:57 2014

This model investigates the link between prescribed growth in body size, population dynamics and density dependence through population feedback on available resources.

01a ModEco V2.05 – Model Economies – In C++

Garvin Boyle | Published Mon Feb 4 02:02:53 2013 | Last modified Fri Apr 14 00:43:12 2017

Perpetual Motion Machine - A simple economy that operates at both a biophysical and economic level, and is sustainable. The goal: to determine the necessary and sufficient conditions of sustainability, and the attendant necessary trade-offs.

Using webs of replicas of Atwood’s Machine, we explore implications of the Maximum Power Principle. This is one of a series of models exploring the dynamics of sustainable economics – PSoup, ModEco, EiLab, OamLab, MppLab, TpLab, CmLab.

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