Computational Model Library

Modeling Personal Carbon Trading with ABM (1.2.0)

A simulated approach for Personal Carbon Trading, for figuring out what effects it might have if it will be implemented in the real world. We use an artificial population with some empirical data from international literature and basic assumptions about heterogeneous energy demand. The model is not to be used as simulating the actual behavior of real populations, but a toy model to test the effects of differences in various factors such as number of agents, energy price, price of allowances, etc. It is important to adapt the model for specific countries as carbon footprint and energy demand determines the relative success of PCT.

Clipboard01.jpg

Release Notes

Copyright (c) 2021 Roman Seidl (idea, concept, implementation) and Felix Karg (implementation), Alexander Kuptel (extensions and pseudocode). The model can be run on MSWindows 7 onwards and Linux systems. Implemented in NetLogo Version 6.1.2-beta2.
See paper in journal energies: https://www.mdpi.com/1996-1073/14/22/7497

Associated Publications

Kothe, A.‑K., Kuptel, A. & Seidl, R. (2021). Simulating Personal Carbon Trading (PCT) with an Agent-Based Model (ABM): Investigating Adaptive Reduction Rates and Path Dependence. Energies, 14(22), 7497. https://doi.org/10.3390/en14227497

Modeling Personal Carbon Trading with ABM 1.2.0

A simulated approach for Personal Carbon Trading, for figuring out what effects it might have if it will be implemented in the real world. We use an artificial population with some empirical data from international literature and basic assumptions about heterogeneous energy demand. The model is not to be used as simulating the actual behavior of real populations, but a toy model to test the effects of differences in various factors such as number of agents, energy price, price of allowances, etc. It is important to adapt the model for specific countries as carbon footprint and energy demand determines the relative success of PCT.

Release Notes

Copyright (c) 2021 Roman Seidl (idea, concept, implementation) and Felix Karg (implementation), Alexander Kuptel (extensions and pseudocode). The model can be run on MSWindows 7 onwards and Linux systems. Implemented in NetLogo Version 6.1.2-beta2.
See paper in journal energies: https://www.mdpi.com/1996-1073/14/22/7497

Version Submitter First published Last modified Status
1.2.0 Roman Seidl Thu Jul 29 07:52:21 2021 Mon Sep 23 09:32:35 2024 Published
1.0.0 Roman Seidl Fri Dec 7 13:35:10 2018 Mon Sep 23 09:32:34 2024 Published

Discussion

This website uses cookies and Google Analytics to help us track user engagement and improve our site. If you'd like to know more information about what data we collect and why, please see our data privacy policy. If you continue to use this site, you consent to our use of cookies.
Accept