An agent-based simulation model of human-environment interactions in agricultural systems
- Publication Type
- Journal contribution (peer reviewed)
- Authors
- Schreinemachers, P., Berger, T.
- Year of publication
- 2011
- Published in
- Environmental Modelling & Software
- Band/Volume
- Vol. 26 (7)/
- DOI
- 10.1016/j.envsoft.2011.02.004
- Page (from - to)
- 845-859
- Keywords
- sustainability
This paper describes an agent-based software package, called Mathematical Programming-based Multi Agent Systems (MP-MAS), which builds on a tradition of using constrained optimization to simulate farm decision-making in agricultural systems. The purpose of MP-MAS is to understand how agricultural technology, market dynamics, environmental change, and policy intervention affect a heterogeneous population of farm households and the agro-ecological resources these households command. The software is presented using the Overview, Design concepts, and Details (ODD) protocol. Modeling features are demonstrated with empirical applications to study sites in Chile, Germany, Ghana, Thailand, Uganda, and Vietnam. We compare MP-MAS with eight other simulators of human–environment interactions (ABSTRACT, CATCHSCAPE, ECECMOD, IMT, LUDAS, PALM, SAM, and SIM). The comparison shows that the uniqueness of MP-MAS lies in its combination of a microeconomic modeling approach and a choice of alternative biophysical modules that are either coded as part of the software or coupled with it using the Typed Data Transfer (TDT) library.
Involved persons
Involved institutions
- Land Use Economics in the Tropics and Subtropics (Josef G. Knoll Professorship)
- Hohenheim Research Center for Bioeconomy
- Institute of Agricultural Sciences in the Tropics (Hans-Ruthenberg-Institute)
- Bioeconomic Modelling
- Hohenheim Research Center for Global Food Security and Ecosystems
- Hohenheim Tropen
- Climate Adaptation
Projects in the course of the publication
- DFG-FOR: Agent-based modelling and assessment of human-environment interactions (P6)
- DFG-PAK: Agent-based modelling and assessment of human-environment interactions (P6)
- DFG-PAK: Conceptual and technical integration of land system model components (P8)
- DFG-PAK: Structure and Functions of Agricultural Landscapes under Global Climate Change - Processes and Projections on a Regional Scale (Regional Climate Change)
- DFG-SFB: Assessment of innovations and sustainability strategies (G1)
- IDRC: Innovations and Sustainability Strategies in Upland Agriculture of Northern Vietnam
- Scientific Software Project MPMAS