Title

Online Gaming For Understanding Agents' Behavior In Water-Sharing Problems

Abstract

While modeling can help with our understanding of complex coupled human-natural systems, past research has not been able to realistically simulate these systems because of two major limitations: (1) lack of computational capacity and proper mathematical models for solving distributed systems with self-optimizing agents and (2) lack of enough information about users' characteristics in common pool resource systems due to absence of reliable monitoring information. Recently, different studies have tried to address the first limitation by developing agent-based models, which can be appropriately handled with today's computational capacity. While these models are more realistic than the social planner's models, traditionally used in the field, they normally rely on different heuristics for characterizing users' behavior and incorporating heterogeneity. This work is a step forward in addressing the second limitation, suggesting an efficient method for collecting information on diverse behavioral characteristics of real agents for incorporation in distributed agent-based models. Gaming in interactive virtual environments is suggested as a reliable method for understanding different variables that promote sustainable resource use through observation of decision making and behavior of the resource system beneficiaries under various institutional frameworks and policies. In this work, a web-based groundwater sharing simulation game-Irrigania - is used as a tool to analyze the behavior of real agents under different common pool resource management institutions. Information is collected on participants' resource use, behavior, and mindset under different institutional settings through behavior observation and discussion with participants. Preliminary use of water resources gaming suggests communication, cooperation, information disclosure, trust, credibility, and social learning between beneficiaries as factors promoting a shift toward sustainable resource use. The different behavioral groups identified in the study can be used for improved calibration of multiagent groundwater management systems that normally suffer from lack of realistic heterogeneity in users' behavioral characteristics.

Publication Date

1-1-2014

Publication Title

World Environmental and Water Resources Congress 2014: Water Without Borders - Proceedings of the 2014 World Environmental and Water Resources Congress

Number of Pages

1867-1875

Document Type

Article; Proceedings Paper

Personal Identifier

scopus

DOI Link

https://doi.org/10.1061/9780784413548.187

Socpus ID

84935493419 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84935493419

This document is currently not available here.

Share

COinS