Les conflits sur les problèmes de l'eau (document en anglais)
Compte Rendu : Les conflits sur les problèmes de l'eau (document en anglais). Recherche parmi 300 000+ dissertationsPar mctarik • 18 Février 2013 • 1 810 Mots (8 Pages) • 1 025 Vues
Introduction
The conflicts over water issues are not limited to sharing of
costs or benefits; a problem that have had many water scholars fo-cused on. Conflicts also arise from social and political aspects of the
design, operation and management of water projects. When ana-lyzing, operating or designing a complex water project, a decision
maker must ensure that the undertaking is not only physically,
environmentally, financially and economically feasible, but also so-cially and politically feasible. This is challenging for engineers who
conventionally measure performance in economic, financial, and
physical terms. Optimization techniques, such as linear or dynamic
programming, can find the optimal values of the decision variables
in such terms. However, if not formulated correctly, they might fail
to provide insights into the strategic behaviors of the local, regio-nal, and policy decision makers to reach an optimal outcome and
the attainability of such outcome from the status quo.
Interest in water resources conflict resolution has increased
over the last decades (Dinar, 2004) and various quantitative and
qualitative methods have been proposed for conflict resolution
in water resources management, including, but not limited to
Interactive Computer-Assisted Negotiation Support system (ICANS)
(Thiessen and Loucks, 1992; Thiessen et al., 1998), Graph Model
for Conflict Resolution (GMCR) (Kilgour et al., 1996; Hipel et al.,
1997), Shared Vision Modeling (Lund and Palmer, 1997), Adjusted
Winner (AW) mechanism (Massoud, 2000), Alternative Dispute
Resolution (ADR) (Wolf, 2000), Multivariate Analysis Biplot (Losa
et al., 2001), and Fuzzy Cognitive Maps (Giordano et al., 2005).
Wolf (2002)presents some significant papers and case studies on
the prevention and resolution of conflict (using descriptive meth-ods) over water resources.
Game theory provides a framework for studying the strategic
actions of individual decision makers to develop more broadly
acceptable solutions. However, game theory is not yet well inte-grated into general systems analysis for water resources. Thus,
game theory’s value might remain unclear to the water resources
community due to lack of understanding its basic concepts. As with
other disciplines (e.g. economics, political science, social science,
computer intelligence, etc.) water scholars will become more inter-ested in game theory as they come to realize its novel and useful
insights into water resources problems which are not obtainable
from conventional systems engineering methods. In general, game
theory results are closer to practice as this method better reflects
the behaviors of the involved parties, something often neglected
by conventional optimization methods for solving multi-criteria
multi-decision-maker problems.
This paper illustrates the utility of game theory in water sys-tems analysis and conflict resolution by discussing the basic con-cepts of game theory and presenting some simple two-by-two
water resource games. It is also discussed how the dynamic
structure of water resource problems and game evolution might
affect the behaviors of stakeholders in different periods of the
conflict.
0022-1694/$ - see front matter2009 Elsevier B.V. All rights reserved.
doi:10.1016/j.jhydrol.2009.11.045
*Tel.: +1 951 827 9774; fax: +1 951 827 3993.
E-mail address:kaveh@ucr.edu
Journal of Hydrology 381 (2010) 225–238
Contents lists available atScienceDirect
Journal of Hydrology
journal h omepage: www.elsevier. com/lo cate/jhydrol
Game theory
Game theory is essentially the mathematical study of competi-tion and cooperation. It illustrates how strategic interactions
among players result in overall outcomes with respect to the pref-erences of those players. Such outcomes might not have been in-tended by any player (Stanford Encyclopedia of Philosophy,
2006). Games are defined mathematical objects, consisting of a
set of players, a set of strategies (options or moves) available to
them, and specification of players’ payoffs for each combination
of such strategies (possible outcomes of the game). The payoffs
to players determine the decisions made and the type of the game
being played. If the payoffs sum up to zero or a constant then the
players have opposing interests and are playing a zero-sum-game
or a constant-sum game; whatever one player wins, the other
player loses. Non-zero-sum games, in which the sum of payoffs
does not equal zero or a constant, have more complications, and
sometimes more potential for cooperation.
Game theory can be used to predict how people behave, follow-ing their own interests, in conflicts.
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