Discussions on Robust Decision Making
Robust Decision Making is an iterative decision analytic framework that helps identify potential robust strategies, characterize the vulnerabilities of such strategies, and evaluate the tradeoffs among them., RDM focuses on informing decisions under conditions of what is called 'deep uncertainty,' that is, conditions where the parties to a decision do not know or do not agree on the system model(s) relating actions to consequences or the prior probability distributions for the key input parameters to those model(s).
ROBUST DECISION METHODS
A wide variety of concepts, methods, and tools have been developed to address decision challenges that confront a large degree of uncertainty. Rosenhead was among the first to lay out a systematic decision framework for robust decisions. Similar themes have emerged from the literatures on scenario planning, robust design, imprecise probabilities, and Info-gap methods. An early review of many of these approaches is contained in the Third Assessment Report of the Intergovernmental Panel on Climate Change.
ROBUST DECISION MAKING
Robust Decision Making (RDM) is a particular set of methods and tools developed over the last decade, primarily by researchers associated with the RAND Corporation, designed to support decision making and policy analysis under conditions of deep uncertainty.
While often used by researchers to evaluate alternative options, RDM is designed and is often employed as a method for decision support, with a particular focus on helping decision makers identify and design new decision options that may be more robust than those they had originally considered. Often, these more robust options represent adaptive decision strategies designed to evolve over time in response to new information. In addition, RDM can be used to facilitate group decision making in contentious situations where parties to the decision have strong disagreements about assumptions and values.,
RDM approaches have been applied to a wide range of different types of decision challenges. One of the first studies addressed adaptive strategies for reducing greenhouse gas emissions. Recent studies include a variety of applications to water management issues,,, evaluation of the impacts of proposed U.S. renewable energy requirements,> a comparison of long-term energy strategies for the government of Israel, an assessment of science and technology policies the government of South Korea might pursue in response to increasing economic competition from China, and an analysis of Congress' options in reauthorization of the Terrorism Risk Insurance Act (TRIA).
How Does Robust Decision Making Differ From Traditional Expected Utility Analysis?
RDM rests on three key concepts that differentiate it from the traditional subjective expected utility decision framework: multiple views of the future, a robustness criterion, and reversing the order of traditional decision analysis by conducting an iterative process based on a vulnerability-and-response-option rather than a predict-then-act decision framework.
First, RDM characterizes uncertainty with multiple views of the future. In some cases these multiple views will be represented by multiple future states of the world. RDM can also incorporate probabilistic information, but rejects the view that a single joint probability distribution represents the best description of a deeply uncertain future. Rather RDM uses ranges or, more formally, sets of plausible probability distributions to describe deep uncertainty.
Second, RDM uses robustness rather than optimality as a criterion to assess alternative policies. The traditional subjective utility framework ranks alternative decision options contingent on best estimate probability distributions. In general, there is a best (i.e., highest ranked) option. RDM analyses have employed several different definitions of robustness. These include: trading a small amount of optimum performance for less sensitivity to broken assumptions, good performance compared to the alternatives over a wide range of plausible scenarios, and keeping options open. All incorporate some type of satisficing criteria and, in contrast to expected utility approaches, all generally describe tradeoffs rather than provide a strict ranking of alternative options.
Third, RDM employs a vulnerability-and-response-option analysis framework to characterize uncertainty and to help identify and evaluate robust strategies. This structuring of the decision problem is a key feature of RDM. The traditional decision analytic approach follows what has been called a predict-then-act approach that first characterizes uncertainty about the future, and then uses this characterization to rank the desirability of alternative decision options. Importantly, this approach characterizes uncertainty without reference to the alternative options. In contrast, RDM characterizes uncertainty in the context of a particular decision. That is, the method identifies those combinations of uncertainties most important to the choice among alternative options and describes the set of beliefs about the uncertain state of the world that are consistent with choosing one option over another. This ordering provides cognitive benefits in decision support applications, allowing stakeholders to understand the key assumptions underlying alternative options before committing themselves to believing those assumptions.
Under What Conditions is Robust Decision Making Most Useful?
Robust decision methods seem most appropriate under three conditions  as shown in Figure 1: when the uncertainty is deep as opposed to well-characterized, when there is a rich set of decision options, and the decision challenge is sufficiently complex that decision makers need simulation models to trace the potential consequences of their actions over many plausible scenarios. When the uncertainty is well-characterized then traditional expected utility (predict-then-act) analyses are often most appropriate. In addition, if decision makers lack a rich set of decision options they may have little opportunity to develop a robust strategy and can do no better than a predict-then-act analysis. If the uncertainty is deep and a rich set of options is available, traditional qualitative scenario methods may prove most effective if the system is sufficiently simple or well-understood that decision makers can accurately connect potential actions to their consequences without the aid of simulation models. However, when uncertainty is deep, the system is complex, and a rich set of decision options opens the possibility of finding robust strategies, RDM approaches may prove most effective.
Analytic Tools for Robust Decision Making
RDM is not a recipe of analytic steps, but rather a set of methods that can be combined in varying ways for specific decisions to implement the concept. Two key items in this toolkit are worth mentioning here.
Virtually all RDM analyses use an exploratory modeling approach, with computer simulations used not as a device for prediction, but rather as a means for relating a set of assumptions to their implied consequences. One draws useful information from such simulations by running them many times using an appropriate experimental design over the uncertain input parameters to the model(s), collecting the runs in a large database of cases, and analyzing this database to determine what policy-relevant statements can be supported. RDM represents a particular implementation of this concept. An RDM analysis typically creates a large database of simulation model results, and then uses this database to identify vulnerabilities of proposed strategies and the tradeoffs among potential responses. This analytic process provides several practical advantages:
- The database of cases provides a concrete representation of the concept of a multiplicity of plausible futures.
- Running a simulation multiple times in the forward direction can simplify the analytic challenge of representing adaptive strategies in many practical applications because it separates the running of the simulation from the analysis needed to evaluate alternative decision options using the simulation. In contrast, some optimization methods make it difficult to include many types of feedbacks in a simulation.
- The exploratory modeling concept makes it possible to use a wide variety of decision approaches using diverse types simulation models within a common analytic framework (depending on what seems most appropriate for a particular decision application). Within this common framework RDM analyses have used traditional sequential decision approaches, rule-based descriptions of adaptive strategies, real options representations, complicated optimal economic growth models, spreadsheet models, agent-based models, and organization's existing suites of simulation models such as one used by the U.S. government to forecast the future state of the social security trust fund.
- The database of cases simplifies the comparison of alternative decision frameworks because one can apply these frameworks to an identical set of model results. For instance, one can place a joint probability distribution across the cases in a database, conduct an expected utility analysis, and compare the results to an RDM analysis using the same database.
RDM analyses often employ a process called "scenario discovery" to facilitate the identification of vulnerabilities of proposed strategies., The process begins by specifying some performance metric, such as the total cost of a policy or its deviation from optimality (regret), which can be used to distinguish those cases in the results database where the strategy is judged successful from those where it is judged unsuccessful. Statistical or data-mining algorithms are applied to the database to generate simple descriptions of regions in the space of uncertain input parameters to the model that best describe the cases where the strategy is unsuccessful. That is, the algorithm for describing these cases is tuned to optimize both the predictability and interpretability by decision-makers. The resulting clusters have many characteristics of scenarios and can be used to help decision makers understand the vulnerabilities of the proposed policies and potential response options. A review conducted by the European Environmental Agency of the rather sparse literature evaluating how scenarios actually perform in practice when used by organizations to inform decisions identified several key weaknesses of traditional scenario approaches. Scenario-discovery methods are designed to address these weaknesses. In addition, scenario discovery supports analysis for multiple stressors because it characterizes vulnerabilities as combinations of very different types of uncertain parameters (e.g. climate, economic, organizational capabilities, etc.).
-  Lempert, Popper, Bankes 2003
-  Lempert and Collins 2007
-  Lempert, Popper, Bankes 2003
-  Rosenhead, Jonathan (ed.) (1989) Rational analysis for a problematic world: problem structuring methods for complexity, uncertainty, and conflict. John Wiley and Sons, Chichester.
-  Van der Heijden, Kees, 1996: Scenarios: The Art of Strategic Conversation, John Wiley and Sons
-  'Making Robust Decisions', Dr. David G. Ullman, Trafford Publishing, 2006
-  Walley, Peter (1991). Statistical Reasoning with Imprecise Probabilities, Chapman and Hall, London
-  Ben-Haim, Y. (2006). Info-Gap Decision Theory: Decisions under Severe Uncertainty. Second edition, London: Academic Press
-  IPCC TAR, Section 10.1.5 on Robust Decision Making
-  Groves et al. 2008a
-  Lempert and Popper 2005
-  Lempert, Schlesinger, and Bankes 1996
-  World Bank Development Report 2010
-  Groves, D. G., M. Davis, R. Wilkinson, and R. Lempert, 2008: Planning for Climate Change in the Inland Empire: Southern California, Water Resources IMPACT, July.
-  Dessai, S., and Hulme, M. (2007). "Assessing the robustness of adaptation decisions to climate change uncertainties: A case study on water resources management in the East of England." Global Environmental Change, 17(1), 59-72.
-  Griffin, 2009; Toman et al. 2009
-  Popper et, al. 2009
-  Seong and Popper, 2005
-  Dixon et al. 2007
-  Lempert and Collins 2007
-  Lempert et al. 2004
-  Bryant and Lempert, 2010
-  Richard H. Moss and Stephen H. Schneider PROJECTIONS: THE KNOWN, THE UNKNOWN, AND THE UNKNOWABLE ASAPPLIED TO CALIFORNIA Prepared for the Aspen Global Change Institute by Susanne C. Moser. 2004.
-  Lempert and Collins 2007
-  Bankes 1993
-  Bryant and Lempert 2009
-  Groves and Lempert 2007
-  Scenario discovery software is available at: http://cran.r-project.org/web/packages/sdtoolkit/index.html
-  European Environmental Agency (2009)
-  Bryant and Lempert 2009