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eBook details
- Title: Meta-Uncertainty and Resilience with Applications in Intelligence Analysis
- Author : Jason Robert Schenk
- Release Date : January 19, 2013
- Genre: Philosophy,Books,Nonfiction,Science & Nature,
- Pages : * pages
- Size : 8835 KB
Description
Uncertainty plays a major and inevitable role in human decision-making. Meta-uncertainty about the uncertainty can also be important but it is generally less studied. Such meta-uncertainty has arisen in medical contexts as researchers and practitioners strive to improve conceptualizations of efficacy and mortality related data. Similar but less studied issues arise in the study of human conflicts, in related intelligence analysis, and in responding to business crises. For any given year, the chance of a new conflict arising between a pair of nation states or “dyad” is generally small even if those nations are “politically relevant” to each other. Predicting “no conflict” is almost always correct. Yet, the probabilities of conflict and their meta-uncertainty can be of great interest to military and civilian planners. This dissertation reviews and synthesizes methods available for both conflict probability prediction and meta-uncertainty estimation. It also proposes Bayesian mixture modeling approaches for these purposes and clarifies their potential advantages in relation to actual human conflict data. Intelligence analysis involves gathering and synthesizing a multitude of different data sources into a coherent explanation of events using adductive reasoning. The outputs often involve predicted probabilities of events, which are commonly used in real time briefings and after action reviews (AARs). Given a variety of time, data quality constraints, it can be important to convey the “rigor” or meta-uncertainty associated with probability prediction. For the context of intelligence analysis, this dissertation provides a visual and systematic framework for convey and document meta-uncertainty for intelligence analysis. This framework is based on the proposed “consequence likelihood” diagrams and can be referred to as “hypothesis scrubbing.” Resilience engineering offers new ways to conceptualize responsiveness and reserve capacity. This dissertation reviews and synthesizes many quantitative measures of system resilience. It also explores the application of a recently proposed “master” stress-strain model to evaluate response alternative to crises at a major call center. A main conclusion is that resilience engineering can be viewed as a response to high levels of meta-uncertainty. Also, the synthesis has illuminated a potentially important concept called the “graceful degradation angle” which rates the system’s ability for self-diagnosis.