Society for Risk Analysis On Transnational Risk & Terrorism
1. Evolution of 21sdt Century “Killer” Risk: Terrorism, Transnational Threats & Complexity Society for Risk Analysis -- 2007 John A. Marke [email_address] 636-458-1917
2. The Song of the Lakota Sioux Kit Fox Society I am the Kit Fox I live in uncertainty If there is anything difficult If there is anything dangerous to do That is mine
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6. Significance of a Changing Environment? Uncertainty – Magnifies “the problem of induction” as new variables are introduced to the problem mix making historical data (problematic under the best of circumstances) irrelevant. Complexity – can be measured in a number of ways, e.g. the amount of code and/or how long it takes for an algorithm to execute, to the number of components in a system (static complexity) to the number of ways components can be linked (dynamic complexity). And we have just scratched the surface
8. High Low For any given set of starting conditions, here is only one event which may be assigned a significant probability of occurrence. There is no randomness. Examples: In the physical sciences Newtown’s Laws of Motion. Also, some schools of Islamic thought dictate that the world is determined. Deterministic Defining Uncertainty --- Deterministic
9. High Low For any given set of starting conditions, a limited number of qualitatively similar events must be assigned significant probabilities of occurrence. System structural and relational properties are, for the most part, invariant. Examples: Sales forecasts in stable industries, demographics, actuarial science. Deterministic Defining Uncertainty --- Moderately Stochastic Moderately Stochastic
10. High Low For any given set of starting conditions, a large number of qualitatively different events may be assigned significantly high probability of occurrence. Examples: Kentucky Derby, Republican and Democratic Primaries. Deterministic Defining Uncertainty --- Stochastic Moderately Stochastic Stochastic
11. High Low For any given set of starting conditions, there is no event that can be assigned a significant probability of occurrence; thus the high probability that some outcome that we have not been able to specify will occur. Causal and structural properties are either empirically inaccessible or unallegorizable; state change is independent of prior state. Examples: “Black swans,” opportunistic phenomena, terrorism, phenomena of open/complex systems Deterministic Defining Uncertainty --- Indeterminate Moderately Stochastic Stochastic Indeterminate
12. Defining Uncertainty --- High Low Deterministic Moderately Stochastic Stochastic Indeterminate Generates a single solution for any given set of predicates, i.e. linear programming and optimization Generates a range of possible solutions or single estimates indexed with a probability of accuracy, i.e. predict-then-act For any set of predicates it will generate an array of cause-effect alternatives, contingency and game-based Generation of heuristics or learning-based paradigms
13. Defining Uncertainty --- Deterministic Moderately Stochastic Indeterminate Model Type Stochastic Optimization Predict-Then-Act Contingency Heuristic Ineffective due to too little resolution power Ineffective use of analytical resources Instrumentation – Best Fit Source: Sutherland, p 157
14. Indeterminate Keep afloat until we can learn more and make intelligent decisions Heuristic – Rule of Thumb Severely stochastic Fluid, contingent, not data dependent Strategic flexibility, options theory, hedging, simulation More stochastic, little reliable data on which to base a decision Based on subjective probabilities Bayesian statistics Moderately stochastic, some random behavior Based on a probability and sustained by statistical data Classic decision theory. Projects a likely set of solutions or a point solution with a certain confidence level Deterministic, there is no uncertainty Generates a single, best fit, solution Optimize, linear programming and cost/benefit analysis Level of Uncertainty Nature of the Solution Tool/Instrument
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17. Implications for Management Sciences? - J. Rosenhead 1989 Rosenhead, J. (1989) ‘Introduction: old and new paradigms of analysis’ in Rosenhead, J. (ed) Rational Analysis for a Problematic World: Problem structuring methods for complexity, uncertainty and conflict , Chichester, Wiley & Sons.
18. “ If I hold a rock, but want it to change, to be over there, I can simply throw it. Knowing the weight of the rock, the speed at which it leaves my hand, and a few other variables, I can reliably predict both the path and the landing place of a rock. But what happens if I substitute a [live] bird? Knowing the weight of a bird and the speed of launch tells me nothing really about where the bird will land. No matter how much analysis I do in developing the launch plan … the bird will follow the path it chooses and land where it wants”. Attributed to Richard Dawkins (Plsek, 2001): ‘‘Why won’t the NHS do as it is told?” Plenary Address, NHS Confederation Conference, 6 July 2001 as cited in System failure Why governments must learn to think differently , http://www.idea.gov.uk/idk/aio/5770191 “ Under the most rigorously controlled conditions of pressure, temperature, volume, humidity, and other variables the organism will do as it damn well pleases.” The Harvard Law, cited in http://www.murphys-laws.com/murphy/murphy-technology.html Examples – Uncertainty Meets Complexity?
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22. Instrumentation? High Complexity High Uncertain Risk is absorbed or “dampened” by resilient designs, options theory, and hedging strategies capabilities-based planning. Intractable - Wicked Risk is emerging and depends on negotiated meaning among stakeholders, highly political, discursive. Try to reduce complexity and uncertainty. Complex Risk management is recursive and robust solutions are based on flexibility, “organizational learning,” and network theory. This is a net-centric world. Low ? Stable “Risk Is Optimized” and quantified, e.g. linear programming, cost-benefit, econometric and accounting theory Uncertainty Low IDEF decomposition methodology Static complexity is managed as subsystems are grouped into interrelated components and subjected to Integrated Definition Methodologies (IDEF) or other functional modeling techniques Classic statistics – predict-then-act, stable data. environment Multi-Dimensional Risk solutions are contingent and Bayesian
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26. “ Quantification lifts up and preserves those aspects of a phenomena which can most easily be controlled and communicated to other specialists. Further, it imposes order on hazy thinking by banishing unique attributes from consideration and reconfiguring what is difficult or obscure such that it fits the standardized model.” In short – anything but measurable, quantifiable outcomes were irrelevant. Further, there was an economically rational linkage between inputs (e.g. soldiers, weapons systems) of war and the outputs (e.g. dead VC). US leaders thought they could predict the probability of and timing of victory based on the numbers of US troops in Vietnam. success/inconclusive/collapse For the year 1966: .2 .7 .1 For the year 1967: .4 .45 .15 For the year 1968: .5 .3 .2 (source: The Pentagon Papers, Vol.III, p. 484 and “Contradictions Between Representation and Reality: Planning, Programming and Budgeting and the Vietnam War,” Michele Chawstaik, U. of New Mexico, 2001). An Accountant’s View of War – Too Many Paid The Price Robert McNamara , advocated an efficiency-based brand of “systems analysis” called Planning Programming, & Budgeting. His staff focused on qualities that could be quantified. “ Truth” was equated with that which could be counted. As a result, the options most reducible to quantification became the ones that received the most attention in Vietnam. Grrrr!
27. McNamara pursued a war fighting paradigm where the United States fought a war of attrition against an enemy that (we assumed) shared a propensity for economic rationality. Sadly that was not the case. It wasn’t then and it most certainly isn’t now. Remember……………. 1. Never fight a “war of attrition” if the enemy has more 18 to 25 year old males than you. 2. War is never “rational” because you are asking men to trade their lives for an ideal. 3 Stay out of the red circle!!! War, Like Terrorism, Is Never Rational
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29. References Uncertainty and epistemology: A General Systems Philosophy for the Social and Behavioral Sciences, John W. Sutherland, 1973. Sutherland is brilliant but not easy, but worthwhile things rarely are. The uncertainty slides are his work. I merely connected a few of the “dots.” Complexity : Drawn from John Casti’s Connectivity, Complexity and Catastrophe in Large Scale Systems , published by the International Institute for Applied Systems Analysis, 1979. Casti sets some of the basic definitions for static and dynamic complexity. 21 St Century Challenges: Phillip Bobbitt’s Shield of Achilles . Networks: Take your choice, lots out there. Further contact: You are welcome to call me at 636-458-1917 or e-mail me at [email_address] to further discuss any of this stuff. I will also be happy to send you a copy of the slides.
30. John Marke has over 28 years experience in consulting to government and civilian clients. He is a former naval intelligence officer with a background in unconventional warfare, and was also a special agent with the NCIS. John has a BA in Political Science from Tulane, and MBA from Golden Gate, and PhD (abd) from St. Louis University. He held senior positions with Deloitte, BearingPoint, DiamondCluster, Logica. His clients included ENRON (before the fall), Harvard University, AEP, GoldmanSachs, Bracewell & Giuliani, LLP, and various federal agencies. He also advised the Giuliani Campaign on risk and homeland security issues. “ Mickey” is John’s “Karelian Bear Dog” and inspiration for the logo. Karelian’s are bred to annoy (not attack) bears with their high pitched and incessant barking driving them away. No bears have been reported in the vicinity of his Missouri farm – so far, so good.