The World Economic Forum 2013 report (available here) discusses a wide variety of global risks, their likelihood and potential impact. Risk, however, is a problematic concept. It is not related to any physical quantity and does not follow any laws of physics. It is a highly subjective entity based on another, even more slippery idea, of probability. The most popular definition of risk is this:

Risk = Probability of an event X Consequences

The problem with this definition is twofold:

- Probability is evaluated either based on
*ensembles*of past events or simulations.

- The consequences of an event are extremely difficult to estimate.

*really*mean? Does it mean that A will occur before B? Does it mean that the consequences of A will be more severe than that of B? Absolutely not. In actual fact, nobody knows what it means. A probability doesn't give any clue of when, why and with what consequences an event will happen. Bertrand Russel said in 1927:

"Probability is amongst the most important science, not least because no one understands it"

As to consequences of adverse events the situation is similar. Suppose there will be flooding in a certain country next Autumn due to heavy rain. Suppose we know it will happen, so the probability is 100%. What will the consequences be? How many homes will be lost? For how long will the territory be without electricity? How many families will need to be relocated? Ten thousand, fifty thousand, half a million? Depends. It depends on so many factors that any guess is as good as any other guess. So, what is the risk? A billion, two billion? How do you make contingency plans for risks which have unknown consequences and which occur with a probability that is, fundamentally, a concept that is not understood? How well these contingency plans work is obvious. Every time we witness, for example, natural disasters or humanitarian crises, the keywords are impotence, inefficiency, slow response, angered populations, etc. So much for modern Risk Management.

The WEF produces interesting maps of potential risks, such as this one:

"Probability is amongst the most important science, not least because no one understands it".

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As the WEF report says, "The Read more: http://www.physicsforums.com

*Global Risks Report 2013*analyses 50 global risks in terms of impact, likelihood and interconnections, based on a survey of over 1000 experts from industry, government and academia". In other words, the maps are based on subjective views of individuals who are experts in their respective fields, who use their own established models of analysis, simulation, etc. Clearly, subjective opinions lead to subjective results and conclusions.

A different approach is to adopt an objective

*model-free*Quantitative Complexity Analysis, using real, objective data from sources such as CIA World Fact Book or the World Bank. Processing such data provides something like this:

The above is a Complexity Map, and relates the various parameters (risks/events) to each other in an easy to grasp and analyze format. In fact, the maps is also interactive and may be navigated dynamically. Understanding the various relationships and dependencies between parameters is key towards understanding how the underlying system really works. This is what structure is all about. Knowledge. No structure, no knowledge, just sparse conclusions.

However, the most important result is the actual measure of resilience/robustness of the system (as well as its complexity). In the above case we're talking of just over 50%, a mere two stars. The curious thing is that this measure is very much in line with the resilience of the economy, which today is between 50 and 60% - in other words,

*very fragile*.

An equally important result of a Quantitative Complexity Analysis is the ranking of each of the parameters/risks in terms of their footprint (i.e. objective weight) on the system as a whole. In the case in question it looks like this:

In other words, the ranking of parameters is not based on subjective opinions and surveys, it is not based on statistical or math models, it is based on

*real and raw data*.

Our objective is not analyze in detail Global Risks. What we wish to point out is that when things get really complex, a thousand experts can deliver a thousand opinions, all of which may seem credible and fit the real picture.

The words "resilience", "complexity", "systemic risks", "systems thinking" are increasingly popular. There are numerous studies and publications on these subjects. This is good. See, for example, the WEF's page on national resilience. However, what these studies have in common is lack of a quantitative perspective. Complex? How complex? Resilient? How resilient? 10%, 30%. If we don't incorporate a quantitative dimension into these analyses, which are unquestionably valuable, they will inevitably remain in the sphere of subjectivity.

Let us recall the Principle of Fragility, coined by Ontonix in 2005:

Complexity X Uncertainty = Fragility

While we have often applied the principle to businesses and business processes, it can also be applied to the analysis of Global Risks. Clearly, we are facing a highly Complex situation. The problem at hand

*is*very complex. We also agree on the fact that every expert has his own opinion. As we have said, a highly complex scenario may be interpreted in a plethora of ways. Depending on which expert we talk to, the answer will be different. So, the choice of experts is crucial. Combining, therefore, the complexity of the underlying problem, with the uncertainty originating from a multitude of different and subjective opinions, what we obtain ultimately is a fragile result. Handle with care.

www.ontonix.com

"Probability is amongst the most important science, not least because no one understands it"

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