Quantifying Risk in Complex Systems: Difference between revisions
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Quantifying risk is a big topic in a number of fields. Whether it be the risk of terrorism, a stock market crash, or, as in my work, animal population extinction, we often want to know something about the probability, magnitude, and, ideally, the timing of negative outcomes. This is not a straightforward process in many social and biological systems. I’d be interested in hearing how people from other disciplines approach risk analysis. If anyone else is interested in this topic, let me know (and/or put your name below). | Quantifying risk is a big topic in a number of fields. Whether it be the risk of terrorism, a stock market crash, or, as in my work, animal population extinction, we often want to know something about the probability, magnitude, and, ideally, the timing of negative outcomes. This is not a straightforward process in many social and biological systems. I’d be interested in hearing how people from other disciplines approach risk analysis. If anyone else is interested in this topic, let me know (and/or put your name below). | ||
James | [http://santafe.edu/events/workshops/index.php/James_Battin James] james.battin (at) noaa.gov | ||
Revision as of 03:07, 15 June 2007
Quantifying risk is a big topic in a number of fields. Whether it be the risk of terrorism, a stock market crash, or, as in my work, animal population extinction, we often want to know something about the probability, magnitude, and, ideally, the timing of negative outcomes. This is not a straightforward process in many social and biological systems. I’d be interested in hearing how people from other disciplines approach risk analysis. If anyone else is interested in this topic, let me know (and/or put your name below).
James james.battin (at) noaa.gov