Extrapolation of Threshold-Limited Null Measurement Frequencies
The total measurable level of a pathogen is due to many sources, which produce a variety of pulses, overlapping in time, that rise suddenly and then decay. What is measured is the level of the total contribution of the sources at a given time. But since we are only capable of measuring the total lev...
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| Zusammenfassung: | The total measurable level of a pathogen is due to many sources, which
produce a variety of pulses, overlapping in time, that rise suddenly and then
decay. What is measured is the level of the total contribution of the sources
at a given time. But since we are only capable of measuring the total level
above some threshold $x_0$, we would like to predict the distribution below
this level. Our principal model assumption is that of the asymptotic
exponential decay of all pulses. We show that this implies a power law
distribution for the frequencies of low amplitude observations. As a
consequence, there is a simple extrapolation procedure for carrying the data to
the region below $x_0$. |
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| DOI: | 10.48550/arxiv.0806.1894 |