A plant-capture approach for achieving complete coverage of a population
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Publication:4883448
DOI10.1080/03610929508831554zbMath0850.62637OpenAlexW2092049975MaRDI QIDQ4883448
Publication date: 4 July 1996
Published in: Communications in Statistics - Theory and Methods (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/03610929508831554
stopping rulessoftware reliabilityhomogeneous Poisson processaverage time to terminationrecapture debuggingsequential tagging
Applications of statistics to biology and medical sciences; meta analysis (62P10) Sequential estimation (62L12) Optimal stopping in statistics (62L15)
Related Items (5)
A conditionally-unbiased estimator of population size based on plant-capture in continuous time ⋮ A procedure for complete fault detection with a removal process ⋮ Effect of plant-capture in a capture-recapture experiment ⋮ A plant-capture approach for population size estimation in continuous time ⋮ An efficiency comparsion of estimating the number of errors in a system using recapture and removal methods
Cites Work
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- A likelihood-based stopping rule for recapture debugging
- Estimating population size by recapture sampling
- Stopping rules for complete coverage under sequential tagging
- Finding the Size of a Finite Population
- Sequential Maximum Likelihood Estimation of the Size of a Population
- Sequential Sampling Tagging for Population Size Problems
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