Sampling consists of selection, acquisition, and quantification of a part of the population. While selection and acquisition apply to physical sampling units of the population, quantification pertains only to the variable of interest, which is a particular characteristic of the sampling units. A sampling procedure is expected to provide a sample that is representative with respect to some specified criteria. Composite sampling, under idealized conditions, incurs no loss of information for estimating the population means. But an important limitation to the method has been the loss of information on individual sample values, such as, the extremely large value. In many of the situations where individual sample values are of interest or concern, composite sampling methods can be suitably modified to retrieve the information on individual sample values that may be lost due to compositing. This book presents statistical solutions to issues that arise in the context of applications of composite sampling.Harmel, R. D., King, K. W., and Slade, R. M. (2003). Automated storm water sampling on small watersheds. ... In A Manual on Methods for the Assessment of Secondary Productivity in Fresh Waters. W. T. Edmondson, ed. Blackwell, Oxford. pp.

Title | : | Composite Sampling |

Author | : | Ganapati P. Patil, Sharad D. Gore, Charles Taillie |

Publisher | : | Springer Science & Business Media - 2010-12-25 |

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