Statistical modelling of synthetic oceanographic extremes

Butler, Adam

January 2004

No description available.

551.46011

Spatial and temporal statistics in the environmental sciences

Barry, Jon

January 1996

No description available.

519.5

Spatial surveys; Ecology

Statistical methods for cluster of extreme values

Ferro, Christopher A. T.

January 2003

No description available.

519.5

Statistical modelling of incomplete data in archaeology

Scott, William Andrew

January 1990

No description available.

930.1

Archaeology

Group representations and the quantum statistics of spins

Harrison, Jonathan Michael

January 2001

No description available.

530.1

Theoretical physics

The statistical mechanics of semi-flexible macromolecules

Needs, R. J.

January 1983

No description available.

530.1

Theoretical physics

Distributions of shape and maximal invariant statistics

Small, C. G.

January 1982

No description available.

510

Mathematical sciences, general

Statistical modelling for the precursors of cervical cancer

Kirby, Alison Jill

January 1991

No description available.

610

Medicine

Some Palynological Applications of Multivariate Statistics

Adam, David Peter

January 1970

Palynology involves the study of past climatic and environmental changes through changes in the relative frequencies of different pollen types through time. Several multivariate statistical methods are suggested which can help in the description of patterns within pollen data. These techniques are based on comparisons between samples. Samples were compared using the product-moment correlation coefficient computed from data which had been subjected to a centering transformation. The methods are described using a geometric model. If there are m samples and n pollen types, then the data can be regarded as a set of m points in an n-dimensional space. Cluster analysis produces a dendrograph or clustering tree in which samples are grouped with other samples on the basis of their similarity to each other. Principal component analysis produces a set of variates which are linear combinations of the pollen samples, are uncorrelated with each other, and do the best job of describing the data using a minimum number of dimensions. This method is useful in reducing the dimensionality of data sets. Varimax rotation acts on a subset of the principal components to make them easier to interpret. Discriminant analysis is used to find the best way to tell groups of samples apart, where the groups are known a priori. Once a means of discrimination among groups has been established using samples whose groups are known, unknown samples may be classified into the original groups. Canonical analysis produces a way to display the maximum separation between groups in a graphic manner. Examples of applications of these methods in palynology are shown using data from Osgood Swamp, California, and from southern Arizona. These methods offer the advantages of reproducibility of results and speed in pattern description. Once the patterns in the data have been described, however, their interpretation must be done by the palynologist.

Arizona

California

methods

microfossils

multivariate analysis

Osgood swamp

paleontology

palynology

palynomorphs

south

statistical analysis

United States

Multivariate analysis

Palynology

Pollen, Fossil

Statistical analysis of impaired insured lives

Papaconstantinou, I.

January 1988

No description available.

519.5

Statistics on insured lives