Marginal modelling of capture-recapture data

Turner, Elizabeth L.

January 2007

No description available.

Epidemiology -- Mathematical models.

Epidemiology -- Statistical methods.

Sieve bootstrap unit root tests

Richard, Patrick.

January 2007

No description available.

Bootstrap (Statistics)

Econometrics.

Economics -- Statistical methods.

Asymmetric heavy-tailed distributions : theory and applications to finance and risk management

Zhu, Dongming, 1963-

January 2007

No description available.

Finance -- Statistical methods.

Risk assessment -- Mathematical models.

Macrovariables in mathematical models of ecosystems

Lavallée, Paul

January 1976

No description available.

Ecology -- Statistical methods.

Ecology -- Mathematical models.

Statistical evaluation of water quality measurements

Bujatzeck, Baldur

January 1998

No description available.

Water quality -- Measurement.

Water quality -- Statistical methods.

Advances in Machine Learning for Complex Structured Functional Data

Tang, Chengliang

January 2022

Functional data analysis (FDA) refers to a broad collection of statistical and machine learning methods that deal with the data in the form of random functions. In general, functional data are assumed to lie in a constrained functional space, e.g., images, and smooth curves, rather than the conventional Euclidean space, e.g., scalar vectors. The explosion of massive data and high-performance computational resources brings exciting opportunities as well as new challenges to this field. On one hand, the rich information from modern functional data enables an investigation into the underlying data patterns at an unprecedented scale and resolution. On the other hand, the inherent complex structures and huge data sizes of modern functional data pose additional practical challenges to model building, model training, and model interpretation under various circumstances. This dissertation discusses recent advances in machine learning for analyzing complex structured functional data. Chapter 1 begins with a general introduction to examples of modern functional data and related data analysis challenges. Chapter 2 introduces a novel machine learning framework, artificial perceptual learning (APL), to tackle the problem of weakly supervised learning in functional remote sensing data. Chapter 3 develops a flexible function-on-scalar regression framework, Wasserstein distributional learning (WDL), to address the challenge of modeling density functional outputs. Chapter 4 concludes the dissertation and discusses future directions.

Statistics

Machine learning--Statistical methods

Statistical functionals

The comparative biology of phenotypic variability

Cabana, Gilbert

January 1988

Note:

Variation (Biology)

Survey design and computer-aided analysis : the 1972 W.I.Y.S. summer survey

deBurgh Edwardes, Michael David

January 1975

Note:

Youth -- Statistical methods.

SPSS (Computer file)

An analysis of the risks involved when using statistical sampling in auditing /

Labadie, Michel.

January 1975

No description available.

Auditing -- Statistical methods.

Risk.

Sampling (Statistics)

Statistical tests for seasonality in epidemiological data

Hauer, Gittelle.

January 1982

No description available.

Epidemiology -- Statistical methods.

Diseases -- Seasonal variations.