Bayes and empirical Bayes estimation for the panel threshold autoregressive model and non-Gaussian time series

Liu, Ka-yee., 廖家怡.

January 2005

published_or_final_version / abstract / toc / Statistics and Actuarial Science / Master / Master of Philosophy

Bayesian statistical decision theory

Time-series analysis.

On tail behaviour and extremal values of some non-negative time seriesmodels

Zhang, Zhiqiang, 張志強

January 2002

published_or_final_version / abstract / toc / Statistics and Actuarial Science / Doctoral / Doctor of Philosophy

Time-series analysis

Extreme value theory.

Tests for seasonal differencing with a break-point

伍子文, Ng, Tze-man.

January 1993

published_or_final_version / Statistics / Master / Master of Philosophy

Seasonal variations (Economics)

Time-series analysis.

Some topics in model selection in financial time series analysis

王詠媚, Wong, Wing-mei.

January 2001

published_or_final_version / Statistics and Actuarial Science / Master / Master of Philosophy

Finance - Statistical methods.

Time-series analysis.

Statistical analysis of high frequency data using autoregressive conditional duration models

彭國永, Pang, Kwok-wing.

January 2001

published_or_final_version / Statistics and Actuarial Science / Master / Master of Philosophy

Autoregression (Statistics)

An assessment of an alternative method of ARIMA model identification /

Rivet, Michel, 1951-

January 1982

No description available.

Time-series analysis.

Spectral sequences (Mathematics)

Statistical analysis with the state space model

Chu-Chun-Lin, Singfat

05 1900

The State Space Model (SSM) encompasses the class of multivariate linear models, in particular, regression models with fixed, time-varying and random parameters, time series models, unobserved components models and combinations thereof. The well-known Kalman Filter (KF) provides a unifying tool for conducting statistical inferences with the SSM. A major practical problem with the KF concerns its initialization when either the initial state or the regression parameter (or both) in the SSM are diffuse. In these situations, it is common practice to either apply the KF to a transformation of the data which is functionally independent of the diffuse parameters or else initialize the KF with an arbitrarily large error covariance matrix. However neither approach is entirely satisfactory. The data transformation required in the first approach can be computationally tedious and furthermore it may not preserve the state space structure. The second approach is theoretically and numerically unsound. Recently however, De Jong (1991) has developed an extension of the KF, called the Diffuse Kalman Filter (DKF) to handle these diffuse situations. The DKF does not require any data transformation. The thesis contributes further to the theoretical and computational aspects of con ducting statistical inferences using the DKF. First, we demonstrate the appropriate initialization of the DKF for the important class of time-invariant SSM’s. This result is useful for maximum likelihood statistical inference with the SSM. Second, we derive and compare alternative pseudo-likelihoods for the diffuse SSM. We uncover some interesting characteristics of the DKF and the diffuse likelihood with the class of ARMA models. Third, we propose an efficient implementation of the DKF, labelled the collapsed DKF (CDKF). The latter is derived upon sweeping out some columns of the pertinent matrices in the DKF after an initial number of iterations. The CDKF coincides with the KF in the absence of regression effects in the SSM. We demonstrate that in general the CDKF is superior in practicality and performance to alternative algorithms proposed in the literature. Fourth, we consider maximum likelihood estimation in the SSM using an EM (Expectation-Maximization) approach. Through a judicious choice of the complete data, we develop an CDKF-EM algorithm which does not require the evaluation of lag one state error covariance matrices for the most common estimation exercise required for the SSM, namely the estimation of the covariance matrices of the disturbances in the SSM. Last we explore the topic of diagnostic testing in the SSM. We discuss and illustrate the recursive generation of residuals and the usefulness of the latters in pinpointing likely outliers and points of structural change.

State - space methods

Time - series analysis

Interpretation of maximum entropy derived dispersion curves from Northern Alabama

Ross, Barbara Anita

05 1900

No description available.

Time-series analysis

Spectral theory (Mathematics)

The analysis of chaotic time series

Reiss, Joshua D.

05 1900

No description available.

Time-series analysis

Chaotic behavior in systems

Time-series forecasting techniques for scheduling of multiprocessor computer jobs

Sleder, Albert

08 1900

No description available.

Operations research Theses

Multiprocessors

Time-series analysis