Pseudo-likelihood & split-sample methods in small & large trials

Seminar

series event

Design and Analysis for Dependent Data Theme

Pseudo-likelihood and split-sample methods in small and very large trials

Professor Geert Molenberghs, Hasselt University and KU Leuven, Belgium

Abstract: Hierarchical and otherwise clustered data can easily be analyzed using maximum likelihood or Bayesian methods in moderate to large samples. This may well be different in very small populations (e.g., clinical trials in rare diseases) or, on the other side of the spectrum, when samples become very large. We explore a few techniques that can be used in such settings. One method is pseudo-likelihood (or composite likelihood), where a cumbersome likelihood is replaced by a simpler function, which is easier to maximize and still produces consistent and asymptotically normal estimates.

On the other hand, the sample can be split into sub-samples, each of which is analyzed separately (ideally in parallel), after which the results are funneled into a single set of inferences using appropriate combination rules. These techniques can also be combined. Using a set of examples, we illustrate how the methods work, and what the computational gains are.

Followed by a drinks reception in the Manson Foyer

Admission

Free and open to all with no ticket required. Entry is on a first come, first served basis.

http://csm.lshtm.ac.uk/

Where and when

Room

LG81

Date

Wednesday 13 January 2016

Time

16:00 - 17:15

Date and time zone is UK

Speaker(s)

Professor Geert Molenbergh, Hasselt University and KU Leuven, Belgium

Admission

Free and open to all with no ticket required. Entry is on a first come, first served basis.

http://csm.lshtm.ac.uk/

Add to Calendar 2016-01-13 16:00:00 2016-01-13 17:15:00 Pseudo-likelihood & split-sample methods in small & large trials Design and Analysis for Dependent Data Theme Pseudo-likelihood and split-sample methods in small and very large trials Professor Geert Molenberghs, Hasselt University and KU Leuven, Belgium Abstract: Hierarchical and otherwise clustered data can easily be analyzed using maximum likelihood or Bayesian methods in moderate to large samples. This may well be different in very small populations (e.g., clinical trials in rare diseases) or, on the other side of the spectrum, when samples become very large. We explore a few techniques that can be used in such settings. One method is pseudo-likelihood (or composite likelihood), where a cumbersome likelihood is replaced by a simpler function, which is easier to maximize and still produces consistent and asymptotically normal estimates. On the other hand, the sample can be split into sub-samples, each of which is analyzed separately (ideally in parallel), after which the results are funneled into a single set of inferences using appropriate combination rules. These techniques can also be combined. Using a set of examples, we illustrate how the methods work, and what the computational gains are. Followed by a drinks reception in the Manson Foyer http://csm.lshtm.ac.uk/ Europe/London public

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London School of Hygiene & Tropical Medicine