The choice of the summary statistics in approximate maximum likelihood is often a crucial issue. We develop a criterion for choosing the most effective summary statistic and then focus on the empirical characteristic function. In the iid setting, the approximating posterior distribution converges to the approximate distribution of the parameters conditional upon the empirical characteristic function. Simulation experiments suggest that the method is often preferable to numerical maximum likelihood. In a time-series framework, no optimality result can be proved, but the simulations indicate that the method is effective in small samples.
Bee, M., Trapin, L., A characteristic function-based approach to approximate maximum likelihood estimation, <<COMMUNICATIONS IN STATISTICS. THEORY AND METHODS>>, 2017; 47 (13): 3138-3160. [doi:10.1080/03610926.2017.1348523] [http://hdl.handle.net/10807/119988]
A characteristic function-based approach to approximate maximum likelihood estimation
Trapin, Luca
2017
Abstract
The choice of the summary statistics in approximate maximum likelihood is often a crucial issue. We develop a criterion for choosing the most effective summary statistic and then focus on the empirical characteristic function. In the iid setting, the approximating posterior distribution converges to the approximate distribution of the parameters conditional upon the empirical characteristic function. Simulation experiments suggest that the method is often preferable to numerical maximum likelihood. In a time-series framework, no optimality result can be proved, but the simulations indicate that the method is effective in small samples.
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