Evolutionary computation in hierarchical model discovery
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2022-12-23Autor
Revillas Rojo, David
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Despite its continuous growth, probabilistic programming is still a great
unknown among scientists, specially those whose research areas involve sampling dis-
tributions, statistical modeling or statistical inference. This Master Thesis provides,
on one hand, a novel procedure to learn and construct probabilistic programs that
serve to model and sample probabilistic distributions. These probabilistic programs are
based on grammatical rules through the potential given by evolutionary algorithms,
concretely, the genetic programming approach. This technique provides a reliable back-
end methodology that has served us to evolve a wide variety of program specifications
and leading us, in a final step, to an optimal set of operations between distributions.
These are visualized as a hierarchy, able to represent accurately any 1-dimensional ten-
sor. On the other hand, the implemented framework offers the possibility of improving
these models by calculating the best set of parameters for these learned models, with
numerical optimization or distribution approximation methods, such as Markov Chain
Monte Carlo techniques.