Abstract
We introduce a novel method for representation learning based on genetic programming (GP). Inspired into the way that deep neural networks learn descriptive/discriminative representations from raw data, we propose a structurally layered representation that allows GP to learn a feature space from large scale and high dimensional data sets. Previous efforts from the GP community for feature learning have focused on small data sets with a few input variables, also, most approaches rely on domain expert knowledge to produce useful representations. In this paper, we introduce the structurally layered GP formulation, together with an efficient scheme to explore the search space and show that this framework can be used to learn representations from large data sets of high dimensional raw data. As case of study we describe the implementation and experimental evaluation of an autoencoder developed under the proposed framework. Results evidence the benefits of the proposed framework and pave the way for the development of deep genetic programming.
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Notes
- 1.
Please note that reducing the dimensionality is not necessarily a requirement of representation learning, but herein we include this restriction so that the learned representations can be descriptive/discriminative and compact at the same time.
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Rodriguez-Coayahuitl, L., Morales-Reyes, A., Escalante, H.J. (2018). Structurally Layered Representation Learning: Towards Deep Learning Through Genetic Programming. In: Castelli, M., Sekanina, L., Zhang, M., Cagnoni, S., GarcÃa-Sánchez, P. (eds) Genetic Programming. EuroGP 2018. Lecture Notes in Computer Science(), vol 10781. Springer, Cham. https://doi.org/10.1007/978-3-319-77553-1_17
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