Abstract
Convolutional neural networks (CNNs) provide an effective tool to extract complex information from images. In the area of image polarity detection, CNNs are utilized in combination with transfer learning to tackle a major problem: the unavailability of large sets of labeled data. Accordingly, polarity predictors in general exploit a pre-trained CNN that in turn feeds a classification layer. While the latter layer is trained from scratch, the pre-trained CNN is subject to fine tuning. In the actual implementation of such configuration, the specific CNN architecture indeed sets the performances of the predictor both in terms of generalization abilities and in terms of computational complexity. The latter attribute becomes critical when considering that polarity predictors -in the era of social network and custom profiles- might need to be updated within a short time interval (i.e., hours or even minutes). Thus, the paper proposes a design of experiment that supports a fair comparison between predictors that rely on different architectures.
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Ragusa, E., Gastaldo, P., Zunino, R. (2020). Fast Transfer Learning for Image Polarity Detection. In: Oneto, L., Navarin, N., Sperduti, A., Anguita, D. (eds) Recent Advances in Big Data and Deep Learning. INNSBDDL 2019. Proceedings of the International Neural Networks Society, vol 1. Springer, Cham. https://doi.org/10.1007/978-3-030-16841-4_4
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