论文信息 - Supervised Encoding for Discrete Representation Learning

Supervised Encoding for Discrete Representation Learning

Classical supervised classification tasks search for a nonlinear mapping that maps each encoded feature directly to a probability mass over the labels. Such a learning framework typically lacks the intuition that encoded features from the same class tend to be similar and thus has little interpretability for the learned features. In this paper, we propose a novel supervised learning model named Supervised-Encoding Quantizer (SEQ). The SEQ applies a quantizer to cluster and classify the encoded features. We found that the quantizer provides an interpretable graph where each cluster in the graph represents a class of data samples that have a particular style. We also trained a decoder that can decode convex combinations of the encoded features from similar and different clusters and provide guidance on style transfer between sub-classes.

[1] Teuvo Kohonen,et al. The self-organizing map , 1990, Neurocomputing.

[2] Luca Benini,et al. Soft-to-Hard Vector Quantization for End-to-End Learned Compression of Images and Neural Networks , 2017, ArXiv.

[3] Jianping Yin,et al. Improved Deep Embedded Clustering with Local Structure Preservation , 2017, IJCAI.

[4] E. Forgy,et al. Cluster analysis of multivariate data : efficiency versus interpretability of classifications , 1965 .

[5] Yoshua Bengio,et al. Generative Adversarial Nets , 2014, NIPS.

[6] Oriol Vinyals,et al. Neural Discrete Representation Learning , 2017, NIPS.

[7] En Zhu,et al. Deep Clustering with Convolutional Autoencoders , 2017, ICONIP.

[8] Ali Farhadi,et al. Unsupervised Deep Embedding for Clustering Analysis , 2015, ICML.

[9] Stephen R. Marsland,et al. A self-organising network that grows when required , 2002, Neural Networks.

[10] Max Welling,et al. Auto-Encoding Variational Bayes , 2013, ICLR.

[11] Murray Shanahan,et al. Deep Unsupervised Clustering with Gaussian Mixture Variational Autoencoders , 2016, ArXiv.

[12] Lucas Theis,et al. Lossy Image Compression with Compressive Autoencoders , 2017, ICLR.

[13] Francesco Cricri,et al. Clustering and Unsupervised Anomaly Detection with l2 Normalized Deep Auto-Encoder Representations , 2018, 2018 International Joint Conference on Neural Networks (IJCNN).

[14] Purang Abolmaesumi,et al. Deep Neural Maps , 2018, ICLR.