no code implementations • CVPR 2018 • Takuhiro Kaneko, Kaoru Hiramatsu, Kunio Kashino
This paper proposes the decision tree latent controller generative adversarial network (DTLC-GAN), an extension of a GAN that can learn hierarchically interpretable representations without relying on detailed supervision.
no code implementations • 18 May 2018 • Chihiro Watanabe, Kaoru Hiramatsu, Kunio Kashino
Interpretability has become an important issue in the machine learning field, along with the success of layered neural networks in various practical tasks.
no code implementations • 13 Apr 2018 • Chihiro Watanabe, Kaoru Hiramatsu, Kunio Kashino
We show experimentally that our proposed method can reveal the role of each part of a layered neural network by applying the neural networks to three types of data sets, extracting communities from the trained network, and applying the proposed method to the community structure.
no code implementations • CVPR 2017 • Takuhiro Kaneko, Kaoru Hiramatsu, Kunio Kashino
This controller is based on a novel generative model called the conditional filtered generative adversarial network (CFGAN), which is an extension of the conventional conditional GAN (CGAN) that incorporates a filtering architecture into the generator input.
no code implementations • 1 Mar 2017 • Chihiro Watanabe, Kaoru Hiramatsu, Kunio Kashino
And (3) data analysis: in practical data it reveals the community structure in the input, hidden, and output layers, which serves as a clue for discovering knowledge from a trained neural network.