IEEE Access (Jan 2019)

Interpretation of Deep CNN Based on Learning Feature Reconstruction With Feedback Weights

  • Naeem Ul Islam,
  • Sukhan Lee

DOI
https://doi.org/10.1109/ACCESS.2019.2899901
Journal volume & issue
Vol. 7
pp. 25195 – 25208

Abstract

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Interpreting a deep Convolutional Neural Network (CNN) involves identifying the features in a hierarchy of layers that contribute to recognition. Although the current approaches serve as methods to interpret a deep CNN, further advancement is required for a more accurate and efficient way of understanding how a hierarchy of features formed by a deep CNN contributes to recognition. In this paper, we propose attaching a feedback CNN to a pretrained feedforward CNN as a means of learning how recognition is performed by the feedforward CNN. In other words, the features reconstructed in a hierarchy of the feedback CNN represent those learned by the feedforward CNN. By analyzing how clusters are formed in the layers of feature spaces in the feedback CNN, we can interpret which features critically contribute to recognition. It also helps to evaluate whether or not recognition is done successfully. In order to show this, we experimentally verify the capabilities of the proposed approach in terms of 1) accurately recovering the ground truth input under data corruption; 2) generating novel input data corresponding to an untrained feature vector without input data iterations; and 3) identifying incorrectly recognized input data by pinpointing the source of the error in feature spaces. The experiments conducted on the ModelNet datasets indicate that the proposed approach offers an extended capability of interpreting a deep CNN as described above with higher accuracy than the conventional approaches.

Keywords