Revisiting Bilinear Pooling: A Coding Perspective


  • Zhi Gao Beijing Institute of Technology
  • Yuwei Wu Beijing Institute of Technology
  • Xiaoxun Zhang Alibaba Group
  • Jindou Dai Beijing Institute of Technology
  • Yunde Jia Beijing Institute of Technology
  • Mehrtash Harandi Monash University



Bilinear pooling has achieved state-of-the-art performance on fusing features in various machine learning tasks, owning to its ability to capture complex associations between features. Despite the success, bilinear pooling suffers from redundancy and burstiness issues, mainly due to the rank-one property of the resulting representation. In this paper, we prove that bilinear pooling is indeed a similarity-based coding-pooling formulation. This establishment then enables us to devise a new feature fusion algorithm, the factorized bilinear coding (FBC) method, to overcome the drawbacks of the bilinear pooling. We show that FBC can generate compact and discriminative representations with substantially fewer parameters. Experiments on two challenging tasks, namely image classification and visual question answering, demonstrate that our method surpasses the bilinear pooling technique by a large margin.




How to Cite

Gao, Z., Wu, Y., Zhang, X., Dai, J., Jia, Y., & Harandi, M. (2020). Revisiting Bilinear Pooling: A Coding Perspective. Proceedings of the AAAI Conference on Artificial Intelligence, 34(04), 3954-3961.



AAAI Technical Track: Machine Learning