Paper Info
Title
Closed-form expressions for maximum mean discrepancy with applications to Wasserstein auto-encoders
Abstract
The maximum mean discrepancy (MMD) has found numerous applications in statistics and machine learning, among which is its use as a penalty in the Wasserstein auto-encoder (WAE). In this paper, we compute closed-form expressions for estimating the Gaussian kernel-based MMD between a given distribution and the standard multivariate normal distribution. This formula reveals a connection to the Baringhaus-Henze-Epps-Pulley (BHEP) statistic of the Henze-Zirkler test and provides further insights about the MMD. We introduce the standardized version of MMD as a penalty for the WAE training objective, allowing for a better interpretability of MMD values and more compatibility across different hyperparameter settings. Next, we propose code normalization-using batch normalization at the code layer-which has the benefits of making the kernel width selection easier, reducing the training effort, and preventing outliers in the aggregate code distribution. Our experiments on synthetic and real data show that the analytic formulation improves over the commonly used stochastic approximation of the MMD and demonstrate that code normalization provides significant benefits when training WAEs.
Year
DOI
Venue
2019
10.1002/sta4.329
STAT
Keywords
DocType
Volume
auto-encoders, deep generative models, kernel methods, multivariate normality tests
Journal
10
Issue
ISSN
Citations 
1
2049-1573
1
PageRank 
References 
Authors
0.36
10
1
Name
Order
Citations
PageRank
Raif M. Rustamov125119.58