@misc{10481/64139,
year = {2020},
url = {http://hdl.handle.net/10481/64139},
abstract = {Biometric systems are exposed to spoofing attacks which may compromise their security, and
voice biometrics, also known as automatic speaker verification (ASV), is no exception. Replay, synthesis and
voice conversion attacks cause false acceptances that can be detected by anti-spoofing systems. Recently,
deep neural networks (DNNs) which extract embedding vectors have shown superior performance than
conventional systems in both ASV and anti-spoofing tasks. In this work, we develop a new concept of loss
function for training DNNs which is based on kernel density estimation (KDE) techniques. The proposed
loss functions estimate the probability density function (pdf) of every training class in each mini-batch,
and compute a log likelihood matrix between the embedding vectors and pdfs of all training classes within
the mini-batch in order to obtain the KDE-based loss. To evaluate our proposal for spoofing detection,
experiments were carried out on the recent ASVspoof 2019 corpus, including both logical and physical
access scenarios. The experimental results show that training a DNN based anti-spoofing system with our
proposed loss functions clearly outperforms the performance of the same system being trained with other
well-known loss functions. Moreover, the results also show that the proposed loss functions are effective for
different types of neural network architectures.},
keywords = {Spoofing detection},
keywords = {Kernel density estimation},
keywords = {Loss function},
keywords = {Deep learning},
keywords = {Automatic speaker verification},
title = {A Kernel Density Estimation Based Loss Function and Its Application to ASV-Spoofing Detection},
doi = {10.1109/ACCESS.2020.3000641},
author = {Gómez Alanís, Alejandro},
}