Multilingual Audio-Visual Smartphone Dataset And Evaluation
This dataset enables research into more robust audio-visual speaker recognition for smartphone security, though it is incremental as it extends existing data collection efforts.
The authors introduced a multilingual audio-visual smartphone dataset captured across five devices and three languages to address generalization issues in biometric verification systems, and benchmarked methods revealed concerns about robustness to noise, device variations, and presentation attacks.
Smartphones have been employed with biometric-based verification systems to provide security in highly sensitive applications. Audio-visual biometrics are getting popular due to their usability, and also it will be challenging to spoof because of their multimodal nature. In this work, we present an audio-visual smartphone dataset captured in five different recent smartphones. This new dataset contains 103 subjects captured in three different sessions considering the different real-world scenarios. Three different languages are acquired in this dataset to include the problem of language dependency of the speaker recognition systems. These unique characteristics of this dataset will pave the way to implement novel state-of-the-art unimodal or audio-visual speaker recognition systems. We also report the performance of the bench-marked biometric verification systems on our dataset. The robustness of biometric algorithms is evaluated towards multiple dependencies like signal noise, device, language and presentation attacks like replay and synthesized signals with extensive experiments. The obtained results raised many concerns about the generalization properties of state-of-the-art biometrics methods in smartphones.