CrossBehaAuth: Cross-Scenario Behavioral Biometrics Authentication Using Keystroke Dynamics

Behavioral biometrics has been widely investigated and deployed in real world scenarios for human authentication. However, there has been almost nil attempt to identify behavior patterns in a cross-scenario setting, which is common in practice and needs urgent attention. This paper defines and investigates cross-scenario behavioral biometrics authentication using keystroke dynamics. A novel system called CrossBehaAuth is presented for extending keystroke dynamics-based behavior authentication to new scenarios and extensive problems. We design a temporal-aware learning mechanism based deep neural network for cross-scenario keystroke dynamics authentication. This mechanism selectively learns and encodes temporal information for efficient behavioral pattern transfer in cross-scenario settings. A local Gaussian data augmentation approach is proposed to increase the diversity of behavioral data and therefore, further improve the performance. We evaluate the proposed approach on two publicly available datasets. The extensive experimental results confirm the efficacy of our CrossBehaAuth for cross-scenario keystroke dynamics authentication. Our approach significantly improves the authentication accuracy in cross-scenario settings and even achieves comparable performance on single-scenario authentication tasks. In addition, our approach shows its generalizability and advantages in both single and cross scenario keystroke dynamics authentication.