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From Clicks To Security: Investigating Continuous Authentication Via Mouse Dynamics


Affiliations
1 School of Computer Information Science, Minnesota State University, Mankato, Minnesota, United States

In the realm of computer security, the importance of efficient and reliable user authentication methods has become increasingly critical. This paper examines the potential of mouse movement dynamics as a consistent metric for continuous authentication. By analysing user mouse movement patterns in two contrasting gaming scenarios, "Team Fortress" and "Poly Bridge," we investigate the distinctive behavioral patterns inherent in high-intensity and low-intensity UI interactions. The study extends beyond conventional methodologies by employing a range of machine learning models. These models are carefully selected to assess their effectiveness in capturing and interpreting the subtleties of user behavior as reflected in their mouse movements. This multifaceted approach allows for a more nuanced and comprehensive understanding of user interaction patterns. Our findings reveal that mouse movement dynamics can serve as a reliable indicator for continuous user authentication. The diverse machine learning models employed in this study demonstrate competent performance in user verification, marking an improvement over previous methods used in this field. This research contributes to the ongoing efforts to enhance computer security and highlights the potential of leveraging user behavior, specifically mouse dynamics, in developing robust authentication systems.

Keywords

Continuous Authentication, Machine Learning, Mouse Dynamics
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  • From Clicks To Security: Investigating Continuous Authentication Via Mouse Dynamics

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Authors

Rushit Dave
School of Computer Information Science, Minnesota State University, Mankato, Minnesota, United States
Marcho Handoko
School of Computer Information Science, Minnesota State University, Mankato, Minnesota, United States
Ali Rashid
School of Computer Information Science, Minnesota State University, Mankato, Minnesota, United States
Cole Schoenbauer
School of Computer Information Science, Minnesota State University, Mankato, Minnesota, United States

Abstract


In the realm of computer security, the importance of efficient and reliable user authentication methods has become increasingly critical. This paper examines the potential of mouse movement dynamics as a consistent metric for continuous authentication. By analysing user mouse movement patterns in two contrasting gaming scenarios, "Team Fortress" and "Poly Bridge," we investigate the distinctive behavioral patterns inherent in high-intensity and low-intensity UI interactions. The study extends beyond conventional methodologies by employing a range of machine learning models. These models are carefully selected to assess their effectiveness in capturing and interpreting the subtleties of user behavior as reflected in their mouse movements. This multifaceted approach allows for a more nuanced and comprehensive understanding of user interaction patterns. Our findings reveal that mouse movement dynamics can serve as a reliable indicator for continuous user authentication. The diverse machine learning models employed in this study demonstrate competent performance in user verification, marking an improvement over previous methods used in this field. This research contributes to the ongoing efforts to enhance computer security and highlights the potential of leveraging user behavior, specifically mouse dynamics, in developing robust authentication systems.

Keywords


Continuous Authentication, Machine Learning, Mouse Dynamics