按键动力学中用户习惯对密码安全策略的影响

Zahid A. Syed, Sean Banerjee, Qi Cheng, B. Cukic
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引用次数: 43

摘要

访问控制系统依靠各种方法来验证合法用户并防止恶意用户访问系统。最常用的系统是简单的用户名和密码方法。这种技术已经成为远程身份验证应用程序的事实上的标准。基于用户名-密码的系统假设只有真正的用户知道自己的凭据。然而,在当今社会网络和现代计算设备的时代,破坏这种类型的系统已经成为一种常见的现象。一旦被攻破,系统将接受使用受损凭据的每一次身份验证试验,直到检测到漏洞。在本文中,我们探讨了在基于用户名-密码的系统中利用击键动力学的某些方面。我们表明,随着用户习惯于输入他们的凭据,击键模式的差异会显著减少。这种趋势在长而复杂的密码中更为明显,而不是基于短字典的密码。我们还研究了感知用户输入模式习惯所需的时间窗口。此外,我们表明,习惯在分类真正的登录尝试中起着关键作用,随着时间的推移减少了相等错误率(EER)。最后,我们探索了一种采用复杂密码和击键动力学安全性的身份验证方案。访问控制系统依靠各种方法来验证合法用户并防止恶意用户访问系统。最常用的系统是简单的用户名和密码方法。这种技术已经成为远程身份验证应用程序的事实上的标准。基于用户名-密码的系统假设只有真正的用户知道自己的凭据。然而,在当今社会网络和现代计算设备的时代,破坏这种类型的系统已经成为一种常见的现象。一旦被攻破,系统将接受使用受损凭据的每一次身份验证试验,直到检测到漏洞。在本文中,我们探讨了在基于用户名-密码的系统中利用击键动力学的某些方面。我们表明,随着用户习惯于输入他们的凭据,击键模式的差异会显著减少。这种趋势在长而复杂的密码中更为明显,而不是基于短字典的密码。我们还研究了感知用户输入模式习惯所需的时间窗口。此外,我们表明,习惯在分类真正的登录尝试中起着关键作用,随着时间的推移减少了相等错误率(EER)。最后,我们探索了一种采用复杂密码和击键动力学安全性的身份验证方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of User Habituation in Keystroke Dynamics on Password Security Policy
Access control systems rely on a variety of methods for authenticating legitimate users and preventing malicious ones from accessing the system. The most commonly used system is a simple username and password approach. This technology has been the de-facto standard for remote authentication applications. A username-password based system assumes that only the genuine users know their own credentials. However, breaching this type of system has become a common occurrence in today's age of social networks and modern computational devices. Once broken, the system will accept every authentication trial using compromised credentials until the breach is detected. In this paper, we explore certain aspects of utilizing keystroke dynamics in username-password based systems. We show that as users get habituated to typing their credentials, there is a significant reduction in the variance of the keystroke patterns. This trend is more pronounced for long and complex passwords as opposed to short dictionary based passwords. We also study the time window necessary to perceive habituation in user typing patterns. Furthermore, we show that habituation plays a key role in classification of genuine login attempts by reducing the equal error rate (EER) over time. Finally, we explore an authentication scheme that employs the security of complex passwords and keystroke dynamics. Access control systems rely on a variety of methods for authenticating legitimate users and preventing malicious ones from accessing the system. The most commonly used system is a simple username and password approach. This technology has been the de-facto standard for remote authentication applications. A username-password based system assumes that only the genuine users know their own credentials. However, breaching this type of system has become a common occurrence in today's age of social networks and modern computational devices. Once broken, the system will accept every authentication trial using compromised credentials until the breach is detected. In this paper, we explore certain aspects of utilizing keystroke dynamics in username-password based systems. We show that as users get habituated to typing their credentials, there is a significant reduction in the variance of the keystroke patterns. This trend is more pronounced for long and complex passwords as opposed to short dictionary based passwords. We also study the time window necessary to perceive habituation in user typing patterns. Furthermore, we show that habituation plays a key role in classification of genuine login attempts by reducing the equal error rate (EER) over time. Finally, we explore an authentication scheme that employs the security of complex passwords and keystroke dynamics.
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