使用本文介绍的工具和代码,您可以创建使用击键力学连续进行用户验证的自定义框架。
The tools and code described in this article allow you to create your own framework for continuous user verification using keystroke dynamics.
在用击键力学实现远程登录之前注意练习,因为要进行可靠验证,需要考虑网络延迟和许多其他变量。
Exercise caution before implementing remote logins with keystroke dynamics, as network latency and a host of other variables need to be considered for reliable verification.
本文将使用示例代码来演示击键力学如何在验证及连续数据输入环境中增强应用程序安全性。
This article USES example code to demonstrate keystroke dynamics for enhancing the security of your applications in authentication and continuous data entry contexts.
此外,击键力学是使用生物测量学进行连续身份验证的少数领域之一。
In addition, keystroke dynamics is one of the few fields where biometrics can be used for continuous authentication.
在身份验证或检验环境中使用击键力学的挑战是把可接受的变化与不正确的凭证辩别开来。
The challenge in using keystroke dynamics in an authentication or verification context is to discern acceptable variations from incorrect credentials.
通过在Web身份验证应用程序中测量击键按下和释放时间,进一步推动captcha竞赛。
Try advancing the captcha arms race through measured keystroke press and release times for your web authentication applications.
通过在Web身份验证应用程序中测量击键按下和释放时间,进一步推动captcha竞赛。
Try advancing the captcha arms race through measured keystroke press and release times for your web authentication applications.
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