运动传感器作为智能手机用户输入推理的来源

IEEE International Conference on Identity, Security and Behavior Analysis (ISBA 2015) Pub Date : 2015-03-23 DOI:10.1109/ISBA.2015.7126368

Chao Shen, Shichao Pei, Tianwen Yu, X. Guan

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引用次数: 6

摘要

智能手机上丰富的传感器极大地丰富了人们的生活，但这些传感器也带来了潜在的安全问题，因为它们允许第三方应用程序监控智能手机的运动变化。本文提出了一项实证研究，分析从第三方应用程序收集的加速度计和磁力计数据的特征，以推断用户在智能手机上的输入。具体来说，安装的应用程序作为后台进程运行，以监视运动传感器的数据。对加速度计数据进行分析，以检测触控动作的发生。然后将加速度计数据和磁力计数据结合起来，建立了一个推断触摸屏轻触位置的模型。随着键盘或数字板的常见布局，可以很容易地获得用户的输入。结果表明，从运动传感器的数据中可以准确地推断出用户的输入，在某些情况下，轻击动作检测和输入推断的准确率分别达到100%和80%。我们的结论是，来自运动传感器的读数是推断用户输入的强大侧通道，并可能为攻击者提供额外的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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On motion sensors as source for user input inference in smartphones

A wealth of sensors on smartphone has greatly enriched people's life, but these sensors also brought potential security problems since they allow third-party applications to monitor the motion changes of smartphones. This paper presents an empirical study of analyzing the characteristics of accelerometer and magnetometer data collected from third-party applications to infer user inputs on smartphone. Specifically, an installed application was run as a background process to monitor the data of motion sensors. Accelerometer data was analyzed to detect the occurrence of touch tap actions. Then the accelerometer data and magnetometer data were combined together to build a model for inferring the tap position on touchscreen. Along with common layouts of keyboard or number pad, one can easily obtain users' inputs. Results indicated that users' inputs could be accurately inferred from the data of motion sensors, with the accuracies of 100% and 80% for tap-action detection and input inference in some cases. We conclude that readings from motion sensor are a powerful side channel for inferring user inputs, and could provide extra avenues for attackers.

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来源期刊

IEEE International Conference on Identity, Security and Behavior Analysis (ISBA 2015)

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