TouchKey: Touch to Generate Symmetric Keys by Skin Electric Potentials Induced by Powerline Radiation

Y. Miao, Zhenyu Yan, HU Wen, Chaojie Gu, Yiu Chau, Rui Tan, Qi Lin
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Abstract

Secure device pairing is important to wearables. Existing solutions either degrade usability due to the need of specific actions like shaking, or they lack universality due to the need of dedicated hardware like electrocardiogram sensors. This paper proposes TouchKey, a symmetric key generation scheme that exploits the skin electric potential (SEP) induced by powerline electromagnetic radiation. The SEP is ubiquitously accessible indoors with analog-to-digital converters widely available on Internet of Things devices. Our measurements show that the SEP has high randomness and the SEPs measured at two close locations on the same human body are similar. Extensive experiments show that TouchKey achieves a high key generation rate of 345 bit/s and an average success rate of 99.29%. Under a range of adversary models including active and passive attacks, TouchKey shows a low false acceptance rate of 0.86%, which outperforms existing solutions. Besides, the overall execution time and energy usage are 0.44 s and 2.716 mJ, which make it suitable for resource-constrained devices.
触控键:通过触控产生由电力线辐射引起的皮肤电势的对称键
安全的设备配对对可穿戴设备很重要。现有的解决方案要么因为需要特定的动作(如摇动)而降低可用性
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