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Most Influential MOBICOM 2022 Paper · 2026-03 edition

MmEve: Eavesdropping on Smartphone's Earpiece Via COTS MmWave Device

Chao Wang, Feng Lin, Tiantian Liu, Kaidi Zheng, Zhibo Wang, Zhengxiong Li, Ming-Chun Huang, Wenyao Xu, Kui Ren

Venue
International Conference on Mobile Computing and Networking (MOBICOM) 2022
Recognition
Most Influential MOBICOM 2022 Paper (Rank No. 5)
Edition
2026-03
Impact factor
3
Certificate ID
f3adaf363b68a78f

Abstract

Earpiece mode of smartphones is often used for confidential communication. In this paper, we proposed a remote(>2m) and motion-resilient attack on smartphone earpiece. We developed an end-to-end eavesdropping system mmEve based on a commercial mmWave sensor to recover speech emitted from smartphone earpiece. The rationale of the attack is based on our observation that, soundwaves emitted from the smartphone's earpiece have a strong correlation with reflected mmWaves from the smartphone's rear. However, we find the recovered speech suffers from the sensor's self-noise and smartphone user's motion which limit attack distance to less than 2m, causing limited threats in real world. We modeled the motion interference under mmWave sensing and proposed a motion-resilient solution by optimizing the fitting function on I/Q plane. To achieve a practical attack with reasonable attack distance, we developed a GAN-based denoising scheme to eliminate the noise pattern of the sensor, which boosted the attack range to 6--8m. We evaluated mmEve with extensive experiments and find 23 different models of smartphones manufactured by Samsung, Huawei, etc. can be compromised by the proposed attack.

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