TY - GEN
T1 - CamLopa
T2 - 46th IEEE Symposium on Security and Privacy, SP 2025
AU - Zhang, Xiang
AU - Zhang, Jie
AU - Ma, Zehua
AU - Huang, Jinyang
AU - Li, Meng
AU - Yan, Huan
AU - Zhao, Peng
AU - Zhang, Zijian
AU - Liu, Bin
AU - Guo, Qing
AU - Zhang, Tianwei
AU - Yu, Neng Hai
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - Hidden wireless cameras pose significant privacy threats, necessitating effective detection and localization methods. However, existing localization solutions often require impractical activity spaces, expensive specialized devices, or pre-collected training data, limiting their practical deployment. To address these limitations, we introduce CamLopa, a training-free wireless camera localization framework that operates with minimal activity space constraints using low-cost, commercial-off-the-shelf (COTS) devices. CamLopa can achieve detection and localization in just 45 seconds of user activities with a Raspberry Pi board. During this short period, it analyzes the causal relationship between wireless traffic and user movement to detect the presence of a hidden camera. Upon detection, CamLopa utilizes a novel azimuth localization model based on wireless signal propagation path analysis for localization. This model leverages the time ratio of user paths crossing the First Fresnel Zone (FFZ) to determine the camera's azimuth angle. Subsequently, CamLopa refines the localization by identifying the camera's quadrant. We evaluate CamLopa across various devices and environments, demonstrating its effectiveness with a 95.37% detection accuracy for snooping cameras and an average localization error of 17.23°, under the significantly reduced activity space requirements and without the need for training. Our code and demo are available at http://github.com/CamLoPA/CamLoPA-Code.
AB - Hidden wireless cameras pose significant privacy threats, necessitating effective detection and localization methods. However, existing localization solutions often require impractical activity spaces, expensive specialized devices, or pre-collected training data, limiting their practical deployment. To address these limitations, we introduce CamLopa, a training-free wireless camera localization framework that operates with minimal activity space constraints using low-cost, commercial-off-the-shelf (COTS) devices. CamLopa can achieve detection and localization in just 45 seconds of user activities with a Raspberry Pi board. During this short period, it analyzes the causal relationship between wireless traffic and user movement to detect the presence of a hidden camera. Upon detection, CamLopa utilizes a novel azimuth localization model based on wireless signal propagation path analysis for localization. This model leverages the time ratio of user paths crossing the First Fresnel Zone (FFZ) to determine the camera's azimuth angle. Subsequently, CamLopa refines the localization by identifying the camera's quadrant. We evaluate CamLopa across various devices and environments, demonstrating its effectiveness with a 95.37% detection accuracy for snooping cameras and an average localization error of 17.23°, under the significantly reduced activity space requirements and without the need for training. Our code and demo are available at http://github.com/CamLoPA/CamLoPA-Code.
UR - http://www.scopus.com/pages/publications/105009322837
U2 - 10.1109/SP61157.2025.00210
DO - 10.1109/SP61157.2025.00210
M3 - Conference contribution
AN - SCOPUS:105009322837
T3 - Proceedings - IEEE Symposium on Security and Privacy
SP - 3653
EP - 3671
BT - Proceedings - 46th IEEE Symposium on Security and Privacy, SP 2025
A2 - Blanton, Marina
A2 - Enck, William
A2 - Nita-Rotaru, Cristina
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 12 May 2025 through 15 May 2025
ER -