English

FlyTrap: Physical Distance-Pulling Attack Towards Camera-based Autonomous Target Tracking Systems

Cryptography and Security 2026-01-29 v2

Abstract

Autonomous Target Tracking (ATT) systems, especially ATT drones, are widely used in applications such as surveillance, border control, and law enforcement, while also being misused in stalking and destructive actions. Thus, the security of ATT is highly critical for real-world applications. Under the scope, we present a new type of attack: distance-pulling attacks (DPA) and a systematic study of it, which exploits vulnerabilities in ATT systems to dangerously reduce tracking distances, leading to drone capturing, increased susceptibility to sensor attacks, or even physical collisions. To achieve these goals, we present FlyTrap, a novel physical-world attack framework that employs an adversarial umbrella as a deployable and domain-specific attack vector. FlyTrap is specifically designed to meet key desired objectives in attacking ATT drones: physical deployability, closed-loop effectiveness, and spatial-temporal consistency. Through novel progressive distance-pulling strategy and controllable spatial-temporal consistency designs, FlyTrap manipulates ATT drones in real-world setups to achieve significant system-level impacts. Our evaluations include new datasets, metrics, and closed-loop experiments on real-world white-box and even commercial ATT drones, including DJI and HoverAir. Results demonstrate FlyTrap's ability to reduce tracking distances within the range to be captured, sensor attacked, or even directly crashed, highlighting urgent security risks and practical implications for the safe deployment of ATT systems.

Cite

@article{arxiv.2509.20362,
  title  = {FlyTrap: Physical Distance-Pulling Attack Towards Camera-based Autonomous Target Tracking Systems},
  author = {Shaoyuan Xie and Mohamad Habib Fakih and Junchi Lu and Fayzah Alshammari and Ningfei Wang and Takami Sato and Halima Bouzidi and Mohammad Abdullah Al Faruque and Qi Alfred Chen},
  journal= {arXiv preprint arXiv:2509.20362},
  year   = {2026}
}

Comments

An extended version of the paper accepted by NDSS 2026; fixes some typos

R2 v1 2026-07-01T05:54:35.209Z