English

Phantom Force: Injecting Adversarial Tactile Perceptions into Embodied Intelligence via EMI

Cryptography and Security 2026-05-25 v2

Abstract

Embodied intelligent robots rely on tactile sensors to interact with the physical world safely. While the security of visual perception systems has been studied (e.g., adversarial samples), the integrity of the tactile sensory channel remains unexplored. This work explores a vulnerability in Hall-effect fingertip sensors, showing their susceptibility to intentional Electromagnetic Interference (EMI). We demonstrate that a targeted signal injection can induce strong "phantom forces", amplifying perceived force magnitude by over 9×\times and deviating the inferred force direction by 65^\circ. Such perturbations can paralyze learning-based tactile classification models, seriously affecting robot movement. An attacker could exploit this vulnerability to coerce a robot hand into crushing fragile objects or dropping dangerous payloads.

Keywords

Cite

@article{arxiv.2605.13492,
  title  = {Phantom Force: Injecting Adversarial Tactile Perceptions into Embodied Intelligence via EMI},
  author = {Zirui Kong and Youqian Zhang and Sze Yiu Chau},
  journal= {arXiv preprint arXiv:2605.13492},
  year   = {2026}
}

Comments

ACM Asia Conference on Computer and Communications Security (ASIA CCS '26), June 1--5, 2026, Bangalore, India