Turing Test on Screen: A Benchmark for Mobile GUI Agent Humanization
This work addresses the anti-detection challenge for GUI agents in human-centric digital ecosystems, shifting focus from task performance to behavioral humanization.
The paper tackles the problem of autonomous GUI agents being easily detectable due to unnatural behavior, and introduces the Agent Humanization Benchmark (AHB) to quantify and improve their imitability, showing that agents can achieve high imitability without sacrificing performance.
The rise of autonomous GUI agents has triggered adversarial countermeasures from digital platforms, yet existing research prioritizes utility and robustness over the critical dimension of anti-detection. We argue that for agents to survive in human-centric ecosystems, they must evolve Humanization capabilities. We introduce the ``Turing Test on Screen,'' formally modeling the interaction as a MinMax optimization problem between a detector and an agent aiming to minimize behavioral divergence. We then collect a new high-fidelity dataset of mobile touch dynamics, and conduct our analysis that vanilla LMM-based agents are easily detectable due to unnatural kinematics. Consequently, we establish the Agent Humanization Benchmark (AHB) and detection metrics to quantify the trade-off between imitability and utility. Finally, we propose methods ranging from heuristic noise to data-driven behavioral matching, demonstrating that agents can achieve high imitability theoretically and empirically without sacrificing performance. This work shifts the paradigm from whether an agent can perform a task to how it performs it within a human-centric ecosystem, laying the groundwork for seamless coexistence in adversarial digital environments.