English

OpenApps: Simulating Environment Variations to Measure UI-Agent Reliability

Artificial Intelligence 2025-11-27 v1

Abstract

Reliability is key to realizing the promise of autonomous UI-Agents, multimodal agents that directly interact with apps in the same manner as humans, as users must be able to trust an agent to complete a given task. Current evaluations rely on fixed environments, often clones of existing apps, which are limited in that they can only shed light on whether or how often an agent can complete a task within a specific environment. When deployed however, agents are likely to encounter variations in app design and content that can affect an agent's ability to complete a task. To address this blind spot of measuring agent reliability across app variations, we develop OpenApps, a light-weight open-source ecosystem with six apps (messenger, calendar, maps, etc.) that are configurable in appearance and content. OpenApps requires just a single CPU to run, enabling easy generation and deployment of thousands of versions of each app. Specifically, we run more than 10,000 independent evaluations to study reliability across seven leading multimodal agents. We find that while standard reliability within a fixed app is relatively stable, reliability can vary drastically when measured across app variations. Task success rates for many agents can fluctuate by more than 50%50\% across app variations. For example, Kimi-VL-3B's average success across all tasks fluctuates from 63%63\% to just 4%4\% across app versions. We also find agent behaviors such as looping or hallucinating actions can differ drastically depending on the environment configuration. These initial findings highlight the importance of measuring reliability along this new dimension of app variations. OpenApps is available at https://facebookresearch.github.io/OpenApps/

Keywords

Cite

@article{arxiv.2511.20766,
  title  = {OpenApps: Simulating Environment Variations to Measure UI-Agent Reliability},
  author = {Karen Ullrich and Jingtong Su and Claudia Shi and Arjun Subramonian and Amir Bar and Ivan Evtimov and Nikolaos Tsilivis and Randall Balestriero and Julia Kempe and Mark Ibrahim},
  journal= {arXiv preprint arXiv:2511.20766},
  year   = {2025}
}
R2 v1 2026-07-01T07:54:59.721Z