Paper Detail

LabOSBench: Benchmarking Computer Use Agents for Scientific Instrument Control

Anqi Zou, Han Deng, Chengyu Zhang, Junquan Hu, Yu Wang, Yuxiang Xing, Aokai Zhang, Hanling Zhang, Zhaoyang Liu, Ben Fei, Zhihui Wang, Wanli Ouyang

arxiv Score 18.0

Published 2026-06-15 · First seen 2026-06-16

Research Track B · General AI

Abstract

Current computer-use benchmarks primarily focus on software operation tasks in virtualized systems, whereas scientific instrumentation scenarios require coordinated control over complex interfaces, and feedback-driven parameter adjustment. However, directly evaluating agents on physical high-precision instruments is impractical due to high cost, safety risks, limited accessibility, and difficulty in ensuring reproducible evaluation. This motivates the need for a simulated yet realistic testbed that preserves the operational challenges of scientific instruments while enabling scalable and safe benchmarking. To this end, we introduce LabOSBench, a challenging benchmark for multimodal GUI agents built on a suite of web-based scientific-instrument simulators. Operating directly via a browser, LabOSBench avoids resource-heavy OS virtualization while supporting flexible task configuration and execution-based evaluation. Specifically, LabOSBench constructs 96 subtasks across eight instrument simulators, covering workflows from sample loading, alignment, parameter tuning, and data acquisition to result inspection. We evaluate general-purpose vision-language models, specialized GUI agent models, and advanced agentic frameworks at both subtask and end-to-end levels. Our experiments reveal that while existing agents can complete many structured GUI subtasks, they still struggle with feedback-driven operations and long-horizon workflow execution. Overall, LabOSBench provides a reproducible, low-cost testbed for advancing computer-using agents toward scientific-instrument control.

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BibTeX

@article{zou2026labosbench,
  title = {LabOSBench: Benchmarking Computer Use Agents for Scientific Instrument Control},
  author = {Anqi Zou and Han Deng and Chengyu Zhang and Junquan Hu and Yu Wang and Yuxiang Xing and Aokai Zhang and Hanling Zhang and Zhaoyang Liu and Ben Fei and Zhihui Wang and Wanli Ouyang},
  year = {2026},
  abstract = {Current computer-use benchmarks primarily focus on software operation tasks in virtualized systems, whereas scientific instrumentation scenarios require coordinated control over complex interfaces, and feedback-driven parameter adjustment. However, directly evaluating agents on physical high-precision instruments is impractical due to high cost, safety risks, limited accessibility, and difficulty in ensuring reproducible evaluation. This motivates the need for a simulated yet realistic testbed t},
  url = {https://arxiv.org/abs/2606.16802},
  keywords = {cs.AI},
  eprint = {2606.16802},
  archiveprefix = {arXiv},
}

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