人类监督搜索的最优保真度选择

IF 2 Q2 AUTOMATION & CONTROL SYSTEMS

IEEE Control Systems Letters Pub Date : 2025-08-11 DOI:10.1109/LCSYS.2025.3597693

Piyush Gupta;Vaibhav Srivastava

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引用次数: 0

摘要

研究了人工监督水下视觉搜索的最优保真度选择，其中操作员的性能受工作量等认知因素的影响。在我们的实验中，参与者同时执行两项任务：在视频中探测水下地雷（主要任务）和响应视觉线索来估计工作量（次要任务）。视频以泊松过程的形式到达，并排队等待审查，操作员在正常保真度（更快的播放）和高保真度之间进行选择。奖励取决于检测的准确性，而惩罚则与队列长度有关。使用输入-输出隐马尔可夫模型将工作负载建模为隐藏状态，并通过部分可观察马尔可夫决策过程优化保真度选择。我们评估了两种设置：仅保真度选择和允许任务委托自动化以实现队列稳定性的版本。与人工选择保真度的基线相比，我们的方法在没有授权的情况下提高了26.5%，在授权的情况下提高了50.3%。

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Optimal Fidelity Selection for Human-Supervised Search

We study optimal fidelity selection in human-supervised underwater visual search, where operator performance is influenced by cognitive factors such as workload. In our experiments, participants perform two simultaneous tasks: detecting underwater mines in videos (primary) and responding to a visual cue to estimate workload (secondary). Videos arrive as a Poisson process and queue for review, with the operator choosing between normal fidelity (faster playback) and high fidelity. Rewards depend on detection accuracy, while penalties are tied to queue length. Workload is modeled as a hidden state using an Input-Output Hidden Markov Model, and fidelity selection is optimized via a Partially Observable Markov Decision Process. We evaluate two setups: fidelity-only selection and a version that also allows task delegation to automation for queue stability. Our approach improves performance by 26.5% without delegation and 50.3% with delegation, compared to a baseline where humans manually select fidelity.

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来源期刊

IEEE Control Systems Letters Mathematics-Control and Optimization

CiteScore

4.40

自引率

13.30%

发文量

471