基于深度强化学习的汽车制造过程实时决策

Timo P. Gros, Joschka Groß, V. Wolf
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引用次数: 0

摘要

制造过程的计算机模拟被广泛用于优化生产计划和订单处理。如果不可预见的事件是常见的,实时决策是必要的,以最大限度地提高生产过程的性能。预先训练的基于人工智能的决策支持为这种时间紧迫的生产过程提供了有希望的机会。在这里,我们探讨了深度强化学习在汽车制造过程中实时决策的有效性。我们将中央生产部分的仿真模型,即行缓冲器,与深度强化学习算法,特别是深度q -学习和蒙特卡罗树搜索相结合。我们模拟了两种不同版本的缓冲区,单智能体和多智能体,以生成大量数据并训练神经网络来表示接近最优的策略。我们的研究结果表明,深度强化学习表现非常好,产生的策略可以实时提供接近最优的决策,而其他方法要么很慢,要么给出质量较差的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Real-Time Decision Making for a Car Manufacturing Process Using Deep Reinforcement Learning
Computer simulations of manufacturing processes are in widespread use for optimizing production planning and order processing. If unforeseeable events are common, real-time decisions are necessary to maximize the performance of the manufacturing process. Pre-trained AI-based decision support offers promising opportunities for such time-critical production processes. Here, we explore the effectiveness of deep reinforcement learning for real-time decision making in a car manufacturing process. We combine a simulation model of a central production part, the line buffer, with deep reinforcement learning algorithms, in particular with deep Q-Learning and Monte Carlo tree search. We simulate two different versions of the buffer, a single-agent and a multi-agent one, to generate large amounts of data and train neural networks to represent near-optimal strategies. Our results show that deep reinforcement learning performs extremely well and the resulting strategies provide near-optimal decisions in real-time, while alternative approaches are either slow or give strategies of poor quality.
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