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引用次数: 10
摘要
随着产品生命周期越来越短,制造商面临着巨大的经济和政治压力,要求回收和回收其废弃产品。拆卸作为一种天然的解决方案,在材料和产品回收中发挥着越来越重要的作用。然而,大多数现有的拆卸工艺规划工作使用确定性模型来表征工艺中固有的高水平不确定性(例如,产品结构和条件以及人为因素的不确定性)。本文建立在我们以前的工作(Tang, et al., 2004, Tang, et al. 2005)的基础上,使用模糊Petri网明确地解决了拆卸中的动力学问题。提出了一种基于增强学习方法的自适应模糊系统来预测人为因素和产品不确定性对拆卸的影响。仿真软件的开发验证了所提出的方法和自适应模糊系统的鲁棒性。
Analysis of an adaptive fuzzy system for disassembly process planning
As product lifecycles are getting shorter and shorter, manufacturers are facing a great deal of economic and political pressure to reclaim and recycle their obsolete products. Disassembly, as one of the natural solutions, is of increasing importance in material and product recovery. However, most of the existing works on disassembly process planning use a deterministic model to characterize the high levels of uncertainty (e.g., uncertainty in product structure and condition and human factors) inherent in the process. This paper builds upon our previous work (Tang, et al., 2004, Tang, et al. 2005) to explicitly address the dynamics in disassembly using fuzzy Petri nets. An adaptive fuzzy system with an enhanced learning method is proposed to predict the impact of human factors and product uncertainty on disassembly. Simulation software is also developed to validate the proposed method and the robustness of the adaptive fuzzy system.
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