This paper proposes a resilience dynamics modeling and control approach for a reconfigurable electronic assembly line under disruptions. A Digital Twin (DT) platform is developed as the basis for resilience analysis, and open reconfigurable architectures (ORAs) are introduced to support reconfiguration of the assembly line. The time-delays of disruptions are identified and used to characterize their spatio-temporal attributes. A systematic method based on max-plus algebra is proposed to model resilience dynamics under disruptions. The resilience control policy used in the DT platform is developed to minimize production losses, and it is tested on a smart phone assembly line, with its effectiveness validated by comparative analysis.

本文提出了一种可重构电子装配线在故障情况下的弹性动力学建模和控制方法。开发了数字孪生（DT）平台作为弹性分析的基础，并引入了开放式可重配置架构（ORA）以支持组装线的重配置。识别干扰的时间延迟，并将其用于表征其时空属性。提出了一种基于最大加数代数的系统方法，对扰动下的弹性动力学进行建模。开发DT平台中使用的弹性控制策略以最大程度地减少生产损失，并在智能手机装配线上进行了测试，并通过比较分析验证了其有效性。