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供应链生态系统中数字孪生的设计、适应与控制的概念模型与形式化模型

Conceptual and formal models for design, adaptation, and control of digital twins in supply chain ecosystems

Omega · 2025
被引 36 · 同刊同年前 1%
ABS 3

中文导读

本文提出了供应链中数字孪生的概念与形式化模型,定义了数字供应链生态系统,并利用控制理论构建动态框架,介绍了对象驱动和数据驱动两种构建与适应方法,最后概述了网络物理供应链的通用框架。

Abstract

• Conceptual and formal models of digital twins in the supply chain are proposed. • Notion of digital supply chain ecosystem is defined. • We offer a dynamic framework for digital twins using control theory. • We introduce object-driven and data-driven approaches to build and adapt digital twins • We outline a generalized framework of the cyber-physical supply chain • Application scenarios are considered The design and adaptation of digital twins in supply chains are of high relevance for academia and industry alike. While numerous prototype-based use cases have been reported, the literature lacks studies revealing generalizable methodological principles. This paper elaborates on conceptual and formal models of digital twins in the supply chain. First, we define a new notion named digital supply chain ecosystem extending the recently developed intelligent digital twin framework. A digital ecosystem is a set of digital technologies, AI-based knowledge management systems, cloud spaces, and platforms that encapsulate supply chain data enabling digital twins and simulation models. Second, we elaborate on a digital twin as a complex phenomenon comprising systems, technological-organizational models, and management decision-making support perspectives. We offer a dynamic, quantitative framework for digital twins as a decision-making support and modeling environment using control theory. Third, we introduce two views of building and adapting digital twins, i.e., object-driven and data-driven approaches. Their principle schemes are defined and discussed. Finally, we outline a generalized framework of the cyber-physical supply chain comprised of a digital ecosystem, digital twin, human-AI collaboration space, and the physical supply chain. Application scenarios are considered, e.g., using digital twins for stress testing of supply chain resilience in the setting of tariff-driven shocks as well as building resilient and viable agricultural ecosystems.

供应链管理数字孪生控制理论生态系统人工智能