AbstractIn this article, we firstly present an architectural framework for supply chain networks. Then, convergent supply chain models that are typical for assembly processes are divided into classes on the basis of the numbers of initial components. Subsequently, selected indicators for measuring topological complexity of assembly process are employed. The indicators used are benchmarked based on computational experiments. Finally, pertinent findings from this exploration are commented and some related future research directions are outlined
Complexity measurement based on the Shannon information entropy is widely used to evaluate variety a...
©2018 Vladimir Modrak et al. Tis is an open access article distributed under the Creative Commons At...
This paper puts forth a model of supply chain complexity and empirically tests it using plant-level ...
AbstractIn this article, we firstly present an architectural framework for supply chain networks. Th...
AbstractIn this paper, we present a theoretical framework for modeling of assembly supply chains and...
AbstractThis paper focuses on the modeling of assembly supply chain (ASC) systems in order to establ...
Assembly supply chain systems are becoming increasingly complex and, as a result, there is more and ...
In this paper, we present a methodological framework for conceptual modeling of assembly supply chai...
Complexity has been argued to limit operational efficiency, hinder decision-making and induce disrup...
AbstractNowadays, competitiveness of supply chain companies is not just about optimizing supply chai...
Supply chains are faced with a rising complexity of products, structures, and processes. Because of ...
Product variety has increased explosively in the past few decades and brought many challenges to man...
It is well understood that supply chains are complex. However less clear is just what complexity mea...
Objectives: The objective of this paper is to analyse what complexity drivers exist in manufacturing...
Due to the increasingly complex nature of the modern supply chain networks (SCNs), a recent research...
Complexity measurement based on the Shannon information entropy is widely used to evaluate variety a...
©2018 Vladimir Modrak et al. Tis is an open access article distributed under the Creative Commons At...
This paper puts forth a model of supply chain complexity and empirically tests it using plant-level ...
AbstractIn this article, we firstly present an architectural framework for supply chain networks. Th...
AbstractIn this paper, we present a theoretical framework for modeling of assembly supply chains and...
AbstractThis paper focuses on the modeling of assembly supply chain (ASC) systems in order to establ...
Assembly supply chain systems are becoming increasingly complex and, as a result, there is more and ...
In this paper, we present a methodological framework for conceptual modeling of assembly supply chai...
Complexity has been argued to limit operational efficiency, hinder decision-making and induce disrup...
AbstractNowadays, competitiveness of supply chain companies is not just about optimizing supply chai...
Supply chains are faced with a rising complexity of products, structures, and processes. Because of ...
Product variety has increased explosively in the past few decades and brought many challenges to man...
It is well understood that supply chains are complex. However less clear is just what complexity mea...
Objectives: The objective of this paper is to analyse what complexity drivers exist in manufacturing...
Due to the increasingly complex nature of the modern supply chain networks (SCNs), a recent research...
Complexity measurement based on the Shannon information entropy is widely used to evaluate variety a...
©2018 Vladimir Modrak et al. Tis is an open access article distributed under the Creative Commons At...
This paper puts forth a model of supply chain complexity and empirically tests it using plant-level ...