Factory Templates for Digital Factories Framework

Azevedo, Américo; Almeida, António

doi:10.1016/j.rcim.2011.02.004

Cited by 48 publications

(24 citation statements)

References 13 publications

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“…In terms of manufacturing systems, it is becoming progressively clearer that the future generation of factories needs to be modular, scalable, flexible, open, agile and knowledge-based to allow for real-time adaption to continuously changing market trends and demands, technology options and regulations. In addition, this future generation of factories should be able to integrate each model and strategies capable of adapting their production system to the market's needs, of accelerating system design and of optimizing production [15].…”

Section: Factory Automation and Manufacturing Systemmentioning

confidence: 99%

G-Cloud Monitor: A Cloud Monitoring System for Factory Automation for Sustainable Green Computing

Jeong

Park

2014

Sustainability

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Green and cloud computing (G-cloud) are new trends in all areas of computing. The G-cloud provides an efficient function, which enables users to access their programs, systems and platforms at anytime and anyplace. Green computing can also yield greener technology by reducing power consumption for sustainable environments. Furthermore, in order to apply user needs to the system development, the user characteristics are regarded as some of the most important factors to be considered in product industries. In this paper, we propose a cloud monitoring system to observe and manage the manufacturing system/factory automation for sustainable green computing. For monitoring systems, we utilized the resources in the G-cloud environments, and hence, it can reduce the amount of system resources and devices, such as system power and processes. In addition, we propose adding a user profile to the monitoring system in order to provide a user-friendly function. That is, this function allows system configurations to be automatically matched to the individual's requirements, thus increasing efficiency.

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Section: Factory Automation and Manufacturing Systemmentioning

confidence: 99%

G-Cloud Monitor: A Cloud Monitoring System for Factory Automation for Sustainable Green Computing

Jeong

Park

2014

Sustainability

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“…Moreover, different researchers [14][15] state the need to build models or frameworks of international manufacturing systems that help managers to design and manage their networks, which should take into account the requirements for the next generation of factories such as agility, flexibility, modularity, adaptability, etc. [16]. Hence, the examination of the literature revealed that there is a lack of methods and techniques to accomplish the design and configuration process of a global production and logistic network.…”

Section: Research Gapmentioning

confidence: 99%

“…The framework intends to fill the gap left by the other ones which are really useful in a stable environment but they are not suitable in a market dynamic environment [28] where new facilities implementation [13,16,29] supplier network development [10,30,31] and multi-site network [14,32] are needed.…”

Section: Globope Frameworkmentioning

confidence: 99%

Framework for Improving the Design and Configuration Process of Global Operations

Martínez

Errasti

Santos

et al. 2013

IFIP Advances in Information and Communication Technology

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Abstract. In the current dynamic, volatile and competitive playground, the design and managing of global production and logistic networks has become a crucial issue even for SMEs, although with the difficult added that they have limited resources. Thus, how dealing with these complex production networks present a real challenge for this kind of companies. In order to do so, it is necessary to provide business managers a useful guideline to face the internationalization process in an effective way. Therefore, the aim of this paper is to propose a framework, which takes into account the three main problems (new facilities implementation, global supplier network and multi-site network) related to Operations configuration, to aid managers in the different stages of the decision making and propose useful principles, methods and techniques depending on the problem.

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“…This approach is based on the leading and lagging factors that can influence the system's behavior. In order to fulfill these requirements, the so-called Performance Value Estimator (PVE) tool was used as a predictive control to monitor, learn and imitate the behavior of complex nonlinear systems that do not require profound knowledge of mathematics [19]. This tool, however, does require a thorough knowledge of the system that it will monitor and emulate.…”

Section: Fit Degree Supporting Toolsmentioning

confidence: 99%

“…In a higher mathematical layer of abstraction, the Kalman Filter can be seen as a tool that is used to estimate the instantaneous "state" of a dynamic system perturbed by white noise (random factors). Consequently, by incorporating these two significant approaches it was possible to develop a tool that is able to predict the evolution of the behavior of complex systems, minimizing the different errors and noises that can disturb the normal assessment of the performance of the system as presented by Azevedo and Almeida [19].…”

Section: Fit Degree Supporting Toolsmentioning

confidence: 99%

Using Key Alignment Indicators for Performance Evaluation in Collaborative Networks

Francisco

Azevedo

Bastos

et al. 2011

Adaptation and Value Creating Collaborative Networks

Self Cite

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Abstract. This paper aims to explore the performance alignment in collaborative network environments. It has been stated that performance management based on data collection and the evaluation of key performance indicators (KPIs) may not be effective due to the different indicators and measurement systems in place for the various participants in a collaborative network (CN). Therefore, measuring the strategic and inter-organizational alignment based on key alignment indicators (KAIs) can be an excellent alternative to improve performance evaluation systems. This approach has led to the exploration of the performance prediction paradigm and develops tools to estimate a performance and evaluate the degree of alignment by creating instances of a future performance in collaborative networks.

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Factory Templates for Digital Factories Framework

Cited by 48 publications

References 13 publications

G-Cloud Monitor: A Cloud Monitoring System for Factory Automation for Sustainable Green Computing

G-Cloud Monitor: A Cloud Monitoring System for Factory Automation for Sustainable Green Computing

Framework for Improving the Design and Configuration Process of Global Operations

Using Key Alignment Indicators for Performance Evaluation in Collaborative Networks

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