Estrogenic compounds reduce influenza A virus replication in primary human nasal epithelial cells derived from female, but not male, donors

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State Space Modeling of Variation Propagation in Multistation Machining Processes Considering Machining-Induced Variations

Abellán-Nebot

Liu

Romero

et al. 2012

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In spite of the success of the stream of variation (SoV) approach to modeling variation propagation in multistation machining processes (MMPs), the absence of machininginduced variations could be an important factor that limits its application in accurate variation prediction. Such machining-induced variations are caused by geometricthermal effects, cutting-tool wear, etc. In this paper, a generic framework for machininginduced variation representation based on differential motion vectors is presented. Based on this representation framework, machining-induced variations can be explicitly incorporated in the SoV model. An experimentation is designed and implemented to estimate the model coefficients related to spindle thermal-induced variations and cutting-tool wear-induced variations. The proposed model is compared with the conventional SoV model resulting in an average improvement on quality prediction of 67%. This result verifies the advantage of the proposed extended SoV model. The application of the new model can significantly extend the capability of SoV-model-based methodologies in solving more complex quality improvement problems for MMPs, such as process diagnosis and process tolerance allocation, etc.

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Manufacturing variation models in multi-station machining systems

Abellán-Nebot

Romero

Mira

2012

Int J Adv Manuf Technol

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In product design and quality improvement fields, the development of reliable 3D machining variation models for multi-station machining processes is a key issue to estimate the resulting geometrical and dimensional quality of manufactured parts, generate robust process plans, eliminate downstream manufacturing problems and reduce ramp-up times. In the literature, two main 3D machining variation models have been studied: the Stream of Variation (SoV) model, oriented to product quality improvement (fault diagnosis, process planning evaluation and selection, etc.), and the Model of the Manufactured Part (MoMP), oriented to product and manufacturing design activities (manufacturing and product tolerance analysis and synthesis). This paper reviews the fundamentals of each model and describes step by step how to derive them using a simple case study. The paper analyzes both models and compares their main characteristics and applications. A discussion about the drawbacks and limitations of each model and some potential research lines in this field are also presented.

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Activity modelling in a collaborative ceramic tile design chain: an enhanced IDEF0 approach

2008

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Modeling workflow activities for collaborative process planning with product lifecycle management tools

et al. 2008

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Exploring ride-hailing fares: an empirical analysis of the case of Madrid

et al. 2021

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Quality prediction and compensation in multi-station machining processes using sensor-based fixtures

Abellán-Nebot

Liu

Romero

2012

Robotics and Computer-Integrated Manufacturing

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The influence of variable message signs on en-route diversion between a toll highway and a free competing alternative

et al. 2019

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Fernando Romero

A review of machining monitoring systems based on artificial intelligence process models

State Space Modeling of Variation Propagation in Multistation Machining Processes Considering Machining-Induced Variations

Manufacturing variation models in multi-station machining systems

Activity modelling in a collaborative ceramic tile design chain: an enhanced IDEF0 approach

Modeling workflow activities for collaborative process planning with product lifecycle management tools

Exploring ride-hailing fares: an empirical analysis of the case of Madrid

Quality prediction and compensation in multi-station machining processes using sensor-based fixtures

The influence of variable message signs on en-route diversion between a toll highway and a free competing alternative

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