Hybrid cellular manufacturing system design with cellularisation ratio: an integrated mixed integer nonlinear programming and discrete event simulation approach

Eğilmez, Gökhan; Erenay, Bulent; Süer, Gürsel A.

doi:10.1504/ijsom.2019.097036

Cited by 3 publications

(2 citation statements)

References 43 publications

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“…Egilmez et al [6] explored the high similarity of manufacturing processes leading to work cell formation. At the end of their research, they concluded that there is a link between good work cell formation and a high similarity index of the cell equipment.…”

Section: Standardization and Modular Structurementioning

confidence: 99%

Agility and Industry 4.0 Implementation Strategy in a Quebec Manufacturing SME

2022

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The emergence of new information technologies, market globalization, climate change, labor shortages, and changing consumer habits have led to dynamic demand and the need for customized mass production systems. This has forced companies, especially small- and medium-sized enterprises (SME), to rethink their product design, production, and marketing models to remain competitive by increasing their agility in the face of growing and changing demand. It becomes relevant to investigate how to move efficiently towards customized mass production in an Industry 4.0 (I4.0) environment. The objective of this research is to develop a strategy for implementing I4.0 in manufacturing SME, based on lean, agility, and intelligent modular product design. A literature review made it possible to target the following performance measures: reducing inventory, minimizing makespan, and reducing time to consumer (reaction time). A case study was conducted in an SME in the agri-food sector to validate the proposed strategy. Inventory levels were reduced by more than 70% and time was cut by almost 65%.

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Section: Standardization and Modular Structurementioning

confidence: 99%

Agility and Industry 4.0 Implementation Strategy in a Quebec Manufacturing SME

2022

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“…Bilgen and Doğan (2015) analyzed the value-added distribution integrated with production planning to reduce the cost of distribution of dairy products [8]. Eğilmez et al (2019) applied discrete event simulation to hybris cellular manufacturing with integrated mixed integer nonlinear programming [9], and Grillo et al (2017) considered a multi-purpose mathematical model in which different demand situations [10]. Paul et al (2017) proposed a three-tier supply chain network [11].…”

Section: Literature Surveymentioning

confidence: 99%

A Multi-Objective Framework for Dairy Products Supply Chain Network with Benders Decomposition

2023

ieim

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In the food sector, it is necessary to maintain quality and products from the production of dairy products to the final supply point. It aims to minimize the objective function and level of presentation required for the product provided by the analysis of Benders decomposition. The model also includes different consumer demands for consumption decisions. In this study, with the Benders decomposition algorithm, it ensured that the quality level of the service delivered as soon as possible, the warehouses delivered from the factories and the remaining shelf life kept at the maximum level.

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Consideration of processing time dissimilarity in batch-cyclic scheduling of flowshop cells

Almasarwah

Süer

2020

International Journal of Production Research

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Hybrid cellular manufacturing system design with cellularisation ratio: an integrated mixed integer nonlinear programming and discrete event simulation approach

Cited by 3 publications

References 43 publications

Agility and Industry 4.0 Implementation Strategy in a Quebec Manufacturing SME

Agility and Industry 4.0 Implementation Strategy in a Quebec Manufacturing SME

A Multi-Objective Framework for Dairy Products Supply Chain Network with Benders Decomposition

Consideration of processing time dissimilarity in batch-cyclic scheduling of flowshop cells

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