Optimizing Sewing Line Balancing in Apparel Manufacturing through Digitalization

Bulent Koç; Selin Hanife Eryürük

doi:10.2478/ftee-2025-0002

Optimizing Sewing Line Balancing in Apparel Manufacturing through Digitalization

Bulent Koç^*, Selin Hanife Eryürük

^*Corresponding author for this work

Department of Textile Engineering

Istanbul Technical University

Research output: Contribution to journal › Article › peer-review

Abstract

This study presents an innovative software system for optimizing sewing line balancing in apparel manufacturing, addressing challenges posed by dynamic production demands, such as fluctuating order sizes and varying product styles. By Integrating real-time data with lean principles, the system utilizes a parallel station position-weighted algorithm and dynamically assigns operators based on current task metrics. This real-time data integration for operator assignment is the system's key innovation. A case study demonstrated significant improvements: line efficiency increased from 79.68% to 88.31%, and per-operator output rose by 10%. These results highlight the potential for substantial efficiency gains in apparel manufacturing.

Original language	English
Pages (from-to)	10-26
Number of pages	17
Journal	Fibres and Textiles in Eastern Europe
Volume	33
Issue number	1
DOIs	https://doi.org/10.2478/ftee-2025-0002
Publication status	Published - 1 May 2025

Bibliographical note

Publisher Copyright:
© 2025 Bülent Koç et al., published by Sciendo.

Keywords

Apparel Manufacturing
Digital Lean
Digital Line-Balancing
Digitalization
Process Monitoring Devices (PMDs)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.2478/ftee-2025-0002

Cite this

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title = "Optimizing Sewing Line Balancing in Apparel Manufacturing through Digitalization",

abstract = "This study presents an innovative software system for optimizing sewing line balancing in apparel manufacturing, addressing challenges posed by dynamic production demands, such as fluctuating order sizes and varying product styles. By Integrating real-time data with lean principles, the system utilizes a parallel station position-weighted algorithm and dynamically assigns operators based on current task metrics. This real-time data integration for operator assignment is the system's key innovation. A case study demonstrated significant improvements: line efficiency increased from 79.68\% to 88.31\%, and per-operator output rose by 10\%. These results highlight the potential for substantial efficiency gains in apparel manufacturing.",

keywords = "Apparel Manufacturing, Digital Lean, Digital Line-Balancing, Digitalization, Process Monitoring Devices (PMDs)",

author = "Bulent Ko{\c c} and Ery{\"u}r{\"u}k, \{Selin Hanife\}",

note = "Publisher Copyright: {\textcopyright} 2025 B{\"u}lent Ko{\c c} et al., published by Sciendo.",

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doi = "10.2478/ftee-2025-0002",

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AU - Eryürük, Selin Hanife

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N2 - This study presents an innovative software system for optimizing sewing line balancing in apparel manufacturing, addressing challenges posed by dynamic production demands, such as fluctuating order sizes and varying product styles. By Integrating real-time data with lean principles, the system utilizes a parallel station position-weighted algorithm and dynamically assigns operators based on current task metrics. This real-time data integration for operator assignment is the system's key innovation. A case study demonstrated significant improvements: line efficiency increased from 79.68% to 88.31%, and per-operator output rose by 10%. These results highlight the potential for substantial efficiency gains in apparel manufacturing.

AB - This study presents an innovative software system for optimizing sewing line balancing in apparel manufacturing, addressing challenges posed by dynamic production demands, such as fluctuating order sizes and varying product styles. By Integrating real-time data with lean principles, the system utilizes a parallel station position-weighted algorithm and dynamically assigns operators based on current task metrics. This real-time data integration for operator assignment is the system's key innovation. A case study demonstrated significant improvements: line efficiency increased from 79.68% to 88.31%, and per-operator output rose by 10%. These results highlight the potential for substantial efficiency gains in apparel manufacturing.

KW - Apparel Manufacturing

KW - Digital Lean

KW - Digital Line-Balancing

KW - Digitalization

KW - Process Monitoring Devices (PMDs)

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JF - Fibres and Textiles in Eastern Europe

IS - 1

ER -

Optimizing Sewing Line Balancing in Apparel Manufacturing through Digitalization

Abstract

Bibliographical note

Keywords

UN SDGs

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