Human centered Lean automation in assembly

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Resumé

Empirical studies have documented skills that make humans superior to machines in various contexts while keeping them inferior in some others, nevertheless; humans are recognized as the most flexible element in a production system. This paper relates the theory of Lean automation with human-machine interaction; thereby taking benefits from the bests of humans and machines in a combination. The result is biomechatronic production systems. We present a framework that discusses the physical, sensorial and cognitive capabilities of humans; and the technologies that can enhance them. One technology for each capability enhancement has been selected and is evaluated for ease of use and industrial
applicability in assembly tasks.
OriginalsprogEngelsk
TidsskriftProcedia CIRP
Vol/bind81
Sider (fra-til)659-664
ISSN2212-8271
DOI
StatusUdgivet - jun. 2019
Begivenhed52nd CIRP Conference on Manufacturing Systems - Ljubljana, Slovenien
Varighed: 11. jun. 201914. jun. 2019
Konferencens nummer: 52

Konference

Konference52nd CIRP Conference on Manufacturing Systems
Nummer52
LandSlovenien
ByLjubljana
Periode11/06/201914/06/2019

Fingeraftryk

Automation

Citer dette

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title = "Human centered Lean automation in assembly",
abstract = "Empirical studies have documented skills that make humans superior to machines in various contexts while keeping them inferior in some others, nevertheless; humans are recognized as the most flexible element in a production system. This paper relates the theory of Lean automation with human-machine interaction; thereby taking benefits from the bests of humans and machines in a combination. The result is biomechatronic production systems. We present a framework that discusses the physical, sensorial and cognitive capabilities of humans; and the technologies that can enhance them. One technology for each capability enhancement has been selected and is evaluated for ease of use and industrialapplicability in assembly tasks.",
keywords = "Lean automation, Smart manufacturing, Human-centered automation, Human-machine collaboration",
author = "Malik, {Ali Ahmad} and Arne Bilberg",
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}

Human centered Lean automation in assembly. / Malik, Ali Ahmad; Bilberg, Arne.

I: Procedia CIRP, Bind 81, 06.2019, s. 659-664.

Publikation: Bidrag til tidsskriftKonferenceartikelForskningpeer review

TY - GEN

T1 - Human centered Lean automation in assembly

AU - Malik, Ali Ahmad

AU - Bilberg, Arne

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N2 - Empirical studies have documented skills that make humans superior to machines in various contexts while keeping them inferior in some others, nevertheless; humans are recognized as the most flexible element in a production system. This paper relates the theory of Lean automation with human-machine interaction; thereby taking benefits from the bests of humans and machines in a combination. The result is biomechatronic production systems. We present a framework that discusses the physical, sensorial and cognitive capabilities of humans; and the technologies that can enhance them. One technology for each capability enhancement has been selected and is evaluated for ease of use and industrialapplicability in assembly tasks.

AB - Empirical studies have documented skills that make humans superior to machines in various contexts while keeping them inferior in some others, nevertheless; humans are recognized as the most flexible element in a production system. This paper relates the theory of Lean automation with human-machine interaction; thereby taking benefits from the bests of humans and machines in a combination. The result is biomechatronic production systems. We present a framework that discusses the physical, sensorial and cognitive capabilities of humans; and the technologies that can enhance them. One technology for each capability enhancement has been selected and is evaluated for ease of use and industrialapplicability in assembly tasks.

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KW - Smart manufacturing

KW - Human-centered automation

KW - Human-machine collaboration

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