Efficiency and usability of industrial laser assistance systems in composite preforming: a comparativ user study

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschungbegutachtet

Standard

Efficiency and usability of industrial laser assistance systems in composite preforming: a comparativ user study. / Dammers, Hannah; Schlesinger, Yanick; Müller-Polyzou, Ralf et al.
SAMPE Europe Conference 2020. Amsterdamm: Society for the Advancement of Material and Process Engineering, 2020.

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschungbegutachtet

Harvard

Dammers, H, Schlesinger, Y, Müller-Polyzou, R, Kehr, M, Wiche, M-K, Huber, P & Gries, T 2020, Efficiency and usability of industrial laser assistance systems in composite preforming: a comparativ user study. in SAMPE Europe Conference 2020. Society for the Advancement of Material and Process Engineering, Amsterdamm, SAMPE Europe Conference 2020, Amsterdam, Niederlande, 30.09.20.

APA

Dammers, H., Schlesinger, Y., Müller-Polyzou, R., Kehr, M., Wiche, M.-K., Huber, P., & Gries, T. (2020). Efficiency and usability of industrial laser assistance systems in composite preforming: a comparativ user study. In SAMPE Europe Conference 2020 Society for the Advancement of Material and Process Engineering.

Vancouver

Dammers H, Schlesinger Y, Müller-Polyzou R, Kehr M, Wiche MK, Huber P et al. Efficiency and usability of industrial laser assistance systems in composite preforming: a comparativ user study. in SAMPE Europe Conference 2020. Amsterdamm: Society for the Advancement of Material and Process Engineering. 2020

Bibtex

@inbook{4cf61611006b4d5cafc7a1e4af0c1d96,
title = "Efficiency and usability of industrial laser assistance systems in composite preforming: a comparativ user study",
abstract = "The digitization of production and an increasing degree of automation are reshaping work conditions in composite manufacturing. In particular, small and medium enterprises (SMEs) face major challenges, as they rely on their employees' extensive experience and a high degree of flexibility in production through a vast amount of manual work. For this reason, conventional inflexible automation solutions are often perceived as cost drivers with limited added value. In order to still enable SMEs to automate their production, the introduction of partially automated cost-effective production cells such as laser assistance systems (LAS) represents a viable strategy. These solutions support manual manufacturing to minimize the impact of human error, resulting in high-quality, ergonomic workspaces with high flexibility. Thus, the development and introduction of LAS must focus not only on economic efficiency but also on acceptance and subjective perception by human workers. Within the frame of this paper, a comparative user study is presented, analysing the efficiency and usability of industrial LAS in manual composite preforming. The study is conducted at a composite shop floor scenario with an industrial automotive mould. Besides production efficiency and accuracy, the perceived usability, subjective effectiveness and efficiency are measured applying the System Usability Scale (SUS) and the After-Scenario Questionnaire (ASQ). Finally, the results are analysed and discussed.",
keywords = "Engineering, Assistance system, laser projection, composites, preforming, user study",
author = "Hannah Dammers and Yanick Schlesinger and Ralf M{\"u}ller-Polyzou and Maximilian Kehr and Marius-Konstantin Wiche and Philipp Huber and Thomas Gries",
year = "2020",
language = "English",
booktitle = "SAMPE Europe Conference 2020",
publisher = "Society for the Advancement of Material and Process Engineering",
address = "United States",
note = "SAMPE Europe Conference 2020 ; Conference date: 30-09-2020 Through 01-10-2020",
url = "https://www.sampe-europe.org/conferences/se-conference-20-amsterdam",

}

RIS

TY - CHAP

T1 - Efficiency and usability of industrial laser assistance systems in composite preforming

T2 - SAMPE Europe Conference 2020

AU - Dammers, Hannah

AU - Schlesinger, Yanick

AU - Müller-Polyzou, Ralf

AU - Kehr, Maximilian

AU - Wiche, Marius-Konstantin

AU - Huber, Philipp

AU - Gries, Thomas

PY - 2020

Y1 - 2020

N2 - The digitization of production and an increasing degree of automation are reshaping work conditions in composite manufacturing. In particular, small and medium enterprises (SMEs) face major challenges, as they rely on their employees' extensive experience and a high degree of flexibility in production through a vast amount of manual work. For this reason, conventional inflexible automation solutions are often perceived as cost drivers with limited added value. In order to still enable SMEs to automate their production, the introduction of partially automated cost-effective production cells such as laser assistance systems (LAS) represents a viable strategy. These solutions support manual manufacturing to minimize the impact of human error, resulting in high-quality, ergonomic workspaces with high flexibility. Thus, the development and introduction of LAS must focus not only on economic efficiency but also on acceptance and subjective perception by human workers. Within the frame of this paper, a comparative user study is presented, analysing the efficiency and usability of industrial LAS in manual composite preforming. The study is conducted at a composite shop floor scenario with an industrial automotive mould. Besides production efficiency and accuracy, the perceived usability, subjective effectiveness and efficiency are measured applying the System Usability Scale (SUS) and the After-Scenario Questionnaire (ASQ). Finally, the results are analysed and discussed.

AB - The digitization of production and an increasing degree of automation are reshaping work conditions in composite manufacturing. In particular, small and medium enterprises (SMEs) face major challenges, as they rely on their employees' extensive experience and a high degree of flexibility in production through a vast amount of manual work. For this reason, conventional inflexible automation solutions are often perceived as cost drivers with limited added value. In order to still enable SMEs to automate their production, the introduction of partially automated cost-effective production cells such as laser assistance systems (LAS) represents a viable strategy. These solutions support manual manufacturing to minimize the impact of human error, resulting in high-quality, ergonomic workspaces with high flexibility. Thus, the development and introduction of LAS must focus not only on economic efficiency but also on acceptance and subjective perception by human workers. Within the frame of this paper, a comparative user study is presented, analysing the efficiency and usability of industrial LAS in manual composite preforming. The study is conducted at a composite shop floor scenario with an industrial automotive mould. Besides production efficiency and accuracy, the perceived usability, subjective effectiveness and efficiency are measured applying the System Usability Scale (SUS) and the After-Scenario Questionnaire (ASQ). Finally, the results are analysed and discussed.

KW - Engineering

KW - Assistance system

KW - laser projection

KW - composites

KW - preforming

KW - user study

M3 - Article in conference proceedings

BT - SAMPE Europe Conference 2020

PB - Society for the Advancement of Material and Process Engineering

CY - Amsterdamm

Y2 - 30 September 2020 through 1 October 2020

ER -