Érico Marcon scite author profile

PurposeAs the level of implementation of Industry 4.0 increases, misalignments between adopted technologies and organizational factors may result in benefits below expected. This paper aims to analyze how organizational factors can contribute to a higher level of adoption of Industry 4.0 technologies. The paper uses a sociotechnical perspective lens to achieve this aim.Design/methodology/approachUsing a sample of 231 manufacturing companies in Denmark, a leading country in Industry 4.0 readiness, the paper analyzes through cluster analysis and logistic regression whether the development of four sociotechnical dimensions – that is, Social, Technical, Work Organization and Environmental factors – in these companies can benefit the achievement of higher levels of Industry 4.0 technology adoption.FindingsThe results show that companies focused on the development of sociotechnical aspects generally present higher Industry 4.0 adoption levels. However, some sociotechnical factors are less supportive than others.Originality/valueBased on these results, practitioners can plan the adoption of advanced technologies, using a systemic organizational view. This study provides evidence on a growing field with few empirical studies available. The paper contributes by providing an analysis of a leading country in Industry 4.0 implementation, presenting a systemic view on technology adoption in the Industry 4.0 context.

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Smart Products value creation in SMEs innovation ecosystems

Kahle¹,

Marcon²,

Ghezzi

et al. 2020

Technological Forecasting and Social Change

112

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Barriers for the digitalization of servitization

Marcon

Dain

et al. 2019

Procedia CIRP

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Capabilities supporting digital servitization: A multi-actor perspective

Marcon¹,

Marcon²,

Ayala³

et al. 2022

Industrial Marketing Management

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Industry 4.0 enabling manufacturing flexibility: technology contributions to individual resource and shop floor flexibility

Enrique

Marcon

Charrua-Santos

et al. 2022

JMTM

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PurposeThis paper focuses on understanding the contribution of Industry 4.0 technologies to manufacturing flexibility.Design/methodology/approachA multiple-case study was conducted through interviews and complementary data from 12 adopters of Industry 4.0 technologies from the industrial sector. To enable a broad perspective, cases from 5 industry sectors with different technological intensity levels were studied.FindingsThe findings show that Industry 4.0 technologies are mostly used to improve machine flexibility since there is a major focus on technological approaches rather than on wider flexibility. The results also showed that cloud services, IoT, and data analytics provide the basis for flexible operation, and collaborative robots, ERP/MES/PLM, AGVs, and traceability devices are the most commonly implemented technologies for flexibility. However, inherent contingency factors such as production complexity and product life cycle need to be considered.Originality/valueThis article expands the research on manufacturing flexibility, considering new capabilities introduced by Industry 4.0.

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Érico Marcon

Sociotechnical factors and Industry 4.0: an integrative perspective for the adoption of smart manufacturing technologies

Smart Products value creation in SMEs innovation ecosystems

Barriers for the digitalization of servitization

Capabilities supporting digital servitization: A multi-actor perspective

Industry 4.0 enabling manufacturing flexibility: technology contributions to individual resource and shop floor flexibility

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