Sustainable Industrial Value Creation in SMEs: A Comparison between Industry 4.0 and Made in China 2025

J.M. Müller; K.-I. Voigt

doi:10.1007/s40684-018-0056-z

Sustainable Industrial Value Creation in SMEs: A Comparison between Industry 4.0 and Made in China 2025

J.M. Müller
, K.-I. Voigt

Business and Tourism

Chair of Industrial Management, Friedrich-Alexander University Erlangen-Nürnberg

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

Abstract

The Industrial Internet of Things (IIoT) confronts industrial manufactures with economic, ecological, as well as social benefits and challenges, referring to the Triple Bottom Line of sustainability. So far, research has mainly investigated its dimensions in isolation or economic aspects have not been compared with ecological and social perspectives. Further, research misses studies that are devoted to the special characteristics and requirements of Small and Medium-sized Enterprises (SMEs). This study aims to contribute to close this research gap, providing a research context that encompasses all three dimensions of sustainability. The results are based on data obtained from 329 SMEs, 222 in Germany and 107 in China, therefore allowing for a comparison of the concepts “Industrie 4.0” and “Made in China 2025” in the context of SMEs. In general, German SMEs expect a lower impact through “Industrie 4.0”, perceiving the concept as more beneficial for larger enterprises. We further find that Chinese SMEs foremost see social benefits. Challenges whilst introducing “Industrie 4.0”by German SMEs as well as several frame conditions are perceived more relevant than for “Made in China 2025”, as seen by Chinese SMEs. The paper closes with implications for research and practice based on these findings. © 2018, The Author(s).

Original language	English
Pages (from-to)	659-670
Number of pages	12
Journal	Int. J. Precis. Eng. Manuf. Green Technol.
Volume	5
Issue number	5
DOIs	https://doi.org/10.1007/s40684-018-0056-z
Publication status	Published - 12 Oct 2018

Keywords

Industrial internet of things
Industry 4.0
Made in china 2025 sustainability
Small and medium-sized enterprises
Triple bottom line
Ecology
Economic and social effects
Internet of things
Sustainable development
Economic aspects
Frame conditions
Industrial internets
Made in China
Small and medium sized enterprise
Social perspective
Three dimensions
Triple Bottom Line
Industrial economics

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10.1007/s40684-018-0056-z

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85054694874&doi=10.1007%2fs40684-018-0056-z&partnerID=40&md5=975a42ab71c92b1743c9447e54ecd554

Cite this

@article{6c0f746231984524bee6b5817dd7f406,

title = "Sustainable Industrial Value Creation in SMEs: A Comparison between Industry 4.0 and Made in China 2025",

abstract = "The Industrial Internet of Things (IIoT) confronts industrial manufactures with economic, ecological, as well as social benefits and challenges, referring to the Triple Bottom Line of sustainability. So far, research has mainly investigated its dimensions in isolation or economic aspects have not been compared with ecological and social perspectives. Further, research misses studies that are devoted to the special characteristics and requirements of Small and Medium-sized Enterprises (SMEs). This study aims to contribute to close this research gap, providing a research context that encompasses all three dimensions of sustainability. The results are based on data obtained from 329 SMEs, 222 in Germany and 107 in China, therefore allowing for a comparison of the concepts “Industrie 4.0” and “Made in China 2025” in the context of SMEs. In general, German SMEs expect a lower impact through “Industrie 4.0”, perceiving the concept as more beneficial for larger enterprises. We further find that Chinese SMEs foremost see social benefits. Challenges whilst introducing “Industrie 4.0”by German SMEs as well as several frame conditions are perceived more relevant than for “Made in China 2025”, as seen by Chinese SMEs. The paper closes with implications for research and practice based on these findings. {\textcopyright} 2018, The Author(s).",

keywords = "Industrial internet of things, Industry 4.0, Made in china 2025 sustainability, Small and medium-sized enterprises, Triple bottom line, Ecology, Economic and social effects, Internet of things, Sustainable development, Economic aspects, Frame conditions, Industrial internets, Made in China, Small and medium sized enterprise, Social perspective, Three dimensions, Triple Bottom Line, Industrial economics",

author = "J.M. M{\"u}ller and K.-I. Voigt",

note = "Cited By :162 Export Date: 14 December 2023 Correspondence Address: M{\"u}ller, J.M.; Salzburg University of Applied Sciences, Urstein S{\"u}d 1, Austria; email: [email protected] References: Kagermann, H., Helbig, J., Hellinger, A., Wahlster, W., Recommendations for Implementing the Strategic Initiative Industrie 4.0: Securing the Future of German Manufacturing Industry; Final Report of the Industrie 4.0 Working Group (2013) Forschungsunion; Lasi, H., Fettke, P., Kemper, H.-G., Feld, T., Hoffmann, M., Industry 4.0 (2014) Business \& Information Systems Engineering, 6 (4), pp. 239-242; Liao, Y., Deschamps, F., Loures, E.D.F.R., Ramos, L.F.P., Past, Present and Future of Industry 4.0-A Systematic Literature Review and Research Agenda Proposal (2017) International Journal of Production Research, 55 (12), pp. 3609-3629; Arnold, C., Kiel, D., Voigt, K.-I., How the Industrial Internet of Things Changes Business Models in Different Manufacturing Industries (2016) International Journal of Innovation Management, 20 (8), p. 1640015; Kiel, D., M{\"u}ller, J.M., Arnold, C., Voigt, K.-I., Sustainable Industrial Value Creation: Benefits and Challenges of Industry 4.0 (2017) International Journal of Innovation Management, 21 (8), pp. 1740015-1740034; Beier, G., Niehoff, S., Ziems, T., Xue, B., Sustainability Aspects of a Digitalized Industry - A Comparative Study from China and Germany (2017) International Journal of Precision Engineering and Manufacturing-Green Technology, 4 (2), pp. 227-234; M{\"u}ller, J.M., Buliga, O., Voigt, K.-I., Fortune Favors the Prepared: How SMEs Approach Business Model Innovations in Industry 4.0 (2018) Technological Forecasting and Social Change, 132, pp. 2-17; Veza, I., Mladineo, M., Gjeldum, N., Managing Innovative Production Network of Smart Factories (2015) IFAC-PapersOnLine, 48 (3), pp. 555-560; Bresnahan, T.F., Trajtenberg, M., General Purpose Technologies {\textquoteleft}Engines of Growth{\textquoteright}? (1995) Journal of Econometrics, 65 (1), pp. 83-108; Ivanov, D., Dolgui, A., Sokolov, B., Werner, F., Ivanova, M., A Dynamic Model and an Algorithm for Short -Term Supply Chain Scheduling in the Smart Factory Industry 4.0 (2016) International Journal of Production Research, 54 (2), pp. 386-402; Oesterreich, T.D., Teuteberg, F., Understanding the Implications of Digitisation and Automation in the Context of Industry 4.0: A Triangulation Approach and Elements of a Research Agenda for the Construction Industry (2016) Computers in Industry, 83, pp. 121-139; Ehret, M., Wirtz, J., Unlocking Value from Machines: Business Models and the Industrial Internet of Things (2017) Journal of Marketing Management, 33 (1-2), pp. 111-130; Pike, J., (2018) At\&T, CISCO, GE, IBM and Intel Form Industrial Internet Consortium to Improve Integration of the Physical and Digital Worlds: Technology Leaders Drive Industry Ecosystem to Accelerate More Reliable Access to Big Data to Unlock Business Value, , https://doi.org/newsroom.cisco.com/press-release-content?articleId=1375006, Accessed 10 JUL; Kang, H.S., Lee, J.Y., Choi, S., Kim, H., Park, J.H., Smart Manufacturing: Past Research, Present Findings, and Future Directions (2016) International Journal of Precision Engineering and Manufacturing-Green Technology, 3 (1), pp. 111-128; Tian, S., Pan, Z., Made in China 2025 und Industrie 4.0-Gemeinsam in Bewegung (2016) Industrie 4.0 Grenzenlos, pp. 91-118. , Sendler U., (ed; Sun, Y., Cao, C., Demystifying Central Government R\&D Spending in China (2014) Science, 345 (6200), pp. 1006-1008; Fu, X., Pietrobelli, C., Soete, L., The Role of Foreign Technology and Indigenous Innovation in the Emerging Economies: Technological Change and Catching-Up (2011) World Development, 39 (7), pp. 1204-1212; Li, L., China{\textquoteright}s Manufacturing Locus in 2025: with a Comparison of “Made-in-China 2025” and “Industry 4.0 (2017) Technological Forecasting and Social Change; Kennedy, S., (2018) Made in China 2025,” Center for Strategic and International Studies, , https://doi.org/www.csis.org/analysis/made-china-2025; Liu, S.X., Innovation Design: Made in China 2025 (2016) Design Management Review, 27 (1), pp. 52-58; Shubin, T., Zhi, P., Made in China 2025” and “Industrie 4.0” -In Motion Together (2018) The Internet of Things, pp. 87-113. , Sendler U., (ed; (2012) Global Economy Journal, 12 (3); Maynard, A.D., Navigating the Fourth Industrial Revolution (2015) Nature Nanotechnology, 10 (12), pp. 1005-1006; Elkington, J., Partnerships from Cannibals with Forks: The Triple Bottom Line of 21st-Century Business (1998) Environmental Quality Management, 8 (1), pp. 37-51; Norman, W., MacDonald, C., Getting to the Bottom of Triple Bottom Line (2004) Business Ethics Quarterly, 14 (2), pp. 243-262; (2018) Our Common Future, , https://doi.org/www.worldcat.org/title/our-common-future/oclc/15489268, Oxford University Press, Accessed 10 JUL; Herrmann, C., Schmidt, C., Kurle, D., Blume, S., Thiede, S., Sustainability in Manufacturing and Factories of the Future (2014) International Journal of Precision Engineering and Manufacturing-Green Technology, 1 (4), pp. 283-292; Elkington, J., Towards the Sustainable Corporation: Win-Win-Win Business Strategies for Sustainable Development (1994) California Management Review, 36 (2), pp. 90-100; McWilliams, A., Parhankangas, A., Coupet, J., Welch, E., Barnum, D.T., Strategic Decision Making for the Triple Bottom Line (2016) Business Strategy and the Environment, 25 (3), pp. 193-204; Glavic, P., Lukman, R., Review of Sustainability Terms and Their Definitions (2007) Journal of Cleaner Production, 15 (18), pp. 1875-1885; Littig, B., Griessler, E., Social Sustainability: A Catchword Between Political Pragmatism and Social Theory (2005) International Journal of Sustainable Development, 8 (1-2), pp. 65-79; Bonn, I., (2018) KMU-Definition, , https://doi.org/www.ifm-bonn.org/definitionen/kmu-definition-des-ifm-bonn/, Accessed 10 JUL; Airaksinen, A., Luomaranta, H., Alaj{\"a}{\"a}sk{\"o}, P., Roodhuijzen, A., Stafisfics on Small and Medium-Sized Enterprises. Dependent and Independent SMEs and Large Enterprises (2018) Eurostat Statistics Explained, , https://doi.org/ec.europa.eu/eurostat/statistics-explained/index.php/Statistics\_on\_small\_and\_medium-sized\_enterprises; Jizhe, N., (2018) China Statistical Yearbook -2016, , https://doi.org/www.stats.gov.cn/tjsj/ndsj/2016/indexeh.htm; Radziwon, A., Bilberg, A., Bogers, M., Madsen, E.S., The Smart Factory: Exploring Adaptive and Flexible Manufacturing Solutions (2014) Procedia Engineering, 69, pp. 1184-1190; Buonanno, G., Faverio, P., Pigni, F., Ravarini, A., Sciuto, D., Factors Affecting ERP System Adoption: A Comparative Analysis Between SMEs and Large Companies (2005) Journal of Enterprise Information Management, 18 (4), pp. 384-426; Aspara, J., Lamberg, J.-A., Laukia, A., Tikkanen, H., Corporate Business Model Transformation and Inter-Organizational Cognition: The Case of Nokia (2013) Long Range Planning, 46 (6), pp. 459-474; Brettel, M., Friederichsen, N., Keller, M., Rosenberg, M., How Virtualization, Decentralization and Network Building Change the Manufacturing Landscape: An Industry 4.0 Perspective (2014) International Journal of Mechanical, Industrial Science and Engineering, 8 (1), pp. 37-44; Hansen, E.G., Grosse-Dunker, F., Reichwald, R., Sustainability Innovation Cube — A Framework to Evaluate Sustainability-Oriented Innovations (2009) International Journal of Innovation Management, 13 (4), pp. 683-713; (2016) International Journal of Innovation Management, 20 (6); Hossain, M.S., Muhammad, G., Cloud-Assisted Industrial Internet of Things (IIOT)–Enabled Framework for Health Monitoring (2016) Computer Networks, 101, pp. 192-202; Peukert, B., Benecke, S., Clavell, J., Neugebauer, S., Nissen, N.F., Addressing Sustainability and Flexibility in Manufacturing Via Smart Modular Machine Tool Frames to Support Sustainable Value Creation (2015) Procedia CIRP, 29, pp. 514-519; Schuhmacher, J., Hummel, V., Decentralized Control of Logistic Processes in Cyber-Physical Production Systems at the Example of ESB Logistics Learning Factory (2016) Procedia CIRP, 54, pp. 19-24; Hofmann, E., R{\"u}sch, M., Industry 4.0 and the Current Status as Well as Future Prospects on Logistics (2017) Computers in Industry, 89, pp. 23-34; Zhong, R.Y., Huang, G.Q., Lan, S., Dai, Q., Chen, X., A Big Data Approach for Logistics Trajectory Discovery from RFIDEnabled Production Data (2015) International Journal of Production Economics, 165, pp. 260-272; Zhou, W., Piramuthu, S., Chu, F., Chu, C., RFID-Enabled Flexible Warehousing (2017) Decision Support Systems, 98, pp. 99-112; Kiel, D., Arnold, C., Voigt, K.-I., The Influence of the Industrial Internet of Things on Business Models of Established Manufacturing Companies-A Business Level Perspective (2017) Technovation, 68, pp. 4-19; (2015) International Journal of Innovation Management, 19 (3); Sarkis, J., Zhu, Q., Environmental Sustainability and Production: Taking the Road Less Travelled (2018) International Journal of Production Research, 56 (1-2), pp. 743-759; Ding, K., Jiang, P., Zheng, M., Environmental and Economic Sustainability-Aware Resource Service Scheduling for Industrial Product Service Systems (2017) Journal of Intelligent Manufacturing, 28 (6), pp. 1303-1316; Fysikopoulos, A., Pastras, G., Alexopoulos, T., Chryssolouris, G., On a Generalized Approach to Manufacturing Energy Efficiency (2014) The International Journal of Advanced Manufacturing Technology, 73 (9-12), pp. 1437-1452; Weinert, N., Chiotellis, S., Seliger, G., Methodology for Planning and Operating Energy-Efficient Production Systems (2011) CIRP Annals-Manufacturing Technology, 60 (1), pp. 41-44; Herrmann, C., Thiede, S., Kara, S., Hesselbach, J., Energy Oriented Simulation of Manufacturing Systems-Concept and Application (2011) CIRP Annals-Manufacturing Technology, 60 (1), pp. 45-48; Shrouf, F., Miragliotta, G., Energy Management Based on Internet of Things: Practices and Framework for Adoption in Production Management (2015) Journal of Cleaner Production, 100, pp. 235-246; Chu, W.-S., Kim, M.-S., Jang, K.-H., Song, J.-H., Rodrigue, H., From Design for Manufacturing (DFM) to Manufacturing for Design (MFD) Via Hybrid Manufacturing and Smart Factory: A Review and Perspective of Paradigm Shift (2016) International Journal of Precision Engineering and Manufacturing-Green Technology, 3 (2), pp. 209-222; 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year = "2018",

month = oct,

day = "12",

doi = "10.1007/s40684-018-0056-z",

language = "English",

volume = "5",

pages = "659--670",

journal = "Int. J. Precis. Eng. Manuf. Green Technol.",

issn = "2288-6206",

publisher = "Springer Science + Business Media",

number = "5",

}

TY - JOUR

T1 - Sustainable Industrial Value Creation in SMEs: A Comparison between Industry 4.0 and Made in China 2025

AU - Müller, J.M.

AU - Voigt, K.-I.

N1 - Cited By :162 Export Date: 14 December 2023 Correspondence Address: Müller, J.M.; Salzburg University of Applied Sciences, Urstein Süd 1, Austria; email: [email protected] References: Kagermann, H., Helbig, J., Hellinger, A., Wahlster, W., Recommendations for Implementing the Strategic Initiative Industrie 4.0: Securing the Future of German Manufacturing Industry; Final Report of the Industrie 4.0 Working Group (2013) Forschungsunion; Lasi, H., Fettke, P., Kemper, H.-G., Feld, T., Hoffmann, M., Industry 4.0 (2014) Business & Information Systems Engineering, 6 (4), pp. 239-242; Liao, Y., Deschamps, F., Loures, E.D.F.R., Ramos, L.F.P., Past, Present and Future of Industry 4.0-A Systematic Literature Review and Research Agenda Proposal (2017) International Journal of Production Research, 55 (12), pp. 3609-3629; Arnold, C., Kiel, D., Voigt, K.-I., How the Industrial Internet of Things Changes Business Models in Different Manufacturing Industries (2016) International Journal of Innovation Management, 20 (8), p. 1640015; Kiel, D., Müller, J.M., Arnold, C., Voigt, K.-I., Sustainable Industrial Value Creation: Benefits and Challenges of Industry 4.0 (2017) International Journal of Innovation Management, 21 (8), pp. 1740015-1740034; Beier, G., Niehoff, S., Ziems, T., Xue, B., Sustainability Aspects of a Digitalized Industry - A Comparative Study from China and Germany (2017) International Journal of Precision Engineering and Manufacturing-Green Technology, 4 (2), pp. 227-234; Müller, J.M., Buliga, O., Voigt, K.-I., Fortune Favors the Prepared: How SMEs Approach Business Model Innovations in Industry 4.0 (2018) Technological Forecasting and Social Change, 132, pp. 2-17; Veza, I., Mladineo, M., Gjeldum, N., Managing Innovative Production Network of Smart Factories (2015) IFAC-PapersOnLine, 48 (3), pp. 555-560; Bresnahan, T.F., Trajtenberg, M., General Purpose Technologies ‘Engines of Growth’? (1995) Journal of Econometrics, 65 (1), pp. 83-108; Ivanov, D., Dolgui, A., Sokolov, B., Werner, F., Ivanova, M., A Dynamic Model and an Algorithm for Short -Term Supply Chain Scheduling in the Smart Factory Industry 4.0 (2016) International Journal of Production Research, 54 (2), pp. 386-402; Oesterreich, T.D., Teuteberg, F., Understanding the Implications of Digitisation and Automation in the Context of Industry 4.0: A Triangulation Approach and Elements of a Research Agenda for the Construction Industry (2016) Computers in Industry, 83, pp. 121-139; Ehret, M., Wirtz, J., Unlocking Value from Machines: Business Models and the Industrial Internet of Things (2017) Journal of Marketing Management, 33 (1-2), pp. 111-130; Pike, J., (2018) At&T, CISCO, GE, IBM and Intel Form Industrial Internet Consortium to Improve Integration of the Physical and Digital Worlds: Technology Leaders Drive Industry Ecosystem to Accelerate More Reliable Access to Big Data to Unlock Business Value, , https://doi.org/newsroom.cisco.com/press-release-content?articleId=1375006, Accessed 10 JUL; Kang, H.S., Lee, J.Y., Choi, S., Kim, H., Park, J.H., Smart Manufacturing: Past Research, Present Findings, and Future Directions (2016) International Journal of Precision Engineering and Manufacturing-Green Technology, 3 (1), pp. 111-128; Tian, S., Pan, Z., Made in China 2025 und Industrie 4.0-Gemeinsam in Bewegung (2016) Industrie 4.0 Grenzenlos, pp. 91-118. , Sendler U., (ed; Sun, Y., Cao, C., Demystifying Central Government R&D Spending in China (2014) Science, 345 (6200), pp. 1006-1008; Fu, X., Pietrobelli, C., Soete, L., The Role of Foreign Technology and Indigenous Innovation in the Emerging Economies: Technological Change and Catching-Up (2011) World Development, 39 (7), pp. 1204-1212; Li, L., China’s Manufacturing Locus in 2025: with a Comparison of “Made-in-China 2025” and “Industry 4.0 (2017) Technological Forecasting and Social Change; Kennedy, S., (2018) Made in China 2025,” Center for Strategic and International Studies, , https://doi.org/www.csis.org/analysis/made-china-2025; Liu, S.X., Innovation Design: Made in China 2025 (2016) Design Management Review, 27 (1), pp. 52-58; Shubin, T., Zhi, P., Made in China 2025” and “Industrie 4.0” -In Motion Together (2018) The Internet of Things, pp. 87-113. , Sendler U., (ed; (2012) Global Economy Journal, 12 (3); Maynard, A.D., Navigating the Fourth Industrial Revolution (2015) Nature Nanotechnology, 10 (12), pp. 1005-1006; Elkington, J., Partnerships from Cannibals with Forks: The Triple Bottom Line of 21st-Century Business (1998) Environmental Quality Management, 8 (1), pp. 37-51; Norman, W., MacDonald, C., Getting to the Bottom of Triple Bottom Line (2004) Business Ethics Quarterly, 14 (2), pp. 243-262; (2018) Our Common Future, , https://doi.org/www.worldcat.org/title/our-common-future/oclc/15489268, Oxford University Press, Accessed 10 JUL; Herrmann, C., Schmidt, C., Kurle, D., Blume, S., Thiede, S., Sustainability in Manufacturing and Factories of the Future (2014) International Journal of Precision Engineering and Manufacturing-Green Technology, 1 (4), pp. 283-292; Elkington, J., Towards the Sustainable Corporation: Win-Win-Win Business Strategies for Sustainable Development (1994) California Management Review, 36 (2), pp. 90-100; McWilliams, A., Parhankangas, A., Coupet, J., Welch, E., Barnum, D.T., Strategic Decision Making for the Triple Bottom Line (2016) Business Strategy and the Environment, 25 (3), pp. 193-204; Glavic, P., Lukman, R., Review of Sustainability Terms and Their Definitions (2007) Journal of Cleaner Production, 15 (18), pp. 1875-1885; Littig, B., Griessler, E., Social Sustainability: A Catchword Between Political Pragmatism and Social Theory (2005) International Journal of Sustainable Development, 8 (1-2), pp. 65-79; Bonn, I., (2018) KMU-Definition, , https://doi.org/www.ifm-bonn.org/definitionen/kmu-definition-des-ifm-bonn/, Accessed 10 JUL; Airaksinen, A., Luomaranta, H., Alajääskö, P., Roodhuijzen, A., Stafisfics on Small and Medium-Sized Enterprises. Dependent and Independent SMEs and Large Enterprises (2018) Eurostat Statistics Explained, , https://doi.org/ec.europa.eu/eurostat/statistics-explained/index.php/Statistics_on_small_and_medium-sized_enterprises; Jizhe, N., (2018) China Statistical Yearbook -2016, , https://doi.org/www.stats.gov.cn/tjsj/ndsj/2016/indexeh.htm; Radziwon, A., Bilberg, A., Bogers, M., Madsen, E.S., The Smart Factory: Exploring Adaptive and Flexible Manufacturing Solutions (2014) Procedia Engineering, 69, pp. 1184-1190; Buonanno, G., Faverio, P., Pigni, F., Ravarini, A., Sciuto, D., Factors Affecting ERP System Adoption: A Comparative Analysis Between SMEs and Large Companies (2005) Journal of Enterprise Information Management, 18 (4), pp. 384-426; Aspara, J., Lamberg, J.-A., Laukia, A., Tikkanen, H., Corporate Business Model Transformation and Inter-Organizational Cognition: The Case of Nokia (2013) Long Range Planning, 46 (6), pp. 459-474; Brettel, M., Friederichsen, N., Keller, M., Rosenberg, M., How Virtualization, Decentralization and Network Building Change the Manufacturing Landscape: An Industry 4.0 Perspective (2014) International Journal of Mechanical, Industrial Science and Engineering, 8 (1), pp. 37-44; Hansen, E.G., Grosse-Dunker, F., Reichwald, R., Sustainability Innovation Cube — A Framework to Evaluate Sustainability-Oriented Innovations (2009) International Journal of Innovation Management, 13 (4), pp. 683-713; (2016) International Journal of Innovation Management, 20 (6); Hossain, M.S., Muhammad, G., Cloud-Assisted Industrial Internet of Things (IIOT)–Enabled Framework for Health Monitoring (2016) Computer Networks, 101, pp. 192-202; Peukert, B., Benecke, S., Clavell, J., Neugebauer, S., Nissen, N.F., Addressing Sustainability and Flexibility in Manufacturing Via Smart Modular Machine Tool Frames to Support Sustainable Value Creation (2015) Procedia CIRP, 29, pp. 514-519; Schuhmacher, J., Hummel, V., Decentralized Control of Logistic Processes in Cyber-Physical Production Systems at the Example of ESB Logistics Learning Factory (2016) Procedia CIRP, 54, pp. 19-24; Hofmann, E., Rüsch, M., Industry 4.0 and the Current Status as Well as Future Prospects on Logistics (2017) Computers in Industry, 89, pp. 23-34; Zhong, R.Y., Huang, G.Q., Lan, S., Dai, Q., Chen, X., A Big Data Approach for Logistics Trajectory Discovery from RFIDEnabled Production Data (2015) International Journal of Production Economics, 165, pp. 260-272; Zhou, W., Piramuthu, S., Chu, F., Chu, C., RFID-Enabled Flexible Warehousing (2017) Decision Support Systems, 98, pp. 99-112; Kiel, D., Arnold, C., Voigt, K.-I., The Influence of the Industrial Internet of Things on Business Models of Established Manufacturing Companies-A Business Level Perspective (2017) Technovation, 68, pp. 4-19; (2015) International Journal of Innovation Management, 19 (3); Sarkis, J., Zhu, Q., Environmental Sustainability and Production: Taking the Road Less Travelled (2018) International Journal of Production Research, 56 (1-2), pp. 743-759; Ding, K., Jiang, P., Zheng, M., Environmental and Economic Sustainability-Aware Resource Service Scheduling for Industrial Product Service Systems (2017) Journal of Intelligent Manufacturing, 28 (6), pp. 1303-1316; Fysikopoulos, A., Pastras, G., Alexopoulos, T., Chryssolouris, G., On a Generalized Approach to Manufacturing Energy Efficiency (2014) The International Journal of Advanced Manufacturing Technology, 73 (9-12), pp. 1437-1452; Weinert, N., Chiotellis, S., Seliger, G., Methodology for Planning and Operating Energy-Efficient Production Systems (2011) CIRP Annals-Manufacturing Technology, 60 (1), pp. 41-44; Herrmann, C., Thiede, S., Kara, S., Hesselbach, J., Energy Oriented Simulation of Manufacturing Systems-Concept and Application (2011) CIRP Annals-Manufacturing Technology, 60 (1), pp. 45-48; Shrouf, F., Miragliotta, G., Energy Management Based on Internet of Things: Practices and Framework for Adoption in Production Management (2015) Journal of Cleaner Production, 100, pp. 235-246; Chu, W.-S., Kim, M.-S., Jang, K.-H., Song, J.-H., Rodrigue, H., From Design for Manufacturing (DFM) to Manufacturing for Design (MFD) Via Hybrid Manufacturing and Smart Factory: A Review and Perspective of Paradigm Shift (2016) International Journal of Precision Engineering and Manufacturing-Green Technology, 3 (2), pp. 209-222; 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PY - 2018/10/12

Y1 - 2018/10/12

N2 - The Industrial Internet of Things (IIoT) confronts industrial manufactures with economic, ecological, as well as social benefits and challenges, referring to the Triple Bottom Line of sustainability. So far, research has mainly investigated its dimensions in isolation or economic aspects have not been compared with ecological and social perspectives. Further, research misses studies that are devoted to the special characteristics and requirements of Small and Medium-sized Enterprises (SMEs). This study aims to contribute to close this research gap, providing a research context that encompasses all three dimensions of sustainability. The results are based on data obtained from 329 SMEs, 222 in Germany and 107 in China, therefore allowing for a comparison of the concepts “Industrie 4.0” and “Made in China 2025” in the context of SMEs. In general, German SMEs expect a lower impact through “Industrie 4.0”, perceiving the concept as more beneficial for larger enterprises. We further find that Chinese SMEs foremost see social benefits. Challenges whilst introducing “Industrie 4.0”by German SMEs as well as several frame conditions are perceived more relevant than for “Made in China 2025”, as seen by Chinese SMEs. The paper closes with implications for research and practice based on these findings. © 2018, The Author(s).

AB - The Industrial Internet of Things (IIoT) confronts industrial manufactures with economic, ecological, as well as social benefits and challenges, referring to the Triple Bottom Line of sustainability. So far, research has mainly investigated its dimensions in isolation or economic aspects have not been compared with ecological and social perspectives. Further, research misses studies that are devoted to the special characteristics and requirements of Small and Medium-sized Enterprises (SMEs). This study aims to contribute to close this research gap, providing a research context that encompasses all three dimensions of sustainability. The results are based on data obtained from 329 SMEs, 222 in Germany and 107 in China, therefore allowing for a comparison of the concepts “Industrie 4.0” and “Made in China 2025” in the context of SMEs. In general, German SMEs expect a lower impact through “Industrie 4.0”, perceiving the concept as more beneficial for larger enterprises. We further find that Chinese SMEs foremost see social benefits. Challenges whilst introducing “Industrie 4.0”by German SMEs as well as several frame conditions are perceived more relevant than for “Made in China 2025”, as seen by Chinese SMEs. The paper closes with implications for research and practice based on these findings. © 2018, The Author(s).

KW - Industrial internet of things

KW - Industry 4.0

KW - Made in china 2025 sustainability

KW - Small and medium-sized enterprises

KW - Triple bottom line

KW - Ecology

KW - Economic and social effects

KW - Internet of things

KW - Sustainable development

KW - Economic aspects

KW - Frame conditions

KW - Industrial internets

KW - Made in China

KW - Small and medium sized enterprise

KW - Social perspective

KW - Three dimensions

KW - Triple Bottom Line

KW - Industrial economics

U2 - 10.1007/s40684-018-0056-z

DO - 10.1007/s40684-018-0056-z

M3 - Article

SN - 2288-6206

VL - 5

SP - 659

EP - 670

JO - Int. J. Precis. Eng. Manuf. Green Technol.

JF - Int. J. Precis. Eng. Manuf. Green Technol.

IS - 5

ER -

Sustainable Industrial Value Creation in SMEs: A Comparison between Industry 4.0 and Made in China 2025

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