The expected contribution of Industry 4.0 technologies for industrial performance

ABDI - Agência Brasileira de Desenvolvimento Industrial, 2017

Abele, 2007, Mechanical module interfaces for reconfigurable machine tools, Prod. Eng., 1, 421, 10.1007/s11740-007-0057-1

Abramovici, 2007, 665

Alekseev, 2018, Financial strategy of development of industry 4.0 in the countries with developing economy, Rev. Espac., 39

Ali, 2013, 135

Arbix, 2017, Advanced manufacturing: what is to Be learnt from Germany, the US, and China, Novos Estud. CEBRAP, 36, 29, 10.25091/S01013300201700040004

Ayala, 2017, Knowledge sharing dynamics in service suppliers' involvement for servitization of manufacturing companies, Int. J. Prod. Econ., 193, 538, 10.1016/j.ijpe.2017.08.019

Babiceanu, 2016, Big Data and virtualization for manufacturing cyber-physical systems: a survey of the current status and future outlook, Comput. Ind., 81, 128, 10.1016/j.compind.2016.02.004

Bangemann, 2016, Integration of classical components into industrial cyber–physical systems, Proc. IEEE, 104, 947, 10.1109/JPROC.2015.2510981

Bartodziej, 2017, 27

Bascle, 2008, Controlling for endogeneity with instrumental variables in strategic management research, Strat. Organ., 6, 285, 10.1177/1476127008094339

Bernat, 2018, Strategic alignment of technology: organising for technology upgrading in emerging economy firms, Technol. Forecast. Soc. Change

Brettel, 2014, How virtualization, decentralization and network building change the manufacturing Landscape , Int. J. Mech. Ind. Sci. Eng., 8, 37

Bruun, 2015, PLM system support for modular product development, Comput. Ind., 67, 97, 10.1016/j.compind.2014.10.010

Castellacci, 2008, Technological paradigms, regimes and trajectories: manufacturing and service industries in a new taxonomy of sectoral patterns of innovation, Res. Pol., 37, 978, 10.1016/j.respol.2008.03.011

Castellacci, 2013, The dynamics of national innovation systems: a panel cointegration analysis of the coevolution between innovative capability and absorptive capacity, Res. Pol., 42, 579, 10.1016/j.respol.2012.10.006

Chryssolouris, 2009, Digital manufacturing: history, perspectives, and outlook, Proc. Inst. Mech. Eng. Part B J. Eng. Manuf, 223, 451, 10.1243/09544054JEM1241

Clark, 1976, The effects of data aggregation in statistical analysis, Geogr. Anal., 8, 428, 10.1111/j.1538-4632.1976.tb00549.x

CNI - Conseil national de l’industrie, 2013

CNI - Confederação Nacional da Indústria, 2016

Cohen, 2003

Comin, 2004, Cross-country technology adoption: making the theories face the facts, J. Monet. Econ., 51, 39, 10.1016/j.jmoneco.2003.07.003

Coreynen, 2017, Boosting servitization through digitization: pathways and dynamic resource configurations for manufacturers, Ind. Market. Manag., 60, 42, 10.1016/j.indmarman.2016.04.012

Cortimiglia, 2012, ICT trends in Brazil, IT Prof., 14, 31, 10.1109/MITP.2012.70

Crisóstomo, 2011, Financial constraints for innovation in Brazil, Lat. Am. Bus. Rev., 12, 165, 10.1080/10978526.2011.592797

De Sousa Jabbour, 2018, When titans meet–Can industry 4.0 revolutionise the environmentally-sustainable manufacturing wave? The role of critical success factors, Technol. Forecast. Soc. Change, 132, 18, 10.1016/j.techfore.2018.01.017

Dochtermann, 2011, Multivariate methods and small sample sizes, Ethology, 117, 95, 10.1111/j.1439-0310.2010.01846.x

Dregger, 2016, The digitization of manufacturing and its societal challenges: a framework for the future of industrial labor, 1

Eaton, 1999, International technology diffusion: theory and measurement, Int. Econ. Rev.. (Philadelphia), 40, 537, 10.1111/1468-2354.00028

Fatorachian, 2018, A critical investigation of Industry 4.0 in manufacturing: theoretical operationalisation framework, Prod. Plann. Contr., 1

Franco, 2011, Patterns of innovation practices of multinational-affiliates in emerging economies: evidences from Brazil and India, World Dev., 39, 1249, 10.1016/j.worlddev.2011.03.003

Frank, 2016, The effect of innovation activities on innovation outputs in the Brazilian industry: market-orientation vs. technology-acquisition strategies, Res. Pol., 45, 577, 10.1016/j.respol.2015.11.011

Frank, 2015, Factors influencing knowledge transfer between NPD teams: a taxonomic analysis based on a sociotechnical approach, R D Manag., 45, 1

Garrett, 2014, 3D printing: new economic paradigms and strategic shifts, Glob. Pol., 5, 70, 10.1111/1758-5899.12119

Gerber, 2013, 263

Gilchrist, 2016

Guan, 2006, Technology transfer and innovation performance: evidence from Chinese firms, Technol. Forecast. Soc. Change, 73, 666, 10.1016/j.techfore.2005.05.009

Hair, 2009

Hall, 2008, Evaluating the impact of technology development funds in emerging economies: evidence from Latin America, Eur. J. Dev. Res., 20, 172, 10.1080/09578810802060819

Hansen, 2018, vol. 84, 198

Hendrick, 2001

Hermann, 2016, Design principles for industrie 4.0 scenarios

Hozdić, 2015, Smart factory for industry 4.0: a review, Int. J. Mod. Manuf. Technol., 7, 28

Jazdi, 2014, Cyber physical systems in the context of Industry 4.0, 1

Jeschke, 2017

Kagermann, 2015, Change through digitization—value creation in the age of industry 4.0, 23

Kagermann, 2013

Ketokivi, 2017, Addressing the endogeneity dilemma in operations management research: theoretical, empirical, and pragmatic considerations, J. Oper. Manag., 52, 1, 10.1016/j.jom.2017.05.001

Kiel, 2016, The impact of the industrial internet of things on established business models, 673

Konyha, 2017, Sensor networks for smart manufacturing processes, Solid State Phenom., 261, 456, 10.4028/www.scientific.net/SSP.261.456

Krawczyński, 2016, Reindustrialization: a challenge to the economy in the first quarter of the twenty-first century, Found. Manag., 8, 10.1515/fman-2016-0009

Kumar, 2013

Langner, 2009, Collaborative concept development using supplier competitions: insights from the automotive industry, J. Eng. Technol. Manag., 26, 1, 10.1016/j.jengtecman.2009.03.007

Lasi, 2014, Industry 4.0, Bus. Inf. Syst. Eng., 6, 239, 10.1007/s12599-014-0334-4

Liao, 2017, Past, present and future of Industry 4.0-a systematic literature review and research agenda proposal, Int. J. Prod. Res., 55, 3609, 10.1080/00207543.2017.1308576

Luthra, 2018, Evaluating challenges to Industry 4.0 initiatives for supply chain sustainability in emerging economies, Process Saf. Environ. Protect., 117, 168, 10.1016/j.psep.2018.04.018

MacCallum, 2001, Sample size in factor analysis: the role of model error, Multivariate Behav. Res., 36, 611, 10.1207/S15327906MBR3604_06

Man, 2017, An industry 4.0 research agenda for sustainable business models, Proced. CIRP, 63, 721, 10.1016/j.procir.2017.03.315

Marodin, 2017, Lean production and operational performance in the Brazilian automotive supply chain, Total Qual. Manag. Bus. Excel., 1

Marodin, 2016, Contextual factors and lean production implementation in the Brazilian automotive supply chain, Supply Chain Manag. An Int. J., 21, 417, 10.1108/SCM-05-2015-0170

Marodin, 2017, The moderating effect of Lean supply chain management on the impact of Lean shop floor practices on quality and inventory, Supply Chain Manag. An Int. J., 22, 473, 10.1108/SCM-10-2016-0350

Mendonça, 2008, Information technology and productivity: evidence for Brazilian industry from firm-level data, Inf. Technol. Dev., 14, 136, 10.1002/itdj.20091

Mendonça, 2009, Tecnologia da informação e produtividade na indústria brasileira, Rev. Adm. Empres., 49, 74, 10.1590/S0034-75902009000100009

Miranda, 2017, Sensing, smart and sustainable product development (S 3 product) reference framework, Int. J. Prod. Res., 1

Nakata, 2012, Enhancing new product adoption at the base of the pyramid: a contextualized model, J. Prod. Innovat. Manag., 29, 21, 10.1111/j.1540-5885.2011.00876.x

Olavarrieta, 2014, Innovation and business research in Latin America: an overview, J. Bus. Res., 67, 489, 10.1016/j.jbusres.2013.11.005

Parente, 1994, Barriers to technology adoption and development, J. Polit. Econ., 102, 298, 10.1086/261933

Parlanti, 2017, Smart shopfloors and connected platforms in Industry 4.0, Electron. World, 123, 26

Peng, 2014, Collaborative product development: the effect of project complexity on the use of information technology tools and new product development practices, Prod. Oper. Manag., 23, 1421, 10.1111/j.1937-5956.2012.01383.x

Phillips, 1994, International technology adoption, J. Bus. Ind. Market., 9, 16, 10.1108/08858629410059762

Porter, 2014, How smart, connected products are transforming competition, Harv. Bus. Rev., 92, 64

PWC - PricewaterhouseCoopers, 2016

Qin, 2016, A categorical framework of manufacturing for industry 4.0 and beyond, Proced. CIRP, 52, 173, 10.1016/j.procir.2016.08.005

Rafael, 2014

Ramani, 2017, High-value hi-tech product introduction in emerging countries, Qual. Market Res. Int. J., 20, 208, 10.1108/QMR-01-2017-0034

Ras, 2017, Bridging the skills gap of workers in industry 4.0 by human performance augmentation tools: challenges and roadmap, 428

Reischauer, 2018, Industry 4.0 as policy-driven discourse to institutionalize innovation systems in manufacturing, Technol. Forecast. Soc. Change, 132, 26, 10.1016/j.techfore.2018.02.012

Robertson, 1986, Competitive effects on technology diffusion, J. Market., 50, 1, 10.1177/002224298605000301

Saldivar, 2015, Industry 4.0 with cyber-physical integration: a design and manufacture perspective, 1

Scheer, 1994

Schuh, 2017

Schumacher, 2016, A maturity model for assessing industry 4.0 readiness and maturity of manufacturing enterprises, Proced. CIRP, 52, 161, 10.1016/j.procir.2016.07.040

Schwab, 2017

Stark, 2011

Steimer, 2016, Approach for an integrated planning of manufacturing systems based on early phases of product development, Proced. CIRP, 57, 467, 10.1016/j.procir.2016.11.081

Stock, 2016, Opportunities of sustainable manufacturing in industry 4.0, Proced. CIRP, 40, 536, 10.1016/j.procir.2016.01.129

Tao, 2018, Digital twin-driven product design, manufacturing and service with big data, Int. J. Adv. Manuf. Technol., 94, 3563, 10.1007/s00170-017-0233-1

Tao, 2018, Data-driven smart manufacturing, J. Manuf. Syst., 10.1016/j.jmsy.2018.01.006

Viotti, 2002, National Learning Systems: a new approach on technological change in late industrializing economies and evidences from the cases of Brazil and South Korea, Technol. Forecast. Soc. Change, 69, 653, 10.1016/S0040-1625(01)00167-6

Wahlster, 2013

Wamba, 2015, How “big data” can make big impact: findings from a systematic review and a longitudinal case study, Int. J. Prod. Econ., 165, 234, 10.1016/j.ijpe.2014.12.031

Wang, 2015, Current status and advancement of cyber-physical systems in manufacturing, J. Manuf. Syst., 37, 517, 10.1016/j.jmsy.2015.04.008

Wang, 2016, Implementing smart factory of industrie 4.0: an outlook, Int. J. Distributed Sens. Netw.

Wei, 2017, Manufacturing flexibility, business model design, and firm performance, Int. J. Prod. Econ., 193, 87, 10.1016/j.ijpe.2017.07.004

Weller, 2015, Economic implications of 3D printing: market structure models in light of additive manufacturing revisited, Int. J. Prod. Econ., 164, 43, 10.1016/j.ijpe.2015.02.020

Westerman, 2014

Yin, 2017, The evolution of production systems from Industry 2.0 through Industry 4.0, Int. J. Prod. Res., 1

Yu, 2015, Computer-integrated manufacturing, cyber-physical systems and cloud manufacturing – concepts and relationships, Manuf. Lett., 6, 5, 10.1016/j.mfglet.2015.11.005

Zhou, 2017

Zhou, 2015, Industry 4.0: towards future industrial opportunities and challenges, 2147

Zuniga, 2013, Innovation strategies and employment in Latin American firms, Struct. Chang. Econ. Dyn., 24, 1, 10.1016/j.strueco.2012.11.001