**Author details**

Oscar Lage TECNALIA, Parque Científico y Tecnológico de Bizkaia, Spain

\*Address all correspondence to: oscar.lage@tecnalia.com

© 2019 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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*Blockchain: From Industry 4.0 to the Machine Economy DOI: http://dx.doi.org/10.5772/intechopen.88694*

> [9] Folinas D, Manikas I, Manos B. Traceability data management for food chains. British Food Journal.

[10] Kagermann H. Change through digitization—Value creation in the age of Industry 4.0. In: Management of Permanent Change. Wiesbaden: Springer Gabler; 2015. pp. 23-45

Wrobel S. International data spaces. In: Digital Transformation. Berlin, Heidelberg: Springer Vieweg; 2019.

[12] Lee J, Kao HA, Yang S. Service innovation and smart analytics for Industry 4.0 and big data environment.

[13] Zheng Z, Xie S, Dai H, Chen X, Wang H. An overview of blockchain technology: Architecture, consensus, and future trends. In: 2017 IEEE International Congress on Big Data (BigData Congress). IEEE; 2017, June.

Pentland A. Enigma: Decentralized

guaranteed privacy. arXiv preprint

[15] Roos, J. Identity Management on the Blockchain. Chair of Network Architectures and Services, Department of Computer Science, Technische Universität München. 2018. p. 105. https://doi.org/10.2313/

[16] Breivold HP, Sandström K. Internet of things for industrial automation- challenges and technical solutions. In: 2015 IEEE International Conference on Data Science and Data Intensive Systems. IEEE; 2015. pp. 532-539

2006;**108**(8):622-633

[11] Otto B, ten Hompel M,

Procedia CIRP. 2014;**16**:3-8

[14] Zyskind G, Nathan O,

computation platform with

arXiv:1506.03471; 2015

NET-2018-11-1\_14

pp. 109-128

pp. 557-564

**References**

2014;**19**:51-56

[1] Schuh G, Potente T, Wesch-Potente C, Weber AR, Prote JP. Collaboration mechanisms to increase productivity in the context of Industries 4.0. Procedia CIRP.

[2] Marques M, Agostinho C,

Zacharewicz G, Jardim-Gonçalves R. Decentralized decision support for intelligent manufacturing in Industry 4.0. Journal of Ambient Intelligence and Smart Environments. 2017;**9**(3):299-313

[3] Drescher D. Blockchain Basics.

Berkeley, CA: Apress; 2017

[4] Banterle A, Stranieri S. The

An application of transaction cost economics. Food Policy.

[5] Maro S, Steghöfer JP, Staron M. Software traceability in the automotive domain: Challenges and solutions. Journal of Systems and Software.

Hasty R. Aftermarket support and the supply chain: Exemplars and implications from the aerospace Industry. International Journal of Physical Distribution and Logistics Management. 2005;**35**(1):6-19

2008;**33**(6):560-569

2018;**141**:85-110

[6] Farris M, Wittmann C,

[7] Heyder M, Theuvsen L,

[8] Kagermann H, Anderl R,

2012;**37**(1):102-113

Hollmann-Hespos T. Investments in tracking and tracing systems in the food Industry: A PLS analysis. Food Policy.

Gausemeier J, Schuh G, Wahlster W. Industries 4.0 in a Global Context: Strategies for Cooperating with International Partners. New York: Herbert Utz Verlag. 2016. pp. 19-23

consequences of voluntary traceability system for supply chain relationships.

*Blockchain: From Industry 4.0 to the Machine Economy DOI: http://dx.doi.org/10.5772/intechopen.88694*
