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Supply Chain Virtualization: Facilitating Agent Trust Utilizing Blockchain Technology

  • Kane J. Smith
  • Gurpreet DhillonEmail author
Chapter
Part of the Springer Series in Supply Chain Management book series (SSSCM, volume 7)

Abstract

In this chapter, through the lens of information security, we discuss the use of blockchain technology as a mechanism for facilitating trust between various supply chain agents. The goal is to explicate the use of blockchain technology as a distributed ledger to mitigate a varied set of risks to supply chain virtualization, whereby various agents within the supply chain context can engage in transactions with an immutable and cryptographically secure record. This immutable and secure record would then serve as the foundation of a mutually beneficial relationship, built upon the blockchain technology, by engendering greater trust among supply chain agents. The usefulness of blockchain technology is such that it enables information to be stored using a cryptographically secure hash and be distributed among multiple record-keeping nodes. Each agent within the supply chain context can act as a node and, by maintaining a copy of the record, create a distributed ledger of information. This provides two distinct benefits that facilitate trust among agents within the supply chain context; first, agents acting as nodes within the blockchain possess a copy of the information record, which cannot be altered without their consent. Second, information is stored on the blockchain using a secure method of encryption that provides protection against tampering from malicious sources and security of the information contained on the chain. Therefore, these two benefits of blockchain technology provide supply chain agents with powerful trust-building mechanisms, which extricate fear and allay concerns when interacting with new or unknown agents.

References

  1. Abeyratne, S. A., & Monfared, R. P. (2016). Blockchain ready manufacturing supply chain using distributed ledger. International Journal of Research in Engineering and Technology, 5(9), 1–10.CrossRefGoogle Scholar
  2. Akkermans, H., Bogerd, P., & Van Doremalen, J. (2004). Travail, transparency and trust: A case study of computer-supported collaborative supply chain planning in high-tech electronics. European Journal of Operational Research, 153(2), 445–456.CrossRefGoogle Scholar
  3. Apte, S., & Petrovsky, N. (2016). Will blockchain technology revolutionize excipient supply chain management? Journal of Excipients and Food Chemicals, 7(3), 76–78.Google Scholar
  4. Awaysheh, A., & Klassen, R. D. (2010). The impact of supply chain structure on the use of supplier socially responsible practices. International Journal of Operations & Production Management, 30(12), 1246–1268.CrossRefGoogle Scholar
  5. Ba, S., & Pavlou, P. A. (2002). Evidence of the effect of trust building technology in electronic markets: Price premiums and buyer behavior. MIS Quarterly, 26(3), 243–268.CrossRefGoogle Scholar
  6. Bheemaiah, K. (2015). Blockchain 2.0: The renaissance of money. Retrieved from https://www.wired.com/insights/2015/01/block-chain-2-0/.
  7. Bloom, J. D., & Hinrichs, C. C. (2016). Informal and formal mechanisms of coordination in hybrid food value chains. Journal of Agriculture, Food Systems, and Community Development, 1(4), 143–156.Google Scholar
  8. Boyson, S. (2014). Cyber supply chain risk management: Revolutionizing the strategic control of critical IT systems. Technovation, 34(7), 342–353.CrossRefGoogle Scholar
  9. Bygballe, L. E., Dewulf, G., & Levitt, R. E. (2015). The interplay between formal and informal contracting in integrated project delivery. Engineering project organization journal, 5(1), 22–35.CrossRefGoogle Scholar
  10. Chandrashekar, A., & Schary, P. B. (1999). Toward the virtual supply chain: The convergence of IT and organization. The International Journal of Logistics Management, 10(2), 27–40.CrossRefGoogle Scholar
  11. Duhigg, C., & Greenhouse, S. (2012, March 29). Electronic giant vowing reforms in china plants. Retrieved from https://www.nytimes.com/2012/03/30/business/apple-supplier-in-china-pledges-changes-in-working-conditions.html.
  12. Francisco, K., & Swanson, D. (2018). The supply chain has no clothes: Technology adoption of blockchain for supply chain transparency. Logistics, 2(1), 2.CrossRefGoogle Scholar
  13. Gefen, D., & Straub, D. W. (2004). Consumer trust in B2C e-Commerce and the importance of social presence: Experiments in e-Products and e-Services. Omega, 32(6), 407–424.CrossRefGoogle Scholar
  14. Hande, P. V., & Ghosh, D. (2015). A comparative study on factors shaping buying behaviour on B2B and B2C E-commerce platforms in India. EXCEL International Journal of Multidisciplinary Management Studies, 5(3), 1–10.Google Scholar
  15. Ho, D. C., Au, K. F., & Newton, E. (2003). The process and consequences of supply chain virtualization. Industrial Management & Data Systems, 103(6), 423–433.CrossRefGoogle Scholar
  16. Ho, W., Zheng, T., Yildiz, H., & Talluri, S. (2015). Supply chain risk management: A literature review. International Journal of Production Research, 53(16), 5031–5069.CrossRefGoogle Scholar
  17. Ireland, R. D., & Webb, J. W. (2007). A multi-theoretic perspective on trust and power in strategic supply chains. Journal of Operations Management, 25(2), 482–497.CrossRefGoogle Scholar
  18. Iansiti, M., & Lakhani, K. R. (2017). The truth about blockchain. Harvard Business Review, 1.Google Scholar
  19. Jüttner, U. (2005). Supply chain risk management: Understanding the business requirements from a practitioner perspective. The International Journal of Logistics Management, 16(1), 120–141.CrossRefGoogle Scholar
  20. Khan, O., & Estay, D. A. S. (2015). Supply chain cyber-resilience: Creating an agenda for future research. Technology Innovation Management Review, 5(4), 6–12.CrossRefGoogle Scholar
  21. Korpela, K., Hallikas, J., & Dahlberg, T. (2017). Digital supply chain transformation toward blockchain integration. In Proceedings of the 50th Hawaii International Conference on System Sciences.Google Scholar
  22. Lamming, R. C., Caldwell, N. D., Harrison, D. A., & Phillips, W. (2001). Transparency in supply relationships: Concept and practice. Journal of Supply Chain Management, 37(3), 4–10.CrossRefGoogle Scholar
  23. Lu, T., Guo, X., Xu, B., Zhao, L., Peng, Y., & Yang, H. (2013). Next big thing in big data: The security of the ICT supply chain. In 2013 International Conference on Social Computing (SocialCom) (pp. 1066–1073). IEEE.Google Scholar
  24. Mason-Jones, R., & Towill, D. R. (1998). Shrinking the supply chain uncertainty cycle. IOM Control, 17–22.Google Scholar
  25. Nakamoto, S. (2008, October). Bitcoin: A peer-to-peer electronic cash system. Retrieved from https://bitcoin.org/bitcoin.pdf.
  26. Osipkov, I., Vasserman, E., Hopper, N., & Kim, Y. (2007). Combating double-spending using cooperative P2P systems. Retrieved from http://people.cs.ksu.edu/~eyv/papers/ecash-icdcs07.pdf.
  27. Samonas, S., & Coss, D. (2014). The CIA strikes back: Redefining confidentiality, integrity and availability in security. Journal of Information System Security, 10(3).Google Scholar
  28. Savolainen, T. (2014). Trust-building in e-leadership: A case study of leaders’ challenges and skills in technology-mediated interaction. Journal of Global Business Issues, 8(2), 45.Google Scholar
  29. Shepard, W. (2017, December 21). How to avoid dangerous counterfeits on Amazon this holiday season. Retrieved from https://www.forbes.com/sites/wadeshepard/2017/12/13/how-to-protect-your-family-from-dangerous-fakes-on-amazon-this-holiday-season/#75f5ffed7cf1.
  30. Skilton, P. F., & Robinson, J. L. (2009). Traceability and normal accident theory: How does supply network complexity influence the traceability of adverse events? Journal of Supply Chain Management, 45(3), 40–53.CrossRefGoogle Scholar
  31. S. L. (2015, November 02). Who is Satoshi Nakamoto? Retrieved from http://www.economist.com/blogs/economist-explains/2015/11/economist-explains-1.
  32. Verdouw, C. N., Wolfert, J., Beulens, A. J. M., & Rialland, A. (2016). Virtualization of food supply chains with the internet of things. Journal of Food Engineering, 176, 128–136.CrossRefGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.The University of North Carolina GreensboroGreensboroUSA

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