If someone told you that the technology underpinning the cryptocurrency Bitcoin will likely revolutionize much of the way we do business in the next ten years, you might shrug it off. I would like to tell you it’s just the beginning, and that it might also revolutionize Naval Additive Manufacturing, finance, and logistics writ large, and that’s only scratching the surface.
Blockchain quite simply is a “distributed database” shared through peer to peer connections in such a way that each block is a unique record that gets added to the end of the “chain.” The records are permanent and are unable to be modified. This bond creates trust between all the members of the chain and removes the need for third party mediators to handle transactions, or any other transfer of information.
This “immutable trust” allows for the removal of members not providing value (formerly used as middle-men or brokers) and allows two or more parties to conduct transactions with complete trust. If you can imagine any transaction in your life that depended on trust between you and someone you did not know, you will immediately see the value in Blockchain.
When looking for a test bed for this technology, it quickly became clear that Naval Additive Manufacturing was a perfect match. The ability to secure and securely share data throughout the manufacturing process (from design, prototyping, testing, production, and ultimately disposal) is critical to Additive Manufacturing and will form the foundation for future advanced manufacturing initiatives.
These efforts are pushing the production of critical pieces of gear and equipment closer and closer to deployed forces. While this change is greatly helping our material readiness, it creates the potential for vulnerabilities and makes the need for a cryptographically secure, traceable, immutable, and controllable data flow of utmost importance.
To put it plainly, when it comes to Additive Manufacturing, it’s all about the data, the “Digital Thread.”
Digital Thread: a single, seamless strand of data that stretches from the initial design concept to the finished part, constituting the information that enables the design, modeling, production, use, and monitoring of an individual manufactured part.
— A. R. Nassar and E. W. Reutzel.
This summer the NIAC will conduct a series of experiments (including a proof of concept) using blockchain technology to both securely share data between Additive Manufacturing sites, as well as help secure the digital thread of design and production. In September, a report will be issued, showing the practical application of this technology in a controlled environment, and then illustrating the ability to open the aperture and dramatically revolutionize other aspects of Naval operations.
-- A. R. Nassar and E. W. Reutzel, “A proposed digital thread for additive manufacturing,” Solid Freeform Fabrication Symposium Proceedings, University of Texas, Austin, TX, August 2013.
-- Figure 1 retrieved June 7, 2017, from https://followmyvote.com/online-voting-technology/blockchain-technology/
Lt. Cmdr Jon McCarter is a member of the FY17 SECNAV Naval Innovation Advisory Council (NIAC), a dynamic forum for advisors to conduct research, advance problem-solving projects, and advise the Secretary of the Navy on innovation opportunities within the DON. The DON Office of Strategy and Innovation coordinates support and oversight of the NIAC. The opinions expressed here are solely those of the authors, and do not necessarily reflect those of the Department of the Navy, Department of Defense or the United States government. For more information, please contact DON_Innovation@navy.mil.