The future of blockchain in the supply chain industry

6

October

2019

5/5 (1)
Source: (Miller, 2019)
Source: (Miller, 2019)

The future of blockchain in the supply chain industry

Blockchain is the promised land for lean transactions, they do not require a middleman anymore since trust is established by cryptography. Although it all sounds very realistic, how fast can we actually make use of it on a greater scale? More specifically, how can a modern supply chain make use it the new technology?

I will start with a short explanation of the blockchain technology. It is a decentralized database, which stores a registry of assets and transactions across a peer-to-peer network. These transactions are secured through cryptography, over time a transaction gets history, or time stamped, and is locked in blocks of data. These blocks are thereafter linked together. However, not all blockchains are the same. One should consider permissionless (open, public) and permissioned (closed, private). (Alicke et al., 2017) In this article we only consider closed/private blockchains.

Supply chain has potential benefit from blockchain as it is mostly complex and not transparent. The reliability and integrity that is needed in supply chains is part of the blockchain technology. E.g. to see the chain of ownership of goods (to trace all products to its source), and thereby have the option to eliminate illegal items, items produced with child labour and the like. Moreover, records cannot be deleted from the chain, there is no way wrongdoers can screw the system. (Marr, 2018)

In the supply chain one can think of the following applications. First, slow and manual processes can be substituted. Secondly, traceability can be enhanced. And supply chain related transaction costs can be reduced, e.g. by using blockchain for making payments. But in order to get there a lot needs to change. For example, data accuracy and availability, generating company wide standards that even go beyond your own company (in your supply chain), who will pay and who can do it (highly educated talent is needed). (Alicke et al., 2017) & (Marr, 2018)

In my opinion, blockchain has great potential but should be considered an option, not a must. The complexity and costs that come along with the new technology might not always pay off. Simpler and faster solutions might also very well do the job. Moreover, many companies do not seem to be ready for it yet. Data, knowledge, employees’ mindset and more cooperative IT and business leadership is needed to make blockchain adoption successful in your supply chain. Which is confirmed by my own experience, from working in corporate and scale up companies that want to adopt new technologies as much as possible.

References:

Alicke, K., Davies, A., Leopoldseder, M., & Niemeyer, A. (2017). Blockchain technology for supply chains–A must or a maybe?. Retrieved 6 October 2019, from https://www.mckinsey.com/business-functions/operations/our-insights/blockchain-technology-for-supply-chainsa-must-or-a-maybe

Marr, B. (2018). How Blockchain Will Transform The Supply Chain And Logistics Industry. Retrieved 6 October 2019, from https://www.forbes.com/sites/bernardmarr/2018/03/23/how-blockchain-will-transform-the-supply-chain-and-logistics-industry/#131b03ad5fec

Miller, J. (2019). Microsoft and Intel Believe that Blockchain Technology is Not Upto Scratch. Retrieved 6 October 2019, from https://www.cryptonewsz.com/microsoft-and-intel-believe-that-blockchain-technology-is-not-upto-scratch/19489/

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The borderless future of health care

4

October

2019

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Telesurgery and robotics enable the healthcare industry to be at its best anywhere, anytime in the world. But is this realistic?

The healthcare industry is in great move, where hospitals and health clinics are not but the patient is key and at centre. The main technology that can currently provide borderless health care is telesurgery. In other words, when 5G and robotics are combined, surgery can be done from any place on earth on anybody anywhere on the planet, without any geographical limitations. The location of patients gets a subordinate role to access of top-quality health care.

Obviously, this has great impact on future surgery, now quality surgery is available from unlimited distances, even in developing countries where top quality health care is lacking. Moreover, these areas are very hard to reach for doctors, it would be a great time safer if they could work from ‘home’. Additionally, doctors from all over the world can now work together. For example, a patient needs a very tough and complicated brain surgery and only very few people know how to execute the operation. Moreover, performance increases and the most modern techniques can be used as telesurgery make use of robotics. Human imprecision, tremors and clumsiness can now be eliminated. (Choi et al. 2018)

5G is currently quickly expanding and rolled-out widely across the globe. According to Ericsson Mobility Report June 2019 (2019) up to 65% global population, or 1.9 billion people, could have access to 5G by 2024. 5G is the fifth generation of wireless mobile network technology. Speed, bandwidth and reaction time on this new network will improve drastically. Enabling fast and stable network. However, it is mostly adopted in crowded and wealthy regions, developing countries need to overcome some hurdles first. For example, energy sources need to be stable and powerful, coverage cannot be guaranteed with too little signal and users and the government needs to subsidize users and implementation. (Chiaraviglio et al., 2016)

In conclusion, telesurgery is a big step in the right direction for reaching SDG3 (“Health – United Nations Sustainable Development”, 2019), good health and well-being for everyone. Limitations are that the changes will only take place at a slow pace since it is a very robust, inflexible industry. It is not agile and not sensitive to disruptive technologies. Moreover, the benefit will really be visible once 5G is implemented more widely, not just in a few advanced countries.

 

References:

Chiaraviglio, L., Blefari-Melazzi, N., Liu, W., Gutierrez, J. A., Van De Beek, J., Birke, R. & Wu, J. (2016, November). 5G in rural and low-income areas: Are we ready? In 2016 ITU Kaleidoscope: ICTs    for a Sustainable World (ITU WT) (pp. 1-8). IEEE.

Choi, P. J., Oskouian, R. J. & Tubbs, R. S. (2018). Telesurgery: Past, Present, and Future, Cureus.

Ericsson Mobility Report June 2019. (2019). Retrieved 4 October 2019, from

https://www.ericsson.com/en/mobility-report/reports/june-2019

Health – United Nations Sustainable Development. (2019). Retrieved 4 October 2019, from         https://www.un.org/sustainabledevelopment/health/

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