International Workshop on Successful Strategies in Supply Chain Management Sample Template Paper
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iwspe2018 wang 038 Final
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Introduction Widely considered as one of the most disruptive technologies, blockchain technology (essentially a peer-to-peer distributed database) enables the creation of decentralized currencies such as Bitcoin, self-executing digital contracts (smart contracts) and intelligent assets that can be controlled over the Internet (smart property) (Wright and De Filippi 2015, Kosba et al 2016). Firstly proposed by Nakamoto (2008), recent research on blockchain has been largely in the areas of financial transactions and distributed ledger system (Pilkington 2015). Blockchain technology is the technology architecture underpinning cryptocurrency such as Bitcoin. It uses a shared database that updates itself in real-time and can process and settle transactions in minutes using computer algorithms, with no need for third-party verification (such as banks). However, its impact is far beyond financial transactions. Because blockchain allows secure exchange of data in a distributed manner, it is beginning to impact on the way organisations are governed, supply chain relationships are structured, data is shared, and transactions are conducted. Integrated with other technologies such as Internet-of-Things (IoT), block chain could, for instance, create a permanent, shareable, actionable record of every moment of a product’s trip through its supply chain, creating efficiencies throughout the global economy. Improved visibility and traceability also affords product traceability, authenticity and legitimacy – which is particularly critical to supply chains such as food and luxury products. In practice we start to observe a number of piloting schemes across various sectors trying to exploit the use of blockchain in supply chains. For example, in the shipping sector, South Korea’s Hyundai Merchant Marine (HMM) has announced on September 4, 2017 that it has successfully completed its first pilot voyage using blockchain technology. During the voyage from South Korea’s Busan Port to China’s Qingdao Port on a boxship laden with reefer containers from August 24 to September 4, 2017, blockchain technology was applied not only 2 to shipment booking, but also to cargo delivery. Additionally, HMM tested and reviewed the combining of blockchain technology with the Internet of Things (IoT) through real-time monitoring and managing of the reefer containers on the vessel (HMM, 2017). In the food sector, US hypermarket chain Walmart has said blockchain trials helped it reduce the time it took to trace the movement of mangoes to 2.2 seconds from about seven days currently. In the energy sector, a consortium of companies including BP and Royal Dutch Shell plans to develop a blockchain-based digital platform for energy commodities trading expect to function by end 2018 (reuters.com 2017). Blockchain has also been seen deployed in diamond sector to ensure the authenticity of the products (Amber 2017). Despite the aforementioned interests and efforts in industries in the exploitation of this emerging technology, our understanding of the implications of blockchain to supply chain is fairly limited. Therefore, our primary aim is to explore how this disruptive technology will change the practice of supply chain. Consequently, our research questions (RQs) are; RQ1: Why is blockchain technology important to logistics and supply chain sector? RQ2: Where are disruptions mostly likely to occur? Download 0.65 Mb. Do'stlaringiz bilan baham: 
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