Revisión de la capacidad de transparencia y confianza que ofrece la tecnología blockchain

Manuela Linares-Barbero

doi:10.26439/interfases2018.n011.2957

Authors

Manuela Linares-Barbero Universidad de Lima (Perú)

DOI:

https://doi.org/10.26439/interfases2018.n011.2957

Keywords:

blockchain, supply chain, transparency, trust, reliability, distributed systems

Abstract

Trust is a fundamental element of the contemporary world, especially in the different transactions carried out by companies. The increase of fraud, as well as the falsification of products and/or services, has generated that companies must spend money and efforts in implementing reprocesses and security measures. Transparent transactions have become a challenge that many seek to achieve. One of the great proposals of reliable transactions is the blockchain technology. It can offer us transparency in transactions and trust among organizations, even if they do not know each other beforehand. In our article, we will review the literature on the capacity for transparency and trust that the blockchain technology presents in the supply chain.

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Author Biography

Manuela Linares-Barbero, Universidad de Lima (Perú)

Ingeniera de sistemas y magíster en administración de negocios (MBA) por la Universidad de Lima. Obtuvo una certificación en e-commerce con honores por la Universidad de Coventry. Es consultor de negocios y tecnología, con más de 21 años de experiencia laboral en Perú y en Inglaterra. Posee experiencia en el rediseño de procesos productivos, operativos, administrativos y académicos; y en la definición de propuesta de mejora para automatizar la operación de la empresa, así como la implementación de soluciones de negocio. Tiene experiencia como responsable de brindar soporte funcional y operativo a empresas financieras, productivas y educativas, así como capacitación a usuarios finales en las soluciones de negocio. Es docente en la Universidad de Lima y candidata a doctora por la Universidad Pablo de Olavide.

References

Anh Dinh, T., Liu, R., Zhang, M., Chen, G., Chin Ooi, B., y Wang, J. (2018, Julio). Untangling Blockchain: A Data Processing View of Blockchain Systems. IEEE Transactions on Knowledge and Data Engineering, 30(7), 1366-1385. doi:10.1109/TKDE.2017.2781227.

Atzei, N., Bartoletti, M. y Cimoli, T. (2017). A Survey of Attacks on Ethereum Smart Contracts (SoK). 6th International Conference on Principles of Security and Trust (pp. 164-186). Uppsala, Sweden: Spriger.

Beninger, P. (2017). Opportunities for Collaboration at the Interface of Pharmacovigilance and Manufacturing. Clinical Therapeutics, 39(4), 702-712. Recuperado de: http://dx.doi.org/10.1016/j.clinthera.2017.03.010.

Casey, M. y Wong, P. (2017). Global supply chains are about to get better, thanks to blockchain. Harvard Business Review, 13.

Chen, G., Xu, B., Lu, M. y Chen, N.-S. (2018). Exploring blockchain technology and its potential applications for education. Smart Learning Environments, 5(1), 1-10.

Christidis, K. y Devetsikiotis, M. (2016). Blockchains and smart contracts for the internet of things. IEEE Access, 4, 2292-2303. doi:10.1109/ACCESS.2016.2566339.

Cocco, L., Pinna, A. y Marchesi, M. (2017). Banking on Blockchain: Costs Savings Thanks to the Blockchain Technology. Future internet, 9(25), 1-20.

Egelund-Müller, B., Elsman, M., Henglein, F. y Ross, O. (2017). Automated Execution of Financial Contracts on Blockchains. Business y Information Systems Engineering.

Engelenburg, S., Janssen, M. y Klievink, B. (2017). Design of a software architecture supporting business-to-government information sharing to improve public safety and security. Journal of Intelligent information systems. doi:10.1007/s10844-017-0478-z

Faye, P. (2017). Use of Blockchain Technology in Agribusiness: Transparency and Monitoring in Agricultural Trade. 4th International Conference on Management Science and Management Innovation. 31, pp. 38-40. Suzhou, China: AEBMR-Advances in Economics Business and Management Research.

Firica, O. (Octubre de 2017). Blockchain technology: Promises and realities of the year 2017. QualityAccess to Success, 18(S3), 51-58.

Fu, B., Shu, Z. y Liu, X. (2018). Blockchain Enhanced Emission Trading Framework in Fashion Apparel Manufacturing Industry. Sustainability, 10(1105), 1-19.

Hanifatunnisa, R. y Rahardjo, B. (2017). Blockchain Based E-Voting Recording System Design. 11th International Conference on Telecomunication Systems Services and Applications. Lombok, Indonesia: IEEE.

Hwang, J., Choi, M.-I., Lee, T., Jeon, S., Kim, S., Park, S. y Park, S. (2017). Energy Prosumer Business Model Using Blockchain System to Ensure Transparency and Safety. 4th International Conference on Power and Energy Systems Engineering (pp. 194-198). Berlin, Alemania: Elsevier.

Kaal, W. (2017). Crypto Transaction Dispute Resolution. The Business Lawyer, 109-152.

Kamel Boulos, M. N., Wilson, J. T. y Clauson, K. A. (2018). Geospatial blockchain: promises, challenges, and scenarios in health and healthcare. International Journal of Health Geographics, 17-25.

Khan, K., Arshad, J. y Khan, M. (2018). Secure Digital Voting System Based on Blockchain Technology. International Journal of Electronic Government Research, 14(1), 53-62.

Kshetri, N. (2018). Blockchain’s roles in meeting key supply chain management objectives. International Journal of Information Management, 39, 80-89.

Liao, D.-Y. y Wang, X. (2017). Design of A Blockchain-based Lottery System for Smart Cities Applications. 3rd International Conference on Collaboration and Internet Computing (pp. 275-282). Newark, California: IEEE.

Lin, I.-C. y Liao, T.-C. (2017). A Survey of Blockchain Security Issues and Challenges. International Journal of Network Security, 19(5), 653-659.

Madhwal, Y. y Panfilov, P. B. (2017). Blockchain and supply chain management: Aircrafts’ parts’ business case. Vienna: 28th DAAAM International Symposium on intelligent manufacturingand automation. doi:10.2507/28th.daaam.proceedings.146.

Meng, W., Tischhauser, E. W., Wang, Q., Wang, Y. y Han, J. (2018). When Intrusion Detection Meets Blockchain Technology: A Review. IEEE Access, 6, 10179-10188.

Neisse, R., Steri, G. y Nai-Fovino, I. (2017). A Blockchain-based Approach for Data Accountability and Provenance Tracking. 12th International Conference on availability, reliability and security. Calabria, Italy: ACM.

Olsen, R., Battiston, S., Caldarelli, G., Golub, A., Nikulin, M. y Ivliev, S. (2018). Case study of Lykke exchange: architecture and outlook. Journal of Risk Finance, SI, 26-38.

Parra Moyano, J. y Ross, O. (2017). KYC Optimization Using Distributed Ledger Technology. Business Infromation Systems Engineering, 59(6), 411-423.

Pincheira Caro, M., Salek Ali, M., Vecchio, M. y Giaffreda, R. (2018). Blockchain-based Traceability in Agri-Food Supply Chain Management: A Practical Implementation. 2018 IoT Vertical and Topical Summit on Agriculture (págs. 1-4). Tuscany: IEEE.

Qu, C., Tao, M., Zhang, J., Hong, X. y Yuan, R. (junio de 2018). Blockchain Based Credibility Verification Method for IoT Entities. Security and Communication Networks, 2018, 1-11. doi:doi.org/10.1155/2018/7817614.

Sander, F., Semeijn, J. y Mahr, D. (2018). The acceptance of blockchain technology in meat traceability and transparency. British Food Journal, 120(9), 2066-2079.

Shanley, A. (2017). Could Blockchain improve pharmaceutical supply chain security? Pharmaceutical Technology, 34-39.

Sharples, M. y Domingue, J. (2016). The Blockchain and Kudos: A Distributed System for Educational Record, Reputation and Reward. European Conference on Technology Enhanced Learning - Adaptive and Adaptable Learning (pp. 490-496). Lyon, France: Springer.

Sun, J., Yan, J. y Zhang, K. Z. (2016). Blockchain-based sharing services: What blockchain technology can contribute to smart cities. Financial Innovation, 2(26), 1-9.

Tian, F. (2017). A Supply Chain Traceability System for Food Safety Based on HACCP, Blockchain and Internet of Things. 14th Internatonal Conference on Services Systems and Services Management. Dalian, China: International Conference on Service Systems and Service Management.

Toyoda, K., Sasase, I., Ohtsuki, T. y Mathiopoulos, P. (2017). A Novel Blockchain-Based Product Ownership Management System (POMS) for Anti-Counterfeits in the Post Supply Chain. IEEE Access, 5, 17465-17477. doi:10.1109/ACCESS.2017.2720760.

Turkanovic, M., Hölbl, M., Kosic, K., Hericko, M. y Kamisalic, A. (2018). EduCTX: A Blockchain-Based Higher Education Credit Plataform. IEEE Access, 6, 5112-5126.

World Wildlife Fund (2013). Cutting Cotton Carbon Emissions:Findings from Warangal, India. WWF Report. Recuperado de: http://www.indiaenvironmentportal.org.in/files/file/cotton_carbon_emission.pdf.

Wu, H., Li, Z., King, B., Miled, Z. B., Wassick, J. y Tazelaar, J. (2017). A Distributed ledger for supply chain physical distribution visibility. Information 8(137), 1-18. doi:10.3390/info8040137.

Xu, J. J. (2016). Are blockchains immune to all malicious attacks? Financial Innovation, 2(25), 1-9.

Yeow, A. (2018). Bitnodes. Recuperado de: earn.com: https://bitnodes.earn.com/.

Yeow, K., Gani, A., Rodrigues, J., Ahmad, R. y Ko, K. (2017). Decentralized Consensus for Edge-Centric Internet of Things: A Review, Taxonomy, and Research Issues. IEEE Access.

Zhang, J., Xue, N. y Huang, X. (2016). A secure system for pervasive social network-based healthcare. IEEE Access, 4, 9239-9250. doi:10.1109/ACCESS.2016.2645904.

Reviewing the capacity for transparency and trust offered by the blockchain technology

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