Literatura sobre aplicaciones basadas en Blockchain

Si bien las aplicaciones #blockchain se están implementando ampliamente, muchos problemas aún siguen sin ser abordados. Al hacerlo, las cadenas de bloques se vuelven no solo más escalables y eficientes, sino también más duraderas. Las características que ofrecen no son únicas si se juzgan individualmente, y la mayor parte de los mecanismos en los que se basan dichas cadenas son conocidos desde hace años. Sin embargo, la combinación de todas estas características hace que sean ideales para muchas aplicaciones que justifican el intenso interés de varias industrias. A medida que blockchain madure y se vaya acercando a una adopción masiva, se espera que sus aplicaciones penetren en más industrias.

A continuación se enlazan referencias bibliográficas para que te ayuden a investigar sobre esta tecnología disruptiva.

A-Z

  1. Abdullah, N., Håkansson, A., Moradian, E., 2017. Blockchain based approach to enhance big data authentication in distributed environment. In: International Conference on Ubiquitous and Future Networks. ICUFN, pp. 887–892.
  2. Accenture, 2017a. Banking on blockchain. A value analysis for investment banks., Report.
  3. Accenture, 2017b. Blockchain for good. 4 guidelines for transforming social innovation organizations. Report.
  4. Adam, M.S., Anisi, M.H., Ali, I., 2017. Object tracking sensor networks in smart cities: taxonomy, architecture, applications, research challenges and future directions. Future Generat. Comput. Syst.
  5. Ahmed, A., 2018. How Blockchain Will Change HR Forever.https://www.forbes.com/sites/ashikahmed/2018/03/14/how-blockchain-will-change-hr-forever/# 6583597e727c.Ahmed, S., Broek, N.T., 2017. Food supply: blockchain could boost food security. Nature 550 (7674), 43.
  6. Ahram, T., Sargolzaei, A., Sargolzaei, S., Daniels, J., Amaba, B., 2017. Blockchain technology innovations. In: 2017 IEEE Technology and Engineering Management Society Conference, TEMSCON 2017pp. 137–141.
  7. Akins, B.W., Chapman, J.L., Gordon, J.M., 2013. A Whole New World: Income Tax Considerations of the Bitcoin Economy, https://papers.ssrn.com/sol3/papers.cfm? abstract_id=2394738.
  8. Al Omar, A., Rahman, M.S., Basu, A., Kiyomoto, S., 2017. MediBchain: A blockchain based privacy preserving platform for healthcare data. In: Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), vol. 10658 LNCS, pp. 534–543.
  9. Angraal, S., Krumholz, H.M., Schulz, W.L., 2017. Blockchain technology: Applications in health care, Circulation: Cardiovascular Quality and Outcomes 10(9).
  10. Anjum, A., Sporny, M., Sill, A., 2017. Blockchain standards for compliance and trust. IEEE Cloud Comput. 4 (4), 84–90.
  11. Antonopoulos, A.M., 2014. Mastering Bitcoin: Unlocking Digital Cryptocurrencies. O’Reilly Media Inc.Appelbaum, D., Kogan, A., Vasarhelyi, M.A., 2017. Big data and analytics in the modern audit engagement: research needs, auditing.
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  13. Atzei, N., Bartoletti, M., Cimoli, T., 2017. A survey of attacks on Ethereum smart contracts (SoK). In: International Conference on Principles of Security and Trust Springer, pp. 164–186.
  14. Augot, D., Chabanne, H., Chenevier, T., George, W., Lambert, L., 2017. A user-centric system for verified identities on the bitcoin blockchain. In: Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), vol. 10436 LNCS, pp. 390–407.Augur, 2014. The augur project, https://augur.net/.
  15. Axon, L., 2015. Privacy-awareness in blockchain-based PKI, CDT Technical Paper Series 21/15.
  16. Azaria, A., Ekblaw, A., Vieira, T., Lippman, A., 2016. MedRec: Using blockchain for medical data access and permission management. In: Proceedings – 2016 2nd International Conference on Open and Big Data, OBD 2016, pp. 25–30
  17. Barcelo, J., 2014. User Privacy in the Public Bitcoin Blockchain.http://www.dtic.upf.edu/jbarcelo/papers/20140704_User_Privacy_in_the_Public_Bitcoin_Blockchain/ paper.pdf.
  18. Bartoletti, M., Carta, S., Cimoli, T., Saia, R., 2017. Dissecting Ponzi schemes on Ethereum: identification, analysis, and impact. CoRR abs/1703.03779.
  19. Baxendale, G., 2016. Can blockchain revolutionise EPRs? ITNOW 58 (1), 38–39.
  20. Bdiwi, R., De Runz, C., Faiz, S., Cherif, A.A., Towards a New Ubiquitous Learning Environment Based on Blockchain Technology. In: Proceedings – IEEE 17th International Conference on Advanced Learning Technologies, ICALT 2017, pp. 101–102.
  21. Beck, R., Stenum Czepluch, J., Lollike, N., Malone, S., 2016. Blockchain – The gateway to trust-free cryptographic transactions. In: 24th European Conference on Information Systems, ECIS 2016.
  22. Benchoufi, M., Ravaud, P., 2017. Blockchain technology for improving clinical research quality, Trials 18(1).
  23. Benchoufi, M., Porcher, R., Ravaud, P., 2017. Blockchain protocols in clinical trials: Transparency and traceability of consent, F1000Research 6
  24. Benet, J., 2014. Filecoin: A Cryptocurrency Operated File Storage Network, http://filecoin.io/filecoin.pdf.
  25. Bhowmik, D., Feng, T., 2017. The multimedia blockchain: a distributed and tamper-proof media transaction framework. In: International Conference on Digital Signal Processing DSP.
  26. Bilal, K., Malik, S.U.R., Khalid, O., Hameed, A., Alvarez, E., Wijaysekara, V., Irfan, R., Shrestha, S., Dwivedy, D., Ali, M., Shahid Khan, U., Abbas, A., Jalil, N., Khan, S.U., 2014. A taxonomy and survey on green data center networks. Future Generation Comput. Syst. 36, 189–208
  27. Biryukov, A., Khovratovich, D., Pustogarov, I., 2014. Deanonymisation of Clients in Bitcoin P2P Network. In: Proceedings of the 2014 ACM SIGSAC Conference on Computer and Communications Security, CCS ’14. ACM, New York, NY, USA, pp. 15–29, ISBN 978-1-4503-2957-6, doi: https://doi.org/10.1145/2660267.2660379.
  28. Biswas, K., Muthukkumarasamy, V., 2016. Securing Smart Cities Using Blockchain Technology. In: 2016 IEEE 18th International Conference on High Performance Computing and Communications; IEEE 14th International Conference on Smart City; IEEE 2nd International Conference on Data Science and Systems (HPCC/ SmartCity/DSS), pp. 1392–1393, doi: 10.1109/HPCC-SmartCity-DSS.2016.0198.
  29. Bitcoin ETf Channel, 2018.http://www.etf.com/channels/bitcoin.
  30. Bitshares, 2014. The bitshares project, https://bitshares.org/.
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  33. Blockstream, The blockstream company, 2014.https://www.blockstream.com/.
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  35. Bogner, A., Chanson, M., Meeuw, A., 2016. A decentralised sharing app running a smart contract on the ethereum blockchain. In: ACM International Conference Proceeding Series, pp. 177–178.
  36. Bonneau, J., Narayanan, A., Miller, A., Clark, J., Kroll, J.A., Felten, E.W., 2014. Mixcoin: Anonymity for Bitcoin with Accountable Mixes. Springer, Berlin, Heidelberg, Berlin, Heidelberg, pp. 486–504.
  37. Bonneau, J., Miller, A., Clark, J., Narayanan, A., Kroll, J.A., Felten, E.W., 2015. Sok: Research perspectives and challenges for bitcoin and cryptocurrencies. In: 2015 IEEE Symposium on Security and Privacy (SP) IEEE, pp. 104–121.
  38. Bore, N., Karumba, S., Mutahi, J., Darnell, S.S., Wayua, C., Weldemariam, K., 2017. Towards Blockchain-enabled School Information Hub. In: Proceedings of the Ninth International Conference on Information and Communication Technologies and Development 19. ACM.
  39. Borioli, G.S., Couturier, J., 2018. How blockchain technology can improve the outcomes of clinical trials. British J. Health Care Manage. 24 (3), 156–162.
  40. Botta, A., De Donato, W., Persico, V., Pescapé, A., 2016. Integration of cloud computing and internet of things: a survey. Future Generation Comput. Syst. 56, 684–700.
  41. Boucher, P., 2016. What if blockchain technology revolutionised voting? Scientific Foresight Unit (STOA), European Parliamentary Research Service.
  42. Boudguiga, A., Bouzerna, N., Granboulan, L., Olivereau, A., Quesnel, F., Roger, A., Sirdey, R., 2017. Towards better availability and accountability for IoT updates bymeans of a blockchain. In: Proceedings – 2nd IEEE European Symposium on Security and Privacy Workshops, EuroS and PW 2017, pp. 50–58.
  43. Bozic, N., Pujolle, G., Secci, S., 2016. A tutorial on blockchain and applications to secure network control-planes. In: 3rd Smart Cloud Networks and Systems, SCNS2016.
  44. Bracamonte, V., Okada, H., 2017. An exploratory study on the influence of guidelines on crowdfunding projects in the ethereum blockchain platform. In: Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), vol. 10540. LNCS, pp. 347–354.
  45. Brandão, A., São Mamede, H., Gonçalves, R., 2018. Systematic review of the literature, research on blockchain technology as support to the trust model proposed applied to smart places. In: World Conference on Information Systems and Technologies. Springer, pp. 1163–1174.
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  47. Bruce, J., 2013. Purely P2P crypto-currency with finite mini-blockchain.https://pdfs.semanticscholar.org/3f64/123ce97a0079f8bea66d3f760dbb3e6b40d5.pdf.
  48. Buccafurri, F., Lax, G., Nicolazzo, S., Nocera, A., 2017a. Overcoming Limits of Blockchain for IoT Applications. In: Proceedings of the 12th International Conference onAvailability, Reliability and Security, ACM, 26.
  49. Buccafurri, F., Lax, G., Nicolazzo, S., Nocera, A., 2017b. Tweetchain: an alternative to blockchain for crowd-based applications. In: Lecture Notes in Computer Science, vol. 10360. LNCS, pp. 386–393.
  50. Buchmann, N., Rathgeb, C., Baier, H., Busch, C., Margraf, M., 2017. Enhancing breeder document long-term security using blockchain technology. In: 2017 IEEE 41st Annual Computer Software and Applications Conference (COMPSAC), vol. 2, ISSN 0730–3157, 744–748, doi10.1109/COMPSAC.2017.119.
  51. Burrell, J., 2016. How the machine ‘thinks’: understanding opacity in machine learning algorithms. Big Data Soc. 3 (1) 2053951715622512.
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  56. Castellanos, J.A.F., Coll-Mayor, D., Notholt, J.A., 2017. Cryptocurrency as guarantees of origin: Simulating a green certificate market with the Ethereum Blockchain. 2017 5th IEEE International Conference on Smart Energy Grid Engineering, SEGE 2017 367–372.
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  59. Center, T.W., 2017. The Social Benefits of Blockchain for Health Data: Securing Patient Privacy&Control. https://www.wilsoncenter.org/publication/the-social-benefits-blockchain-for-health-data-securing-patient-privacy-and-control.
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  61. Chamber of digital commerce, Blockchain Healthcare & Policy Synopsis. An executive report of the US Department of Health and Human Services & National Institute of Standards and Technologies, https://digitalchamber.org/assets/blockchain_healthcare_policy_synopsis_chamber_2016.pdf, 2016.
  62. Chanson, M., Fleisch, E., Bogner, A., Wortmann, F., 2017. Blockchain as a privacy enabler: An odometer fraud prevention system. In: UbiComp/ISWC 2017 Adjunct Proceedings of the 2017 ACM International Joint Conference on Pervasive and Ubiquitous Computing and Proceedings of the 2017 ACM International Symposium on Wearable Computers.
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