Call for Papers
Quick Links
April, 2024 | Volume 03 | Issue 02
A COMPREHENSIVE EXAMINATION OF SUPPLY CHAIN APPLICATIONS INTEGRATING BLOCKCHAIN TECHNOLOGY AND ARTIFICIAL INTELLIGENCE
Mr. Rinku Raheja
Assistant professor, Department of Computer Science, NPGC, Lucknow, India
Author
Mr. Mahesh Tiwari
Assistant professor, Department of Computer Science, NPGC, Lucknow, India
Author
Manas Mehrotra
Student, Scholar, Department of Computer Science, NPGC, Lucknow, India
Author
Ayush Kumar
Student, Scholar, Department of Computer Science, NPGC, Lucknow, India
Author
Doi: https://doi.org/10.63920/tjths.32007
Keywords: Blockchain, Artificial intelligence, Supply chain, Methodical literature review, Bibliometric review, Thematic analysis
Abstract:
The admixture of blockchain technology and artificial intelligence( AI) has garnered significant interest in recent times, primarily due to the eventuality for enhancing the security, efficacity, and productivity of operations within business settings that are marked by oscillations, unpredictability, intricacy, and vagueness. Supply chains, in particular, have been demonstrated to gain a great deal from blockchain and artificial intelligence. These technologies ameliorate information and process adaptability, grease briskly and more provident product delivery, and increase product traceability, to name a many benefits. This exploration does a slice- edge force chain analysis of blockchain and artificial intelligence. More precisely, we aimed to respond to the following three main queries Q1 What studies are now available on the integration of blockchain and artificial intelligence in force chains? Q2 What use cases for blockchain and AI are presently being delved in force chains? Q3 What avenues of exploration could be pursued in the future for studies involving the integration of blockchain and AI? Through the integration of blockchain and artificial intelligence, this paper's analysis has linked material exploration works that have conceptually and empirically contributed to the growth and accumulation of intellectual value in the force chain discipline.
Download Full PDF Paper
References
[1] Z. Baynham-Herd, “Enlist blockchain to boost conservation,” Nature, vol. 548, p. 523, 2017.
[2] A. Maxmen, “AI researchers embrace bitcoin technology to share medical data,” Nature, vol. 555, pp. 293–295, 2018.
[3] S. Nakamoto, “Bitcoin: A peer-to-peer electronic cash system,” 2009. [Online]. Available: https://bitcoin.org/bitcoin.pdf
[4] H. Taherdoost, “An overview of trends in information systems: Emerging technologies that transform the IT industry,” Cloud Comput. Data Sci., vol. 4, pp. 1–16, 2022.
[5] N. Moosavi and H. Taherdoost, “Blockchain and IoT: A disruptive integration,” in Proc. ICETIS, 2022.
[6] M. Swan, Blockchain: Blueprint for a New Economy. Sebastopol, CA, USA: O’Reilly, 2015.
[7] K. D. Pandl et al., “On the convergence of AI and distributed ledger technology,” IEEE Access, vol. 8, pp. 57075–57095, 2020.
[8] J. Lin, Z. Shen, and C. Miao, “Using blockchain technology to build trust in sharing LoRaWAN IoT,” in Proc. Int. Conf. Crowd Sci. Eng., 2017, pp. 38–43.
[9] Y. Dai et al., “Blockchain and deep reinforcement learning empowered intelligent 5G,” IEEE Netw., vol. 33, pp. 10–17, 2019.
[10] M. Salimitari et al., “Profit maximization for bitcoin pool mining,” in Proc. IEEE CIC, 2017, pp. 267–274.
[11] S. K. Singh et al., “Blockchain-enabled intelligent IoT architecture with AI,” Future Gener. Comput. Syst., vol. 110, pp. 721–743, 2020.
[12] T. N. Dinh and M. T. Thai, “AI and blockchain: A disruptive integration,” Computer, vol. 51, pp. 48–53, 2018.
[13] H. Taherdoost, “A critical review of blockchain acceptance models,” Computers, vol. 11, p. 24, 2022.
[14] G. Wood, “Ethereum: A secure decentralised generalised transaction ledger,” Ethereum Yellow Paper, 2014.
[15] A. Kumar et al., “Secure smart contracts for cloud manufacturing using Ethereum,” Trans. Emerg. Telecommun. Technol., vol. 33, p. e4129, 2022.
[16] D. Li et al., “Blockchain as a service models in IoT management,” Trans. Emerg. Telecommun. Technol., vol. 33, p. e4139, 2022.
[17] S. Wang et al., “Overview of smart contract architecture and applications,” in Proc. IEEE IV, 2018, pp. 108–113.
[18] E. E. Makarius et al., “AI in organizations: A sociotechnical framework,” J. Bus. Res., vol. 120, pp. 262–273, 2020.
[19] A. Fusco et al., “Blockchain in healthcare: Insights on COVID-19,” Int. J. Environ. Res. Public Health, vol. 17, p. 7167, 2020.
[20] S. Daley, “Blockchain and AI examples,” 2020. [Online]. Available: https://builtin.com/artificial-intelligence/blockchain-ai-examples
[21] F. Soleymani and E. Paquet, “Financial portfolio optimization with deep reinforcement learning,” Expert Syst. Appl., vol. 156, p. 113456, 2020.
[22] N. Moosavi and H. Taherdoost, “Blockchain-enabled network for 6G systems,” in Proc. ICoICI, 2022.
[23] R. M. Parizi and A. Dehghantanha, “Smart contract programming languages evaluation,” in Proc. Int. Conf. Blockchain, 2018, pp. 75–91.
[24] R. M. Parizi et al., “Empirical vulnerability analysis of smart contracts,” arXiv:1809.02702, 2018.
[25] K. Rabah, “Convergence of AI, IoT, big data and blockchain,” Lake Inst. J., vol. 1, pp. 1–18, 2018.
[26] V. Chamola et al., “Role of IoT, AI, blockchain, and 5G in COVID-19,” IEEE Access, vol. 8, pp. 90225–90265, 2020.
[27] K. Salah et al., “Blockchain for AI: Review and challenges,” IEEE Access, vol. 7, pp. 10127–10149, 2019.
[28] P. Mamoshina et al., “Blockchain and AI in biomedical research,” Oncotarget, vol. 9, p. 5665, 2018.
[29] S. Singh et al., “Blockchain and AI in IoT smart cities,” Sustain. Cities Soc., vol. 63, p. 102364, 2020.
[30] X. Lin et al., “Blockchain-based knowledge trading in IoT,” IEEE Trans. Ind. Inform., vol. 15, pp. 6367–6378, 2019.
[65] L. Bell et al., “Applications of blockchain within healthcare,” Blockchain Healthc. Today, vol. 1, pp. 1–7, 2018.
[66] W.-C. Lin et al., “AI applications in EHR data,” Transl. Vis. Sci. Technol., vol. 9, p. 13, 2020.
[67] A. Roehrs et al., “Personal health records: A review,” J. Med. Internet Res., vol. 19, p. e5876, 2017.
[68] G. Ellingsen and M. Hertzum, “User requirements and EHR systems,” Stud. Health Technol. Inform., vol. 270, pp. 703–707, 2020.
[69] B. Al-Shawwa et al., “Healthcare utilization for sleep disorders,” J. Clin. Sleep Med., vol. 17, pp. 203–209, 2021.
[70] Z. Dlamini et al., “AI and big data in cancer research,” Comput. Struct. Biotechnol. J., vol. 18, pp. 2300–2311, 2020.
[71] K. Peterson et al., “Blockchain-based health information exchange,” 2016. [Online]. Available: https://www.healthit.gov/...
[72] T.-T. Kuo and L. Ohno-Machado, “Modelchain: Blockchain-based healthcare modeling,” arXiv:1802.01746, 2018.