參考文獻 |
[1] 朱凱民(2001),「流程模式建構軟體評述」,國立中山大學,碩士論文。
[2] 張育嘉(2017),「以UML建構一人因肌肉骨骼傷害防治系統」,明志科技大學,碩士論文。
[3] 陳文玲(1999),「ARIS應用於中小企業流程與資訊模型整合之研究—以凌巨科技公司為應用對象」,CALS 學術暨實務研討會論文集, pp.237-241。
[4] 陳立武、李文森、林彥睿(2017),「應用區塊鏈技術發展智慧物流之效益分析」,「國家發展前瞻規劃」委託研究案。
[5] 黃彥結(2014),「模型驅動架構之網頁應用研究—使用UML」,國立成功大學,博士論文。
[6] Abeyratne, S. A. and Monfared, R. (2016). “Blockchain Ready Manufacturing Supply Chain Using Distributed Ledger”, International Journal of Research in Engineering and Technology 5(9): 1–10.
[7] Apte, S. and Petrovsky, N. (2016). “Will Blockchain Technology Revolutionize Excipient Supply Chain Management?”, Journal of Excipients and Food Chemicals 7(3): 76–78.
[8] Bolumole, Y.A., Closs, D.J. and Rodammer, F.A. (2015), “The economic development role of regional logistics hubs: a cross-country study of interorganizational governance models”, Journal of Business Logistics 36(2): 182-198.
[9] Booch, G., Rumbaugh, J., and Jacobson, I. (1998). The Unified Modeling Language User Guide, Addison Wesley, Boston.
[10] Buterin, V. (2014). A next-generation smart contract and decentralized application platform, White paper.
[11] Chang, S. E., Chen, Y. C. and Lu, M. F. (2019). “Supply chain re-engineering using blockchain technology: A case of smart contract based tracking process”, Technological Forecasting & Social Change 144: 1–11.
[12] Christidis, K. and Devetsikiotis, M. (2016). “Blockchains and Smart Contracts for the Internet of Things”, IEEE Access 4.
[13] Christopher, M. (2016). Logistics and Supply Chain Management, version 5, FT Publishing International, London.
[14] Czepluch, J. S., Lollike, N. Z. and Malone, S.O. (2015). “The use of Block Chain Technology in Different Application Domains”, The IT University of Copenhagen, Bachelor Project.
[15] Decker, S., Erdmann, M. and Studer, R. (1996). “A Unifying View on Business Process Modelling and Knowledge Engineering”, Proceedings of the 10th Knowledge Aquisition Workshop, Canada.
[16] Dinh, T. et al. (2019). “Untangling Blockchain: A Data Processing View Of Blockchain Systems”, International Journal of Science & Engineering Development Research 4(7): 205 – 211.
[17] Dinh, T. T. A et al. (2017). “BLOCKBENCH: a framework for analyzing private blockchains”. Proceedings of the 2017 ACM International Conference on Management of Data.
[18] Dinh, T. T. A. (2017). “Blockbench: A framework for analyzing private blockchains,” The 2017 ACM International Conference on Management of Data: 1085-1100.
[19] Dobrovnik, M. et al. (2019). “Blockchain for and in Logistics: What to Adopt and Where to Start”, Logistics 2(3): 1-18.
[20] Dyer, J.H. and Hatch, N.W. (2006). “Relation-specific capabilities and barriers to knowledge transfers: Creating advantage through network relationships”, Strategic Management Journal 27(8): 701–719.
[21] Farahani, R., Rezapour, S. and Kardar, L. (2011). Logistics Operations and Management, Elsevier, USA.
[22] Fawcett, S. E. et al. (2011). “Information technology as an enabler of supply chain collaboration: a dynamic-capabilities perspective”, Journal of Supply Chain Management 47(1): 38-59.
[23] Frazelle, E., (2001). “Supply Chain Strategy: The Logistics of Supply Chain Management”, McGraw-Hill, New York.
[24] Friedlmaier, M., Tumasjan, A. and Welpe, I.M. (2018). “Disrupting industries with blockchain: The industry, venture capital funding, and regional distribution of blockchain ventures”, In Proceedings of the 51st Hawaii International Conference on System Sciences, Waikoloa Village.
[25] Hackius, N. and Petersen, M. (2017). Blockchain in Logistics and Supply Chain: Trick or Treat?, Hamburg International Conference of Logistics, Hamburg.
[26] Hill, B., Chopra, S., Valencourt, P. (2018). Blockchain Quick Reference, Packt, Birmingham.
[27] Hussein, D., Taha, M. and Khalifa, N. E. (2018). “A Blockchain Technology Evolution between Business Process Management (BPM) and Internet-of-Things (IoT)”, International Journal of Advanced Computer Science and Applications 9(8): 442-450.
[28] IBM News room. (2017) Maersk and IBM Unveil First Industry-Wide Cross-Border Supply Chain Solution on Blockchain. Available from: URL: https://reurl.cc/1g8e1Y
[29] Jayachandran, P. (2017) The difference between public and private blockchain, Available from: URL: https://www.ibm.com/blogs/blockchain/2017/05/the-difference-between-public-and-private-blockchain/.
[30] Johng, H. et al. (2018). “Using Blockchain to Enhance the Trustworthiness of Business Processes: A Goal-Oriented Approach”, 2018 IEEE International Conference on Services Computing, San Francisco.
[31] Johnson, D., Menezes, A. and Vanstone, S. (2001). “The elliptic curve digital signature algorithm (ecdsa),” International Journal of Information Security1(1): 36-63
[32] Kain, R. and Verma, A. (2018). “Logistics Management in Supply Chain – An Overview”, Materials Today: Proceedings 5(2): 3811-3816.
[33] Kamalapur, P., Lyth, D. M. and Houshyar, A. (2013). “Benefits of CPFR and VMI collaboration strategies: a simulation study”, Journal of Operations and Supply Chain Management 6(2).
[34] Kim, S. and Deka, G. C. (2020). Advanced Applications of Blockchain Technology, Springer, Berlin.
[35] Kirchmer, M. (2002). Using SCOR and Other Reference Models for E-Business Process Networks, Business Process Excellence-ARIS in Practice, Springer: 45-64.
[36] Kozina, M. (2006). “Evaluation of Aris and Zachman frameworks as enterprise architectures”, Journal of information and organizational sciences 30: 115-136
[37] Kruchten, P. (1995). “Architectural Blueprints — The “4+1” View Model of Software Architecture”, IEEE Software 12(6): 42-50.
[38] Lai, R. and Chuen, D. (2018). Blockchain – From Public to Private, Handbook of Blockchain, Digital Finance, and Inclusion, Academic Press, United States.
[39] Leuschner, R., Rogers, D.S. and Charvet, F.F. (2013). “A meta-analysis of supply chain integration and firm performance”, Journal of Supply Chain Management 49(2): 34–57.
[40] Li, L. and Zhao, L. (2018). “Design about Cost Management of Logistics Enterprises under the Background of the Big Data and Informatization”, Proceedings of the International Symposium on Social Science and Management Innovation.
[41] Lu, Y. (2018). “Blockchain: A survey on functions, applications and open issues,” Journal of Industrial Integration and Management 3(4).
[42] Mangiaracina, R. et al., (2015). “A review of the environmental implications of B2C E-commerce: a logistics perspective.”, International Journal of Physical Distribution &Logistics Management 45(6): 565-591.
[43] Meidan, A. et al. (2018). “A survey on business processes management suites”, Computer Standards & Interfaces 51: 71-86.
[44] Min, H. (2019). Blockchain technology for enhancing supply chain resilience, Business Horizons 62(1): 35-45.
[45] Mosakheil, J. H. (2018). "Security threats classification in blockchains", Culminating Projects in Information Assurance.
[46] Neerajaa, B., Mehtab, M. and Chandani, A. (2014). “Supply Chain and Logistics For The Present Day Business”, Procedia Economics and Finance 11: 665–675.
[47] Nüttgens, M., T. Feld and V. Zimmermann (1998). Business Process Modeling with EPC and UML: transformation or integration?, The Unified Modeling Language, Springer: 250-261.
[48] Object Management Group, Inc. (1999). Unified Modeling Language Specification, Version 1.3.
[49] O′Leary, D. E. (2017). “Configuring blockchain architectures for transaction information in blockchain consortiums: The case of accounting and supply chain systems”, Intelligent Systems in Accounting Finance & Management 24(4):138-147.
[50] Ølnes, S., J. Ubacht, and M. Janssen. 2017. “Blockchain in Government: Benefits and Implications of Distributed Ledger Technology for Information Sharing.” Government Information Quarterly 34 (3): 355–364.
[51] Pahlajani, S., Kshirsagar, A. and Pachghare, V. (2019). “Survey on Private Blockchain Consensus Algorithms”, Conference on Innovations in Information and Communication Technology
[52] Perboli, G. (2018). “Blockchain in Logistics and Supply Chain: A Lean Approach for Designing Real-World Use Cases”, IEEE Access 99.
[53] Perera, S. et al. (2020). “Blockchain Technology: Is it Hype or Real in the Construction Industry?”, Journal of Industrial Information Integration 17.
[54] Pilkington, M. (2016) Blockchain Technology: Principles and Applications, Research Handbook on Digital Transformations, Elgar, Canada.
[55] Rathe, P. (2020). Introduction to Blockchain and IoT, Springer, Singapore.
[56] Rob, P. and Pauline, W. (2006). Appendix A-UML Notation, Applying Uml: Advanced Applications, Elsevier: 177-196.
[57] Saberi, S. et al. (2018). “Blockchain technology and its relationships to sustainable supply chain management”, International Journal of Production Research 57(3): 1-19.
[58] Sahay, B.S. and Gupta, A.K. (2003). “Development of software selection criteria for supply chain solutions”, Industrial Management & Data Systems 103(2).
[59] Scheer, A. W. (1999). ARIS-Business Process Frameworks, version 3, Springer, Berlin.
[60] Scheer, A. W. (2000). ARIS - Business Process Modeling, version 3, Springer, Berlin.
[61] Shin, N. and Kim, J. M. (2019). “The Impact of Blockchain Technology Application on Supply Chain Partnership and Performance”, Sustainability 11(21).
[62] Software AG (2016), ARIS Method, version 9.8 SR6, Darmstadt.
[63] Speranza , M. G. (2016). “Trends in transportation and logistics”, European Journal of Operational Research :1-7
[64] Steiner, J., and J. Baker. 2015. “Blockchain: The Solution for Transparency in Product Supply Chains”, Available from: URL:https://www.provenance.org/whitepaper.
[65] Tapscott, D. and Tapscott, A. (2016). Blockchain Revolution: How the Technology Behind Bitcoin Is Changing Money, Business, and the World, Penguin Random House, New York.
[66] Tian, F. (2016). “An Agri-food Supply Chain Traceability System for China Based on RFID & Blockchain Technology”, The 13th International Conference on Service Systems and Service Management (ICSSSM): 1–6.
[67] Travassos, G. H., Shull, F. and Carver, J. (2002). “Working with UML: A Software Design Process Based on Inspections for the Unified Modeling Language”, Advances in Computers 54: 35-98.
[68] Viriyasitavat, W. and Hoonsopon, D. (2019) “Blockchain characteristics and consensus in modern business processes”, Journal of Industrial Information Integration 13: p.32-39.
[69] Wang, Y., Han, J. H. and Beynon-Davies, P. (2019). “Understanding blockchain technology for future supply chains: a systematic literature review and research agenda”, International Journal Supply Chain Management 24(1): 62-84.
[70] Wu, H. et al. (2017). “A Distributed Ledger for Supply Chain Physical Distribution Visibility”, The 37th IEEE International Conference on Distributed Computing Systems Workshops (ICDCSW).
[71] Wu, J. and Tran, N. K. (2018). “Application of Blockchain Technology in Sustainable Energy Systems: An Overview”, Sustainability 10(9).
[72] Yeow, K. et al. (2018). “Decentralized Consensus for Edge-Centric Internet of Things: A Review, Taxonomy, and Research Issues” IEEE Access 6: 1513-1524
[73] Yu, Y. (2016). “E-commerce Logistics in Supply Chain Management: Practice Perspective”, Procedia CIRP 52: 179-185.
[74] Yu, Y. et al. (2017). “E-commerce logistics in supply chain management: Implementations and future perspective in furniture industry”, Industrial Management & Data Systems 117(10).
[75] Yuen, K. F. & Thai, V. (2017). “Barriers to supply chain integration in the maritime logistics industry”, Maritime Economics & Logistics 19: 551–572.
[76] Zhen, H. et al (2017). “Blockchain-Empowered Fair Computational Resource Sharing System in the D2D Network”, Future Internet 9(4): 85.
[77] Zheng, Z. et al. (2017). “An Overview of Blockchain Technology: Architecture, Consensus, and Future Trends”, 2017 IEEE 6th International Congress on Big Data, Honolulu
[78] Zheng, Z. et al. (2018). Blockchain Challenges and Opportunities: A Survey, International Journal of Web and Grid Services 14(4):352. |