研究生: |
錢志豪 Chih-hou Chien |
---|---|
論文名稱: |
數位分身應用於工業通訊產業部門研發策略 Research on Application of Digital Twin to the R&D strategy of the industrial communication industry department |
指導教授: |
王孔政
Kung-Jeng Wang 陳炤彰 Chao-Chang Chen |
口試委員: |
曾世賢
Shih-Hsien Tseng |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 高階科技研發碩士學位學程 Executive Master of Research and Development |
論文出版年: | 2021 |
畢業學年度: | 109 |
語文別: | 中文 |
論文頁數: | 60 |
中文關鍵詞: | 數位分身 、工業通訊產業 、工業物聯網 、研發策略技術藍圖 |
外文關鍵詞: | Digital Twin, Industrial communication, Industrial Internet of Things, Technology roadmapping |
相關次數: | 點閱:403 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
工業通訊產業面對強大的竸爭環境,在眾多產品的維護以及新應用技術產品的開發,考驗著企業與研發部門對於有限資源的調配與運用。數位分身技術應用可進行過去、現在及未來的問題診斷、維護及趨勢預測分析結果,提供全面性解決方案,以達成企業提升營運及生產力效率,並有效降低營運及開發成本,進一步提高自身於市場的竸爭力。本研究透過研發策略技術藍圖之研擬,依據市場趨勢,將市場與技術需求結合,找到組織內部資源與技術缺口,導入數位分身概念應用,以及整合內、外部資源,進行創新應用技術的技術策略推進與管理。在面對更強大的竸爭環境下,能快速且正確的完成新技術應用產品以及維護現有營運產品的上市,規劃未來3~5年的研發藍圖。
Industrial communication Industry in the face of a more powerful competition environment in the future, the maintenance of many products and the development of new application technology products that test the deployment and use of limited resources by enterprises and R&D departments. The application of digital twin technology can perform past, present and future problem diagnosis, maintenance, and trend prediction analysis results, and provide comprehensive solutions to achieve the improvement of enterprise operation and productivity efficiency, and effectively reduce operation and development costs, and further improve their competitiveness in the market. This study has been researched and developed strategy and technology blueprints to effectively integrate the market and technology needs according to the current market trends, finding the internal resources and technology gaps in the organization. It also introduces the concept of digital twin applications, and integrates internal and external resources for innovative technology strategies to promote and manage. In the face of a stronger competition environment, it can quickly and correctly complete the launch of new technology application products and maintain existing operating products, and plan the R&D blueprint for the next 3 to 5 years.
Alam, K. M., & El Saddik, A. (2017). C2PS: A digital twin architecture reference model for the cloud-based cyber-physical systems. Ieee Access, 5, 2050-2062.
Boschert, S., & Rosen, R. (2016). Digital twin—the simulation aspect. In Mechatronic futures (pp. 59-74): Springer.
DIGITIMES企劃. (Apr 19, 2015). "工業自動化網路技術的發展趨勢". https://www.digitimes.com.tw/iot/article.asp?cat=158&cat1=20&cat2=85&id=0000419467_2HB5JW395E6Q4S8KAT10I
DIGITIMES. (May 31, 2019) Digital Twin市場4年後達160億美元 人與AI相輔相成是成功關鍵. https://www.digitimes.com.tw/iot/article.asp?cat=158&id=0000560820_73N9645C1SF7JF1AH3N4P
Glaessgen, E., & Stargel, D. (2012). The digital twin paradigm for future NASA and US Air Force vehicles. Paper presented at the 53rd AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference 20th AIAA/ASME/AHS adaptive structures conference 14th AIAA.
Grieves, M. (2005). Product lifecycle management: The new paradigm for enterprises. International Journal Product Development, 2(1/2), 71–84.
Madni, A. M., Madni, C. C., & Lucero, S. D. (2019). Leveraging digital twin technology in model-based systems engineering. Systems, 7(1), 7.
Omdia - Informa Tech. (Mar 28, 2019). Industrial Edge Networking Components Report – 2019. https://omdia.tech.informa.com/articles/2019/03/28/industrial-edge-networking-components-report---2019
Omdia - Informa Tech. (May 15, 2020). Industrial Edge Networking Components Report – 2020. https://omdia.tech.informa.com/articles/2020/05/15/industrial-edge-networking-components-report---2020
Parrott, A. & Warshaw, L (2017). Industry 4.0 and the Digital Twin: Manufacturing meets its match. In: Deloitte University Press.
Qualcomm Technologies, Inc. (Apr 2019). How Will 5G transform Industrial IoT? https://www.qualcomm.com/media/documents/files/how-5g-will-transform-industrial-iot.pdf
Qualcomm Technologies, Inc. (Oct 15, 2020). Transforming enterprise and industry with 5G private networks. https://www.qualcomm.com/media/documents/files/the-role-of-5g-in-private-networks-for-industrial-iot.pdf
Qualcomm Technologies, Inc. (Oct 2019). What's in the future of 5G? https://www.qualcomm.com/media/documents/files/future-of-5g.pdf
Qualcomm Technologies, Inc. (Nov 2019). The IHS 5G Economy. https://www.qualcomm.com/media/documents/files/ihs-5g-economic-impact-study-2019.pdf
Shafto, M., Conroy, M., Doyle, R., Glaessgen, E., Kemp, C., LeMoigne, J., & Wang, L. (2012). Modeling, simulation, information technology & processing roadmap. National Aeronautics and Space Administration.
Spirent. (Aug 2020). Simplifying 5G with the Network Digital Twin. https://www.spirent.com/assets/wp_simplifying-5g-with-the-network-digital-twin
Tuegel, E. J., Ingraffea, A. R., Eason, T. G., & Spottswood, S. M. (2011). Reengineering aircraft structural life prediction using a digital twin. International Journal of Aerospace Engineering, 2011.
周毓祺. (2019). 以數位分身改善虛擬協同團隊溝通模式 - 以手機代工設計開發個案為例
陳俊安. (2019). 數位分身應用於作業基礎成本制之研究 -以個案公司銷售單位為例
謝敏怡. (Dec 03, 2009) "技術驅動市場 工業乙太網路迅速起飛". https://www.digitimes.com.tw/iot/article.asp?cat=130&cat1=45&cat2=20&id=0000160396_ozd4rnpg8w4qf97okq4wo
黃仲宏. (Aug 2020). 智慧製造趨勢下的通訊協定發展. https://www2.itis.org.tw/netreport/NetReport_Detail.aspx?rpno=948842005
台灣通訊學會. (May 9, 2019). 台灣通訊學會年刊2018. https://www.tcs-org.tw/admin/download/file/2019-05-0/5cd4e93463a80.pdf