Abstract
Smart manufacturing is an important part in sustainable development of smart cities. The industrial revolution under smart manufacturing evolves the traditional automatic modes with mass production into the efficiency of small, diverse and rapidly customized manufacturing and collaborative manufacturing, and can solve increasingly serious shortage of work force resulting from decline in working-age populations. IoT and Internet services can be used to develop smart factories, so as to enable all mechanical units to have the ability to communicate with each other, through smart integration of sensing and control systems and other technologies. In this paper, the development of Taiwan’s smart cities is discussed from the perspective of smart manufacturing development, the concept and the current international situation are introduced, and then smart factories’ intellectual technologies, IoT, cloud computing, mass data analysis, artificial intelligence, cyber-Physical systems and Cyber security are introduced in order, and execution status of the smart manufacturing in Taiwan and its integrated manufacturing capacities are finally discussed. Under the vision of smart machine industrialization and industrial wisdom mechanization, readers are more easily to understand Taiwan’s role in the competition of sustainable development of smart cities and are expect to cultivate outstanding competitive talents.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
W. Mingji, 2016 Taiwan German Productivity/Industry 4.0 Forum. Achievement Report (International Economic Cooperation Association (CIECA), 2017)
J. Wang, Y. Ma, The international development trend of Industry 4.0 and Taiwan’s response (Central Bank, International Financial Reference, Taipei, 2016)
Z. Wu, Research on Talent Cultivation and Enrollment Strategy in Innovation Industry (NDC (National Development Committee), Taipei, 2017)
A. Botthof, E.A. Hartmann, Zukunft der Arbeit in Industrie 4.0 (Springer Vieweg Berlin, 2015)
E.A. Hartmann, M. Bovenschulte, Paper presented at the using technology foresights for identifying future skills needs, SKOLKOVO Moscow, 2013
K. Henning, Recommendations for implementing the strategic initiative INDUSTRIE 4.0 (National academy of science and engineering, Frankfurt, 2013)
P.C. Evans, M. Annunziata, Industrial internet: pushing the boundaries of Minds and Machines (Boston, 2012)
M. Rüßmann et al., Industry 4.0: the future of productivity and growth in manufacturing industries. Boston Consult. Group 9(1), 14 (2015).
Y. Tan, S. Goddard, L.C. Pérez, A prototype architecture for cyber-physical systems. ACM Sigbed Rev. 5(1), 26, 2 (2008)
I.E.A.K. Artificial intelligence industry accelerated this year (2017)
L. Oleg, Standard for an architectural framework for the internet of things (IoT)—IEEE p2413, 22 (IEEE Standards association, 2015)
H. Suo, J. Wan, C. Zou, J. Liu, Paper presented at the 2012 international conference on computer science and electronics engineering, Hangzhou, China, 2012
A.-F. Ala, M. Guizani, M. Mohammadi, M. Aledhari, M. Ayyash, Internet of Things: a survey on enabling technologies, protocols, and applications. IEEE Commun. Surveys Tutorials 17, 2347–2376 (2015)
B.N. Silva, M. Khan, K. Han, Internet of Things: a comprehensive review of enabling technologies, architecture, and challenges. IETE Tech. Rev. 35, 15 (2017)
L. Atzori, A. Lera, G. Morabito, Understanding the Internet of Things: definition, potentials, and societal role of a fast evolving paradigm. Ad Hoc Netw. 56, 122–140 (2017)
B. Muhammad, A review of internet of things architecture, technologies and analysis smartphone-based attacks against 3D printers. arxiv (2017)
P.P. Jayaraman, X. Yang, A. Yavari, D. Georgakopoulos, X. Yi, Privacy preserving Internet of Things: from privacy techniques to a blueprint architecture and efficient implementation. Future Gener. Comput. Syst. 76, 540–549 (2017)
A.H.H. Ngu, M. Gutierrez, V. Metsis, S. Nepal, M.Z. Sheng, IoT middleware: a survey on issues and enabling technologies. IEEE Internet Things J. 1–1 (2016)
M.U. Farooq, M. Waseem, A. Khairi, S. Mazhar, A critical analysis on the security concerns of Internet of Things (IoT). Int. J. Comput. Appl. 111(7), 6 (2015)
P. Mell, T. Grance, The NIST definition of cloud computing. NIST SP 800–145, 7 (2011)
2016–2018 Cloud computing development programs (2015). https://www.bost.ey.gov.tw/cp.aspx?n=B56ED9F993B2EFA5.
S. Wu, T.-C. Chen, Y. Wu, M. Lytras, Smart cities in Taiwan: a perspective on big data applications. Sustainability 10, 1–14 (2018)
A. Akusok, K.-M. Björk, Y. Miche, A. Lendasse, High-performance extreme learning machines: a complete toolbox for big data applications. IEEE Access 3, 1011–1025 (2015)
L. Kang, H.L. Du, H. Zhang, W.L. Ma, Systematic research on the application of steel slag resources under the background of big data. Complexity 2018, 1–12 (2018)
N.J. Nilsson, The Quest for Artificial Intelligence (Cambridge University Press, Stanford University, 2009), pp. 707
M.-H. Huang, R.T. Rust, Artificial intelligence in service. J. Service Res. 21, 155–172 (2018)
R. Baheti, H. Gill, Cyber-physical systems. Impact Control Technol. 12(1), 6 (2011)
J. Lee, B. Bagheri, H.-A. Kao, A Cyber-physical systems architecture for Industry 4.0-based manufacturing systems. Manuf. Lett. 3, 23 (2015)
A. Collins, WEF the Global Risk Report 2018 (WEF, Switzerland, 2018)
C. Christopher, Revitalizing Privacy and Trust in a Data-Driven World-Key Findings from the Global State of Information Security Survey 2018 (Cybersecurity and Privacy, PWC Web, 2018)
S. Wu, D. Guo, Y. Wu, Y. Wu, Future development of Taiwan’s smart cities from an information security perspective. Sustainability 10, 18 (2018)
J. Lee, B. Bagheri, H.-A. Kao, A cyber-physical systems architecture for industry 4.0-based manufacturing systems. Manuf. Lett. 3, 18–23 (2015)
S.M. Wu, T.-C. Chen, Y.J. Wu, M. Lytras, Smart cities in Taiwan: a perspective on big data applications. Sustainability 10, 106 (2018)
H. Nissenbaum, Privacy as contextual integrity. Wash. Law Rev. 79(1), 119–157 (2004)
M. Korotka, L.R. Yin, C. Basu, Information assurance technical framework and end user information ownership: a critical analysis. J. Inf. Privacy Secur. 1(1), 17 (2005)
2017 SME White Paper (2017). https://www.google.com.tw/search?source=hp&ei=Pe2AXJajBcnO8wXt07d4&q=2017%E4%B8%AD%E5%B0%8F%E4%BC%81%E6%A5%AD%E7%99%BD%E7%9A%AE%E6%9B%B8&oq=2017%E4%B8%AD%E5%B0%8F&gs_l=psy-ab.1.0.0.2486.14339..17309...0.0..0.86.664.13......0....1..gws-wiz.....0..35i39j0i131.j-KmZX2YXK8.
M. Wu, Five Major Industrial Innovation Research and Development Plans, Smart Machinery Industry Promotion Program (MOEA, Taipei, 2015)
M. Wu, 2016 Taiwan German Productivity/Industry 4.0 Forum Results Report—overview of Taiwan productivity 4.0 development (CIECA (Chinese International Economic Cooperation Association), Taipei, 2017)
MOEA, Analysis of preliminary statistical summary of factory calibration and operation survey in 2018 (MOEA, Taipei, 2018)
NDC, Important statistics manual, (NDC (National Development Committee), Taipei, 2017)
UNIDO, Competitive Industrial Performance Report 2016 (UNIDO, Vienna, 2017)
UNIDO, Demand for Manufacturing: Driving Inclusive and Sustainable Industrial Development, Industrial Development Report 2018. (UNIDO, Vienna, 2018)
IMD, imd_world_digital_competitiveness_ranking_2018 (IMD World Competitiveness Center, Lausanne, Switzerland, 2018)
H. Lin, Opportunities and challenges for Taiwan's economic growth, (TRA (Taiwan Research Institute) Taipei, 2017)
S. Klaus, The Global Competitiveness Report 2017–2018 (WEF (World Economic Forum), Geneva Switzerland, 2018)
Acknowledgements
The authors would like to thank the Ministry of Science and Technology, Taiwan for their support under grant no. 108-2511-H-003-034-MY2.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2021 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this paper
Cite this paper
Wu, Y.C., Wu, Y.J., Wu, S.M. (2021). Development Opportunities of Taiwan’s Smart Cities from the Viewpoint of Smart Manufacturing. In: Visvizi, A., Lytras, M.D., Aljohani, N.R. (eds) Research and Innovation Forum 2020. RIIFORUM 2020. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-62066-0_7
Download citation
DOI: https://doi.org/10.1007/978-3-030-62066-0_7
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-62065-3
Online ISBN: 978-3-030-62066-0
eBook Packages: EducationEducation (R0)