Browse > Article
http://dx.doi.org/10.14400/JDC.2021.19.8.241

Reference Model for the Service of Smart City Platform through Case Study  

Kim, Young Soo (Department of IT Convergence, Hansei University)
Mun, Hyung-Jin (Department of Information & Communication Engineering, Sungkyul University)
Publication Information
Journal of Digital Convergence / v.19, no.8, 2021 , pp. 241-247 More about this Journal
Abstract
As a way to solve the side effects of urban development, a smart city with information and communication technology converges in the city is being built. For this, a smart city platform should support the development and integration of smart city services. Therefore, the underlying technology and the functional and non-functional requirements that the smart platform must support were analyzed. As a result of this, we classified the Internet of Things, cloud computing, big data and cyber-physical systems into four categories as the underlying technologies supported by the smart city platform, and derived the functional and non-functional requirements that can be implemented and the reference model of the smart city platform. The reference model of the smart city platform is used for decision-making on investment in infrastructure technology and the development scope of services according to functional or non-functional requirements to solve specific city problems for city managers. It provides platform developers with guidelines to identify and determine the functional and non-functional requirements and implementation technologies of software platforms for building smart cities.
Keywords
Smart City; Platform; Reference Model; ICT; Smart Platform;
Citations & Related Records
연도 인용수 순위
  • Reference
1 S. Thornton. (2013). Chicago's WindyGrid: Taking Situational Awareness to a New Level. Data Smart City Solutions.
2 L. Sanchez, L. Munoz, J. A. Galache, P. Sotres, J. R Santana, V. Gutierrez, R. Ramdhany, A. Gluhak, S. Krco, E. Theodoridis & P. Dennis. (2014). SmartSantander: IoT experimentation over a smart city testbed. Computer Networ.. 61, .217-238.   DOI
3 A. Zanella, N. Bui, A. Castellani, L. Vangelista & M. Zorzi.(2014).. Internet of things for smart cities. IEEE Internet of Things journal, 1(1), 22-32.   DOI
4 P. Ballon, J. Glidden, P. Kranas, A. Menychtas, S. Ruston & S. V. D. Graaf. (2011). Is there a need for a cloud platform for european smart cities? In eChallenges e-2011 Conference Proceedings, IIMC International Information Management Corporation, 1-7.
5 A. Elmangoush, H. Coskun, S. Wahle & T. Magedanz.(2013). Design aspects for a reference M2M communication platform for smart cities. In Proceedings of the 2013 9th International Conference on Innovations in Information Technology (IIT'13). IEEE, 204-209.
6 R. Petrolo, V. Loscri & N. Mitton. (2014). Towards a cloud of things smart city. IEEE COMSOC MMTC E-Letter, 9(5).
7 C. Wu, D. Birch, D. Silva, C.H. Lee, O. Tsinalis & Y. Guo.(2014). Concinnity: A generic platform for big sensor data applications. IEEE Cloud Computing. 1(2), 42-50.   DOI
8 J. A. Galache, T. Yonezawa, L. Gurgen, D. Pavia, M. Grella & H. Maeomichi. (2014). Clout: Leveraging cloud computing techniques for improving management of massive iot data. In 2014 IEEE 7th International Conference on Service-Oriented Computing and Applications, 324-327.
9 K. Takahashi, S. Yamamoto, A. Okushi, S. Matsumoto & M. Nakamura. (2012). Design and implementation of service API for large-scale house log in smart city cloud. In Proceedings of the 2012 IEEE 4th International Conference on Cloud Computing Technology and Science (CloudCom'12). IEEE, 815-820.
10 M. Bain. (2014). Sentilo-Sensor and Actuator Platform for smart Cities, Retr. Febr, 20.
11 K. Tei & L. Gurgen.(2014). ClouT: Cloud of things for empowering the citizen clout in smart cities. In Proceedings of the 2014 IEEE World Forum on Internet of Things (WF-IoT'14). IEEE, 369-370.
12 H. M. Kang & K.T. Hwang.(2018). Analysis of Research Trends of Cyber Physical System(CPS) in the Manufacturing Industry. Informatization Policy, 25(3), 3-28. DOI : 10.22693/NIAIP.2018.25.3.003   DOI
13 A. Caragliu, C. Del Bo & P. Nijkamp.(2011). Smart cities in europe. J. Urban Technol. 18(2), 65-82.   DOI
14 K.H. Yoo.(2017). Effective visualization methods for a manufacturing big data system. Journal of the Korean Data And Information Science Society, 28(6), 1301-1311. DOI : 10.7465/jkdi.2017.28.6.1301   DOI
15 F. J. Villanueva, M. J. Santofimia, D. Villa, J. Barba & J. C. Lopez. (2013). Civitas: The smart city middleware, from sensors to big data. In Proceedings of the 2013 7th International Conference on Innovative Mobile and Internet Services in Ubiquitous Computing (IMIS'13). IEEE, 445-450.
16 B. Cheng, S. Longo, F. Cirillo, M. Bauer & E. Kovacs. (2015). Building a big data platform for smart cities: Experience and lessons from santander. In 2015 IEEE International Congress on Big Data (BigData Congress'15).IEEE, 592-599.
17 G. Anastasi, M. Antonelli, A. Bechini, S. Brienza, E. D'Andrea, D. De Guglielmo, P. Ducange, B. Lazzerini, F. Marcelloni & A. Segatori. (2013). Urban and social sensing for sustainable mobility in smart cities. In Proceedings of the Sustainable Internet and ICT for Sustainability (SustainIT'13), IEEE, 1-4.
18 Y. W. Lee & S.W. Rho. (2010). U-city portal for smart ubiquitous middleware. In Proceedings of the 2010 The 12th International Conference on Advanced Communication Technology (ICACT'10), 1, 609-613.
19 B. M. Seo. (2019). A Study on the Establishment of Platform for Smart Campus Ecosystem. Journal of Industrial Convergence, 17(3), 39-49.   DOI
20 W. Apolinarski, U. Iqbal & J. X. Parreira. (2014). The GAMBAS middleware and SDK for smart city applications. In Proceedings of the 2014 IEEE International Conference on Pervasive Computing and CommunicationsWorkshops (PERCOM'14). IEEE, 117-122.