Abstract
Fast growing of cities, urban places, and population presents major challenges in our daily lives. Finding proper solution from different perspectives of cities became a concern by both researchers and industries concern. Smart city (SC) is the answer to overcome this issue. Internet of thing (IoT) is a crucial part of SC which has a tremendous impact on all the cities’ sectors such as governance, health care, education, environment, and transportation. This paper provides a state of the art on Internet of thing (IoT)-based smart city (SC) from platform, architecture, application domain, and technology perspectives, also it concludes the relations between different technologies used in developing smart cities. Challenges and future trends of SC based on IoT will be discussed. As this research conducts, the SC solution based on IoT still confronts many challenges and problems which required further researches.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Unicef (ed.): The State of the World’s Children 2012: Children in an Urban World. eSocialSciences (2012)
Lanza, J., Sánchez, L., Gutiérrez, V., Galache, J.A., Santana, J.R., Sotres, P., Muñoz, L.: SMART CITY services over a future internet platform based on IoTs and cloud: the smart parking case. Energies 9(9), 719 (2016)
Rees, W., Wackernagel, M.: Urban ecological footprints: why cities cannot be sustainable—and why they are a key to sustainability. Environ. Impact Assess. Rev. 16(4–6), 223–248 (1996)
Wackernagel, M., Kitzes, J., Moran, D., Goldfinger, S., Thomas, M.: The ecological footprint of cities and regions: comparing resource availability with resource demand. Environ. Urban. 18(1), 103–112 (2006)
Satterthwaite, D.: Sustainable cities or cities that contribute to sustainable development? Urban Stud. 34(10), 1667–1691 (1997)
Nam, T., Pardo, T.A. (eds.): Conceptualizing SMART CITY with Dimensions of Technology, People, and Institutions, pp. 282–291. ACM (2011)
Petrolo, R., Loscrì, V., Mitton, N.: Towards a SMART CITY based on cloud of things, a survey on the SMART CITY vision and paradigms. Trans. Emerg. Telecommun. Technol. (2015)
Duquennoy, S., Grimaud, G., Vandewalle, J.-J. (eds.): The Web of Things: Interconnecting Devices with High Usability and Performance, pp. 323–330. IEEE (2009)
Atzori, L., Iera, A., Morabito, G.: The IoTs: a survey. Comput. Netw. 54(15), 2787–2805 (2010)
Arasteh, H., Hosseinnezhad, V., Loia, V., Tommasetti, A., Troisi, O., Shafie-khah, M., Siano, P. (eds.): IoT-Based Smart Cities: A Survey, pp. 1–6. IEEE (2016)
Pradhan, S., Dubey, A., Neema, S., Gokhale, A. (eds.): Towards a Generic Computation Model for SMART CITY Platforms, pp. 1–6. IEEE (2016)
Boulos, M.N.K., Al-Shorbaji, N.M.: On the IoTs, smart cities and the WHO Healthy Cities. Int. J. Health Geogr. 13(1), 10 (2014)
Samaras, C., Vakali, A., Giatsoglou, M., Chatzakou, D., Angelis, L. (eds.): Requirements and Architecture Design Principles for a SMART CITY Experiment with Sensor and Social Networks Integration, pp. 327–334. ACM (2013)
Sanchez, L., Muñoz, L., Galache, J.A., Sotres, P., Santana, J.R., Gutierrez, V., Ramdhany, R., Gluhak, A., Krco, S., Theodoridis, E.: SmartSantander: IoT experimentation over a SMART CITY testbed. Comput. Netw. 61, 217–238 (2014)
Barnaghi, P., Tönjes, R., Höller, J., Hauswirth, M., Sheth, A., Anantharam, P. (eds.): Citypulse: Real-Time IoT Stream Processing and Large-Scale Data Analytics for SMART CITY Applications (2014)
Lécué, F., Tallevi-Diotallevi, S., Hayes, J., Tucker, R., Bicer, V., Sbodio, M.L., Tommasi, P. (eds.): Star-City: Semantic Traffic Analytics and Reasoning for City, pp. 179–188. ACM (2014)
Gea, T., Paradells, J., Lamarca, M., Roldan, D. (eds.): Smart Cities as an Application of IoTs: Experiences and Lessons Learnt in Barcelona, pp. 552–557. IEEE (2013)
Jin, J., Gubbi, J., Marusic, S., Palaniswami, M.: An information framework for creating a SMART CITY through IoTs. IEEE IoTs J. 1(2), 112–121 (2014)
Ji, Z., Ganchev, I., O’Droma, M., Zhao, L., Zhang, X.: A cloud-based car parking middleware for IoT-based smart cities: design and implementation. Sensors 14(12), 22372–22393 (2014)
Suciu, G., Vulpe, A., Todoran, G., Gropotova, J., Suciu, V. (eds.): Cloud Computing and IoT for SMART CITY Deployments, pp. 1409–1416 (2013)
Tönjes, R., Barnaghi, P., Ali, M., Mileo, A., Hauswirth, M., Ganz, F., Ganea, S., Kjærgaard, B., Kuemper, D., Nechifor, S. (eds.): Real Time IoT Stream Processing and Large-Scale Data Analytics for SMART CITY Applications (2014)
Anthopoulos, L., Fitsilis, P. (eds.): From Digital to Ubiquitous Cities: Defining a Common Architecture for Urban Development, pp. 301–306. IEEE (2010)
Bandyopadhyay, D., Sen, J.: IoTs: applications and challenges in technology and standardization. Wirel. Pers. Commun. 58(1), 49–69 (2011)
Komninos, N. (ed.): The Architecture of Intelligent Clities: Integrating Human, Collective and Artificial Intelligence to Enhance Knowledge and Innovation, pp. 13–20. IET (2006)
Atzori, L., Iera, A., Morabito, G., Nitti, M.: The social IoTs (sIoT)–when social networks meet the IoTs: concept, architecture and network characterization. Comput. Netw. 56(16), 3594–3608 (2012)
Vilajosana, I., Llosa, J., Martinez, B., Domingo-Prieto, M., Angles, A., Vilajosana, X.: Bootstrapping smart cities through a self-sustainable model based on big data flows. IEEE Commun. Mag. 51(6), 128–134 (2013)
Zhong, C.-L., Zhu, Z., Huang, R.-G. (eds.): Study on the IOT Architecture and Gateway Technology, pp. 196–199. IEEE (2015)
Carretero, J.: ADAPCITY: a self-adaptive, reliable architecture for heterogeneous devices in Smart Cities. In: European Commissions-ICT Proposers (2012)
Corotinschi, G., Găitan, V.G. (eds.): Smart Cities Become Possible Thanks to the IoTs, pp. 291–296. IEEE (2015)
Shaikh, T., Ismail, S., Stevens, J.D. (eds.): Aura Minora: A User Centric IOT Architecture for SMART CITY, p. 59. ACM (2016)
Al-Hader, M., Rodzi, A., Sharif, A.R., Ahmad, N. (eds.): SMART CITY Components Architecture, pp. 93–97. IEEE (2009)
Cretu, L.-G.: Smart cities design using event-driven paradigm and semantic web. Informatica Economica 16(4), 57 (2012)
Wan, J., Li, D., Zou, C., Zhou, K. (eds.): M2M Communications for SMART CITY: An Event-Based Architecture, pp. 895–900. IEEE (2012)
Wenge, R., Zhang, X., Dave, C., Chao, L., Hao, S.: SMART CITY architecture: a technology guide for implementation and design challenges. China Commun. 11(3), 56–69 (2014)
Chakrabarty, S., Engels, D.W. (eds.): A Secure IoT Architecture for Smart Cities, pp. 812–813. IEEE (2016)
Palattella, M.R., Accettura, N., Vilajosana, X., Watteyne, T., Grieco, L.A., Boggia, G., Dohler, M.: Standardized protocol stack for the internet of (important) things. IEEE Commun. Surv. Tutor. 15(3), 1389–1406 (2013)
Rathore, M.M., Ahmad, A., Paul, A., Rho, S.: Urban planning and building smart cities based on the IoTs using big data analytics. Comput. Netw. 101, 63–80 (2016)
Anthopoulos, L.G.: Understanding the SMART CITY domain: a literature review. In: Transforming City Governments for Successful Smart Cities, pp. 9–21. Springer (2015)
Arroub, A., Zahi, B., Sabir, E., Sadik, M. (eds.): A Literature Review on Smart Cities: Paradigms, Opportunities and Open Problems, pp. 180–186. IEEE (2016)
Medvedev, A., Fedchenkov, P., Zaslavsky, A., Anagnostopoulos, T., Khoruzhnikov, S. (eds.): Waste Management as an IoT-Enabled Service in Smart Cities, pp. 104–115. Springer (2015)
Hossain, M.S. (ed.): Patient Status Monitoring for Smart Home Healthcare, pp. 1–6. IEEE (2016)
Han, D.-M., Lim, J.-H.: Design and implementation of smart home energy management systems based on ZigBee. IEEE Trans. Consum. Electron. 56(3) (2010)
Murthy, A., Han, D., Jiang, D., Oliveira, T. (eds.): Lighting-Enabled SMART CITY Applications and Ecosystems Based on the IoT, pp. 757–763. IEEE (2015)
Lynggaard, P., Skouby, K.E.: Complex IoT systems as enablers for smart homes in a SMART CITY vision. Sensors 16(11), 1840 (2016)
Bhati, A., Hansen, M., Chan, C.M.: Energy conservation through smart homes in a SMART CITY: a lesson for Singapore households. Energy Policy 104, 230–239 (2017)
Sudan, R.: Towards SMART government: the Andhra Pradesh experience. Indian J. Public Adm. 46(3), 401–410 (2000)
http://www.gartner.com/newsroom/id/2707617. Accessed 18 Apr 2017
Rochet, C., Correa, J.D.P.: Urban lifecycle management: a research program for smart government of smart cities (2016)
Ritchie, S.G.: A knowledge-based decision support architecture for advanced traffic management. Transp. Res. Part A: Gen. 24(1), 27–37 (1990)
Misbahuddin, S., Zubairi, J.A., Saggaf, A., Basuni, J., Sulaiman, A., Al-Sofi, A. (eds.): IoT Based Dynamic Road Traffic Management for Smart Cities, pp. 1–5. IEEE (2015)
Dinh, T., Kim, Y.: A novel location-centric IoT-cloud based on-street car parking violation management system in smart cities. Sensors 16(6), 810 (2016)
Hernafi, Y., Ahmed, M.B., Bouhorma, M. (eds.): An Approaches’ Based on Intelligent Transportation Systems to Dissect Driver Behavior and Smart Mobility in SMART CITY, pp. 886–895. IEEE (2016)
Parrado, N., Donoso, Y.: Congestion based mechanism for route discovery in a V2I-V2V system applying smart devices and IoT. Sensors 15(4), 7768–7806 (2015)
Poslad, S., Ma, A., Wang, Z., Mei, H.: Using a SMART CITY IoT to incentivise and target shifts in mobility behaviour—is it a piece of pie? Sensors 15(6), 13069–13096 (2015)
Yau, K.-L.A., Lau, S.L., Chua, H.N., Ling, M.H., Iranmanesh, V., Kwan, S.C.C. (eds.): Greater Kuala Lumpur as a SMART CITY: A Case Study on Technology Opportunities, pp. 96–101. IEEE (2016)
Letaifa, S.B.: How to strategize smart cities: revealing the SMART model. J. Bus. Res. 68(7), 1414–1419 (2015)
Bull, R., Azenoud, M.: Smart citizens for smart cities: participating in the future (2016)
Crowley, D., Curry, E., Breslin, J.G.: Citizen actuation for smart environments: evaluating how humans can play a part in smart environments. IEEE Consum. Electron. Mag. 5(3), 90–94 (2016)
Kazhamiakin, R., Marconi, A., Martinelli, A., Pistore, M., Valetto, G. (eds.): A Gamification Framework for the Long-Term Engagement of Smart Citizens, pp. 1–7. IEEE (2016)
Kidd, C.D., Orr, R., Abowd, G.D., Atkeson, C.G., Essa, I.A., MacIntyre, B., Mynatt, E., Starner, T.E., Newstetter, W. (eds.): The Aware Home: A Living Laboratory for Ubiquitous Computing Research, pp. 191–198. Springer (1999)
Jie, Y., Pei, J.Y., Jun, L., Yun, G., Wei, X. (eds.): Smart Home System Based on IoT Technologies, pp. 1789–1791. IEEE (2013)
Skouby, K.E., Lynggaard, P. (eds.): Smart Home and SMART CITY Solutions Enabled by 5G, IoT, AAI and CoT Services, pp. 874–878. IEEE (2014)
Sarin, G. (ed.): Developing Smart Cities Using IoTs: An Empirical Study, pp. 315–320. IEEE (2016)
Lymberis, A. (ed.): Smart Wearables for Remote Health Monitoring, from Prevention to Rehabilitation: Current R&D, Future Challenges, pp. 272–275 (2003)
Ma, J. (ed.): Internet-of-Things: Technology Evolution and Challenges, pp. 1–4. IEEE (2014)
Kaur, M.J., Maheshwari, P. (eds.): Building Smart Cities Applications Using IoT and Cloud-Based Architectures, pp. 1–5. IEEE (2016)
Chen, Y.-H., Tsai, M.-J., Fu, L.-C., Chen, C.-H., Wu, C.-L., Zeng, Y.-C. (eds.): Monitoring Elder’s Living Activity Using Ambient and Body Sensor Network in Smart Home, pp. 2962–2967. IEEE (2015)
Sakr, S., Elgammal, A.: Towards a comprehensive data analytics framework for smart healthcare services. Big Data Res. 4, 44–58 (2016)
Hollands, R.G.: Will the real SMART CITY please stand up? Intelligent, progressive or entrepreneurial? City 12(3), 303–320 (2008)
Housing, U., OTB, M.S.: Smart cities Ranking of European medium-sized cities
Giffinger, R., Gudrun, H.: Smart cities ranking: an effective instrument for the positioning of the cities? ACE: Archit. City Environ. 4(12), 7–26 (2010)
Gubbi, J., Buyya, R., Marusic, S., Palaniswami, M.: IoTs (IoT): a vision, architectural elements, and future directions. Future Gener. Comput. Syst. 29(7), 1645–1660 (2013)
Ballon, P., Glidden, J., Kranas, P., Menychtas, A., Ruston, S., Van Der Graaf, S.: Is There a Need for a Cloud Platform for European Smart Cities, pp. 1–7 (2011)
Horng, G.-J.: The adaptive recommendation mechanism for distributed parking service in SMART CITY. Wirel. Pers. Commun. 80(1), 395–413 (2015)
Wang, Y., Zhou, Y. (eds.): Cloud Architecture Based on Near Field Communication in the SMART CITY, pp. 231–234. IEEE (2012)
NG, K.K.R., Rajeshwari, K. (eds.): Interactive Clothes Based on IOT using NFC and Mobile Application, pp. 1–4. IEEE (2017)
Zorzi, M., Gluhak, A., Lange, S., Bassi, A.: From today’s intranet of things to a future IoTs: a wireless-and mobility-related view. IEEE Wirel. Commun. 17(6) (2010)
Hu, M., Li, C.: Design SMART CITY Based on 3S, IoTs, Grid Computing and Cloud Computing Technology. In: IoTs, pp. 466–472. Springer (2012)
Gyrard, A., Bonnet, C., Boudaoud, K., Serrano, M. (eds.): Assisting IoT Projects and Developers in Designing Interoperable Semantic Web of Things Applications, pp. 659–666. IEEE (2015)
di Martino, B., Cretella, G., Esposito, A.: Big data, IoT and semantics. In: Handbook of Big Data Technologies, pp. 655–690. Springer (2017)
Sezer, O.B., Dogdu, E., Ozbayoglu, M., Onal, A. (eds.): An Extended IoT Framework with Semantics, Big Data, and Analytics, pp. 1849–1856. IEEE (2016)
De Francisci Morales, G., Bifet, A., Khan, L., Gama, J., Fan, W. (eds.): IoT Big Data Stream Mining, pp. 2119–2120. ACM (2016)
Ji, Y.-K., Kim, Y.-I., Park, S.: Big data summarization using semantic feature for IoT on cloud. Contemp. Eng. Sci. 7(21–24), 1095–1103 (2014)
Bashir, M.R., Gill, A.Q. (eds.): Towards an IoT Big Data Analytics Framework: Smart Buildings Systems, pp. 1325–1332. IEEE (2016)
Jara, A.J., Sun, Y., Song, H., Bie, R., Genooud, D., Bocchi, Y. (eds.): IoTs for Cultural Heritage of Smart Cities and Smart Regions, pp. 668–675. IEEE (2015)
Deshpande, A., Guestrin, C., Madden, S.R., Hellerstein, J.M., Hong, W. (eds.): Model-Driven Data Acquisition in Sensor Networks, pp. 588–599. VLDB Endowment (2004)
Schaumont, P.: A Practical Introduction to Hardware/Software Codesign. Springer Science & Business Media (2012)
Jara, A.J., Olivieri, A.C., Bocchi, Y., Jung, M., Kastner, W., Skarmeta, A.F.: Semantic web of things: an analysis of the application semantics for the IoT moving towards the IoT convergence. Int. J. Web Grid Serv. 10(2–3), 244–272 (2014)
Desai, P., Sheth, A., Anantharam, P. (eds.): Semantic Gateway as a Service Architecture for IoT Interoperability, pp. 313–319. IEEE (2015)
Gyrard, A., Serrano, M., Atemezing, G.A. (eds.): Semantic Web Methodologies, Best Practices and Ontology Engineering Applied to IoTs, pp. 412–417. IEEE (2015)
Kelaidonis, D., Rouskas, A., Stavroulaki, V., Demestichas, P., Vlacheas, P. (eds.): A Federated Edge Cloud-IoT Architecture, pp. 230–234. IEEE (2016)
Suciu, G., Vulpe, A., Fratu, O., Suciu, V. (eds.): M2M Remote Telemetry and Cloud IoT Big Data Processing in Viticulture, pp. 1117–1121. IEEE (2015)
Munir, A., Kansakar, P., Khan, S.U.: IFCIoT: Integrated Fog Cloud IoT Architectural Paradigm for Future IoTs. arXiv:1701.08474 (2017)
Dinh, T., Kim, Y., Lee, H. (eds.): A Location-Based Interactive Model for IoTs and Cloud (IoT-Cloud), pp. 444–447. IEEE (2016)
Vakali, A., Anthopoulos, L., Krco, S. (eds.): Smart Cities Data Streams Integration: Experimenting with IoTs and Social Data Flows, p. 60. ACM (2014)
Hwang, Y.H. (ed.): IoT Security & Privacy: Threats and Challenges, pp. 1–1. ACM (2015)
Harris, A.F., Sundaram, H., Kravets, R. (eds.): Security and Privacy in Public IoT Spaces. IEEE, pp. 1–8 (2016)
Seetharaman, S., Ghosh, S.: Adaptive and composite privacy and security mechanism for IoT communication
Kozlov, D., Veijalainen, J., Ali, Y. (eds.): Security and Privacy Threats in IoT Architectures, pp. 256–262. ICST Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering (2012)
Ngu, A.H., Gutierrez, M., Metsis, V., Nepal, S., Sheng, M.Z.: IoT middleware: a survey on issues and enabling technologies. IEEE IoTs J. (2016)
Li, S., Zhang, Y., Raychaudhuri, D., Ravindran, R., Zheng, Q., Dong, L., Wang, G. (eds.): IoT Middleware Architecture over Information-Centric Network, pp. 1–7. IEEE (2015)
Boman, J., Taylor, J., Ngu, A.H. (eds.): Flexible IoT Middleware for Integration of Things and Applications, pp. 481–488. IEEE (2014)
Venkatesh, J., Chan, C., Akyurek, A.S., Rosing, T.S. (eds.): A Context-Driven IoT Middleware Architecture (2015)
Nakamura, Y., Suwa, H., Arakawa, Y., Yamaguchi, H., Yasumoto, K. (eds.): Design and Implementation of Middleware for IoT Devices Toward Real-Time Flow Processing, pp. 162–167. IEEE (2016)
Nan, C., Lee, Y., Tila, F., Lee, S., Kim, D.H. (eds.): A Study of Actuator Network Middleware Based on ID for IoT System, pp. 17–19. IEEE (2015)
Acknowledgements
We would like to thank University of Human Development and University of Technology, Malaysia, for their grant and financial support to complete this work.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Jaafar, A.A., Sharif, K.H., Ghareb, M.I., Jawawi, D.N.A. (2019). Internet of Thing and Smart City: State of the Art and Future Trends. In: Bhatia, S., Tiwari, S., Mishra, K., Trivedi, M. (eds) Advances in Computer Communication and Computational Sciences. Advances in Intelligent Systems and Computing, vol 760. Springer, Singapore. https://doi.org/10.1007/978-981-13-0344-9_1
Download citation
DOI: https://doi.org/10.1007/978-981-13-0344-9_1
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-13-0343-2
Online ISBN: 978-981-13-0344-9
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)