Abstract
Practical implementation of the Smart city concept is based on the heavy use of so-called “soft” domains characterizing the formation of comfortable urban socio-communicative environment and “hard” domains providing the operation of diverse community services, provision of appropriate services by means of modern information technologies. The analysis of numerous publications provides a strong evidence that at present there are no systematic information-technological developments concerning processes support in social communication and resource networks of the Smart cities.
The authors developed a number of information systems based particularly on consolidated socio-communicative resources and database containing information concerning accounting and cost analysis in resource networks of the Smart City. The context diagrams of the consolidated socio-communicative resource and the system of accounting and cost analysis in resource networks of the Smart City are constructed. Function sets of information systems possibilities are formed and corresponding diagrams of UseCases are designed. The database structures of the consolidated socio-communicative resources system and the information system of accounting and cost analysis in resource networks of the Smart City are formed. Relative data base sizing is carried out. The current state of practical implementation of software-algorithmic tools is presented. The obtained results are analyzed, the relevant conclusions are made and the promising trends of further researches are defined.
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References
Garau, C., Pavan, V.M.: Evaluating urban quality: indicators and assessment tools for smart sustainable cities. Sustainability 10(3), 575 (2018)
European Parliament. Mapping smart cities in the EU; European Parliament, Directorate general for internal policies: Brussels, Belgium (2014)
Vázquez, J.L., Lanero, A., Gutiérrez, P., Sahelices, C.: The contribution of smart cities to quality of life from the view of citizens. In: Entrepreneurial, Innovative and Sustainable Ecosystems, pp. 55–66. Springer, Cham (2018)
Monfaredzadeh, T., Berardi, U.: Beneath the smart city: dichotomy between sustainability and competitiveness. Int. J. Sustain. Build. Technol. Urban Dev. 6(3), 140–156 (2015)
Berardi, U.: Sustainability assessment of urban communities through rating systems. Environ. Dev. Sustain. 15(6), 1573–1591 (2013)
Cugurullo, F.: Exposing smart cities and eco-cities: Frankenstein urbanism and the sustainability challenges of the experimental city. Environ. Plan. A (2017). https://doi.org/10.1177/0308518X17738535
Höjer, M., Wangel, J.: Smart sustainable cities: definition and challenges. In: ICT Innovations for Sustainability, pp. 333–349. Springer, Cham (2015)
Calvillo, C.F., Sánchez-Miralles, A., Villar, J.: Energy management and planning in smart cities. Renew. Sustain. Energy Rev. 55, 273–287 (2016)
Wong, M.S., Wang, T., Ho, H.C., Kwok, C.Y., Lu, K., Abbas, S.: Towards a smart city: development and application of an improved integrated environmental monitoring system. Sustainability 10(3), 623 (2018)
Monteiro, C.S., Costa, C., Pina, A., Santos, M.Y., Ferrão, P.: An urban building database (UBD) supporting a smart city information system. Energy Build. 158, 244–260 (2018)
Yamamura, S., Fan, L., Suzuki, Y.: Assessment of urban energy performance through integration of BIM and GIS for smart city planning. Procedia Eng. 180, 1462–1472 (2017)
Liu, Y., Weng, X., Wan, J., Yue, X., Song, H., Vasilakos, A.V.: Exploring data validity in transportation systems for smart cities. IEEE Commun. Mag. 55(5), 26–33 (2017)
Xiao, Z., Lim, H.B., Ponnambalam, L.: Participatory sensing for smart cities: a case study on transport trip quality measurement. IEEE Trans. Ind. Inform. 13(2), 759–770 (2017)
El-Wakeel, A.S., Li, J., Rahman, M.T., Noureldin, A., Hassanein, H.S.: Monitoring road surface anomalies towards dynamic road mapping for future smart cities. In: Signal and Information Processing (GlobalSIP), pp. 828–832 (2017)
Kamienski, C., Borelli, F., Biondi, G., Pinheiro, I., Zyrianoff, I., Jentsch, M.: Context design and tracking for IoT-based energy management in smart cities. IEEE Internet Things J. 5(2), 687–695 (2017)
Sta, H.B.: Quality and the efficiency of data in “Smart-Cities”. Future Gener. Comput. Syst. 74, 409–416 (2017)
Souza, A., Pereira, J., Oliveira, J., Trindade, C., Cavalcante, E., Cacho, N., Lopes, F.: A data integration approach for smart cities: the case of natal. In: Smart Cities Conference (ISC2), pp. 1–6 (2017)
Santana, E.F.Z., Chaves, A.P., Gerosa, M.A., Kon, F., Milojicic, D.S.: Software platforms for smart cities: concepts, requirements, challenges, and a unified reference architecture. ACM Comput. Surv. (CSUR) 50(6), 78 (2017)
Muhammad, G., Alsulaiman, M., Amin, S.U., Ghoneim, A., Alhamid, M.F.: A facial-expression monitoring system for improved healthcare in smart cities. IEEE Access 5, 10871–10881 (2017)
Ali, Z., Muhammad, G., Alhamid, M.F.: An automatic health monitoring system for patients suffering from voice complications in smart cities. IEEE Access 5, 3900–3908 (2017)
Zotano, M.A.G., Bersini, H.: A data-driven approach to assess the potential of Smart Cities: the case of open data for Brussels Capital Region. Energy Procedia 111, 750–758 (2017)
Koukopoulos, D., Koukoulis, K.: A trustworthy system with mobile services facilitating the everyday life of a museum. Int. J. Ambient. Comput. Intell. (IJACI) 9(1), 1–18 (2018)
Pereira, J.A.R.: Smart augmented reality application for enhanced museum experience (2017)
Mulfari, D., Minnolo, A.L., Puliafito, A.: Building tensor flow applications in smart city scenarios. In: Smart Computing (SMARTCOMP), pp. 1–5 (2017)
Galvão, J.R., Moreira, L., Gaspar, G., Vindeirinho, S., Leitão, S.: Energy system retrofit in a public services building. Manag. Environ. Qual. 28(3), 302–314 (2017)
Wang, X., Guo, M., Koppelaar, R.H., van Dam, K.H., Triantafyllidis, C.P., Shah, N.: A nexus approach for sustainable urban Energy-Water-Waste systems planning and operation. Environ. Sci. Technol. 52(5), 3257–3266 (2018)
Spinsante, S., Squartini, S., Russo, P., De Santis, A., Severini, M., Fagiani, M., Minerva, R.: 14 IoT-enabled smart gas and water Grids. Internet Things Chall. Adv. Appl. 273 (2017)
Zhang, K., Ni, J., Yang, K., Liang, X., Ren, J., Shen, X.S.: Security and privacy in smart city applications: challenges and solutions. IEEE Commun. Mag. 55(1), 122–129 (2017)
Sayegh, M.A., Danielewicz, J., Nannou, T., Miniewicz, M., Jadwiszczak, P., Piekarska, K., Jouhara, H.: Trends of European research and development in district heating technologies. Renew. Sustain. Energy Rev. 68, 1183–1192 (2017)
Mosannenzadeh, F., Bisello, A., Vaccaro, R., D’Alonzo, V., Hunter, G.W., Vettorato, D.: Smart energy city development: a story told by urban planners. Cities 64, 54–65 (2017)
Rismanchi, B.: District energy network (DEN), current global status and future development. Renew. Sustain. Energy Rev. 75, 571–579 (2017)
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Tabachyshyn, D., Kunanets, N., Karpinski, M., Duda, O., Matsiuk, O. (2019). Information Systems for Processes Maintenance in Socio-communication and Resource Networks of the Smart Cities. In: Shakhovska, N., Medykovskyy, M. (eds) Advances in Intelligent Systems and Computing III. CSIT 2018. Advances in Intelligent Systems and Computing, vol 871. Springer, Cham. https://doi.org/10.1007/978-3-030-01069-0_14
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