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In the article the idea of the “Smart City” is analysed mainly from the view point of technology. The author presents in the first part of the paper the brief review of technical issues connected with implementing the concept of “Smart City” into practice. These review is illustrated in the second part of the paper by some practical results, which are treated as a background for formulating a research problem which is tried to be presented in the third part of the paper: the problem of recognizing needs in the complex field of activities, assessing these needs and - basing on results of such an assessment - designing some integrated solutions that should be used in management of the identified resources. The final part of the paper contains some conclusions and introduces directions for further research.
Wydawca
Rocznik
Tom
Strony
467--473
Opis fizyczny
Bibliogr. 26 poz., fig.
Twórcy
autor
- Silesian University of Technology, Poland
autor
- Silesian University of Technology, Poland
autor
- Technical University Zvolen, Slovak Republic
autor
- Batumi Shota Rustaveli State University, Georgia
Bibliografia
- 1. Angelidou, M. (2014). Smart city policies: A spatial approach. Cities, Vol. 41, Suppl. 1, S3-S11.
- 2. Angelidou, M., Psaltoglou, A., Komninos, N., Kakderi, C., Tsarchopoulos, P. and Panori, A. (2017). Enhancing sustainable urban development through smart city applications. Journal of Science and Technology Policy Management, 9(2), pp. 146-169.
- 3. Antosz, K. (2018). Maintenance – identification and analysis of the competency gap. Eksploatacja i niezawodnosc – Maintenance and Reliability, 20(3), pp. 484-494.
- 4. Bakici, T., Almirall, E. and Wareham, J. (2013). A Smart City initiative: The case of Barcelona. Journal of Knowledge Economy, 4(2), pp. 135-148.
- 5. Baran, J., Janik, A., Ryszko, A. and Szafraniec, M. (2016). Selected environmental methods and tools supporting eco-innovation implementation within national smart specialisations in Poland. In: 3rd International Multidisciplinary Scientific Conference on Social Sciences and Arts SGEM 2016, SGEM2016 Conference Proceedings, Book 2, vol. 3, Albena (Bulgaria), pp. 1029-1036.
- 6. Brodny, J., Tutak, M. and Michalak, M. (2017). A Data Warehouse as an Indispensable Tool to Determine the Effectiveness of the Use of the Longwall Shearer. In: 13-th International Conference Beyond Databases, Architectures and Structures BDAS, Beyond Databases, Architectures and Structures. Towards Efficient Solutions for Data Analysis and Knowledge Representation, pp. 453-465.
- 7. Caragliu, A., Del Bo, C. and Nijkamp, P. (2011). Smart Cities in Europe. Journal of Urban Technology, 18(2), pp. 65-82.
- 8. Dudzevičiūte, G., Šimelytė, A. and Liučvaitienė A. (2017). The Application of Smart Cities Concept for Citizens of Lithuania and Sweden: Comparative Analysis. Independent Journal of Management & Production, 8(4), pp. 1433-1450.
- 9. Galán-García, H.L., Aguilera-Venegas, G. and Rodríguez-Cielos, P. (2014). An accelerated-time simulation for traffic flow in a smart city. Journal of Computational and Applied Mathematics, Vol. 270, pp. 557-563.
- 10. Gruler, A., Juan, A.A, Contreras-Bolton, C. and Gatica, G. (2018). A Biased-Randomized Heuristic for the Waste Collection Problem in Smart Cities. Gil-Lafuente, A., Merigó, J., Dass, B. and R. Verma, eds., Applied Mathematics and Computational Intelligence, FIM 2015. Advances in Intelligent Systems and Computing, vol 730, pp. 255-263.
- 11. Jasiulewicz-Kaczmarek, M., Wyczółkowski, R. and Gładysiak, V. (2017). Modeling a hierarchical structure of factors influencing exploitation policy for water distribution systems using ISM approach. In: International Conference On Material Engineering And Advanced Manufacturing Technology, Book Series: IOP Conference Series-Materials Science and Engineering, Vol. 282, Article Number: UNSP 012014.
- 12. Karwot, J., Kaźmierczak, J., Wyczółkowski, R., Paszkowski, W. and Przystałka, P. (2016). Smart Water in Smart City: A Case Study. Proceedings of SGEM 16th International Scientific Conference on EARTH&GEOSCIENCES, Book 3, Vol. I, pp. 851-858.
- 13. Kozlowski, E., Kowalska, B., Kowalski, D. and Mazurkiewicz, D. (2018). Water demand forecasting by trend and harmonic analysis. Archives of Civil and Mechanical Engineering, 18(1), pp. 140-148.
- 14. Lazaroiu, G.C. and Roscia, M. (2012). Definition methodology for the smart cities model. Energy, 47(1), pp. 326-332.
- 15. Lis, A. (2014). Otwarty inteligentny system sterowania oświetleniem ulicznym. In: Proceedings of the Conference Smart Metering - wstęp do pilotażowych wdrożeń zarządzania, Gliwice 2014 (in Polish).
- 16. Loska, A. (2017). Scenario modeling exploitation decision-making process in technical network systems. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 19(2), pp. 268-278.
- 17. Loska, A. and Paszkowski, W. (2017). SmartMaintenance - The Concept of Supporting the Exploitation Decision-Making Process in the Selected Technical Network System. In: A. Burduk and D. Mazurkiewicz, eds., Intelligent Systems in Production Engineering and Maintenance – ISPEM 2017. Advances in Intelligent Systems and Computing, Springer, Cham, Vol. 637, pp. 64-73.
- 18. Loska, A., Moczulski, W., Wyczółkowski, R. and Dąbrowski, A. (2016). Integrated system of control and management of exploitation of water supply system. Diagnostyka, 17(1), pp. 65-74.
- 19. Matos, F., Vairinhos, V.M., Dameri, R.P. and Durst, S. (2017). Increasing smart city competitiveness and sustainability through managing structural capital. Journal of Intellectual Capital, 18(3), pp. 693-707.
- 20. Monfaredzadeh, T. and Krueger, R. (2015). Investigating social factors of sustainability in a Smart City. Procedia Engineering, 118, pp. 1112-1118.
- 21. Russo, F., Rindone, C. and Panuccio, P. (2016). Europeans plans for the Smart City: from theories and rules to logistics test case. European Planning Studies, 24(9), pp. 1709-1726.
- 22. Stecuła, K., Brodny, J. and Tutak, M. (2017). Use of intelligent informatics module for registration and assessment of causes of breaks in selected mining machines. In: A. Burduk, D. Mazurkiewicz, eds., Intelligent Systems in Production Engineering and Maintenance - ISPEM 2017. Advances in Intelligent Systems and Computing, Springer, Cham, Vol. 637, pp. 74-84.
- 23. Thaduri, A. and Kumar, U. (2018). Analytics for Maintenance of Transportation in Smart Cities. In: P.K. Kapur, U.Kumar and A. Kumar Verma eds., Quality, IT and Business Operations, Springer International Publishing, pp. 81-91.
- 24. Trindade, E.P., Hinnig, M.P.F., Moreira da Costa, E., Marques, J.S., Bastos, R.C. and Yigitcanlar T. (2017). Sustainable development of smart cities: a systematic review of the literature. Journal of Open Innovation: Technology, Market, and Complexity, 3:11.
- 25. Tüzün, R.S. and Gülmez, Y. (2017). Green logistics for sustainability. International Journal of Management Economics and Business, 13(3), pp. 603-614.
- 26. Wachla, D., Przystałka, P., Kalisch, M., Moczulski, W. and Timofiejczuk, A. (2016). Development of expert system shell with context-based reasoning. Development of expert system shell with context-based reasoning. Advances in Intelligent Systems and Computing, Vol. 386, pp. 369-382.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d922684b-88df-4fd5-912c-b1dcdf89b5be