1. ELARTU — Інституційний репозитарій ТНТУ імені Івана Пулюя
  2. Роботи студентів
  3. Бакалавр
  4. 122 — Компʼютерні науки (бакалаври)
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Назва: Аналіз інформаційних технологій розумного міста
Інші назви: Analysis of information technology of a smart city
Автори: Гайда, Максим Васильович
Haida, Maksym Vasylovych
Приналежність: ТНТУ ім. І. Пулюя, Факультет комп’ютерно-інформаційних систем і програмної інженерії, Кафедра комп’ютерних наук, м. Тернопіль, Україна
Бібліографічний опис: Гайда М. В. Аналіз інформаційних технологій розумного міста: кваліфікаційна робота освітнього рівня „Бакалавр“ „122 — компютерні науки“ / М. В. Гайда. — Тернопіль : ТНТУ, 2022. — 54 с.
Дата публікації: 20-чер-2022
Дата подання: 6-чер-2022
Дата внесення: 28-чер-2022
Країна (код): UA
Місце видання, проведення: ТНТУ ім. І.Пулюя, ФІС, м. Тернопіль, Україна
Науковий керівник: Мацюк, Олександр Васильович
Члени комітету: Микитишин, Андрій Григорович
УДК: 004.62
Теми: цифрові міста
digital cities
інтернет речей
Internet of Things
великі дані
big data
хмарні обчислення
cloud computing
інфраструктура
infrastructure
платформи
platforms
Короткий огляд (реферат): За останні роки розумні міста значно розвинулися і значно розширили свій потенціал. Нові досягнення в Інтернеті речей (IoT) проклали шлях до нових можливостей, представляючи набір ключових технологій для розумних міст і дозволяючи створювати та автоматизувати інноваційні послуги та передові додатки для різних зацікавлених сторін міста. У цій роботі представлено огляд дослідницької літератури про розумні міста з підтримкою IoT з метою висвітлення основних тенденцій та відкритих проблем впровадження технологій IoT для розвитку сталих та ефективних розумних міст. У кваліфікаційній роботі спочатку представлено огляд ключових технологій, запропонованих у літературі для впровадження фреймворків IoT, а потім огляд основних підходів і рамок «розумного міста» In recent years, smart cities have developed significantly and significantly expanded their potential. New advances in the Internet of Things (IoT) have paved the way for new opportunities by introducing a set of key technologies for smart cities and enabling the creation and automation of innovative services and advanced applications for various city stakeholders. This paper presents a review of the research literature on smart cities with IoT support in order to highlight the main trends and open issues of the implementation of IoT technologies for the development of sustainable and efficient smart cities. The qualification paper first presents an overview of key technologies proposed in the literature for the implementation of IoT frameworks, and then an overview of the main approaches and framework of the "smart city".
Зміст: Вступ 1 Аналіз наукових публікацій 1.1 Історія розвитку розумного міста 1.2 Проблеми розумних міст 2 Огляд компонентів і рішень розумних міст з підтримкою ІoТ 2.1 Розумне управління 2.2 Розумне життя та інфраструктура 2.3 Розумна мобільність і транспорт 2.4 Розумна економіка 2.5 Розумна промисловість і виробництво 2.6 Розумна енергія 2.7 Розумне середовище 2.8 Розумна охорона здоров’я 2.9 Нові тенденції та напрямки досліджень 3 Безпека життєдіяльності, основи охорони праці 3.1 Класифікація шкідливих та небезпечних виробничих факторів 3.2 Вплив вібрації на людину Висновки Перелік використаних джерел
URI (Уніфікований ідентифікатор ресурсу): http://elartu.tntu.edu.ua/handle/lib/38353
Власник авторського права: © Гайда Максим Васильович, 2022
Перелік літератури: 1. Harrison C, Donnelly IA (2011) A Theory of Smart Cities. Proceedings of the 55th Annual Meeting of the ISSS. Hull: International Society for the Systems Sciences. 2. Schaffers H, Komninos N, Pallot M, Trousse B, Nilsson M, Oliveira A (2011) Smart Cities and the Future Internet: Towards Cooperation Frameworks for Open Innovation, Lecture Notes in Computer Science. 3. T. M. Heng and L. Low, “The intelligent city: Singapore achieving the next lap: Practitoners forum,” Technology Analysis & Strategic Management, vol. 5, no. 2, pp. 187–202, 1993. 4. Q. Li and S. Lin, “Research on digital city framework architecture,” in Proceedings of the International Conferences on Info- Tech and Info-Net, ICII 2001, pp. 30–36, Beijing, China,November 2001. 5. T. Ishida, H. Ishiguro, and H. Nakanishi, “Connecting digital and physical cities,” in Digital Cities II: Computational and Sociological Approaches, vol. 2362 of Lecture Notes in Computer Science, pp. 246–256, Springer, Berlin, Germany, 2002. 6. Ejaz, W.; Anpalagan, A. Internet of Things for Smart Cities: Technologies, Big Data and Security; Springer: Berlin/Heidelberg, Germany, 2019. 7. Fizza, K.; Banerjee, A.; Mitra, K.; Jayaraman, P.P.; Ranjan, R.; Patel, P.; Georgakopoulos, D. QoE in IoT: A vision, survey and future directions. Discov. Internet Things 2021, 1, 4. 8. Bauer, M.; Sanchez, L.; Song, J.S. IoT-enabled smart cities: Evolution and outlook. Sensors 2021, 21, 4511. 9. Janani, R.P.; Renuka, K.; Aruna, A.; Lakshmi Narayanan, K. IoT in smart cities: A contemporary survey. Glob. Transit. Proc. 2021, 2, 187–193. 10. UN-GGMI Report, Resolution Adopted by the General Assembly on 6 July 2017. 2017. Available online: https://ggim.un.org/documents/a_res_71_313.pdf (accessed on 17 January 2022). 11. Hassan, R.J.; Zeebaree, S.R.M.; Ameen, S.Y.; Kak, S.F.; Sadeeq, M.A.M.; Ageed, Z.S.; Al-Zebari, A.; Salih, A.A. State of Art Survey For IoT effects on smart city, technology: Challenges, opportunities, and solutions. Asian J. Res. Comput. Sci. 2021, 8, 32–48. 12. Syed, A.S.; Sierra-Sosa, D.; Kumar, A.; Elmaghraby, A. IoT in smart cities: A survey of technologies, practices and challenges. Smart Cities 2021, 4, 24. 13. Pukkasenung, P.; Lilakiatsakun, W. Improved generic layer model for IoT architecture. J. Inf. Sci. Technol. 2021, 11, 18–29. [Google Scholar] [CrossRef] 14. Said, O.; Masud, M. Towards Internet of Things: Survey and future vision. Int. J. Comput. Netw. 2013, 5, 1–17. 15. Zhong, C.-L.; Zhu, Z.; Huang, R.-G. Study on the IoT architecture and gateway technology. In Proceedings of the 14th International Symposium on Distributed Computing and Applications for Business Engineering and Science, Guiyang, China, 18–24 August 2015. 16. Burhan, M.; Rehman, R.A.; Khan, B.; Kim, B.S. IoT elements, layered architectures and security issues: A comprehensive survey. Sensors 2018, 18, 2796. 17. Marques, G.; Garcia, N.; Pombo, N. A survey on IoT: Architectures, elements, applications, QoS, platforms and security concepts. In Advances in Mobile Cloud Computing and Big Data in the 5G Era; Springer: Cham, Switzerland, 2017; pp. 115–130. 18. Badidi, E.; Mahrez, Z.; Sabir, E. Fog computing for smart cities’ big data management and analytics: A review. Future Internet 2020, 12, 190. 19. Sethi, P.; Sarangi, S.R. Internet of Things: Architectures, protocols, and applications. J. Electr. Comput. Eng. 2017, 2017, 9324035. 20. Ray, P.P. A survey on visual programming languages in Internet of Things. Sci. Program. 2017, 2017, 1231430. 21. Gomez, C.; Oller, J.; Paradells, J. Overview and evaluation of Bluetooth low energy: An emerging low-power wireless technology. Sensors 2012, 12, 11734–11753. 22. Alvear, O.; Calafate, C.T.; Cano, J.C.; Manzoni, P. Crowdsensing in smart cities: Overview, platforms, and environment sensing issues. Sensors 2018, 18, 460. 23. Ray, P.P. A survey on Internet of Things architectures. J. King Saud Univ.–Comput. Inf. Sci. 2018, 30, 291–319. 24. Ahmed, S. Performance analysis of Mobile WiMAX Technology. In Proceedings of the International Conference on Computing for Sustainable Global Development (INDIACom), New Delhi, India, 5–7 March 2014; pp. 959–961. 25. Ghazal, T.M.; Hasan, M.K.; Alshurideh, M.T.; Alzoubi, H.M.; Ahmad, M.; Akbar, S.S.; Al Kurdi, B.; Akour, I.A. IoT for smart cities: Machine learning approaches in smart healthcare—A review. Future Internet 2021, 13, 218. 26. Li, Y.; Cheng, X.; Cao, Y.; Wang, D.; Yang, L. Smart choice for the smart grid: Narrowband Internet of Things (NB-IoT). IEEE Internet Things J. 2018, 5, 1505–1515. 27. Yang, D.; Huang, X.; Huang, J.; Chang, X.; Xing, G.; Yang, Y. A first look at energy consumption of NB-IoT in the wild: Tools and large-scale measurement. IEEE/ACM Trans. Netw. 2021, 29, 2616–2631. 28. El Fawal, A.H.; Mansour, A.; Najem, M.; Le Roy, F.; Le Jeune, D. LTE-M adaptive eNodeB for emergency scenarios. In Proceedings of the International Conference on Information and Communication Technology Convergence (ICTC), Jeju, Korea, 18–20 October 2017; pp. 536–541. 29. Ratasuk, R.; Mangalvedhe, N.; Bhatoolaul, D.; Ghosh, A. LTE-M evolution towards 5G massive MTC. In Proceedings of the IEEE Globecom Workshops (GC Wkshps), Singapore, 4–8 December 2017; pp. 1–6. 30. Beale, M.; Uchiyama, H.; Clifton, J.C. IoT evolution: What’s next? IEEE Wirel. Commun. 2021, 28, 5–7. 31. Linh, P.M.; Kim, T. A study of the Z-Wave Protocol: Implementing your own smart home gateway. In Proceedings of the 3rd International Conference on Computer and Communication Systems (ICCCS), Nagoya, Japan, 27–30 April 2018. 32. Mekki, K.; Bajic, E.; Chaxel, F.; Meyer, M. A comparative study of LPWAN technologies for large-scale IoT deployment. ICT Express 2019, 5, 1–7 33. Rao, S.K.; Prasad, R. Impact of 5G technologies on smart city implementation. Wirel. Pers. Commun. 2018, 100, 161–176. 34. Badii, C.; Bellini, P.; Cenni, D.; Marazzini, M.; Nesi, P.; Pantaleo, G.; Paolucci, M.; Soderi, M.; Zaza, I.; Belay, E.G.; et al. Snap4City: A scalable IOT/IOE platform for developing smart city applications. In Proceedings of the 2018 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computing, Scalable, Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovations, Guangzhou, China, 8–12 October 2018. 35. Hazra, A.; Adhikari, M.; Amgoth, T.; Srirama, S.N. A comprehensive survey on interoperability for IioT: Taxonomy, standards, and future directions. ACM Comput. Surv. 2021, 55, 1–35. 36. Zhang, J.; Ma, M.; Wang, P.; Sun, X.D. Middleware for the Internet of Things: A survey on requirements, enabling technologies, and solutions. J. Syst. Archit. 2021, 117, 102098. 37. Badii, C.; Bellini, P.; Difino, A.; Nesi, P.; Pantaleo, G.; Paolucci, M. MicroServices Suite for smart city applications. Sensors 2019, 19, 4798. 38. Badii, C.; Bellini, P.; Cenni, D.; Mitolo, N.; Nesi, P.; Pantaleo, G.; Soderi, M. Industry 4.0 synoptics controlled by IoT applications in Node-RED. In Proceedings of the IEEE International Conferences on Internet of Things (iThings), Rhodes, Greece, 2–6 November 2020. 39. Collini, E.; Nesi, P.; Pantaleo, G. Deep learning for short-term prediction of available bikes on bike-sharing stations. IEEE Access 2021, 9, 124337–124347. 40. Bellini, P.; Bugli, F.; Nesi, P.; Pantaleo, G.; Paolucci, M.; Zaza, I. Data flow management and visual analytic for big data smart city/IOT. In Proceedings of the 2019 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computing, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation, Leicester, UK, 19–23 August 2019. 41. Badii, C.; Bellini, P.; Difino, A.; Nesi, P. Smart city IoT platform respecting GDPR privacy and security aspects. IEEE Access 2020, 8, 23601–23623. 42. Mardacany, E. Smart cities characteristics: Importance of buit environments components. In Proceedings of the IET Conference on Future Intelligent Cities, London, UK, 4–5 December 2014. 43. Demirel, D. How the smart governance model shapes cities? Cases from Europe. J. Enterprising Communities 2021. 44. Chun, S.A.; Adam, N.R.; Noveck, B. Smart governance in the context of smart cities: A literature review. Inf. Polity 2018, 3, 143–162. 45. Shahrour, I.; Xie, X. Role of Internet of Things (IoT) and crowdsourcing in smart city projects. Smart Cities 2021, 4, 68. 46. Papadopoulou, P.; Kolomvatsos, K.; Hadjiefthymiades, S. Internet of Things in E-Government: Applications and challenges. Int. J. Artif. Intell. Mach. Learn. 2020, 10, 99–118. 47. Coardos, D.; Tirziu, E.; Gheorge-Moisii, M. A general framework based on IoT technology for smart governance. In Proceedings of the 2019 IE (Informatics in Economy) International Conference, Bucharest, Romania, 30–31 May 2019. 48. Szádeczky, T. Enhanced functionality brings new privacy and security issues—An analysis of eI. Masaryk. Univ. J. Law Technol. 2018, 12, 3–28. 49. Badii, C.; Bellini, P.; Difino, A.; Nesi, P. Sii-mobility: An IoT/IoE architecture to enhance smart city mobility and transportation services. Sensors 2018, 19, 1. 50. Barcevicius, E.; Cibaite, G.; Codagnone, G.; Gineikyte, V.; Klimaviciute, L.; Liva, G.; Matulevic, L.; Misuraca, G.; Vanini, I. Exploring Digital Government transformation in the EU; Publications Office of the European Union: Luxembourg, 2019; JRC118857. 51. Gascó-Hernandez, M. Building a smart city: Lessons from Barcelona. Commun. ACM 2018, 61, 50–57. 52. Bakici, T.; Almirall, E.; Wareham, J. A smart city initiative: The case of Barcelona. J. Knowl. Econ. 2013, 4, 135–148. 53. Nesti, G. Defining and assessing the transformational nature of smart city governance: Insights from four European cases. Int. Rev. Adm. Sci. 2020, 86, 20–37. 54. Gaffney, C.; Robertson, C. Smarter than smart: Rio de Janeiro’s flawed emergence as a smart city. J. Urban Technol. 2018, 25, 47–64. 55. Chang, F.; Das, D. Smart nation Singapore: Developing policies for a citizen-oriented smart city initiative. In Developing National Urban Policies: Ways Forward to Green and Smart Cities; Springer: Berlin/Heidelberg, Germany, 2020; pp. 425–440. 56. Artyushina, A. Is civic data governance the key to democratic smart cities? The role of the urban data trust in Sidewalk Toronto. Telemat. Inform. 2020, 5, 101456. 57. Austin, L.M.; Lie, D. Data trusts and the governance of smart environments: Lessons from the failure of Sidewalk Labs. Surveill. Soc. 2021, 19, 255–261. 58. Yigitcanlar, T.; Han, H.; Kamruzzaman, M.; Ioppolo, G.; Sabatini-Marques, J. The making of smart cities: Are Songdo, Masdar, Amsterdam, San Francisco and Brisbane the best we could build? Land Use Policy 2019, 88, 104187. 59. Lee, S.K.; Kwon, H.R.; Cho, H.; Kim, J.; Lee, D. International Case Studies of Smart Cities: Songdo, Republic of Korea, IDB Report. 2016. Available online: https//publications.iadb.org/publications/english/document/International-Case-Studies-of-Smart-Cities-Songdo-Republic-of-Korea.pdf (accessed on 17 January 2022). 60. Shi, Q.; Zhang, Z.; He, T. Deep learning enabled smart mats as a scalable floor monitoring system. Nat. Commun. 2020, 11, 4609. [Google Scholar] [CrossRef] 61. Lombardi, M.; Pascale, F.; Santaniello, D. Internet of Things: A general overview between architectures, protocols and applications. Information 2021, 12, 87. 62. Tang, S.; Shelden, D.R.; Eastman, C.M.; Pishdad-Bozorghi, P.; Gao, X. A review of building information modeling (BIM) and the internet of things (IoT) devices integration: Present status and future trends. Autom. Constr. 2019, 10, 127–139. 63. Silva, B.N.; Khan, M.; Han, K. Towards sustainable smart cities: A review of trends, architectures, components, and open challenges in smart cities. Sustain. Cities Soc. 2018, 38, 697–713. 64. Liu, L.; Guo, X.; Lee, C. Promoting smart cities into the 5G era with multi-field Internet of Things (IoT) applications powered with advanced mechanical energy harvesters. Nano Energy 2021, 88, 106304. 65. Wang, J.; Meng, C.; Wang, C.T.; Liu, C.H.; Chang, C.; Li, C. A fully self-powered, ultra-stable cholesteric smart window triggered by instantaneous mechanical stimuli. Nano Energy 2021, 85, 105976. 66. Qiu, C.; Wu, F.; Lee, C.; Yuce, M.R. Self-powered control interface based on Gray code with hybrid triboelectric and photovoltaics energy harvesting for IoT smart home and access control applications. Nano Energy 2020, 70, 104456. 67. Fadhil, J.A.; Omar, O.A.; Sarhan, Q.I. A survey on the applications of smart home systems. In Proceedings of the 2020 International Conference on Computer Science and Software Engineering (CSASE), Duhok, Iraq, 16–18 April 2020. 68. Liao, L.D.; Wang, Y.; Tsao, Y.-C.; Wang, I.-J.; Jhang, D.-F.; Chu, T.-S.; Tsao, C.-H.; Tsai, C.-N.; Chuang, C.-C.; Ger, T.-R.; et al. Design and validation of a multifunctional android-based smart home control and monitoring system. IEEE Access 2019, 7, 163313–163322. 69. Ye, B.H.; Ye, H.; Law, R. Systematic review of smart tourism research. Sustainability 2020, 12, 3401. 70. Bellini, P.; Cenni, D.; Nesi, P.; Paoli, I. Wi-Fi based city users’ behaviour analysis for smart city. J. Vis. Lang. Comput. 2017, 42, 31–45. 71. Sanchez-Corcuera, R.; Nuñez-Marcos, A.; Sesma-Solance, J. Smart cities survey: Technologies, application domains and challenges for the cities of the future. Int. J. Distrib. Sens. Netw. 2019, 15. 72. Du, J. Application analysis of IoT technology in smart cities. In Proceedings of the 2nd International Conference on E-Commerce and Internet Technology (ECIT), Hangzhou, China, 5–7 March 2021. 73. Alam, T. Cloud-based IoT applications and their roles in smart cities. Smart Cities 2021, 4, 64. 74. Khan, M.S.; Woo, M.; Nam, K.; Chathoth, P.K. Smart city and smart tourism: A case of Dubai. Sustainability 2017, 9, 2279. 75. Paiva, S.; Ahad, M.A.; Tripathi, G.S.; Feroz, N.; Casalino, G. Enabling technologies for urban smart mobility: Recent trends, opportunities and challenges. Sensors 2021, 21, 2143. 76. Biyik, C.; Abareshi, A.; Paz, A.; Ruiz, R.A.; Battarra, R.; Rogers, C.D.F.; Lizarraga, C. Smart mobility adoption: A review of the literature. J. Open Innov. Technol. Mark. Complex. 2021, 7, 146. 77. Chen, S.; Hu, J.; Shi, Y.; Peng, Y.; Fang, J.; Zhao, R.; Zhao, L. Vehicle-to-everything (v2x) services supported by LTE-based systems and 5G. IEEE Commun. Stand. Mag. 2017, 1, 70–76. 78. Abdelgadir, M.; Saeed, R.A.; Babiker, A. Mobility routing model for vehicular ad-hoc networks (VANETs). Veh. Commun. 2017, 9, 154–161. 79. De Souza, A.M.; Brennand, C.A.; Yokoyama, R.S.; Donato, E.A.; Madeira, E.R.; Villas, L.A. Traffic management systems: A classification, review, challenges, and future perspectives. Int. J. Distrib. Sens. Netw. 2017, 13. 80. Usha, B.A.; Sangeetha, K.N.; Suchit, T.E.; Shyam, A.; Suryanarayanan, A. Comprehensive review of smart cities using IoT. In Proceedings of the 8th International Conference on Reliability, Infocom Technologies and Optimization (Trends and Future Directions) (ICRITO), Noida, India, 4–5 June 2020. 81. Golbabei, F.; Yigitcanlar, T.; Bunker, J. The role of shared autonomous vehicle systems in delivering smart urban mobility: A systematic review of the literature. Int. J. Sustain. Transp. 2021, 15, 731–748. 82. Barriga, J.J.; Sulca, J.; Leon, J.L.; Ulloa, A.; Portero, D.; Andrade, R.; Yoo, S.G. Smart parking: A Literature review from the technological perspective. Appl. Sci. 2019, 9, 4569. 83. Mogro, A.E.; Huertas, J.I. Assessment of the effect of using air conditioning on the vehicle’s real fuel consumption. Int. J. Interact. Des. Manuf. 2021, 15, 271–285. 84. Cepeliauskaite, G.; Keppner, B.; Simkute, Z.; Stasiskiene, Z.; Leuser, L.; Kalnina, I.; Kotovica, N.; Andins, J.; Muiste, M. Smart-mobility services for climate mitigation in urban areas: Case studies of Baltic countries and Germany. Sustainability 2021, 13, 4127. 85. Moscholidou, I.; Pangbourne, K. A preliminary assessment of regulatory efforts to steer smart mobility in London and Seattle. Transp. Policy 2020, 98, 170–177. 86. Sanchez, L.; Muñoz, L.; Galache, J.A.; Sotres, P.; Santana, J.R.; Gutiérrez, V.; Ramdhany, R.; Gluhak, A.; Krco, S.; Theodoridis, E.; et al. SmartSantander: IoT experimentation over a smart city testbed. Comput. Netw. 2014, 61, 217–238. 87. Anthopoulous, L. Smart utopia VS smart reality: Learning by experience from 10 smart city cases. Cities 2017, 63, 128–148. 88. Kezai, P.K.; Fischer, S.; Lados, M. Smart economy and startup enterprises in the Visegrád Countries—A comparative analysis based on the Crunchbase Database. Smart Cities 2020, 3, 70. 89. Kumar, T.M.V. Smart Economy in Smart Cities: International Collaborative Research: Ottawa, St.Louis, Stuttgart, Bologna, Cape Town, Nairobi, Dakar, Lagos, New Delhi, Varanasi, Vijayawada, Kozhikode, Hong Kong; Springer: Berlin/Heidelberg, Germany, 2017. 90. Bellini, P.; Nesi, P.; Palesi, A.L.I.; Pantaleo, G. Fashion retail recommendation system by multiple clustering. In Proceedings of the 27th International DMS Conference on Visualization and Visual Languages (DMSVIVA 2021), Pittsburgh, PA, USA, 29–30 June 2021. 91. Hu, R. The state of smart cities in China: The case of Shenzhen. Energies 2019, 12, 4375. 92. Liu, Y.Y.; Hung, M.H.; Lin, Y.C.; Chen, C.C.; Gao, W.L.; Cheng, F.T. A Cloud-based pluggable manufacturing service scheme for smart factory. In Proceedings of the 14th IEEE International Conference on Automation Science and Engineering (CASE), Munich, Germany, 20–24 August 2018. 93. Oztemel, E.; Gursev, S. Literature review of Industry 4.0 and related technologies. J. Intell. Manuf. 2020, 31, 127–182. 94. Lopes, S.F.; Pereira, R.M.; Lopes, S.O.; Coutinho, M.; Malheiro, A.; Fonte, V. Yet a smarter irrigation system. Lect. Notes Inst. Comput. Sci. Soc. Inform. Telecommun. Eng. LNICST 2020, 323, 337–346. 95. Six Real World Examples of Digital Transformation. Available online: https://www.smartindustry.com/blog/smart-industry-connect/six-real-world-examples-of-digital-transformation/ (accessed on 17 January 2022). 96. Akin-Ponnle, A.E.; Carvalho, N.B. energy harvesting mechanisms in a smart city—A review. Smart Cities 2021, 4, 25. 97. Belli, L.; Cilfone, A.; Davoli, L.; Ferrari, G.; Adorni, P.; Di Nocera, F.; Dall’Olio, A.; Pellegrini, C.; Mordacci, M.; Bertolotti, E. IoT-enabled smart sustainable cities: Challenges and approaches. Smart Cities 2020, 3, 52. 98. Shirazi, E.; Jadid, S. Autonomous self-healing in smart distribution grids using multi agent systems. IEEE Trans. Ind. Inform. 2019, 15, 6291–6301. 99. De Paz, J.F.; Bajo, J.; Rodriguez, S.; Villarrubia, G.; Corchado, J.M. Intelligent system for lighting control in smart cities. Inf. Sci. 2016, 372, 241–255. 100. Kumar, A.; Singh, A.; Mahanta, P.; Mukhopadhyay, C. Sensing technologies for monitoring intelligent buildings: A review. IEEE Sens. J. 2018, 18, 4847–4860. 101. Zanella, A.; Bui, N.; Castellani, A.; Vangelista, N.; Zorzi, M. Internet of Things for smart cities. IEEE Internet Things J. 2014, 1, 22–32. 102. Okai, E.; Feng, X.; Sant, P. Smart cities survey. In Proceedings of the IEEE 20th International Conference on High Performance Computing and Communications and IEEE 16th International Conference on Smart City, Exeter, UK, 28–30 June 2018. 103. Sankaran, V.; Chopra, A. Creating global sustainable smart cities (a case study of Masdar City). J. Phys. Conf. Ser. 2020, 1706, 012141. 104. Ramirez-Moreno, M.A.; Keshtkar, S.; Padilla-Reyes, D.A.; Ramos-Lopez, E.; García-Martinez, M.; Hernandez-Luna, M.C.; Mogro, A.E.; Mahlknecht, J.; Huertas, J.; Peimbert-Garcia, R.E. Sensors for sustainable smart cities: A review. Appl. Sci. 2021, 11, 8198. 105. Quadar, N.; Chehri, A.; Jeon, G.; Ahmad, A. Smart water distribution system based on IoT networks, a critical review. In Human Centred Intelligent Systems; Springer: Berlin/Heidelberg, Germany, 2020; pp. 293–303. 106. Martinez, R.; Vela, N.; El Aatik, A.; Murray, E.; Roche, P.; Navarro, J.M. On the use of an IoT integrated system for water quality monitoring and management in wastewater treatment plants. Water 2020, 12, 1096. 107. Huseien, G.F.; Shah, K.W. Potential applications of 5G network technology for climate change control: A scoping review of Singapore. Sustainability 2021, 13, 9720. 108. Nitoslawski, S.A.; Galle, N.J.; Van Den Bosch, C.K.; Steenberg, J.W.N. Smarter ecosystems for smarter cities? A review of trends, technologies, and turning points for smart urban forestry. Sustain. Cities Soc. 2019, 51, 101770. 109. Po, L.; Rollo, F.; Viqueira, J.R.R.; Lado, R.T.; Bigi, A.; Lopez, J.C.; Paolucci, M.; Nesi, P. TRAFAIR: Understanding traffic flow to improve air quality. In Proceedings of the The 1st IEEE African Workshop on Smart Sustainable Cities and Communities (IEEE ASC2 2019), In Conjunction with the 5th IEEE International Smart Cities Conference, ISC2. 2019, Casablanca, Morocco, 14–17 October 2019. 110. Asghari, P.; Rahmani, A.M.; Javadi, H.S. Internet of Things applications: A systematic review. Comput. Netw. 2019, 148, 241–261. 111. Tian, S.; Yang, W.; Le Grange, J.M.; Wang, P.; Huang, W.; Ye, Z. Smart healthcare: Making medical care more intelligent. Glob. Health J. 2019, 3, 62–65. 112. Haak, D.; Page, C.E.; Deserno, T.M. A survey of DICOM viewer software to integrate clinical research and medical imaging. J. Digit. Imaging 2016, 29, 206–215. 113. Umair, M.; Cheema, M.A.; Cheema, O.; Li, H.; Lu, H. Impact of COVID-19 on IoT adoption in healthcare, smart homes, smart buildings, smart cities, transportation and industrial IoT. Sensors 2021, 21, 3838. 114. Atitallah, S.B.; Driss, M.; Boulila, W.; Ghezala, H.B. Leveraging Deep Learning and IoT big data analytics to support the smart cities development: Review and future directions. Comput. Sci. Rev. 2020, 38, 100303. 115. Apanaviciene, R.; Urbonas, R.; Fokaides, P.A. Smart building integration into a smart city: Comparative study of real estate development. Sustainability 2020, 12, 9376. 116. BOE Hefei Digital Hospital. Available online: https://www.wsp.com/en-CN/projects/boe-hefei-digital-hospital (accessed on 17 January 2022). 117. How Smart Hospitals Can Improve Healthcare. Available online: https://stlpartners.com/digital_health/how-smart-hospitals-can-improve-healthcare/ (accessed on 17 January 2022).
Тип вмісту: Bachelor Thesis
Розташовується у зібраннях:122 — Компʼютерні науки (бакалаври)

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