Struktura obiektu
Tytuł:

Smart cities and urban logistics: a systematic review of the literature

Inny tytuł:

Europa XXI 41 (2021)

Twórca:

Santinha, Gonçalo : Autor Affiliation ORCID ; Dias, Ana : Autor Affiliation ORCID ; Rodrigues, Mário : Autor Affiliation ORCID ; Rodrigues, Carlos : Autor Affiliation ORCID ; Bastardo, Rute : Autor Affiliation ORCID ; Pavão, João : Autor Affiliation ORCID ; Rocha, Nelson Pacheco : Autor Affiliation ORCID

Wydawca:

IGiPZ PAN

Miejsce wydania:

Warszawa

Data wydania/powstania:

2021

Opis:

29 cm ; Każdy numer posiada własny tytuł.

Temat i słowa kluczowe:

przegląd systematyczny ; inteligentne miasta ; logistyka miejska ; mobilność miejska

Abstrakt:

The concept of smart cities is seen as a key strategy to mitigate the problems generated by the rapid urbanization. Within the smart cities umbrella, the so-called smart mobility has been subject of considerable research. The systematic review reported by this article aimed to identify the most relevant applications supported by smart cities’ infrastructure with an impact in urban logistic transports. A total of 39 articles were retrieved, and the results show that the main application areas are related to solid waste management and the routing of logistic fleets, namely, to improve the last mile logistics.

Bibliografia:

Abusaada, H., & Elshater, A. (2020). COVID-19 Challenge, Information Technologies, and Smart Cities: Considerations for Well-Being. International Journal of Community Well-Being, 3, 417-424. https:// doi.org/10.1007/s42413-020-00068-5 DOI
Adamec, V., Schüllerová, B., & Adam, V. (2016). Issues of Hazardous Materials Transport and Possibilities of Safety Measures in the Concept of Smart Cities. In A., Leon-Garcia et al. (Eds.). Smart City 360°. SmartCity 360 2016, SmartCity 360 2015. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering (vol. 166). Cham: Springer. DOI
Albino, V., Berardi, U., & Dangelico, R. M. (2015). Smart Cities: Definitions, Dimensions, Performance, and Initiatives. Journal of Urban Technology, 22(1), 3-21. https://doi.org/10.1080/10630732.2014.942092 DOI
Al-Jubori, K., & Gazder. U. (2018). Framework for route optimization of solid waste collection. Smart Cities Symposium 2018. DOI
Alwabli, A., Kostanic, I., & Malky, S. (2020). Dynamic Route Optimization For Waste Collection and Monitoring smart bins Using Ant colony Algorithm. 2020 IEEE 2nd International Conference on Electronics, Control, Optimization and Computer Science (ICECOCS). DOI
Anagnostopoulos, T., Zaslavsky, A., Sosunova, I., Fedchenkov, P., Medvedev, A., Ntalianis, K., & Khoruznikov, S. (2018). A stochastic multi-agent system for Internet of Things-enabled waste management in smart cities. Waste Management & Research, 36(11), 1113-1121. https://doi.org/10.1177/0734242X18783843 DOI
Bespalov V., Paramonova, O., Gurova, O., & Samarskaya, N. (2017). Selection of Ecologically Efficient and Energetically Economic Engineering-Ecological System for Municipal Solid Wastes Transportation. MATEC Web of Conferences, 106. https://doi.org/10.1051/matecconf/201710607021 DOI
Bharathi, R., Banupriya, T. S., & Jeyapriyanga, S (2019). IoT monitory system based smart trash management. International Journal of Engineering and Advanced Technology, 8(6S2), 195-197. https://doi.org/10.35940/ijeat.F1050.0886S219 DOI
Burger, D., Weiß, J., Sarkar, A., Kirsch, K., & Dünnweber, J. (2018). Combining Fill-Level Sensing With Route Optimization for a More Efficient Waste Collection. In ECDG 2018 18th European Conference on Digital Government (p. 24).
Buyukozkan, G., & Göçer, F. (2019). Prioritizing the strategies to enhance smart city logistics by intuitionistic fuzzy CODAS. Proceedings of the 11th Conference of the European Society for Fuzzy Logic and Technology (EUSFLAT 2019). Atlantis Press. DOI
Cocchia, A. (2014). Smart and Digital City: A Systematic Literature Review. In R., Dameri & C., Rosenthal-Sabroux (Eds.). Smart City. Progress in IS (pp.13-43). Cham: Springer. DOI
Dolinina, O., Pechenkin, V., Gubin, N., Aizups, J., & Kuzmin, A. (2019). Development of semiadaptive Waste Collection Vehicle Routing Algorithm for agglomeration and urban settlements. 7th IEEE Workshop on Advances in Information, Electronic and Electrical Engineering (AIEEE), 1-6. DOI
Downs, A. (2004). Still Stuck in Traffic: Coping with Peak-Hour Traffic Congestion. Washington, D.C: Brookings Institution Press.
Eitzen, H., Lopez-Pires, F., Baran, B., Sandoya, F., & Chicaiza, J. L. (2017). A multi-objective two-echelon vehicle routing problem. An urban goods movement approach for smart city logistics. XLIII Latin American Computer Conference (CLEI). DOI
Feng, X., Chu, F., Chu, C., & Huang, Y. (2020). Crowdsource-enabled integrated production and transportation scheduling for smart city logistics. International Journal of Production Research, 59(7), 2157-2176. https://doi.org/10.1080/00207543.2020.1808258 DOI
Ghapanchi, A. H., & Aurum, A. (2011). Antecedents to IT personnel's intentions to leave: A systematic literature review. Journal of Systems and Software, 84(2), 238-249. https://doi.org/10.1016/j.jss.2010.09.022 DOI
González-Rodríguez, M, Vennesland, A., & Dalmolen, S. (2015). A common language for logistics services interoperability. 4th International Conference on Advanced Logistics and Transport (ICALT). https://doi.org/10.1109/ICAdLT.2015.7136595 DOI
Guerrazzi, E. (2020). Last mile logistics in smart cities: An IT platform for vehicle sharing and routing. In A., Lazazzara, F., Ricciardi & S., Za (Eds.). Exploring Digital Ecosystems. Lecture Notes in Information Systems and Organisation (vol 33). Cham: Springer. DOI
Gutierrez, J. M., Jensen, M., & Riaz, T. (2016). Applied Graph Theory to Real Smart City Logistic Problems. Procedia Computer Science, 95, 40-47. https://doi.org/10.1016/j.procs.2016.09.291 DOI
Hehn, J., & Uebernickel, F. (2018). Towards an Understanding of the Role of Design Thinking for Requirements Elicitation - Findings from a Multiple-Case Study. Americas Conference on Information Systems (AMCIS).
Hickman, R., & Banister, D. (2007). Looking over the horizon: Transport and reduced CO2 emissions in the UK by 2030. Transport Policy, 14(5), 377-387. https://doi.org/10.1016/j.tranpol.2007.04.005 DOI
Hoffman, M. C. (2020). Smart Cities: A Review of the Most Recent Literature. Informatization Policy, 27(1), 3-35.
Kumar, R., Rani, C., & Kumar, P. (2017). Predicting shortest path for goods delivery to fair price shops in India. 4th International Conference on Advanced Computing and Communication Systems (ICACCS). DOI
Lazaroiu, G., & Roscia, M. (2012). Definition methodology for the smart cities model. Energy, 47(1), 326-332. https://doi.org/10.1016/j.energy.2012.09.028 DOI
Lindawati, C., & Wei Cui, N. (2015). Feasibility Analysis on Collaborative Platform for Delivery Fulfillment in Smart City. IEEE International Conference on Smart City/SocialCom/SustainCom. DOI
Lindawati, G., & Souza, R. (2016). Determining Urban Freight Facility Locations using Post-Evaluation Deliberation. IEEE 18th International Conference on High Performance Computing and Communications; IEEE 14th International Conference on Smart City; IEEE 2nd International Conference on Data Science and Systems. DOI
Lopez-Martin, A., Carvajal, R., & Cortes, P. (2016). Smart ecosystem for a sustainable, safe and integrated freight transport. IEEE International Conference on Emerging Technologies and Innovative Business Practices for the Transformation of Societies (EmergiTech). DOI
Lu, M. (2014). Advance Logistics for Sustainable Urban Areas. International Conference on Traffic and Transport Engineering - Belgrade.
Marciani, M., & Cossu, P. (2014). How the URBeLOG project will enable a new governance model for city logistics in Italian metropolitan areas. Procedia - Social and Behavioral Sciences, 151, 230-243. https://doi.org/10.1016/j.sbspro.2014.10.022 DOI
Medehal, A., Annaluru, A., Bandyopadhyay, S., & Chandar, T. (2020). Automated Smart Garbage Monitoring System with Optimal Route Generation for Collection. 2020 IEEE International Smart Cities Conference (ISC2), 1-7. DOI
Mishra, A., & Kumar Ray, A. (2020). IoT cloud-based cyber-physical system for efficient solid waste management in smart cities: a novel cost function based route optimisation technique for waste collection vehicles using dustbin sensors and real-time road traffic informatics. IET Cyber-Physical Systems: Theory & Applications, 5, 330-341. https://doi.org/10.1049/iet-cps.2019.0110 DOI
Mockaitis, A., Zander, L., & Cieri, H. (2018). The benefits of global teams for international organizations: HR implications. The International Journal of Human Resource Management, 29(14), 2137-2158. https://doi.org/10.1080/09585192.2018.1428722 DOI
Navarro, C., Roca-Riu, M, Furió, S., & Estrada, M. (2016). Designing new models for energy efficiency in urban freight transport for smart cities and its application to the Spanish case. Transportation Research Procedia, 12, 314-324. https://doi.org/10.1016/j.trpro.2016.02.068 DOI
Naveiro, R. M., & Oliveira, V. M. (2018). QFD and TRIZ integration in product development: a Model for Systematic Optimization of Engineering Requirements. Production, 28. https://doi.org/10.1590/0103-6513.20170093 DOI
Nesti, G. (2020). Defining and assessing the transformational nature of smart city governance: Insights from four European cases. International Review of Administrative Sciences, 86(1), 20-37. https://doi.org/10.1177/0020852318757063 DOI
Nocera, S., & Cavallaro, F. (2014). The Ancillary Role of CO2 Reduction in Urban Transport Plans. Transportation Research Procedia, 3, 760-769. https://doi.org/10.1016/j.trpro.2014.10.055 DOI
Ochoa, A., Larios, V., Maciel, R., & Mora, O. (2017). Improving transport optimization to smart city's competitiveness. International Smart Cities Conference (ISC2). DOI
Omara, A., Gulen, D., Kantarci, B., & Oktug, S. (2018). Trajectory-Assisted Municipal Agent Mobility: A Sensor-Driven Smart Waste Management System. Journal of Sensor and Actuator Networks, 7(3), 29. https://doi.org/10.3390/jsan7030029 DOI
Polo, A., Viani, F., Robol, F., Massa, A., Marchesi, S., & Zappini, L. (2016). Optimization strategies for Fleet Management based on Wireless Terminals Localization in Smart Cities Scenarios. IEEE 2nd International Smart Cities Conference: Improving the Citizens Quality of Life (ISC2). DOI
Pufahl, L., Ihde, S., Glöckner, M., Franczyk, B., Paulus, B., & Weske, M. (2020). Countering congestion: A white-label platform for the last mile parcel delivery. In W., Abramowicz & G., Klein (Eds.). Business Information Systems (pp. 210-223). Cham: Springer. https://doi.org/10.1007/978-3-030-53337-3_16 DOI
Reyes-Rubiano, L., Faulin, J., Calvet, L., & Juan, A. (2017). A simheuristic approach for freight transportation in smart cities. Winter Simulation Conference (WSC). DOI
Rocha, N. P., Dias, A., Santinha, G., Rodrigues, M., Queirós, A., & Rodrigues C. (2020). Prediction of Mobility Patterns in Smart Cities: A Systematic Review of the Literature. In Á., Rocha, H., Adeli, L., Reis, S., Costanzo, I., Orovic & F., Moreira (Eds.). Trends and Innovations in Information Systems and Technologies. WorldCIST 2020. Advances in Intelligent Systems and Computing (vol. 1159). Cham: Springer. DOI
Rosa-Gallardo, D., Ortiz, G., Boubeta-Puig, J., & García-de-Prado, A. (2017). Sustainable waste collection (swat): One step towards smart and spotless cities. In L., Braubach, J., Murillo, N., Kaviana, M., Lama, L., Burgeno, N., Moha & M., Oriol (Eds.). Service-Oriented Computing: ICSOC 2017 Workshops (pp. 228-239). Cham: Springer. DOI
Santinha, G., Dias, A., Rodrigues, M., Queirós, A., Rodrigues, C., & Rocha, N. P. (2019). How Do Smart Cities Impact on Sustainable Urban Growth and on Opportunities for Entrepreneurship? Evidence from Portugal: The Case of Águeda. In C., Cagica, C., Rego, M., Lucas, M., Sánchez-Hernández, & N., Backx (Eds.). New Paths of Entrepreneurship Development (pp. 31-53). Cham: Springer. DOI
Saranyadevi, G. (2020). Waste Disposal Management System for Smart City Using LoRa. Journal of Advanced Research in Dynamical and Control Systems, 12, 1360-1364. https://doi.org/10.5373/JARDCS/V12SP3/20201385 DOI
Scazzoli, D., Bartezzaghi, G., Silvestro, A., Magarini, M., Melacini, M., & Verticale, G. (2019). SIVEQ: An Integrated System for the Valorization of Surplus Food. 2019 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computing, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation. DOI
Schau, V., Apel, S., Gebhardt, K., Kretzschmar, J., Stolcis, C., Mauch, M., & Buchholz, J. (2016). Intelligent Infrastructure for Last-Mile and Short-Distance Freight Transportation with Electric Vehicles in the Domain of Smart City Logistic. International Conference on Vehicle Technology and Intelligent Transport Systems (VEHITS 2016). DOI
Schau, V., Rossak, W., Hampel, H., & Späthe, S. (2015). Smart City Logistik Erfurt (SCL): ICT-Support for managing Fully Electric Vehicles in the Domain of Inner City Freight Traffic. International Conference on Industrial Engineering and Operations Management. DOI
Schröder, S., Dabidian, P., & Liedtke, G. (2015). A conceptual proposal for an expert system to analyze smart policy options for urban CEP transports. Smart Cities Symposium Prague. DOI
Shahin, M., Liang, P., & Babar, M. A. (2014). A systematic review of software architecture visualization techniques. Journal of Systems and Software, 94, 161-185. DOI
Škultéty, F., Beňová, D., & Gnap, J. (2021). City Logistics as an Imperative Smart City Mechanism: Scrutiny of Clustered EU27 Capitals. Sustainability, 13, 3641. https://doi.org/10.3390/su13073641 DOI
Suma, S., Mehmood, R., Albugami, N., Katib, I., & Albeshri, A. (2017). Enabling Next Generation Logistics and Planning for Smarter Societies. Procedia Computer Science, 109, 1122-1127. https://doi.org/10.1016/j.procs.2017.05.440 DOI
Teja, L., Muthaharunnisa, M., Bharathi, K., & Krishna, P. (2018). Smart dustbin based on IOT. International Journal of Engineering & Technology, 7(2.7), 348-351. https://doi.org/10.14419/ijet.v7i2.7.10713 DOI
Torgerson, C. (2005). Systematic reviews. London: Continuum.
Tu, W., Zhao, T., Zhou, B., Jiang, J., Xia, J., & Li, Q. (2020). OCD: Online Crowdsourced Delivery for On-Demand Food. IEEE Internet of Things Journal, 7(8), 6842-6854. https://doi.org/10.1109/JIOT.2019.2930984 DOI
UN (2015). Transforming our world: the 2030 Agenda for Sustainable Development. Resolution adopted by the General Assembly on 25 September 2015.
Vennesland, A., & Dalmolen, S. (2015). A common language for logistics services interoperability. 4th International Conference on Advanced Logistics and Transport (ICALT 2015).
Yang, L., Zhang, H., Shen, H., Huang, X., Zhou, X., Rong, G., & Shao, D. (2020). Quality Assessment in Systematic Literature Reviews: A Software Engineering Perspective. Information and Software Technology, 130. https://doi.org/10.1016/j.infsof.2020.106397 DOI
Zhang, B. (2018). Service-Oriented Logistics Supply Chain Information Management System. International Conference on Intelligent Transportation, Big Data & Smart City (ICITBS), 428-431. https://doi.org/10.1109/ICITBS.2018.00114 DOI
Zhang, Q., Li, H., Wan, X., Skitmore, M., & Sun, H. (2020). An Intelligent Waste Removal System for Smarter Communities. Sustainability, 12(17), 6829. https://doi.org/10.3390/su12176829 DOI

Czasopismo/Seria/cykl:

Europa XXI

Tom:

41

Strona pocz.:

37

Strona końc.:

58

Typ zasobu:

Tekst

Szczegółowy typ zasobu:

Artykuł

Format:

application/octet-stream

Identyfikator zasobu:

1429-7132 ; 10.7163/Eu21.2021.41.2

Źródło:

CBGiOŚ. IGiPZ PAN, sygn.: Cz.6406, Cz.6407 ; kliknij tutaj, żeby przejść

Język:

eng

Język streszczenia:

eng

Prawa:

Licencja Creative Commons Uznanie autorstwa 4.0

Zasady wykorzystania:

Zasób chroniony prawem autorskim. [CC BY 4.0 Międzynarodowe] Korzystanie dozwolone zgodnie z licencją Creative Commons Uznanie autorstwa 4.0, której pełne postanowienia dostępne są pod adresem: ; -

Digitalizacja:

Instytut Geografii i Przestrzennego Zagospodarowania Polskiej Akademii Nauk

Lokalizacja oryginału:

Centralna Biblioteka Geografii i Ochrony Środowiska Instytutu Geografii i Przestrzennego Zagospodarowania PAN

Dofinansowane ze środków:

Unia Europejska. Europejski Fundusz Rozwoju Regionalnego ; Program Operacyjny Innowacyjna Gospodarka, lata 2010-2014, Priorytet 2. Infrastruktura strefy B + R

Dostęp:

Otwarty

×

Cytowanie

Styl cytowania: