Smart City Gnosys

Smart city article details

Title Smart Transportation Systems Using Learning Method For Urban Mobility And Management In Modern Cities
ID_Doc 51618
Authors Jiang J.; Li Y.; Li Y.; Li C.; Yu L.; Li L.
Year 2024
Published Sustainable Cities and Society, 108
DOI http://dx.doi.org/10.1016/j.scs.2024.105428
Abstract The pressing demand for an escalation in renewable energy production arises from the surge in power consumption, escalating environmental concerns, and the exhaustion of fossil fuels. Microgrids, featuring dispersed power sources, exhibit superior resilience, efficiency, and stability in contrast to conventional power grids. Noteworthy investments in eco-friendly initiatives have been made by various major corporations, particularly in institutional structures. The current research advocates for the integration of photovoltaics, energy storage, and electric vehicles (EVs) as pivotal elements in a smart grid. This study introduces an optimal energy management system (EMS) designed to efficiently allocate power from existing sources. To address the challenges within an uncertain and reliable environment, a stochastic framework leveraging the whale optimization algorithm and unscented transform has been formulated. All simulations have been executed using the digital twin of the smart grid components. Results suggest that the proposed EMS ensures uninterrupted power supply, contributing to a substantial 45% reduction in energy costs. Furthermore, the potential of EVs as storage devices is explored. When employed as energy sources, EVs led to a noteworthy 45.58% reduction in power prices, while their use as loads still yielded a significant 19.33% decrease. The study also delves into the analysis of outage effects on the continuous power supply cost. © 2024 Elsevier Ltd
Author Keywords EV; Intelligent transportation; Smart cities; Urban system


Similar Articles

Id Similarity Authors Title Published
34396 View0.897Alharbi T.; Abdalrahman A.; Mostafa M.H.; Alkhalifa L.Joint Optimization Of Ev Charging And Renewable Distributed Energy With Storage Systems Under UncertaintyIEEE Access, 13 (2025)
22524 View0.877Doda D.K.; Beemkumar N.; Awasthi A.; Gautam A.K.Electric Vehicle Energy Management: Charging In Sustainable Urban Settings For Smart CitiesE3S Web of Conferences, 540 (2024)
22500 View0.876Ahmed I.; Basit A.; Ahmad M.; AlMuhaini M.; Khalid M.Electric Mobility Challenges And Approaches For Sustainable Green Power Synergy In Smart CitiesArabian Journal for Science and Engineering, 50, 8 (2025)
14586 View0.874Yetkin M.; Augustino B.; Lamadrid A.J.; Snyder L.V.Co-Optimizing The Smart Grid And Electric Public Transit Bus SystemOptimization and Engineering, 25, 4 (2024)
3546 View0.874Shokri M.; Niknam T.; Mohammadi M.; Dehghani M.; Siano P.; Ouahada K.; Sarvarizade-Kouhpaye M.A Novel Stochastic Framework For Optimal Scheduling Of Smart Cities As An Energy HubIET Generation, Transmission and Distribution, 18, 14 (2024)
40890 View0.873Algburi S.; Al-Dulaimi O.; Fakhruldeen H.F.; Isametdinova S.; Sapaev I.B.; Islam S.; Naveed Q.N.; Lasisi A.; alhani I.; Hassan Q.; Khalaf D.H.; Ssebunya M.; Jabbar F.I.Optimizing Smart Grid Flexibility With A Hybrid Minlp Framework For Renewable Integration In Urban Energy SystemsEnergy Reports, 14 (2025)
53110 View0.872Gill A.; Ramachandran T.; Upadhyay R.; Agarwal Gautam A.Strategic Grid Integration Of Renewable Using Electric Vehicles For Smart Cities StabilityE3S Web of Conferences, 540 (2024)
49240 View0.872Yao Z.; Wang Z.; Ran L.Smart Charging And Discharging Of Electric Vehicles Based On Multi-Objective Robust Optimization In Smart CitiesApplied Energy, 343 (2023)
61760 View0.87Qi W.; Sha M.; Li S.When Shared Autonomous Electric Vehicles Meet Microgrids: Citywide Energy-Mobility OrchestrationManufacturing and Service Operations Management, 24, 5 (2022)
33267 View0.87Khalil E.E.Introduction To Energy Management In Smart GridsSolving Urban Infrastructure Problems Using Smart City Technologies: Handbook on Planning, Design, Development, and Regulation (2020)