Smart City Gnosys

Smart city article details

Title Synergetic Development For Power-Transportation Coupling Network In Smart City Environment: A Compressive Review On Analytical Models
ID_Doc 54192
Authors Cheng S.; Zhou Z.; Jia Y.; Yin J.
Year 2024
Published Lecture Notes in Electrical Engineering, 1209 LNEE
DOI http://dx.doi.org/10.1007/978-981-97-3682-9_33
Abstract The increasing use of electric vehicles (EVs) has created a complex interdependence between the transportation system and the power grid. As a result, analyzing the interplay between these two systems has become crucial. However, most studies have focused on analyzing either the transportation or the power system in isolation, which may not fully capture the complex interactions that occur in the power-transportation coupling network (PTCN). Therefore, this paper explores the existing analytical models of the PTCN, considering network topology, collaborative planning, operation, flow calculation, operating efficiency, and model analysis. The paper identifies the gaps in the current research and provides suggestions for future research, including systems coupling at the operational level, a more specific user equilibrium model, and the security/stability of the PTCN. For instance, further research is needed to better understand the impact of EVs charging and discharging on the power grid, as well as the potential for utilizing EVs batteries to provide grid services. Additionally, a more specific user equilibrium model could help policymakers optimize EVs charging infrastructure and incentives, leading to a more efficient and sustainable transportation system. Finally, ensuring the security and stability of the PTCN is essential for maintaining the reliability of both the transportation and power systems. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.
Author Keywords Complex Network; Electric Vehicles; Power Grid; Power-transportation Coupling Network; Transportation Electrification; Transportation Network


Similar Articles

Id Similarity Authors Title Published
40213 View0.881Xie S.; Zheng J.; Wang J.; Hu Z.; Zhang L.; Chen Z.Operation Optimization Of Urban Multi-Energy Systems Considering Charging Routes In The Transportation Network: A Mixied User Equilibrium MethodEnergy Proceedings, 7 (2019)
2807 View0.873Amini M.H.A Multi-Layer Physic-Based Model For Electric Vehicle Energy Demand Estimation In Interdependent Transportation Networks And Power SystemsSpringer Optimization and Its Applications, 152 (2019)
46421 View0.866Wang H.; Yuan J.; Chen Z.; Ma Y.; Dong H.; Yuan S.; Yang J.Review And Prospect Of Key Techniques For Vehicle-Station-Network Integrated Operation In Smart City; [智慧城市车-站-网一体化运行关键技术研究综述及展望]Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, 37, 1 (2022)
40803 View0.864Fernandez V.; Pérez V.; Roig R.Optimizing Energy Supply For Full Electric Vehicles In Smart Cities: A Comprehensive Mobility Network ModelWorld Electric Vehicle Journal, 16, 1 (2025)
61760 View0.861Qi W.; Sha M.; Li S.When Shared Autonomous Electric Vehicles Meet Microgrids: Citywide Energy-Mobility OrchestrationManufacturing and Service Operations Management, 24, 5 (2022)
38094 View0.861Pok P.J.; Yeo H.; Woo S.Multi-Agent Game-Theoretic Modelling Of Electric Vehicle Charging Behavior And Pricing Optimization In Dynamic EcosystemsProcedia Computer Science, 257 (2025)
14586 View0.86Yetkin 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)
3477 View0.858Shokri M.; Niknam T.; Sarvarizade-Kouhpaye M.; Pourbehzadi M.; Javidi G.; Sheybani E.; Dehghani M.A Novel Optimal Planning And Operation Of Smart Cities By Simultaneously Considering Electric Vehicles, Photovoltaics, Heat Pumps, And BatteriesProcesses, 12, 9 (2024)
47360 View0.858Qi W.; Zhang Y.; Zhang N.Scaling Up Electric-Vehicle Battery Swapping Services In Cities: A Joint Location And Repairable-Inventory ModelManagement Science, 69, 11 (2023)
28625 View0.857Yu S.; Du Z.; Chen L.; Chen N.; Li J.Guidance And Regulation Strategy For Electric Vehicle Charging And Discharging Behaviors Based On Fusion Of Road Network And Power Grid Information; [融 合 路 网 -电 网 信 息 的 电 动 汽 车 充 放 电 行 为 引 导 与 调 控 策 略]Dianli Xitong Zidonghua/Automation of Electric Power Systems, 48, 7 (2024)