Planning for electric vehicle needs by coupling charging profiles with urban mobility

[1]  Jeff Frolik,et al.  Understanding and Managing the Impacts of Electric Vehicles on Electric Power Distribution Systems , 2014 .

[2]  J. Tait,et al.  Challenges and opportunities. , 1996, Journal of psychiatric and mental health nursing.

[3]  S. Xu,et al.  Household Segmentation by Load Shape and Daily Consumption , 2017 .

[4]  Ian A. Hiskens,et al.  Decentralized charging control for large populations of plug-in electric vehicles , 2010, 49th IEEE Conference on Decision and Control (CDC).

[5]  Marta C. González,et al.  The path most traveled: Travel demand estimation using big data resources , 2015, Transportation Research Part C: Emerging Technologies.

[6]  E A Leicht,et al.  Suppressing cascades of load in interdependent networks , 2011, Proceedings of the National Academy of Sciences.

[7]  Marta C. González,et al.  Origin-destination trips by purpose and time of day inferred from mobile phone data , 2015 .

[8]  Jeremy J. Michalek,et al.  Valuation of plug-in vehicle life-cycle air emissions and oil displacement benefits , 2011, Proceedings of the National Academy of Sciences.

[9]  Michael Frankfurter,et al.  Control And Optimization Methods For Electric Smart Grids , 2016 .

[10]  Antonio Scala,et al.  Data-driven modeling of solar-powered urban microgrids , 2016, Science Advances.

[11]  Hosam K. Fathy,et al.  A Stochastic Optimal Control Approach for Power Management in Plug-In Hybrid Electric Vehicles , 2011, IEEE Transactions on Control Systems Technology.

[12]  Pravin Varaiya,et al.  Real-Time Scheduling of Distributed Resources , 2013, IEEE Transactions on Smart Grid.

[13]  Raissa M. D'Souza,et al.  Transdisciplinary electric power grid science , 2013, Proceedings of the National Academy of Sciences.

[14]  Jin-Woo Jung,et al.  Electric vehicles and smart grid interaction: A review on vehicle to grid and renewable energy sources integration , 2014 .

[15]  Jeff Frolik,et al.  Packetized Plug-In Electric Vehicle Charge Management , 2014, IEEE Transactions on Smart Grid.

[16]  Farhad Shahnia,et al.  Plug in electric vehicles in smart grids: Charging strategies , 2014 .

[17]  Jessika E. Trancik,et al.  Potential for widespread electrification of personal vehicle travel in the United States , 2016, Nature Energy.

[18]  Zbigniew Smoreda,et al.  Unravelling daily human mobility motifs , 2013, Journal of The Royal Society Interface.

[19]  Samveg Saxena,et al.  Quantifying EV battery end-of-life through analysis of travel needs with vehicle powertrain models , 2015 .

[20]  Wolfgang Ketter,et al.  Effective Management of Electric Vehicle Storage Using Smart Charging , 2014, AAAI.

[21]  Harry Eugene Stanley,et al.  Catastrophic cascade of failures in interdependent networks , 2009, Nature.

[22]  J. Deshazo Improving Incentives for Clean Vehicle Purchases in the United States: Challenges and Opportunities , 2016, Review of Environmental Economics and Policy.

[23]  Marta C. González,et al.  Understanding congested travel in urban areas , 2016, Nature Communications.

[24]  Siddharth Gupta,et al.  The TimeGeo modeling framework for urban mobility without travel surveys , 2016, Proceedings of the National Academy of Sciences.

[25]  Jeremy J. Michalek,et al.  Effects of regional temperature on electric vehicle efficiency, range, and emissions in the United States. , 2015, Environmental science & technology.

[26]  Marta C. González,et al.  Analyzing Cell Phone Location Data for Urban Travel , 2015 .

[27]  Zhenhong Lin,et al.  Cost analysis of plug-in hybrid electric vehicles using GPS-based longitudinal travel data , 2014 .

[28]  이지형 Data Driven Approach의 시대 , 2018 .

[29]  J. Driesen,et al.  The Impact of Charging Plug-In Hybrid Electric Vehicles on a Residential Distribution Grid , 2010, IEEE Transactions on Power Systems.

[30]  James P. Bagrow,et al.  Robustness of Spatial Micronetworks , 2015, Physical review. E, Statistical, nonlinear, and soft matter physics.

[31]  Sakshi Pahwa,et al.  Abruptness of Cascade Failures in Power Grids , 2014, Scientific Reports.

[32]  Lei Yang,et al.  Risk-Aware Day-Ahead Scheduling and Real-time Dispatch for Electric Vehicle Charging , 2014, IEEE Transactions on Smart Grid.

[33]  Gabriela Hug,et al.  Estimating the Benefits of Electric Vehicle Smart Charging at Non-Residential Locations: A Data-Driven Approach , 2015, ArXiv.

[34]  Emilio Frazzoli,et al.  A review of urban computing for mobile phone traces: current methods, challenges and opportunities , 2013, UrbComp '13.

[35]  Donley T. Studlar,et al.  The UK: A Case Study , 2012 .

[36]  Fabrizio Granelli,et al.  Smart Vehicles in the Smart Grid: Challenges, Trends, and Application to the Design of Charging Stations , 2012 .

[37]  P. T. Krein,et al.  Review of Battery Charger Topologies, Charging Power Levels, and Infrastructure for Plug-In Electric and Hybrid Vehicles , 2013, IEEE Transactions on Power Electronics.

[38]  Andrea J. Goldsmith,et al.  Optimal Pricing to Manage Electric Vehicles in Coupled Power and Transportation Networks , 2015, IEEE Transactions on Control of Network Systems.

[39]  Jamie Davies,et al.  Charging Behavior Impacts on Electric Vehicle Miles Traveled , 2014 .

[40]  B. Prabhakar,et al.  An Incentive Mechanism for Decongesting the Roads : A Pilot Program in Bangalore , 2009 .

[41]  Dongpu Cao,et al.  Integrated Optimization of Battery Sizing, Charging, and Power Management in Plug-In Hybrid Electric Vehicles , 2016, IEEE Transactions on Control Systems Technology.

[42]  B. Nykvist,et al.  Rapidly falling costs of battery packs for electric vehicles , 2015 .

[43]  P. Hines,et al.  Large blackouts in North America: Historical trends and policy implications , 2009 .

[44]  Guido Caldarelli,et al.  Green Power Grids: How Energy from Renewable Sources Affects Networks and Markets , 2015, PloS one.

[45]  Inmaculada Zamora,et al.  Plug-in electric vehicles in electric distribution networks: A review of smart charging approaches , 2014 .

[46]  Zhenhong Lin,et al.  Optimizing and Diversifying Electric Vehicle Driving Range for U.S. Drivers , 2014, Transp. Sci..

[47]  Michael Alan Tamor,et al.  Rapid estimation of electric vehicle acceptance using a general description of driving patterns , 2015 .

[48]  Chioke B. Harris,et al.  An empirically-validated methodology to simulate electricity demand for electric vehicle charging , 2014 .

[49]  Jonn Axsen,et al.  Moving beyond alternative fuel hype to decarbonize transportation , 2016, Nature Energy.

[50]  Adam Trendowicz,et al.  Model Development and Validation , 2013 .

[51]  Mary Ann Piette,et al.  Electric load shape benchmarking for small- and medium-sized commercial buildings , 2017 .

[52]  Hesham Rakha,et al.  Power-based electric vehicle energy consumption model: Model development and validation , 2016 .

[53]  Nicholas Jenkins,et al.  A data-driven approach for characterising the charging demand of electric vehicles: A UK case study , 2016 .

[54]  Ian A. Hiskens,et al.  Achieving Controllability of Electric Loads , 2011, Proceedings of the IEEE.

[55]  Shahram Jadid,et al.  Multi-objective scheduling of electric vehicles in smart distribution system , 2014 .

[56]  Noboru Yamada,et al.  More accurate sizing of renewable energy sources under high levels of electric vehicle integration , 2015 .

[57]  Vincent D. Blondel,et al.  A survey of results on mobile phone datasets analysis , 2015, EPJ Data Science.