1. Introduction
2. Modelling, Simulation, and Optimization for the Optimal Planning and Management of Electric Vehicles: State of the Art and Challenges
3. Optimal Charging in Smart Grids: Discrete Time Optimization Model for Aperiodic Scheduling
4. Optimal Charging in Smart Grids: A Discrete Event Approach for Scheduling in Single Socket Charging Stations
5. Optimal Charging in Smart Grids: A Discrete Event Approach for Scheduling in Multi Socket Charging Stations
6. Optimal Charging in Smart Grids: A Discrete Event Approach for Periodic Scheduling
7. Planning for Electric Vehicles: Deterministic and Stochastic User Equilibrium Approaches for Joint Traffic Assignment and Energy Demand Assignment
8. Planning for Electric Vehicles: A User Equilibrium Approaches for Joint Traffic Assignment, Energy Demand Assignment and Sizing of Charging Stations
9. Planning for Electric Vehicles: Optimal Placement of Charging Stations in an Electrical Distribution Grid
10. Conclusions.