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This book provides a comprehensive overview of electric and hybrid electric vehicles, exploring their design, the modeling of Li-ion battery management systems, state-of-charge estimation algorithms, and the most used electric motors. It also discusses new trends in electric vehicle automation as well as different control strategies.
Clean and efficient transportation in countries around the world is only possible if governments and scientists focus on stimulating and supporting the electric vehicle industry by developing and deploying the most advanced Li-ion battery technologies. Recently, several improvements have been made in the direction of operational safety, the elimination of explosion hazards, and the mitigation of chemical toxicity. The state of charge of an electric vehicle battery is an essential internal parameter that plays a vital role in utilizing the battery's energy efficiency, operating safely in various realistic conditions and environments, and extending the battery's life. Also, automated systems are integrated into the architecture of electrical vehicles, allowing for technology, machinery, or systems to perform tasks or processes with minimal human intervention. Automation in electric vehicles involves the integration of advanced technologies to enhance the driving experience, improve safety, optimize energy efficiency, and facilitate the transition to sustainable transportation. The key aspects of automation in electric vehicles are advanced driver assistance, self-driving capabilities, battery and energy management, and safety and collision avoidance.
Contents
1. Investigations of Different Approaches for Controlling the Speed of an Electric Motor with Nonlinear Dynamics Powered by a Li-ion Battery - Case Study
2. Load-Sharing Management for Fuel Cell Hybrid Electric Vehicle (FCHEV) Based on Intelligent Controllers and Optimization Algorithms
3. Battery State of Charge Management for an Electric Vehicle Traction System
4. Nonlinear Robust Control of Trajectory-Following for Autonomous Ground Electric Vehicles
5. Dynamics Modeling and Characteristics Analysis of Distributed Drive Electric Vehicles
6. Hybrid Energy Storage Systems in Electric Vehicle Applications
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⭐️ ElectricVehicles23.pdf (46.42 MB)
⭐️ Electric Vehicles Design, Modelling and Simulation ✅ (46.42 MB)
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