The implementation of connected and automated vehicle technologies enables opportunities for a novel computational framework for real-time control actions aimed at optimizing energy consumption and associated benefits. In this paper, we present a two-level control architecture for a connected and automated plug-in hybrid electric vehicle to optimize simultaneously its speed profile and powertrain efficiency. We evaluate the proposed architecture through simulation in a network of vehicles.
Optimal Vehicle Dynamics and Powertrain Control for Connected and Automated Vehicles
2019-08-01
1083036 byte
Conference paper
Electronic Resource
English
Connected and automated vehicles: new degrees of freedom to improve the powertrain
Automotive engineering | 2016
|ArXiv | 2016
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