10.25394/PGS.12253031.v1 Akshay Amarendra Kasture Akshay Amarendra Kasture A power management strategy for a parallel through-the-road plug-in hybrid electric vehicle using genetic algorithm Purdue University Graduate School 2020 Hybrid vehicles Genetic Algorithm Power management Control Systems, Robotics and Automation Hybrid Vehicles and Powertrains Mechanical Engineering Optimisation 2020-05-07 02:12:08 Thesis https://hammer.purdue.edu/articles/thesis/A_power_management_strategy_for_a_parallel_through-the-road_plug-in_hybrid_electric_vehicle_using_genetic_algorithm/12253031 <div>With the upsurge of greenhouse gas emissions and rapid depletion of fossil fuels, the pressure on the transportation industry to develop new vehicles with improved fuel economy without sacrificing performance is on the rise. Hybrid Electric Vehicles (HEVs), which employ an internal combustion engine as well as an electric motor as power sources, are becoming increasingly popular alternatives to traditional engine only vehicles. However, the presence of multiple power sources makes HEVs more complex. A significant task in developing an HEV is designing a power management strategy, defined as a control system tasked with the responsibility of efficiently splitting the power/torque demand from the separate energy sources. Five different types of power management strategies, which were developed previously, are reviewed in this work, including dynamic programming, equivalent consumption minimization strategy, proportional state-of-charge algorithm, regression modeling and long short term memory modeling. The effects of these power management strategies on the vehicle performance are studied using a simplified model of the vehicle. This work also proposes an original power management strategy development using a genetic algorithm. This power management strategy is compared to dynamic programming and several similarities and differences are observed in the results of dynamic programming and genetic algorithm. For a particular drive cycle, the implementation of the genetic algorithm strategy on the vehicle model leads to a vehicle speed profile that almost matches the original speed profile of that drive cycle.</div>