Title:
Trajectory Energy Management Systems for eVTOL Vehicles: Modeling, Simulation and Testing
Trajectory Energy Management Systems for eVTOL Vehicles: Modeling, Simulation and Testing
Author(s)
Wilde, Markus
Kish, Brian
Senkans, Emils
Kanchwala, Tahir
Beedie, Seumas M.
Harris, Caleb
Verberne, Johannes
Justin, Cedric Y.
Merkt, Juan
Kish, Brian
Senkans, Emils
Kanchwala, Tahir
Beedie, Seumas M.
Harris, Caleb
Verberne, Johannes
Justin, Cedric Y.
Merkt, Juan
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Abstract
The rise of electric aircraft propulsion methods, the increased use of automated and integrated flight control systems, and the envisioned use of personal Vertical Takeoff and Landing (VTOL) vehicles in urban environments lead to novel technical and regulatory challenges for aircraft manufacturers, certification authorities and operators. The combination of electric propulsion, where energy reserves and powertrain performance are highly sensitive to the environment, and VTOL, where the aircraft cannot simply glide to an emergency landing, generates the need for Trajectory Energy Management (TEM). The TEM task involves the manipulation of flight and propulsion controls to achieve a planned flight profile. The TEM system must provide the pilot or automated control system with guidance cues to achieve a planned flight profile, to maintain an energy-optimal trajectory, to avoid deviations from the flight plan causing increases in energy and power consumption, and to mitigate the risk of energy completion. As the pilot must manage both the energy source and flight dynamics energy state, the TEM system must provide sufficient information to the pilot, so that the pilot can perform the mission. This research is intended to define some requirements for energy management such that the pilot can safely accomplish an intended profile and land with enough energy reserves. These requirements must be defined based on prototype algorithm development, simulation results, and flight test data.
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Date Issued
2022
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Text
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Paper