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NASA NTRS · Technical Memorandum (TM)

Optimal Trajectories for the Helicopter in One-Engine-Inoperative Terminal-Area Operations

Published 2019-06-27 From Ames Research Center 2 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Ames Research Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

This paper presents a summary of a series of recent analytical studies conducted to investigate One-Engine-Inoperative (OEI) optimal control strategies and the associated optimal trajectories for a twin engine helicopter in Category-A terminal-area operations. These studies also examine the associated heliport size requirements and the maximum gross weight capability of the helicopter. Using an eight states, two controls, augmented point-mass model representative of the study helicopter, Continued TakeOff (CTO), Rejected TakeOff (RTO), Balked Landing (BL), and Continued Landing (CL) are investigated for both Vertical-TakeOff-and-Landing (VTOL) and Short-TakeOff-and-Landing (STOL) terminal-area operations. The formulation of the nonlinear optimal control problems with considerations for realistic constraints, solution methods for the two-point boundary-value problem, a new real-time generation method for the optimal OEI trajectories, and the main results of this series of trajectory optimization studies are presented. In particular, a new balanced- weight concept for determining the takeoff decision point for VTOL Category-A operations is proposed, extending the balanced-field length concept used for STOL operations.

Authors

  • Zhao, Yiyuan NASA Ames Research Center
  • Chen, Robert T. N. Minnesota Univ.

Citation: Zhao, Yiyuan, Chen, Robert T. N. (2019). Optimal Trajectories for the Helicopter in One-Engine-Inoperative Terminal-Area Operations. Ames Research Center. NASA NTRS ID 19980017994. https://ntrs.nasa.gov/citations/19980017994 ↗