论文信息 - Combined energy management and calculus of variations approach for optimizing hypersonic vehicle trajectories

Combined energy management and calculus of variations approach for optimizing hypersonic vehicle trajectories

Abstract An efficient performance analysis method is developed to evaluate potential hydrogen fueled turbojet, ramjet and scramjet propulsion for advanced technology hypersonic aircraft. An algorithm, based on energy management and calculus of variations, is developed for determining optimal trajectories. The methodology applies both techniques simultaneously in obtaining the optimal trajectory. Many mission, flight, and vehicle-related requirements and constraints are satisfied in the process. In addition, powered hypersonic flight produces unique performance characteristics not encountered at subsonic speeds. With the analysis method, two potential hypersonic vehicles are evaluated, both for maximizing payload and minimizing time to climb, and the resulting optimal trajectories are presented.

Ramana V. Grandhi | W. L. Hankey | P. J. Belcher | N. Venugopal

[1] H. Erzberger,et al. Constrained optimum trajectories with specified range , 1980 .

[2] Eugene M. Cliff,et al. Energy management of three-dimensional minimum-time intercept , 1987 .

[3] H. J. Kelley,et al. On-Board Near-Optimal Climb-Dash Energy Management , 1983, 1983 American Control Conference.

[4] Heinz Erzberger,et al. FIXED-RANGE OPTIMUM TRAJECTORIES FOR SHORT-HAUL AIRCRAFT , 1976 .

[5] R. L. Schultz,et al. Aircraft performance optimization. , 1972 .

[6] Eugene M. Cliff,et al. Energy-modelled climb and climb-dash - the Kaiser technique , 1985, Autom..

[7] John V. Breakwell. More about Flight-Path-Angle Transitions in Optimal Airplane Climbs , 1978 .

[8] T. Edelbaum,et al. Energy climbs, energy turns, and asymptotic expansions , 1970 .

[9] N. Rajan,et al. Interception in three dimensions - An energy formulation , 1985 .

[10] H. J. Kelley,et al. Rocket trajectory optimization by a second- order numerical technique. , 1969 .

[11] Arthur E. Bryson,et al. Energy-state approximation in performance optimization of supersonic aircraft , 1969 .

[12] John V. Breakwell,et al. Optimal Flight-Path-Angle Transitions in Minimum-Time Airplane Climbs , 1977 .

[13] J. Sørensen,et al. Airborne Method to Minimize Fuel with Fixed Time-of-Arrival Constraints , 1981 .

[14] Eugene M. Cliff,et al. Energy state revisited , 1986 .