Title :
Improvement of terrain-aided navigation via trajectory optimization
Author :
Bar-Gill, A. ; Ben-Ezra, P. ; Bar-Itzhack, I.Y.
Author_Institution :
GN&C Dept., IADA Inst., Haifa, Israel
fDate :
12/1/1994 12:00:00 AM
Abstract :
This paper proposes a novel method for improving the accuracy of terrain-aided (TA) navigation algorithms. The problem is designing airframe trajectories in a priori mission planning, so that navigation errors which propagate along with these algorithms are minimal. We analyze the terrain via information theory and the FFT (fast Fourier transform-spatial) algorithm; then we map it using a probabilistic variable, the entropy. The A* optimization algorithm is then applied to produce minimum-error TA-navigation trajectories. Finally, a posteriori superposition of the airframe maneuver constraints renders a suboptimal but implementable solution. The proposed method has been applied to terrains with different information-content levels. Its efficiency, as reflected in an entropy-based cost function, is demonstrated along optimal versus straight-line trajectories, down towards required destinations
Keywords :
aircraft navigation; entropy; information theory; optimisation; path planning; probability; airframe trajectories; cost function; entropy; fast Fourier transform; information theory; mission planning; optimization; probabilistic variable; terrain-aided navigation; trajectory optimization; Aerospace engineering; Algorithm design and analysis; Cost function; Entropy; Information theory; Optimization methods; Radio navigation; Satellite navigation systems; Terrain mapping; Trajectory;
Journal_Title :
Control Systems Technology, IEEE Transactions on
