Abstract
This paper addresses ground target tracking (GTT) for airborne radar. Digital terrain elevation data (DTED) are widely used for GTT as prior information under the premise that ground targets are constrained on terrain. Existing works fuse DTED to a tracking filter in a way that adopts only the assumption that the position of the target is constrained on the terrain. However, by kinematics, it is natural that the velocity of the moving ground target is constrained as well. Furthermore, DTED provides neither continuous nor accurate measurement of terrain elevation. To overcome such limitations, we propose a novel soft terrain constraint and a constraint-aided particle filter. To resolve the difficulties in applying the DTED to the GTT, first, we reconstruct the ground-truth terrain elevation using a Gaussian process and treat DTED as a noisy observation of it. Then, terrain constraint is formulated as joint soft constraints of position and velocity. Finally, we derive a Soft Terrain Constrained Particle Filter (STC-PF) that propagates particles while approximately satisfying the terrain constraint in the prediction step. In the numerical simulations, STC-PF outperforms the Smoothly Constrained Kalman Filter (SCKF) in terms of tracking performance because SCKF can only incorporate hard constraints.
Highlights
Ground tracking radars mounted on airborne platforms play a key role in many applications, especially those for military purposes; surveillance, airstrike, and escort missions done by aircraft commonly require precise tracking of ground targets
We have proposed a particle filter to improve the performance of ground target tracking
To estimate the velocity more accurately, a position constraint and a velocity constraint has been introduced in the terrain constraint
Summary
Ground tracking radars mounted on airborne platforms play a key role in many applications, especially those for military purposes; surveillance, airstrike, and escort missions done by aircraft commonly require precise tracking of ground targets. In several modern military campaigns, ground moving target indicator (GMTI) radar on-board the. Algorithms that track ground targets running on radars are becoming more important. There have been great advances in target tracking, tracking ground targets is still a challenging problem. Because exploiting appropriate assumptions other than the state-space model can help to improve the statistical inferences of the system [3], many studies have tried to introduce useful assumptions to ground target tracking. They can be classified based on two criteria of what or how assumptions were applied
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