Linear-Time Estimation with Tree Assumed Density Filtering and Low-Rank Approximation
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Author(s)
Ta, Duy-Nguyen
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Abstract
We present two fast and memory-efficient approximate estimation methods, targeting obstacle avoidance
applications on small robot platforms. Our methods avoid
a main bottleneck of traditional filtering techniques, which
creates densely correlated cliques of landmarks, leading to
expensive time and space complexity. We introduce a novel
technique to avoid the dense cliques by sparsifying them into a
tree structure and maintain that tree structure efficiently over
time. Unlike other edge removal graph sparsification methods,
our methods sparsify the landmark cliques by introducing new
variables to de-correlate them. The first method projects the
current density onto a tree rooted at the same variable at
each step. The second method improves upon the first one
by carefully choosing a new low-dimensional root variable at
each step to replace such that the independence and conditional
densities of the landmarks given the trajectory are optimally
preserved. Our experiments show a significant improvement in
time and space complexity of the methods compared to other standard filtering techniques in worst-case scenarios, with small
trade-offs in accuracy due to low-rank approximation errors.
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Date
2014-09
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Proceedings