Part of Advances in Neural Information Processing Systems 14 (NIPS 2001)
Over the last years, particle ﬁlters have been applied with great success to a variety of state estimation problems. We present a statistical approach to increasing the efﬁciency of particle ﬁlters by adapting the size of sample sets on-the-ﬂy. The key idea of the KLD-sampling method is to bound the approximation error introduced by the sample-based representation of the particle ﬁlter. The name KLD-sampling is due to the fact that we measure the approximation error by the Kullback-Leibler distance. Our adaptation approach chooses a small number of samples if the density is focused on a small part of the state space, and it chooses a large number of samples if the state uncertainty is high. Both the implementation and computation overhead of this approach are small. Extensive experiments using mobile robot localization as a test application show that our approach yields drastic improvements over particle ﬁlters with ﬁxed sample set sizes and over a previously introduced adaptation technique.