J. Shin, N. Lee, S. Thrun, and L. Guibas. Lazy Inference on Object Identities in Wireless Sensor Networks. Fourth International Conference on Information Processing in Sensor Networks (IPSN 2005), pp. 174-178, 2005.

Abstract:

Maintaining the identities of moving objects is an important aspect of most multi-object tracking applications. Uncertainty in sensor data, coupled with the intrinsic combinatorial difficulty of the data association problem, suggests probabilistic formulations over the set of possible identities. While an explicit representation of a distribution over all associations may require exponential storage and computation, in practice the information provided by this distribution is accessed only in certain stylized ways, as when asking for the identity of a given track, or the track with a given identity. Exploiting this observation, we proposed in [1] a practical solution to this problem based on maintaining marginal probabilities and demonstrated its effectiveness in the context of tracking within a wireless sensor network. That method, unfortunately, requires extensive communication in the network whenever new identity observations are made, in order for normalization operations to keep the marginals consistent [2]. In this paper, we have proposed a very different solution based on accumulated log-likelihoods that can postpone all normalization computations until actual identity queries are made. In this manner the continuous communication and computational expense of repeated normalizations is avoided and that effort is expended only when actual queries are made of the network. We compare the two methods in terms of their computational complexities, inference accuracies, and distributed implementations. Simulation and experimental results from a RFID system are also presented.

Bibtex:

@inproceedings{sltg-lioiwsn-05,
author = "J. Shin and N. Lee and S. Thrun and L. Guibas",
title = "Lazy Inference on Object Identities in Wireless Sensor Networks",
booktitle = "Fourth International Conference on Information Processing in Sensor Networks (IPSN 2005)",
pages = "174--178",
year = 2005}