Cooperative localization for mobile agents: a recursive decentralized algorithm based on Kalman filter decoupling
May 21, 2015 Β· Declared Dead Β· π IEEE Control Systems
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Authors
Solmaz S. Kia, Stephen Rounds, Sonia Martinez
arXiv ID
1505.05908
Category
cs.RO: Robotics
Cross-listed
eess.SY
Citations
89
Venue
IEEE Control Systems
Last Checked
4 months ago
Abstract
We consider cooperative localization technique for mobile agents with communication and computation capabilities. We start by provide and overview of different decentralization strategies in the literature, with special focus on how these algorithms maintain an account of intrinsic correlations between state estimate of team members. Then, we present a novel decentralized cooperative localization algorithm that is a decentralized implementation of a centralized Extended Kalman Filter for cooperative localization. In this algorithm, instead of propagating cross-covariance terms, each agent propagates new intermediate local variables that can be used in an update stage to create the required propagated cross-covariance terms. Whenever there is a relative measurement in the network, the algorithm declares the agent making this measurement as the interim master. By acquiring information from the interim landmark, the agent the relative measurement is taken from, the interim master can calculate and broadcast a set of intermediate variables which each robot can then use to update its estimates to match that of a centralized Extended Kalman Filter for cooperative localization. Once an update is done, no further communication is needed until the next relative measurement.
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