- Title
- Accuracy analysis for distributed weighted least-squares estimation in finite steps and loopy networks
- Creator
- Sui, Tianju; Marelli, Damián Edgardo; Fu, Minyue; Lu, Renquan
- Relation
- Automatica Vol. 97, p. 82-91
- Publisher Link
- http://dx.doi.org/10.1016/j.automatica.2018.07.016
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2018
- Description
- Distributed parameter estimation for large-scale systems is an active research problem. The goal is to derive a distributed algorithm in which each agent obtains a local estimate of its own subset of the global parameter vector, based on local measurements as well as information received from its neighbors. A recent algorithm has been proposed, which yields the optimal solution (i.e., the one that would be obtained using a centralized method) in finite time, provided the communication network forms an acyclic graph. If instead, the graph is cyclic, the only available alternative algorithm, which is based on iterative matrix inversion, achieving the optimal solution, does so asymptotically. However, it is also known that, in the cyclic case, the algorithm designed for acyclic graphs produces a solution which, although non optimal, is highly accurate. In this paper we do a theoretical study of the accuracy of this algorithm, in communication networks forming cyclic graphs. To this end, we provide bounds for the sub-optimality of the estimation error and the estimation error covariance, for a class of systems whose topological sparsity and signal-to-noise ratio satisfy certain condition. Our results show that, at each node, the accuracy improves exponentially with the so-called loop-free depth. Also, although the algorithm no longer converges in finite time in the case of cyclic graphs, simulation results show that the convergence is significantly faster than that of methods based on iterative matrix inversion. Our results suggest that, depending on the loop-free depth, the studied algorithm may be the preferred option even in applications with cyclic communication graphs.
- Subject
- distributed statistical estimation; weighted least squares; convergence rate; communication graphs
- Identifier
- http://hdl.handle.net/1959.13/1446530
- Identifier
- uon:42898
- Identifier
- ISSN:0005-1098
- Language
- eng
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