In this paper, we introduce a novel adaptive method for distributed recovery of graph processes, which are observed over a dynamic set of vertices. The proposed algorithm hinges on proximal gradient optimization techniques, while leveraging in-network projections as a mechanism to enforce graph bandwidth constraints in a cooperative and distributed fashion, and thresholding operators to identify anomalous sparse components hidden in the signals. The theoretical analysis illustrates the mean-square stability of the proposed adaptive method. Finally, numerical tests on synthetic and real data assess the performance of the proposed distributed strategy for adaptive learning of graph processes.
Distributed adaptive learning of graph processes via in-network subspace projections / DI Lorenzo, P.; Barbarossa, S.; Sardellitti, S.. - 2019:(2019), pp. 41-45. (Intervento presentato al convegno 53rd Asilomar Conference on Circuits, Systems and Computers, ACSSC 2019 tenutosi a Pacific Grove; United States) [10.1109/IEEECONF44664.2019.9048992].
Distributed adaptive learning of graph processes via in-network subspace projections
DI Lorenzo P.;Barbarossa S.;Sardellitti S.
2019
Abstract
In this paper, we introduce a novel adaptive method for distributed recovery of graph processes, which are observed over a dynamic set of vertices. The proposed algorithm hinges on proximal gradient optimization techniques, while leveraging in-network projections as a mechanism to enforce graph bandwidth constraints in a cooperative and distributed fashion, and thresholding operators to identify anomalous sparse components hidden in the signals. The theoretical analysis illustrates the mean-square stability of the proposed adaptive method. Finally, numerical tests on synthetic and real data assess the performance of the proposed distributed strategy for adaptive learning of graph processes.| File | Dimensione | Formato | |
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