Controllability of bandlimited graph processes over random time varying graphs

Journal Article (2019)
Author(s)

Fernando Gama (University of Pennsylvania)

Elvin Isufi (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Alejandro Ribeiro (University of Pennsylvania)

Geert Leus (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Research Group
Multimedia Computing
DOI related publication
https://doi.org/10.1109/TSP.2019.2952053 Final published version
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Publication Year
2019
Language
English
Research Group
Multimedia Computing
Issue number
24
Volume number
67
Article number
8892652
Pages (from-to)
6440-6454
Downloads counter
248
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Abstract

Controllability of complex networks arises in many technological problems involving social, financial, road, communication, and smart grid networks. In many practical situations, the underlying topology might change randomly with time, due to link failures such as changing friendships, road blocks or sensor malfunctions. Thus, it leads to poorly controlled dynamics if randomness is not properly accounted for. We consider the problem of controlling the network state when the topology varies randomly with time. Our problem concerns target states that are bandlimited over the graph; these are states that have nonzero frequency content only on a specific graph frequency band. We thus leverage graph signal processing and exploit the bandlimited model to drive the network state from a fixed set of control nodes. When controlling the state from a few nodes, we observe that spurious, out-of-band frequency content is created. Therefore, we focus on controlling the network state over the desired frequency band, and then use a graph filter to get rid of the unwanted frequency content. To account for the topological randomness, we develop the concept of controllability in the mean, which consists of driving the expected network state towards the target state. A detailed mean squared error analysis is performed to quantify the statistical deviation between the final controlled state on a particular graph realization and the actual target state. Finally, we propose different control strategies and evaluate their effectiveness on synthetic network models and social networks.

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