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Generalized Sampling on Graphs With Subspace and Smoothness Priors

Yuichi Tanaka, Yonina C. Eldar

2020IEEE Transactions on Signal Processing48 citationsDOIOpen Access PDF

Abstract

We propose a framework for generalized sampling of graph signals that parallels sampling in shift invariant (SI) subspaces. This framework allows for arbitrary input signals which are not constrained to be bandlimited. Furthermore, the sampling and reconstruction filters may be different. We present design methods of the correction filter that compensate for these differences and lead to closed form expressions in the graph frequency domain. In this study, we consider two priors on graph signals: The first is a subspace prior, where the signal is assumed to lie in a periodic graph spectrum (PGS) subspace. The PGS subspace is proposed as a counterpart of the SI subspace used in standard sampling theory. The second is a smoothness prior that imposes a smoothness requirement on the graph signal. We suggest the use of recovery techniques when the recovery filter can be optimized and under a setting in which a predefined filter must be used. Sampling is performed in the graph frequency domain, which is a counterpart of “sampling by modulation” used in SI subspaces. We compare our approach with existing sampling techniques on graph signal processing. The effectiveness of the proposed generalized sampling approach is validated numerically through several experiments.

Topics & Concepts

BandlimitingSubspace topologyLinear subspaceDiscrete-time signalMathematicsSampling (signal processing)AlgorithmGraphPrior probabilityFrequency domainFilter (signal processing)Computer scienceMathematical optimizationArtificial intelligenceBayesian probabilityDiscrete mathematicsComputer visionFourier transformStatisticsDigital signal processingGeometryComputer hardwareAnalog signalSignal transfer functionMathematical analysisAdvanced Graph Neural NetworksComplex Network Analysis TechniquesInternet Traffic Analysis and Secure E-voting