Kernel-based Reconstruction of Space-time Functions on Dynamic Graphs

December 12, 2016 ยท Declared Dead ยท ๐Ÿ› IEEE Journal on Selected Topics in Signal Processing

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Authors Daniel Romero, Vassilis N. Ioannidis, Georgios B. Giannakis arXiv ID 1612.03615 Category cs.LG: Machine Learning Cross-listed eess.SP, stat.ML Citations 95 Venue IEEE Journal on Selected Topics in Signal Processing Last Checked 4 months ago
Abstract
Graph-based methods pervade the inference toolkits of numerous disciplines including sociology, biology, neuroscience, physics, chemistry, and engineering. A challenging problem encountered in this context pertains to determining the attributes of a set of vertices given those of another subset at possibly different time instants. Leveraging spatiotemporal dynamics can drastically reduce the number of observed vertices, and hence the cost of sampling. Alleviating the limited flexibility of existing approaches, the present paper broadens the existing kernel-based graph function reconstruction framework to accommodate time-evolving functions over possibly time-evolving topologies. This approach inherits the versatility and generality of kernel-based methods, for which no knowledge on distributions or second-order statistics is required. Systematic guidelines are provided to construct two families of space-time kernels with complementary strengths. The first facilitates judicious control of regularization on a space-time frequency plane, whereas the second can afford time-varying topologies. Batch and online estimators are also put forth, and a novel kernel Kalman filter is developed to obtain these estimates at affordable computational cost. Numerical tests with real data sets corroborate the merits of the proposed methods relative to competing alternatives.
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