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A Framework for Efficient Information Aggregation in Smart Grid | IEEE Journals & Magazine | IEEE Xplore

A Framework for Efficient Information Aggregation in Smart Grid


Abstract:

The two-way communication of information between agents in the smart grid, while making way for better monitoring and control, comes at the cost of elevated communication...Show More

Abstract:

The two-way communication of information between agents in the smart grid, while making way for better monitoring and control, comes at the cost of elevated communication traffic. Compressive sensing is a technique that exploits sparsity of power consumption data (in the Haar basis) and achieves sub-Nyquist compression. Household power consumption data, however, have varying sparseness due to, for example, multistate appliances. Compressing this data with a fixed ratio can lead to nonoptimal results (less compression or large reconstruction error). In this regard, a dynamic compression scheme that estimates a signal's sparsity and decides the amount of compression is desirable. We demonstrate that this approach, when applied with existing estimators of sparsity, has its limitations in overemphasizing one objective compared to the other. We propose a new measure derived from coefficient of variation and demonstrate that it achieves a better tradeoff between reconstruction performance and compression ratio. In addition, we employ a dynamic spatial compression scheme to account for spatial correlation between data of neighboring nodes and present a framework that incorporates dynamic temporal and spatial compression. We present the results on three publicly available datasets at different sampling rates and outline key findings of the study.
Published in: IEEE Transactions on Industrial Informatics ( Volume: 15, Issue: 4, April 2019)
Page(s): 2233 - 2243
Date of Publication: 19 August 2018

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