Low-dimensional Models in Spatio-Temporal Wind Speed Forecasting
Abstract
Integrating wind power into the grid is challenging because of its random nature. Integration is facilitated with accurate short-term forecasts of wind power. The paper presents a spatio-temporal wind speed forecasting algorithm that incorporates the time series data of a target station and data of surrounding stations. Inspired by Compressive Sensing (CS) and structured-sparse recovery algorithms, we claim that there usually exists an intrinsic low-dimensional structure governing a large collection of stations that should be exploited. We cast the forecasting problem as recovery of a block-sparse signal from a set of linear equations for which we propose novel structure-sparse recovery algorithms. Results of a case study in the east coast show that the proposed Compressive Spatio-Temporal Wind Speed Forecasting (CST-WSF) algorithm significantly improves the short-term forecasts compared to a set of widely-used benchmark models.
Cite
@article{arxiv.1503.01210,
title = {Low-dimensional Models in Spatio-Temporal Wind Speed Forecasting},
author = {Borhan M. Sanandaji and Akin Tascikaraoglu and Kameshwar Poolla and Pravin Varaiya},
journal= {arXiv preprint arXiv:1503.01210},
year = {2015}
}
Comments
Initially submitted for review to the 2015 American Control Conference on September 22, 2014; Accepted for publication on January 22, 2015