Strathprints logo
Strathprints Home | Open Access | Browse | Search | User area | Copyright | Help | Library Home | SUPrimo

Using conditional kernel density estimation for wind power density forecasting

Jeon, Jooyoung and Taylor, James (2012) Using conditional kernel density estimation for wind power density forecasting. Journal of the American Statistical Association, 107 (497). pp. 66-79. ISSN 0162-1459

[img]
Preview
PDF (Using Conditional Kernel Density Estimation for Wind Power Density Forecasting) - Draft Version
Download (1346Kb) | Preview

    Abstract

    Of the various renewable energy resources, wind power is widely recognized as one of the most promising. The management of wind farms and electricity systems can benefit greatly from the availability of estimates of the probability distribution of wind power generation. However, most research has focused on point forecasting of wind power. In this paper, we develop an approach to producing density forecasts for the wind power generated at individual wind farms. Our interest is in intraday data and prediction from 1 to 72 hours ahead. We model wind power in terms of wind speed and wind direction. In this framework, there are two key uncertainties. First, there is the inherent uncertainty in wind speed and direction, and we model this using a bivariate VARMA-GARCH (vector autoregressive moving average-generalized autoregressive conditional heteroscedastic) model, with a Student t distribution, in the Cartesian space of wind speed and direction. Second, there is the stochastic nature of the relationship of wind power to wind speed (described by the power curve), and to wind direction. We model this using conditional kernel density (CKD) estimation, which enables a nonparametric modeling of the conditional density of wind power. Using Monte Carlo simulation of the VARMA-GARCH model and CKD estimation, density forecasts of wind speed and direction are converted to wind power density forecasts. Our work is novel in several respects: previous wind power studies have not modeled a stochastic power curve; to accommodate time evolution in the power curve, we incorporate a time decay factor within the CKD method; and the CKD method is conditional on a density, rather than a single value. The new approach is evaluated using datasets from four Greek wind farms.

    Item type: Article
    ID code: 39597
    Keywords: wind energy, Kernel estimation, wind speed, wind direction, Management. Industrial Management, Statistics and Probability, Statistics, Probability and Uncertainty
    Subjects: Social Sciences > Industries. Land use. Labor > Management. Industrial Management
    Department: Strathclyde Business School > Management Science
    Related URLs:
    Depositing user: Pure Administrator
    Date Deposited: 08 May 2012 15:21
    Last modified: 27 Mar 2014 11:37
    URI: http://strathprints.strath.ac.uk/id/eprint/39597

    Actions (login required)

    View Item

    Fulltext Downloads: