Hybrid Load Forecasting Method

With Analysisof Temperature

Sensitivities

Authors: Kyung-Bin Song, Seong-Kwan Ha, Jung-Wook Park, Dong-Jin Kweon, Kyu-Ho Kim

From: IEEE TRANSACTIONS ON POWER SYSTEMS, VOL. 21, NO. 2, MAY 2006

報告人 : Chao-Dian Chen date:2008.6.13

INTRODUCTION Load forecasting is essential in the

electricity market for the participants to manage the market efficiently and stably.

The electric power load forecasting problem is not easy to handle due to its nonlinear and random-like behaviors of system loads, weather conditions, and variations of social and economic environments, etc.

Techniques of load forecasting Multiple linear regression, stochastic time series, Kalman filter, expert system, fuzzy systems, artificial neural networks

Many studies have been reported to improve the accuracy of load forecasting using the conventional methods such as regression- based method [1], Kalman filter [2], and knowledge-based expert system [3]. However, these techniques have a possibility to lack the accuracy of prediction with the higher load forecasting

errors in some particular time zones, which are, for example, the weekdays of the summer season, weekend, and/or Monday.

In this paper, the new hybrid load forecasting algorithm, which consists of the fuzzy linear regression method and the general exponential smoothing algorithm with the analysis of temperature sensitivities, is proposed for the accurate forecast of 24-h daily loads.

According to the lifestyle of consumers, the load patterns of weekends and Monday are so different, compared to those of weekdays.

[A] Load Forecasting for Tuesday Through Friday In this case, the actions performed in the flow for the 24-h daily load forecasting are as follows.

Step 1) If the predicted day is belonging to a summer season, go to step 4). Otherwise, it is the day on spring, fall, or winter seasons.

Step 2) Construct input information using the load data during three days (which are subject to Monday through Friday) before the predicted day.

Step 3) Forecast the maximum load using the exponential smoothing method. Step 4) In case that the predicted day belongs to a summer season, the temperature sensitivities are computed using

the variations of the load and temperature between the predicted day and its one previous day.

Step 5) Forecast the maximum load with the temperature sensitivities calculated in step 4).

[B] Load Forecasting for Saturday, Sunday, and Monday The steps taken for the load forecasting of weekends and Monday (the flow of Fig. 1) are given in the following.

Step 1) As mentioned before, the load patterns of weekends and Monday are different depending on the

lifestyle of consumers, compared to those of weekdays. Therefore, its characteristics need to be observed

carefully. Step 2) Construct fuzzy input data using the load difference between data during the previous three weekdays from the

predicted day and data in the same date as the predicted day.

Step 3) Forecast the maximum and the minimum loads using the fuzzy linear regression method. The use of the

minimum load makes it possible to predict the more precisely by providing the normalized values, in which are 1 at the maximum load and 0 at the minimum load.

Exponential Smoothing Method The general exponential smoothing

method is developed to provide the more reliable performance for the load forecasting of weekdays without regard to weather conditions and special variations. In other words, the exponential smoothing can be applied to predict the only daily loads of weekdays during spring, fall, and winter, except for a summer season, when the load patterns are strongly affected by the temperature.

A smoothing time-series model is as follows:

is the forecasted value, is the real value,

is the day of load forecasting, and N is the number of the observed data.

the forecasted value can be expressed as

we have

the general exponential smoothing model is reformulated as

Fuzzy Linear Regression Method Linear regression is a statistical method to

model the relationship between two variables by fitting a linear equation to observed data. The fuzzy linear regression method can be used for forecasting under the assumption of the continuing correlation between the variables in the future by fuzzy numbers.

An associated equation for the linear regression model is

參考文獻 Y. Yoon et al., “Development of the Integrate

d System for Power System Operational Planning and Analysis,” KEPRI, Tech. Rep. TR.94YJ 15.J1998.89, Dec. 1998.

D. H. Hong et al., “Fuzzy linear regression analysis for fuzzy input output data using shape preserving operations,” Fuzzy Sets Syst., vol. 122, pp. 513–526, Sep. 2001

TEMPERATURE SENSITIVITIES The change of temperature during spring, fall, and winter seasons is small. Therefore, its effect on the load patterns can be passed

over. However, during a summer season, the electrical load demand is significantly increased due to many uses of the air conditioners resulting from the high temperature.

The relationships between the load and temperature in May, July, August, and October 2000 in Korea are shown in Figs. 3–6,

respectively. These data show that the peak load patterns aresimilar to those of temperature with the high correlations forJuly and August (in summer). However, there is no relationshipbetween the peak load and temperature for May (in spring) andOctober (in fall).In this section, the accuracy of load forecasting during asummer season is increased by the analysis of temperaturesensitivities, which is described in the following.

Conclusion First, the loads in weekdays are forecasted

using the general exponential smoothing method. Especially, the analysis of temperature sensitivities was carried out to improve the performance of load forecasting during a summer season. Second, the fuzzy linear regression method was applied to the load forecasting in weekends and Monday.