Date of Award

2016-01-01

Degree Name

Master of Science

Department

Computer Science

Advisor(s)

Chirstopher Kiekintveld

Abstract

Accurate electricity load demand forecasting is an important problem in managing the power grid for both economic and environmental reasons. The Power TAC simulation provides a platform to do research on smart grid energy generation and distribution systems. Brokers are the focus of the design task posed to developers by the system. The brokers work as self-interested entities that try to maximize profits by trading electricity across multiple markets. To be successful, a broker has to forecast the electricity demand for customers as accurately as possible so it can use this information to operate efficiently. My proposed forecasting method uses a combination of clustering and classifiers. First, the customers are clustered based on a small history of weekly average load. After that, energy load history and weather related information are used as features to train classifiers for each cluster of customers. To forecast for a new customer, the proposed method needs at least one week of energy load history for the customer. The system assigns the new customer to one of the clusters based on the similarity of its electricity usage history. The classifier for that cluster will be used to forecast the new customer. This approach produced

13% error compared to 31% relative absolute error observed for a moving average baseline predictor. The Power TAC system has six different types of customer such as customers with demand shifting capabilities, customers with no demand shifting capabilities, electric vehicles, thermal storage, wind production and solar production. Previous approaches to demand forecasting treated all types of customers equally. This work shows that a forecasting system that treats customers of different type differently by creating clusters of similar types can generalize effectively, having similar error rates to learning individual predictors for each cluster, while also allowing fast predictions for novel customers.

Language

en

Provenance

Received from ProQuest

File Size

57 pages

File Format

application/pdf

Rights Holder

Saiful Abu

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