A New Multi-Sensor Fusion Strategy for Optimal Spatial Design and Operation of Renewable Energy Grids
International Journal of Current Engineering and Technology • 2014
Publication Information
Authors
Beshoy S. Kest, Ghada M. Amer, Wael A. Mohamed and Hassen T. Dorrah
Keywords
Photovoltaic Systems, Sensor Fusion, Smart Grids, Spatial Concept, Wind Farms, Wireless Sensor Networks.
Journal
International Journal of Current Engineering and Technology
Publisher
INPRESSCO
Volume
Not Available
Issue
P-ISSN 2347 - 5161
Pages
Not Available
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
This paper provides a new technique of multi-sensor data fusion to achieve an optimal spatial design and power
operation of integrated Renewable Energy Grids (REG). This new approach depends on making a sensor data fusion
system depending on the spatial concepts for measuring the important climate parameters, which have a great effect on
the performance of REG. This methodology has been designed around spatial concept to reach the optimal operation
continuously. The spatial concept has a successful relationship with power energy smart grids. Wireless reliable sensorsbased
network configuration has been developed around the power stations locations to provide online-required
operational climate data to supply the algorithm with necessitated measured data. The realistic procedure of the wireless
reliable climate sensors networks in terms of the locations, number and types of sensors and the method of dealing with
are analyzed. To test the feasibility of sensors data fusion system, a practical case study in Egypt is applied. Moreover, a
missing sensor data case is discussed and its results have been included.
operation of integrated Renewable Energy Grids (REG). This new approach depends on making a sensor data fusion
system depending on the spatial concepts for measuring the important climate parameters, which have a great effect on
the performance of REG. This methodology has been designed around spatial concept to reach the optimal operation
continuously. The spatial concept has a successful relationship with power energy smart grids. Wireless reliable sensorsbased
network configuration has been developed around the power stations locations to provide online-required
operational climate data to supply the algorithm with necessitated measured data. The realistic procedure of the wireless
reliable climate sensors networks in terms of the locations, number and types of sensors and the method of dealing with
are analyzed. To test the feasibility of sensors data fusion system, a practical case study in Egypt is applied. Moreover, a
missing sensor data case is discussed and its results have been included.
Staff Members - Benha University