Paper detail

Optimal SKA Dish Configuration using Genetic Algorithms

The Square Kilometre Array (SKA) is a radio telescope designed to operate between 70MHz and 10GHz. Due to this large bandwidth, the SKA will be built out of different collectors, namely antennas and dishes to cover the frequency range adequately. In order to deal with this bandwidth, innovative feeds and detectors must be designed and introduced in the initial phases of development. Moreover, the required level of resolution may only be achieved through a groundbreaking configuration of dishes and antennas. Due to the large collecting area and the specifications required for the SKA to deliver the promised science, the configuration of the dishes and the antennas within stations is an important question. This research builds on the work done before by Cohanim et al. (2004), Hassan et al. (2005) and Grigorescu et al. (2009) to further investigate the applicability of machine learning techniques to determine the optimum configurations for the collecting elements within the SKA. This work primarily uses genetic algorithms to search a large space of optimum layouts. Every genetic step provides a population with candidate individuals each of which encodes a possible solution. These are randomly generated or created through the combination of previous encodings. In this study, a number of fitness functions that rank individuals within a population of dish configurations are investigated. The UV density, connecting wire length and power spectra are considered to determine a good dish layout.