GRAPE: Genetic Routine for Astronomical Period Estimation.

Autor: McWhirter, Paul R, Steele, Iain A, Hussain, Abir, Al-Jumeily, Dhiya, Vellasco, Marley M B R
Předmět:
Zdroj: Monthly Notices of the Royal Astronomical Society; Oct2018, Vol. 479 Issue 4, p5196-5213, 18p
Abstrakt: Period estimation is an important task in the classification of many variable astrophysical objects. Here we present GRAPE: Genetic Routine for Astronomical Period Estimation, a genetic algorithm optimized for the processing of survey data with spurious and aliased artefacts. It uses a Bayesian Generalized Lomb–Scargle (BGLS) fitness function designed for use with the Skycam survey conducted at the Liverpool Telescope. We construct a set of simulated light curves using both regular and Skycam survey cadence with four types of signal: sinusoidal, sawtooth, symmetric eclipsing binary, and eccentric eclipsing binary. We apply GRAPE and a BGLS periodogram to this data and show that the performance of GRAPE is superior to the periodogram on sinusoidal and sawtooth light curves with relative hit rate improvement of 18.2 per cent and 6.4 per cent, respectively. The symmetric and eccentric eclipsing binary light curves have similar performance on both methods. We show the Skycam cadence is sufficient to correctly estimate the period for all of the sinusoidal shape light curves although this degrades with increased non-sinusoidal shape with sawtooth, symmetric binary, and eccentric binary light curves down by 20 per cent, 30 per cent, and 35 per cent, respectively. The runtime of GRAPE demonstrates that light curves with more than 500–1000 data points achieve similar performance in less computing time. The GRAPE performance can be matched by a frequency spectrum with an oversampled fine-tuning grid at the cost of almost doubling the runtime. Finally, we propose improvements which will extend this method to the detection of quasi-periodic signals and the use of multiband light curves. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index