Ensemble Deep Learning for Real–Bogus Classification with Sky Survey Images
Pakpoom Prommool, Sirikan Chucherd, Natthakan Iam-On, Tossapon Boongoen

TL;DR
This paper introduces a deep learning approach using CNNs and ensemble methods to improve the detection of transient astronomical events in sky surveys.
Contribution
The novel contribution is a bio-inspired deep learning framework using transfer learning, data augmentation, and ensemble strategies for real-time transient classification.
Findings
The proposed CNN-based framework significantly improves precision in detecting transient astronomical events.
Ensemble learning strategies like Soft and Weighted Voting enhance decision robustness in sky surveys.
Bio-inspired techniques enable scalable and reliable real-time detection for projects like GOTO.
Abstract
The discovery of the fifth gravitational wave, GW170817, and its electromagnetic counterpart, resulting from the merger of neutron stars by the LIGO and Virgo teams, marked a major milestone in astronomy. It was the first time that gravitational waves and light from the same cosmic event were observed simultaneously. The LIGO detectors in the United States recorded the signal for 100 s, longer than in previous detections. The merging of neutron stars emits both gravitational and electromagnetic waves across all frequencies—from radio to gamma rays. However, pinpointing the exact source remains difficult, requiring rapid sky scanning to locate it. To address this challenge, the Gravitational-Wave Optical Transient Observer (GOTO) project was established. It is specifically designed to detect optical light from transient events associated with gravitational waves, enabling faster…
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Taxonomy
TopicsGamma-ray bursts and supernovae · Pulsars and Gravitational Waves Research · Gaussian Processes and Bayesian Inference
