Optical Transient Object Classification in Wide-field Small Aperture Telescopes with a Neural Network

Wide field small aperture telescopes are working horses for fast sky surveying. Transient discovery is one of their main tasks. Classification of candidate transient images between real sources and artifacts with high accuracy is an important step for transient discovery. In this paper, we propose two transient classification methods based on neural networks. The first method uses the convolutional neural network without pooling layers to classify transient images with low sampling rate. The second method assumes transient images as one dimensional signals and is based on recurrent neural networks with long short term memory and leaky ReLu activation function in each detection layer. Testing with real observation data, we find that although these two methods can both achieve more than 94% classification accuracy, they have different classification properties for different targets. Based on this result, we propose to use the ensemble learning method to further increase the classification accuracy to more than 97%.

[1]  Jürgen Schmidhuber,et al.  Multi-dimensional Recurrent Neural Networks , 2007, ICANN.

[2]  Yoshua Bengio,et al.  ReNet: A Recurrent Neural Network Based Alternative to Convolutional Networks , 2015, ArXiv.

[3]  Jian Sun,et al.  Deep Residual Learning for Image Recognition , 2015, 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[4]  Gilles Louppe,et al.  Independent consultant , 2013 .

[5]  Kaiming He,et al.  Faster R-CNN: Towards Real-Time Object Detection with Region Proposal Networks , 2015, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[6]  T. D. Staley,et al.  Lucky imaging: beyond binary stars , 2014, 1404.5907.

[7]  Peiyun Hu,et al.  Finding Tiny Faces , 2016, 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[8]  Wei Liu,et al.  SSD: Single Shot MultiBox Detector , 2015, ECCV.

[9]  Ralf S. Klessen,et al.  American Institute of Physics Conference Series , 2010 .

[10]  S. G. Djorgovski,et al.  Towards an Automated Classification of Transient Events in Synoptic Sky Surveys , 2011, CIDU.

[11]  Alex Graves,et al.  Generating Sequences With Recurrent Neural Networks , 2013, ArXiv.

[12]  Fei-Fei Li,et al.  Visualizing and Understanding Recurrent Networks , 2015, ArXiv.

[13]  Balázs Kégl,et al.  The return of AdaBoost.MH: multi-class Hamming trees , 2013, ICLR.

[14]  Trevor Darrell,et al.  Fully Convolutional Networks for Semantic Segmentation , 2017, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[15]  Jimmy Ba,et al.  Adam: A Method for Stochastic Optimization , 2014, ICLR.

[16]  Ali Farhadi,et al.  You Only Look Once: Unified, Real-Time Object Detection , 2015, 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).