In this paper, we present a deep learning-based recognition algorithm to identify pulsars by observing data containing millions of candidates including radio frequency interference and noise sources. The dataset is obtained from the High Time Resolution Universe survey created and updated by the Parkes telescope. We investigate several effective single and combined features via simple logistic regression. To deal with the imbalanced dataset, we oversimplify the original dataset at different sampling rates, which is also one of the learning parameters. After training the pre-processed dataset via a convolutional neural network, we provide a cross-validated evaluation of all candidates. Results show that the deep-learning based recognition al...
We evaluate the performance of four different machine learning (ML) algorithms: an Artificial Neural...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majority of which ...
We present 75 pulsars discovered in the mid-latitude portion of the High Time Resolution Universe su...
In the modern era of big data, many fields of astronomy are generating huge volumes of data, the ana...
In the modern era of big data, many fields of astronomy are generating huge volumes of data, the ana...
In the modern era of big data, many fields of astronomy are generating huge volumes of data, the ana...
It is very computationally expensive to search for pulsars using time-domain observations, and the v...
The search for pulsars is an important area of study in modern astronomy. The amount of collected pu...
Künkel L. Detecting Pulsars with Neural Networks. Bielefeld: Universität Bielefeld; 2022.Pulsars are...
A significant portion of the process of detecting pulsars from radio sky surveys remains a largely m...
The searches for gamma-ray pulsars whose spin frequency f0 and its evolution f1 are unknown, as for ...
Künkel L, Thomas RM, Verbiest J. Detecting pulsars with neural networks: a proof of concept. Monthly...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majority of which ...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majorityof which a...
Upcoming fast radio burst (FRB) surveys will search ~103 beams on the sky with a very high duty cycl...
We evaluate the performance of four different machine learning (ML) algorithms: an Artificial Neural...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majority of which ...
We present 75 pulsars discovered in the mid-latitude portion of the High Time Resolution Universe su...
In the modern era of big data, many fields of astronomy are generating huge volumes of data, the ana...
In the modern era of big data, many fields of astronomy are generating huge volumes of data, the ana...
In the modern era of big data, many fields of astronomy are generating huge volumes of data, the ana...
It is very computationally expensive to search for pulsars using time-domain observations, and the v...
The search for pulsars is an important area of study in modern astronomy. The amount of collected pu...
Künkel L. Detecting Pulsars with Neural Networks. Bielefeld: Universität Bielefeld; 2022.Pulsars are...
A significant portion of the process of detecting pulsars from radio sky surveys remains a largely m...
The searches for gamma-ray pulsars whose spin frequency f0 and its evolution f1 are unknown, as for ...
Künkel L, Thomas RM, Verbiest J. Detecting pulsars with neural networks: a proof of concept. Monthly...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majority of which ...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majorityof which a...
Upcoming fast radio burst (FRB) surveys will search ~103 beams on the sky with a very high duty cycl...
We evaluate the performance of four different machine learning (ML) algorithms: an Artificial Neural...
Modern radio pulsar surveys produce a large volume of prospective candidates, the majority of which ...
We present 75 pulsars discovered in the mid-latitude portion of the High Time Resolution Universe su...