There are 2 repositories under pulsars topic.
Anything can happen in the next half hour (including spectral timing made easy)!
Your Unified Reader
Shell scripts for spectral-timing analysis of X-ray astronomical data.
Python3 version of Ewan Barr's sigpyproc library
This repository contains my solutions to the course Data-driven Astronomy offered by The University of Sydney on Coursera
📡 An easy-to-use Pulsar Toolkit for Pulsar Astronomy...
Python based Radio Frequency Interference Mitigation Routines
Singularity containers with common radio transient search software.
Fast Dispersion Measure Transform implemented in Julia
NenuPlot is a PSRFITS merging (in time and frequency) and cleaning pipeline
GWecc is a C++ code that computes the pulsar timing array (PTA) signals induced by eccentric supermassive binaries.
Repository to host Artificial Intelligence projects, a third year unit @FEUP. Made in collaboration with @EdgarACarneiro and @jflcarvalho.
This repository contains the code used to perform the analysis described in the paper "A stacked search for spatial coincidences between IceCube neutrinos and radio pulsars" (https://arxiv.org/abs/2306.03427). The code is written in Python 3.10 and uses the following packages: numpy, scipy, matplotlib, pandas, numba, multiprocessing.
GWecc.jl: Pulsar timing array signals due to eccentric supermassive binaries
Toolkit for working with astronomical radio transients in the SIGPROC Filterbank format in Julia
AnTi pipeline
Identifying Pulsar Signals from RFI noise (HTRU2 dataset)
Analysis of radio pulsar parameters and their relationships with nulling statistics
Identifying Pulsars using PyTorch.
How would you correctly classify pulsars from a dataset that consists mostly of astronomical noise? In this project, I construct 5 machine learning models and analyze their performance to find a winner.
Database backend and survey analysis code for MeerTRAP.
A logistic regression model to identify possible pulsar candidates using PyTorch