A tutorial on classification and photometric redshift regression of astronomical sources using supervised machine learning techniques.
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Nov 12, 2021 - Jupyter Notebook
#
quasars
Here are 9 public repositories matching this topic...
Using machine learning to predict the mass of quasar supermassive black holes
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Dec 13, 2020 - Jupyter Notebook
A repository containing our code for our paper, "Photometric identification of compact galaxies, stars and quasars using multiple neural networks".
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Dec 1, 2022 - Jupyter Notebook
Evolutionary spectrum inversion and analysis
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Jul 3, 2024 - C++
Analysis of the SINFONI integral-field data for powerful radio-quasar 3C 297
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Jul 25, 2024 - Jupyter Notebook
Python code to attempt to identify high-redshift quasars using their infrared colours. The program uses a decision tree classifier to learn the quasar and dwarf star distributions in the selected colour spaces, and a subset of new data is used to trial run the code.
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Mar 1, 2021 - Python
Separating Stars from Quasars: Machine Learning Investigation Using Photometric Data
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Jun 21, 2022 - Python
Exploratory data analysis in Python of the quasar candidates catalog by Richards et al., ApJS 219 (2015).
python exploratory-data-analysis jupyter-notebook pandas seaborn astrophysics data-wrangling feature-engineering data-cleaning hypothesis-testing correlation-analysis scientific-data significance-testing quasars astrophysical-data
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Jun 29, 2024 - Jupyter Notebook
Github repository for machine learning application on quasar selection and the discrimination between stars and galaxies.
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Feb 4, 2023 - Jupyter Notebook
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