Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks
In recent years, the astronomical community has faced a data deluge of up to exabytes due to the advancement of telescope technology. In fact, the application of machine learning techniques has simplified the task of analysing data for astronomers. Photometric redshift estimation or photo-z is on...
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| Language: | en |
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2024
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| Online Access: | http://eprints.usm.my/63701/1/24%20Pages%20from%20IMDAD%20BINTI%20MAHMUD%20PATHI.pdf http://eprints.usm.my/63701/ |
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| author | Pathi, Imdad Binti Mahmud |
| author_facet | Pathi, Imdad Binti Mahmud |
| author_sort | Pathi, Imdad Binti Mahmud |
| building | Hamzah Sendut Library |
| collection | Institutional Repository |
| content_provider | Universiti Sains Malaysia |
| content_source | USM Institutional Repository |
| continent | Asia |
| country | Malaysia |
| description | In recent years, the astronomical community has faced a data deluge of up to exabytes
due to the advancement of telescope technology. In fact, the application of machine
learning techniques has simplified the task of analysing data for astronomers. Photometric
redshift estimation or photo-z is one of the relevant applications of machine learning
and statistical methods in cosmology. Due to its significant contribution to cosmology,
there is an increasing demand for precise photo-z for forthcoming astronomical surveys,
including the Euclid mission and LSST. The accuracy and performance of the photo-z
algorithm have been improved by adopting and modifying machine learning hyperparameters.
The Artificial Neural Network Redshift (annz) algorithm is a fast and simple
machine learning photometric redshift estimator. One of the hyperparameters in the
artificial neural network (ANN) is the activation function. It acts as a decision-making
unit, which introduces non-linearity into the model, leading to better differentiation
capabilities and potentially boosting the ANN’s performance if optimally tuned. We
test the performance of annz by varying the activation functions, replacing the original
logistic sigmoid with tanh, Softplus, SiLU, ReLU, Leaky ReLU and Mish. The training
is demonstrated on the Luminous Red Galaxy (LRG) sample of the Sloan Digital Sky
Survey (SDSS), Stripe-82 survey, and Physics of the Accelerating Universe Survey
(PAUS). We also tested the performances of these activation functions by varying the
depth and width of the ANN architectures. |
| format | Thesis |
| id | my.usm.eprints.63701 |
| institution | Universiti Sains Malaysia |
| language | en |
| publishDate | 2024 |
| record_format | eprints |
| spelling | my.usm.eprints.63701 http://eprints.usm.my/63701/ Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks Pathi, Imdad Binti Mahmud QC1 Physics (General) In recent years, the astronomical community has faced a data deluge of up to exabytes due to the advancement of telescope technology. In fact, the application of machine learning techniques has simplified the task of analysing data for astronomers. Photometric redshift estimation or photo-z is one of the relevant applications of machine learning and statistical methods in cosmology. Due to its significant contribution to cosmology, there is an increasing demand for precise photo-z for forthcoming astronomical surveys, including the Euclid mission and LSST. The accuracy and performance of the photo-z algorithm have been improved by adopting and modifying machine learning hyperparameters. The Artificial Neural Network Redshift (annz) algorithm is a fast and simple machine learning photometric redshift estimator. One of the hyperparameters in the artificial neural network (ANN) is the activation function. It acts as a decision-making unit, which introduces non-linearity into the model, leading to better differentiation capabilities and potentially boosting the ANN’s performance if optimally tuned. We test the performance of annz by varying the activation functions, replacing the original logistic sigmoid with tanh, Softplus, SiLU, ReLU, Leaky ReLU and Mish. The training is demonstrated on the Luminous Red Galaxy (LRG) sample of the Sloan Digital Sky Survey (SDSS), Stripe-82 survey, and Physics of the Accelerating Universe Survey (PAUS). We also tested the performances of these activation functions by varying the depth and width of the ANN architectures. 2024-12 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/63701/1/24%20Pages%20from%20IMDAD%20BINTI%20MAHMUD%20PATHI.pdf Pathi, Imdad Binti Mahmud (2024) Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks. Masters thesis, Perpustakaan Hamzah Sendut. |
| spellingShingle | QC1 Physics (General) Pathi, Imdad Binti Mahmud Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks |
| title | Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks |
| title_full | Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks |
| title_fullStr | Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks |
| title_full_unstemmed | Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks |
| title_short | Improving Photometric Redshifts By Varying Activation Functions In Artificial Neural Networks |
| title_sort | improving photometric redshifts by varying activation functions in artificial neural networks |
| topic | QC1 Physics (General) |
| url | http://eprints.usm.my/63701/1/24%20Pages%20from%20IMDAD%20BINTI%20MAHMUD%20PATHI.pdf http://eprints.usm.my/63701/ |
| url_provider | http://eprints.usm.my/ |