ANNZ+: an enhanced photometric redshift estimation algorithm with applications on the PAU Survey

arXiv - PHYS - Instrumentation and Methods for Astrophysics Pub Date : 2024-09-16 DOI:arxiv-2409.09981

Imdad Mahmud Pathi, John Y. H. Soo, Mao Jie Wee, Sazatul Nadhilah Zakaria, Nur Azwin Ismail, Carlton M. Baugh, Giorgio Manzoni, Enrique Gaztanaga, Francisco J. Castander, Martin Eriksen, Jorge Carretero, Enrique Fernandez, Juan Garcia-Bellido, Ramon Miquel, Cristobal Padilla, Pablo Renard, Eusebio Sanchez, Ignacio Sevilla-Noarbe, Pau Tallada-Crespí

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Abstract

ANNZ is a fast and simple algorithm which utilises artificial neural networks (ANNs), it was known as one of the pioneers of machine learning approaches to photometric redshift estimation decades ago. We enhanced the algorithm by introducing new activation functions like tanh, softplus, SiLU, Mish and ReLU variants; its new performance is then vigorously tested on legacy samples like the Luminous Red Galaxy (LRG) and Stripe-82 samples from SDSS, as well as modern galaxy samples like the Physics of the Accelerating Universe Survey (PAUS). This work focuses on testing the robustness of activation functions with respect to the choice of ANN architectures, particularly on its depth and width, in the context of galaxy photometric redshift estimation. Our upgraded algorithm, which we named ANNZ+, shows that the tanh and Leaky ReLU activation functions provide more consistent and stable results across deeper and wider architectures with > 1 per cent improvement in root-mean-square error ($\sigma_{\textrm{RMS}}$) and 68th percentile error ($\sigma_{68}$) when tested on SDSS data sets. While assessing its capabilities in handling high dimensional inputs, we achieved an improvement of 11 per cent in $\sigma_{\textrm{RMS}}$ and 6 per cent in $\sigma_{68}$ with the tanh activation function when tested on the 40-narrowband PAUS dataset; it even outperformed ANNZ2, its supposed successor, by 44 per cent in $\sigma_{\textrm{RMS}}$. This justifies the effort to upgrade the 20-year-old ANNZ, allowing it to remain viable and competitive within the photo-z community today. The updated algorithm ANNZ+ is publicly available at https://github.com/imdadmpt/ANNzPlus.

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ANNZ+：增强型测光红移估算算法在 PAU 勘测中的应用

ANNZ是一种利用人工神经网络（ANNs）的快速而简单的算法，几十年前就被称为光度红移估算机器学习方法的先驱之一。我们通过引入新的激活函数（如 tanh、softplus、SiLU、Mish 和 ReLUvariants）来增强该算法；然后在 SDSS 的 Luminous Red Galaxy（LRG）和 Stripe-82 样本以及加速宇宙物理巡天（PAUS）等现代星系样本上对其新性能进行了严格测试。这项工作的重点是在星系测光红移估算的背景下，测试激活函数在选择ANN架构方面的鲁棒性，特别是在深度和宽度方面。我们的升级算法（命名为ANNZ+）显示，在SDSS数据集上测试时，tanh和Leaky ReLU激活函数在更深和更宽的架构上提供了更一致和更稳定的结果，均方根误差（$\sigma_\{textrm{RMS}}$）和第68百分位误差（$\sigma_{68}$）都提高了>1%。在评估其处理高维输入的能力时，我们在40-窄带PAUS数据集上测试了tanhactivation函数，在$\sigma_{textrm{RMS}}$和$\sigma_{68}$误差方面分别提高了11%和6%；在$\sigma_{textrm{RMS}}$方面，它甚至比其所谓的后继者ANNZ2提高了44%。这就证明我们有理由对已有 20 年历史的 ANNZ 进行升级，使其在当今的光子学界保持活力和竞争力。更新后的算法ANNZ+可在https://github.com/imdadmpt/ANNzPlus。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Instrumentation and Methods for Astrophysics

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