AstroSA: An astronomical observation scheduler assessment framework in python

IF 1.9 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
H. Xie , Z. Kang , X. Jiang
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引用次数: 0

Abstract

Time-domain astronomy, as a leading aspect of astronomical research, demands a significant increase in telescope hours. An efficient scheduler is crucial to handle the large number of observational requests effectively. However, the commonly used schedulers in observatories have not yet fully utilized the advancements in mathematics and computer science. In order to establish a connection between astronomy and the latest achievements in these fields, we propose the Astronomical Observing Scheduler Assessment Framework (AstroSA), implemented as a Python package. The AstroSA offers a rapid and user-friendly quantitative evaluator of the scheduler with five built-in metrics: expected quality of observed data, overhead ratio, scientific value, schedule rate, and ratio to the best airmass. Additionally, AstroSA includes a default virtual telescope and a night of cloud coverage, so that users can start to use it with minimal settings.

AstroSA:用 python 编写的天文观测调度评估框架
时域天文学作为天文学研究的一个主要方面,需要大量增加望远镜的使用时间。高效的调度程序对于有效处理大量观测请求至关重要。然而,天文台常用的调度程序尚未充分利用数学和计算机科学的进步。为了在天文学与这些领域的最新成果之间建立联系,我们提出了天文观测调度评估框架(AstroSA),并以 Python 软件包的形式实现。AstroSA 提供了一个快速、用户友好的调度器量化评估工具,内置五个指标:观测数据的预期质量、开销比、科学价值、调度率和与最佳气团的比率。此外,AstroSA 还包括一个默认的虚拟望远镜和一个云覆盖夜,因此用户只需进行最少的设置即可开始使用。
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来源期刊
Astronomy and Computing
Astronomy and Computing ASTRONOMY & ASTROPHYSICSCOMPUTER SCIENCE,-COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
CiteScore
4.10
自引率
8.00%
发文量
67
期刊介绍: Astronomy and Computing is a peer-reviewed journal that focuses on the broad area between astronomy, computer science and information technology. The journal aims to publish the work of scientists and (software) engineers in all aspects of astronomical computing, including the collection, analysis, reduction, visualisation, preservation and dissemination of data, and the development of astronomical software and simulations. The journal covers applications for academic computer science techniques to astronomy, as well as novel applications of information technologies within astronomy.
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