Simulated Sky

Zotti, Georg; Hoffmann, Susanne M.; Wolf, Alexander L.; Chéreau, F.; Chereau, Guillaume

doi:10.1558/jsa.17822

Cited by 33 publications

(16 citation statements)

References 36 publications

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“…Vanuatu (6) present Western (88) present Western ast. (53) present Yellowknives (2) present Zuni (9) 20th c. To answer the question of semantic universality, we use data from 75 astronomical cultures (Figures 2) for which 1903 constellation line figures were documented (with at least some degree of certainty) in existing ethnographic, anthropological, or (archeo)astronomical literature.…”

Section: /2007mentioning

confidence: 98%

“…The dataset consists of constellation line figures from astronomical cultures worldwide. Just under half of the cultures had been contributed by members of the public to the astronomy software Stellarium [88]; we use this Stellarium data after validating it against existing scholarly sources, and verifying that the license allows research use. The remaining half of the cultures were digitised by the author from scholarly sources; of these, some supplement existing Stellarium cultures.…”

Section: Datamentioning

confidence: 99%

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The network signature of constellation line figures

Bucur

2022

PLoS ONE

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In traditional astronomies across the world, groups of stars in the night sky were linked into constellations—symbolic representations rich in meaning and with practical roles. In some sky cultures, constellations are represented as line (or connect-the-dot) figures, which are spatial networks drawn over the fixed background of stars. We analyse 1802 line figures from 56 sky cultures spanning all continents, in terms of their network, spatial, and brightness features, and ask what associations exist between these visual features and culture type or sky region. First, an embedded map of constellations is learnt, to show clusters of line figures. We then form the network of constellations (as linked by their similarity), to study how similar cultures are by computing their assortativity (or homophily) over the network. Finally, we measure the diversity (or entropy) index for the set of constellations drawn per sky region. Our results show distinct types of line figures, and that many folk astronomies with oral traditions have widespread similarities in constellation design, which do not align with cultural ancestry. In a minority of sky regions, certain line designs appear universal, but this is not the norm: in the majority of sky regions, the line geometries are diverse.

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Section: /2007mentioning

confidence: 98%

Section: Datamentioning

confidence: 99%

The network signature of constellation line figures

Bucur

2022

PLoS ONE

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“…In the following analysis, we occasionally make us of computed stellar, planetary, and lunar positions. These computations have been made using the open-access planetarium software Stellarium (Zotti et al 2021) and the NASA Horizons online ephemeris (https://ssd.jpl.nasa.gov/horizons/ app.html#/), whose accuracy is sufficient for our purposes.…”

Section: Modern Computationmentioning

confidence: 99%

Babylonian records of transient astronomical phenomena

Steele

Ganguli²

2022

Astron Nachr

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The Late Babylonian Astronomical Diaries and related texts contain a large body of records of astronomical phenomena which were carefully and systematically observed between about 600 BC and 50 BC. Most of these observations are of regular (cyclical) astronomical phenomena such as passages of the planets past certain stars, the first and last appearances, stations, and acronychal risings of the planets, and eclipses of the sun and moon. However, a smaller number of observations of irregular, transient astronomical phenomena were also recorded.In addition to being of historical interest, records of certain transient phenomena have applications in modern science. In this paper, we provide a catalog of three types of transient phenomena observed by the Babylonians -haloes, meteors, and comets -as well as some basic analysis of the records and the necessary contextual information to facilitate their analysis and use by other scholars.

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“…This work has utilized Stellarium Web -the online planetarium run in a web browser, originally created by Fabien and Guillaume Chereau, available on https://stellarium-web.org and Stellarium planetarium [19]. This work also used data from the European Space Agency (ESA) mission Gaia (www.cosmos.esa.int'gaia), processed by the Gaia Data Processing and Analysis Consortium (DPAC, www.cosmos.esa.…”

Section: Acknowledgmentsmentioning

confidence: 99%

Teaching introductory astronomy using virtual observations

Kaltcheva

Nenkova

2021

Phys. Educ.

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Many introductory astronomy courses include concepts related to basic stellar properties. In general, these are concepts that originate from the human perception of starlight. This observational aspect is not easy to incorporate in the classroom. We explore if these concepts could be developed using the built-in data in a planetarium software. This helps us include an element of observations in the coursework that should enhance students’ understanding of stellar magnitudes and distances, stellar classification and basic astronomy diagrams. Since the available planetarium software packages utilize rich professional databases, this approach also provides opportunities for students to follow the latest developments in astronomy connected to big data and the way data are collected and used.

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Simulated Sky

Cited by 33 publications

References 36 publications

The network signature of constellation line figures

The network signature of constellation line figures

Babylonian records of transient astronomical phenomena

Teaching introductory astronomy using virtual observations

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